def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self._monomod_version = 'b994'
self.hosts = []
self._host_name = 'BlockPad'
self._color_type = 'Monochrome'
self._timer = 0
is_momentary = True
self._suggested_input_port = 'block (Controls)'
self._suggested_output_port = 'block (Controls)'
self._wrote_user_byte = False
matrix = ButtonMatrixElement()
for row in range(8):
button_row = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((column * 8) + row), 'Button_'+str(column)+'_'+str(row), self) for column in range(8) ]
matrix.add_row(tuple(button_row))
knobs = [ EncoderElement(MIDI_CC_TYPE, 0, KNOB_CC[index], Live.MidiMap.MapMode.absolute) for index in range(8) ]
sliders = [ EncoderElement(MIDI_CC_TYPE, 0, SLIDER_CC[index], Live.MidiMap.MapMode.absolute) for index in range(2) ]
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, TOP_NOTES[index], 'Top_Button'+str(index), self) for index in range(8) ]
side_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index], 'Side_Button'+str(index), self) for index in range(8) ]
self._setup_monobridge()
self._setup_monomod()
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, tuple(knobs), tuple(sliders), self)
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self.set_enabled(True)
self.log_message("--------------= BlockPad log opened =--------------") #Create entry in log file
self.refresh_state()
def _setup_session_control(self): is_momentary = True self._shift_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 98, 'Shift_Button', self) right_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 96, 'Right_Button', self) self._right_button = right_button left_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 97, 'Left_Button', self) self._left_button = left_button up_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94, 'Up_Button', self) self._up_button = up_button down_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 95, 'Down_Button', self) self._down_button = down_button self._session = PedaledSessionComponent(8, 5) self._session.name = 'Session_Control' self._session.set_track_bank_buttons(right_button, left_button) self._session.set_scene_bank_buttons(down_button, up_button) matrix = ButtonMatrixElement() self._matrix = matrix # added a matrix.name = 'Button_Matrix' scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82)) for index in range(5) ] track_stop_buttons = [ AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52, 'Track_' + str(index) + '_Stop_Button', self) for index in range(8) ] self._track_stop_buttons = track_stop_buttons # added a for index in range(len(scene_launch_buttons)): scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button' stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81) stop_all_button.name = 'Stop_All_Clips_Button' self._session.set_stop_all_clips_button(stop_all_button) self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons)) self._session.set_stop_track_clip_value(2) for scene_index in range(5): scene = self._session.scene(scene_index) scene.name = 'Scene_' + str(scene_index) button_row = [] scene.set_launch_button(scene_launch_buttons[scene_index]) scene.set_triggered_value(2) for track_index in range(8): button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53), str(track_index) + '_Clip_' + str(scene_index) + '_Button', self) #button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button' button_row.append(button) clip_slot = scene.clip_slot(track_index) clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index) clip_slot.set_triggered_to_play_value(2) clip_slot.set_triggered_to_record_value(4) clip_slot.set_stopped_value(5) clip_slot.set_started_value(1) clip_slot.set_recording_value(3) clip_slot.set_launch_button(button) matrix.add_row(tuple(button_row)) self._session.set_slot_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67)) self._session.selected_scene().name = 'Selected_Scene' self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) self._session_zoom = SessionZoomingComponent(self._session) self._session_zoom.name = 'Session_Overview' self._session_zoom.set_button_matrix(matrix) self._session_zoom.set_zoom_button(self._shift_button) self._session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) self._session_zoom.set_stopped_value(3) self._session_zoom.set_selected_value(5)
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = Live.Application.get_random_int(0, 400000000) & 2139062143
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = []
for column in range(8):
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, row * 16 + column)
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 104 + index) for index in range(8) ]
side_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index]) for index in range(8) ]
top_buttons[0].name = 'Bank_Select_Up_Button'
top_buttons[1].name = 'Bank_Select_Down_Button'
top_buttons[2].name = 'Bank_Select_Left_Button'
top_buttons[3].name = 'Bank_Select_Right_Button'
top_buttons[4].name = 'Session_Button'
top_buttons[5].name = 'User1_Button'
top_buttons[6].name = 'User2_Button'
top_buttons[7].name = 'Mixer_Button'
side_buttons[0].name = 'Vol_Button'
side_buttons[1].name = 'Pan_Button'
side_buttons[2].name = 'SndA_Button'
side_buttons[3].name = 'SndB_Button'
side_buttons[4].name = 'Stop_Button'
side_buttons[5].name = 'Trk_On_Button'
side_buttons[6].name = 'Solo_Button'
side_buttons[7].name = 'Arm_Button'
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self)
self._selector.name = 'Main_Modes'
self._do_combine()
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self.set_highlighting_session_component(self._selector.session_component())
self._suppress_session_highlight = False
#self.set_suppress_rebuild_requests(False)
self.log_message("LaunchPad95 Loaded !")
def __init__(self, *a, **k):
ControlSurface.__init__(self, *a, **k)
with self.component_guard():
self._monomod_version = 'b996'
self._host_name = 'LaunchMod'
self._color_type = 'Launchpad'
self._timer = 0
self._suppress_send_midi = True
self._suppress_session_highlight = True
self._suppress_highlight = False
is_momentary = True
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = Live.Application.get_random_int(0, 400000000) & 2139062143
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, row * 16 + column, str(column) + '_Clip_' + str(row) + '_Button', self) for column in range(8) ]
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
top_button_names = ['Bank_Select_Up_Button',
'Bank_Select_Down_Button',
'Bank_Select_Left_Button',
'Bank_Select_Right_Button',
'Session_Button',
'User1_Button',
'User2_Button',
'Mixer_Button']
side_button_names = ['Vol_Button',
'Pan_Button',
'SndA_Button',
'SndB_Button',
'Stop_Button',
'Trk_On_Button',
'Solo_Button',
'Arm_Button']
top_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 104 + index, top_button_names[index], self) for index in range(8) ]
side_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index], side_button_names[index], self) for index in range(8) ]
self._side_buttons = ButtonMatrixElement()
self._side_buttons.add_row(side_buttons)
self._setup_monobridge()
self._setup_mod()
self._selector = MainSelectorComponent(self, matrix, tuple(top_buttons), tuple(side_buttons), self._config_button)
self._selector.name = 'Main_Modes'
for control in self.controls:
isinstance(control, MonoButtonElement) and control.add_value_listener(self._button_value)
self.set_highlighting_session_component(self._selector.session_component())
self._suppress_session_highlight = False
self.log_message('--------------= ' + str(self._monomod_version) + ' log opened =--------------')
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self.set_suppress_rebuild_requests(True)
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
self._suggested_input_port = "Launchpad"
self._suggested_output_port = "Launchpad"
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = "User_Byte_Button"
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = (Live.Application.get_random_int(0, 400000000) & 2139062143)
matrix = ButtonMatrixElement()
matrix.name = "Button_Matrix"
for row in range(8):
button_row = []
for column in range(8):
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column))
button.name = (((str(column) + "_Clip_") + str(row)) + "_Button")
button_row.append(button)
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, (104 + index)) for index in range(8) ]
side_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index]) for index in range(8) ]
top_buttons[0].name = "Bank_Select_Up_Button"
top_buttons[1].name = "Bank_Select_Down_Button"
top_buttons[2].name = "Bank_Select_Left_Button"
top_buttons[3].name = "Bank_Select_Right_Button"
top_buttons[4].name = "Session_Button"
top_buttons[5].name = "User1_Button"
top_buttons[6].name = "User2_Button"
top_buttons[7].name = "Mixer_Button"
side_buttons[0].name = "Vol_Button"
side_buttons[1].name = "Pan_Button"
side_buttons[2].name = "SndA_Button"
side_buttons[3].name = "SndB_Button"
side_buttons[4].name = "Stop_Button"
side_buttons[5].name = "Trk_On_Button"
side_buttons[6].name = "Solo_Button"
side_buttons[7].name = "Arm_Button"
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self)
self._selector.name = "Main_Modes"
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self._suppress_session_highlight = False
self.set_suppress_rebuild_requests(False)
self.log_message("LaunchPad85 Loaded !")
def _setup_session_control(self): is_momentary = True num_tracks = 4 num_scenes = 4 self.session = SessionComponent(num_tracks, num_scenes) self.session.name = 'MaschinAble_session_control' matrix = ButtonMatrixElement() self.session.set_offsets(0, 0) up_button = ButtonElement(is_momentary, 1, 1, 108) down_button = ButtonElement(is_momentary, 1, 1, 109) left_button = ButtonElement(is_momentary, 1, 1, 110) right_button = ButtonElement(is_momentary, 1, 1, 111) self.session.set_track_bank_buttons(right_button, left_button) self.session.set_scene_bank_buttons(down_button, up_button) launch_notes_start_from = 112 launch_notes = range(launch_notes_start_from, launch_notes_start_from + 16) current_scene = list( self.song().scenes).index(self.song().view.selected_scene) current_track = list( self.song().tracks).index(self.song().view.selected_track) for scene_index in range(num_scenes): button_row = [] for track_index in range(num_tracks): clip_slot = self.session.scene(num_scenes - 1 - scene_index + current_scene).clip_slot(track_index + current_track) button = ButtonElement(is_momentary, 0, 1, launch_notes[track_index+(4*scene_index)]) button_row.append(button) if clip_slot.has_clip: clip_slot.set_stopped_value(1) else: clip_slot.set_stopped_value(0) clip_slot.set_triggered_to_play_value(2) clip_slot.set_triggered_to_record_value(2) clip_slot.set_launch_button(button) matrix.add_row(tuple(button_row))
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self._monomod_version = 'b994'
self._host_name = 'LaunchMod'
self._color_type = 'Launchpad'
self.hosts = []
self._timer = 0
self.set_suppress_rebuild_requests(True)
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
self._wrote_user_byte = False
self._control_is_with_automap = False
self._challenge = (Live.Application.get_random_int(0, 400000000) & 2139062143)
matrix = ButtonMatrixElement()
matrix.name = 'ButtonMatrix'
for row in range(8):
#button_row = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column)) for column in range(8) ]
button_row = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column), 'Button_'+str(row)+'_'+str(column), self) for column in range(8) ]
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ FlashingButtonElement(is_momentary, MIDI_CC_TYPE, 0, (104 + index), 'Top_Button'+str(index), self) for index in range(8) ]
side_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index], 'Side_Button'+str(index), self) for index in range(8) ]
self._setup_monobridge()
self._setup_monomod()
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self)
self._suppress_session_highlight = False
self._suppress_send_midi = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._suppress_send_midi = True
self.set_suppress_rebuild_requests(False)
self.log_message("--------------= LaunchMod log opened =--------------") #Create entry in log file
self.refresh_state()
class Maschine(ControlSurface):
__module__ = __name__
'''Basic Control Script for All Maschine Modell Mikro, Mikro Mk2, Mk1, Mk2, Studio'''
def __init__(self, c_instance):
super(Maschine, self).__init__(c_instance)
self.component_guard().__enter__()
try:
register_sender(self)
self._diplay_cache = ['', '', '', '']
self._suppress_send_midi = True
is_momentary = True
self._c_ref = c_instance
self.display_task = DisplayTask()
self._challenge = Live.Application.get_random_int(
0, 400000000) & 2139062143
self._active = False
self._midi_pause_count = 0
self.blink_state = 0
self.send_slider_index = 0
self.nav_index = 0
self.arm_selected_track = False
self.undo_state = 0
self.redo_state = 0
self._set_suppress_rebuild_requests(True)
self._modeselect = ModeSelector(self.is_monochrome())
self._device = self._set_up_device_control()
self._set_up_session(self._modeselect)
self._set_up_mixer()
self._setup_transport()
self._set_global_buttons()
self._editsection = EditSection()
self._editsection.connect_session(self._session)
self._editsection.set_mode_selector(self._modeselect)
self._session.set_mode(self._modeselect._clip_mode)
self._audio_clip_editor = AudioClipEditComponent()
self._note_repeater = NoteRepeatComponent(c_instance.note_repeat)
self._midi_edit = MidiEditSection()
self._init_settings()
self._init_maschine()
self.set_highlighting_session_component(self._session)
self.set_pad_translations(PAD_TRANSLATIONS)
self._on_selected_track_changed()
self.set_up_function_buttons()
self.show_message(str(''))
self.request_rebuild_midi_map()
self._set_suppress_rebuild_requests(False)
self._active = True
self._display_device_param = False
self.set_feedback_channels(FEEDBACK_CHANNELS)
self._final_init()
self._suppress_send_midi = False
self.apply_preferences()
self.init_text_display()
self._on_appointed_device_changed.subject = self.song()
finally:
pass
def _init_maschine(self):
pass
def _final_init(self):
pass
def create_pad_button(self, scene_index, track_index, color_source):
pass
def create_gated_button(self, identifier, hue):
pass
def apply_preferences(self):
pref_dict = self._pref_dict
if 'step_advance' in pref_dict:
self._session.set_step_advance(pref_dict['step_advance'])
if 'solo_exclusive' in pref_dict:
self._modeselect.set_solo_exclusive(pref_dict['solo_exclusive'])
else:
self._modeselect.set_solo_exclusive(True)
if 'arm_exclusive' in pref_dict:
self._modeselect.set_arm_exclusive(pref_dict['arm_exclusive'])
else:
self._modeselect.set_arm_exclusive(True)
if 'quantize_val' in pref_dict:
self._editsection.quantize = pref_dict['quantize_val']
else:
self._editsection.quantize = 5
if 'initial_cliplen' in pref_dict:
self._editsection.initial_clip_len = pref_dict['initial_cliplen']
else:
self._editsection.initial_clip_len = 4
if 'auto_arm_sel_track' in pref_dict:
self.arm_selected_track = pref_dict['auto_arm_sel_track']
else:
self.arm_selected_track = False
if 'note_color_mode' in pref_dict:
self._modeselect._pad_mode._note_display_mode = pref_dict[
'note_color_mode']
else:
self._modeselect._pad_mode._note_display_mode = ND_KEYBOARD1
self._pref_dict[
'note_color_mode'] = self._modeselect._pad_mode._note_display_mode
if not self.arm_selected_track or 127:
pass
self.set_sel_arm_button.send_value(0, True)
self._note_repeater.recall_values(self._pref_dict)
def store_preferences(self):
self._pref_dict['step_advance'] = self._session.get_step_advance()
self._pref_dict['solo_exclusive'] = self._modeselect.is_solo_exclusive(
)
self._pref_dict['arm_exclusive'] = self._modeselect.is_arm_exclusive()
self._pref_dict['quantize_val'] = self._editsection.quantize
self._pref_dict['initial_cliplen'] = self._editsection.initial_clip_len
self._pref_dict['auto_arm_sel_track'] = self.arm_selected_track
self._pref_dict[
'note_color_mode'] = self._modeselect._pad_mode._note_display_mode
self._note_repeater.store_values(self._pref_dict)
def _init_settings(self):
loads = loads
dumps = dumps
import pickle
ascii = ascii
import encodings
nop(ascii)
preferences = self._c_instance.preferences(self.preferences_name())
self._pref_dict = {}
try:
self._pref_dict = loads(str(preferences))
except Exception:
pass
pref_dict = self._pref_dict
(None, preferences.set_serializer)(lambda: dumps(pref_dict))
def preferences_name(self):
return 'Maschine'
def _pre_serialize(self):
dumps = dumps
import pickle
ascii = ascii
import encodings
nop(ascii)
preferences = self._c_instance.preferences('Maschine')
self.store_preferences()
dump = dumps(self._pref_dict)
(preferences.set_serializer, )(lambda: dump)
def toggle_nav_mode(self):
self._session.switch_step_advance()
self.show_message(' View Navigation in steps of ' +
str(self._session.get_step_advance()))
def _set_up_session(self, mode_selector):
is_momentary = True
self._session = MaschineSessionComponent()
self._session.set_color_manager(mode_selector.get_color_manager())
self.nav_buttons = (self.create_gated_button(92, COLOR_HUE_NAV),
self.create_gated_button(81, COLOR_HUE_NAV),
self.create_gated_button(93, COLOR_HUE_NAV),
self.create_gated_button(91, COLOR_HUE_NAV))
self._session.set_scene_bank_buttons(self.nav_buttons[0],
self.nav_buttons[1])
self._session.set_track_bank_buttons(self.nav_buttons[2],
self.nav_buttons[3])
continue
track_stop_buttons = [
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
index + STOP_CC_OFF) for index in range(4)
]
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._matrix = []
self._bmatrix = ButtonMatrixElement()
for scene_index in range(4):
button_row = []
for track_index in range(4):
button = self.create_pad_button(scene_index, track_index,
mode_selector)
button_row.append(button)
self._matrix.append(tuple(button_row))
self._bmatrix.add_row(tuple(button_row))
self._session.set_matrix(self._matrix)
for (track_index, scene_index) in self._bmatrix.iterbuttons():
if button:
scene = self._session.scene(scene_index)
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
clip_slot.set_triggered_to_play_value(1)
clip_slot.set_triggered_to_record_value(1)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(1)
clip_slot.set_stopped_value(1)
continue
self._session._link()
def _set_up_mixer(self):
is_momentary = True
self._mixer = MaschineMixerComponent(8)
self.send_sliders = []
for track in range(8):
self.send_sliders.append(
SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL,
SEND_CC_OFF + track))
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.set_arm_button(
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
ARM_CC_OFF + track))
strip.set_solo_button(
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
SOLO_CC_OFF + track))
strip.set_mute_button(
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
MUTE_CC_OFF + track))
strip.set_volume_control(
SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL,
LEVEL_CC_OFF + track))
strip.set_pan_control(
SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, PAN_CC_OFF + track))
strip.set_select_button(
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
SELECT_CC_OFF + track))
st = tuple([self.send_sliders[track]])
strip.set_send_controls(st)
self.send_slider_toggle_button = StateButton(False, MIDI_CC_TYPE, 0,
90)
self._do_toggle_send.subject = self.send_slider_toggle_button
self._session.set_mixer(self._mixer)
def _set_global_buttons(self):
is_momentary = True
self._undo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 85)
self._do_undo.subject = self._undo_button
self._redo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 87)
self._do_redo.subject = self._redo_button
self._stop_all_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 111)
self._do_stop_all.subject = self._stop_all_button
self._toggle_detail_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
1, 121)
self._action_toogle_detail_view.subject = self._toggle_detail_button
self._fire_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 9)
self._do_fire_button.subject = self._fire_button
self._g_clear_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1,
106)
self._hold_clear_action.subject = self._g_clear_button
self._g_duplicate_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1,
107)
self._hold_duplicate_action.subject = self._g_duplicate_button
self.track_left_button = StateButton(is_momentary, MIDI_CC_TYPE, 0,
120)
self.track_right_button = StateButton(is_momentary, MIDI_CC_TYPE, 0,
121)
self.set_sel_arm_button = StateButton(is_momentary, MIDI_CC_TYPE, 2,
56)
self._reenable_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1,
120)
self._do_auto_reenable.subject = self._reenable_button
self._on_change_reenabled.subject = self.song()
self._on_change_reenabled()
self._a_trk_left.subject = self.track_left_button
self._a_trk_right.subject = self.track_right_button
self._a_sel_arm.subject = self.set_sel_arm_button
def _set_up_device_control(self):
is_momentary = True
device = MaschineDeviceComponent()
param_controls = []
for index in range(8):
param_controls.append(
SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL,
DEVICE_CC_OFF + index))
device.set_parameter_controls(tuple(param_controls))
self.device_control = param_controls
device.set_on_off_button(
StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL,
DEVICE_BUTTON_CC_OFF))
device.set_bank_nav_buttons(
StateButton(is_momentary, MIDI_CC_TYPE, 3, 104),
ButtonElement(is_momentary, MIDI_CC_TYPE, 3, 105))
self._device_nav_button_left = StateButton(is_momentary, MIDI_CC_TYPE,
3, 106)
self._device_nav_button_right = StateButton(is_momentary, MIDI_CC_TYPE,
3, 107)
self._navigate_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 127)
self._nav_value_left.subject = self._device_nav_button_left
self._nav_value_right.subject = self._device_nav_button_right
self._do_focus_navigate.subject = self._navigate_button
self.set_device_component(device)
return device
def _setup_transport(self):
is_momentary = True
transport = TransportComponent()
studiotransport = MaschineTransport()
playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
eventRecButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 98)
playButton.name = 'Play'
stopButton.name = 'Stop'
recordButton.name = 'Record'
overdubButton.name = 'Overdub'
metrononmeButton.name = 'Metronome'
transport.set_play_button(playButton)
transport.set_stop_button(stopButton)
transport.set_record_button(recordButton)
transport.set_overdub_button(overdubButton)
transport.set_metronome_button(metrononmeButton)
studiotransport.set_session_auto_button(eventRecButton)
studiotransport.set_arrangement_overdub_button(
StateButton(is_momentary, MIDI_CC_TYPE, 0, 106))
studiotransport.set_back_arrange_button(
StateButton(is_momentary, MIDI_CC_TYPE, 0, 105))
transport.set_nudge_buttons(
StateButton(is_momentary, MIDI_CC_TYPE, 1, 51),
StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
punchinbutton.name = 'Punch In'
punchoutbutton.name = 'Punch Out'
transport.set_punch_buttons(punchinbutton, punchoutbutton)
transport.set_loop_button(
StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
self.song_follow_button = ButtonElement(True, MIDI_CC_TYPE, 2, 98)
self._do_song_follow.subject = self.song_follow_button
self._song_follow_changed.subject = self.song().view
self._song_follow_changed()
self.prehear_knob = SliderElement(MIDI_CC_TYPE, 0, 41)
self.prehear_knob.connect_to(
self.song().master_track.mixer_device.cue_volume)
self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
transport.set_seek_buttons(self.transp_ff_button,
self.transp_rw_button)
self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 105)
self.xfadeKnob.connect_to(
self.song().master_track.mixer_device.crossfader)
self.master_knob = SliderElement(MIDI_CC_TYPE, 0, 99)
self.master_knob.connect_to(
self.song().master_track.mixer_device.volume)
self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
self._do_tap_tempo.subject = self.tap_button
self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1,
55)
self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
self._do_toggle_cue.subject = self.cue_add_delete_button
self._do_toggle_prev_cue.subject = self.cue_prev_button
self._do_toggle_next_cue.subject = self.cue_next_button
def set_up_function_buttons(self):
is_momentary = True
self.keycolor_mod_button = StateButton(is_momentary, MIDI_CC_TYPE, 1,
73)
self._do_key_color.subject = self.keycolor_mod_button
self._update_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 86)
self._do_update_display.subject = self._update_button
def _on_appointed_device_changed(self):
self._modeselect._device_changed()
_on_appointed_device_changed = subject_slot('appointed_device')(
_on_appointed_device_changed)
def _update_hardware(self):
self._session.update()
self._modeselect.refresh()
self.update_undo_redo(True)
def refresh_state(self):
ControlSurface.refresh_state(self)
self._update_hardware()
def _send_midi(self, midi_bytes, **keys):
self._c_ref.send_midi(midi_bytes)
return True
def init_text_display(self):
if USE_DISPLAY:
self._modeselect._pad_mode.update_text_display()
def _on_selected_track_changed(self):
super(Maschine, self)._on_selected_track_changed()
self.set_controlled_track(self.song().view.selected_track)
self._on_devices_changed.subject = self.song().view.selected_track
def _on_devices_changed(self):
pass
_on_devices_changed = subject_slot('devices')(_on_devices_changed)
def update(self):
self.set_feedback_channels(FEEDBACK_CHANNELS)
super(Maschine, self).update()
def is_monochrome(self):
return False
def _deassign_matrix(self):
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(None)
def update_display(self):
self.component_guard().__enter__()
try:
self._is_sending_scheduled_messages().__enter__()
try:
self._task_group.update(0.1)
finally:
pass
self._modeselect.notify(self.blink_state)
self.blink_state = (self.blink_state + 1) % 4
self.display_task.tick()
self.update_undo_redo(False)
finally:
pass
def update_undo_redo(self, force=False):
if force:
self.undo_state = self.song().can_undo
self.redo_state = self.song().can_redo
if self.song().can_undo != self.undo_state:
self.undo_state = self.song().can_undo
if not self.undo_state == 1 or 127:
pass
self._undo_button.send_value(0)
if self.song().can_redo != self.redo_state:
self.redo_state = self.song().can_redo
if not self.redo_state == 1 or 127:
pass
self._redo_button.send_value(0)
def adjust_loop_start(self, delta):
loopval = self.song().loop_start
self.song().loop_start = min(self.song().song_length,
max(0, loopval + delta))
def adjust_loop_length(self, delta):
loopval = self.song().loop_length
self.song().loop_length = min(self.song().song_length,
max(abs(delta), loopval + delta))
def _do_armsolo_mode(self, value):
pass
def _do_fire_button(self, value):
if not self._fire_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
if value != 0:
if self.isShiftDown():
self.song().tap_tempo()
else:
clip_slot = self.song().view.highlighted_clip_slot
if clip_slot:
clip_slot.fire()
_do_fire_button = subject_slot('value')(_do_fire_button)
def _do_undo(self, value):
if value != 0:
if self.use_layered_buttons() and self.isShiftDown():
if self.song().can_redo == 1:
self.song().redo()
self.show_message(str('REDO'))
elif self.song().can_undo == 1:
self.song().undo()
self.show_message(str('UNDO'))
_do_undo = subject_slot('value')(_do_undo)
def _do_redo(self, value):
if value != 0:
if self.song().can_redo == 1:
self.song().redo()
self.show_message(str('REDO'))
_do_redo = subject_slot('value')(_do_redo)
def _do_stop_all(self, value):
if value != 0:
if self.use_layered_buttons() and self.isShiftDown():
self.song().stop_all_clips(0)
else:
self.song().stop_all_clips(1)
_do_stop_all = subject_slot('value')(_do_stop_all)
def isShiftDown(self):
return self._editsection.isShiftdown()
def modifiers(self):
return self._editsection.modifiers()
def use_layered_buttons(self):
return False
def _handle_base_note(self, diff):
self._modeselect._pad_mode.inc_base_note(diff)
def _handle_octave(self, diff):
self._modeselect._pad_mode.inc_octave(diff)
octave_val = self._modeselect._pad_mode
def _handle_scale(self, diff):
self._modeselect._pad_mode.inc_scale(diff)
def _do_update_display(self, value):
if value != 0:
self.refresh_state()
_do_update_display = subject_slot('value')(_do_update_display)
def _do_key_color(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
self._modeselect._pad_mode.step_key_color_mode()
_do_key_color = subject_slot('value')(_do_key_color)
def _do_tap_tempo(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
self.song().tap_tempo()
_do_tap_tempo = subject_slot('value')(_do_tap_tempo)
def _do_toggle_cue(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
self.song().set_or_delete_cue()
_do_toggle_cue = subject_slot('value')(_do_toggle_cue)
def _do_toggle_prev_cue(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
self.song().jump_to_prev_cue()
_do_toggle_prev_cue = subject_slot('value')(_do_toggle_prev_cue)
def _do_toggle_next_cue(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
self.song().jump_to_next_cue()
_do_toggle_next_cue = subject_slot('value')(_do_toggle_next_cue)
def _do_toggle_send(self, value):
if not value in range(128):
raise AssertionError
if self.isShiftDown():
if value != 0:
self.refresh_state()
self.show_message('Refresh Display')
else:
nr_of_tracks = len(self.song().return_tracks)
if value == 0 or nr_of_tracks < 1:
return None
prev = self.send_slider_index
self.send_slider_index += 1
if self.send_slider_index >= nr_of_tracks:
self.send_slider_index = 0
self.show_message(' Set Send ' +
str(SENDS[self.send_slider_index]))
self.timed_message(
2, ' Set Send ' + str(SENDS[self.send_slider_index]))
if prev != self.send_slider_index:
for track in range(8):
strip = self._mixer.channel_strip(track)
slider_list = []
for index in range(self.send_slider_index + 1):
if index < self.send_slider_index - 1:
slider_list.append(None)
else:
slider_list.append(self.send_sliders[track])
strip.set_send_controls(tuple(slider_list))
_do_toggle_send = subject_slot('value')(_do_toggle_send)
def _a_trk_left(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
if self.application().view.is_view_visible('Session'):
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Session', True)
track = self.song().view.selected_track
self.timed_message(2, 'T:' + track.name, False)
if self.arm_selected_track and track.can_be_armed:
arm_exclusive(self.song(), track)
_a_trk_left = subject_slot('value')(_a_trk_left)
def _a_trk_right(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
if self.application().view.is_view_visible('Session'):
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Session', True)
track = self.song().view.selected_track
self.timed_message(2, 'T:' + track.name, False)
if self.arm_selected_track and track.can_be_armed:
arm_exclusive(self.song(), track)
_a_trk_right = subject_slot('value')(_a_trk_right)
def _a_sel_arm(self, value):
if value != 0:
if self.arm_selected_track:
self.arm_selected_track = False
self.set_sel_arm_button.send_value(0, True)
else:
self.arm_selected_track = True
self.set_sel_arm_button.send_value(127, True)
_a_sel_arm = subject_slot('value')(_a_sel_arm)
def _nav_value_left(self, value):
if not self._device_nav_button_left != None:
raise AssertionError
if not value in range(128):
raise AssertionError
modifier_pressed = True
if value != 0:
if not self.application().view.is_view_visible(
'Detail') or not self.application().view.is_view_visible(
'Detail/DeviceChain'):
self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction,
'Detail/DeviceChain',
not modifier_pressed)
_nav_value_left = subject_slot('value')(_nav_value_left)
def _nav_value_right(self, value):
if not self._device_nav_button_right != None:
raise AssertionError
if not value in range(128):
raise AssertionError
if value != 0:
modifier_pressed = True
if not self.application().view.is_view_visible(
'Detail') or not self.application().view.is_view_visible(
'Detail/DeviceChain'):
self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction,
'Detail/DeviceChain',
not modifier_pressed)
_nav_value_right = subject_slot('value')(_nav_value_right)
def _do_focus_navigate(self, value):
if not self._navigate_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
if value != 0:
self.nav_index = (self.nav_index + 1) % len(VIEWS_ALL)
self.application().view.focus_view(VIEWS_ALL[self.nav_index])
self.show_message('Focus on : ' + str(VIEWS_ALL[self.nav_index]))
_do_focus_navigate = subject_slot('value')(_do_focus_navigate)
def focus_clip_detail(self):
self.application().view.focus_view('Detail/Clip')
def _song_follow_changed(self):
view = self.song().view
if view.follow_song:
self.song_follow_button.send_value(1, True)
else:
self.song_follow_button.send_value(0, True)
_song_follow_changed = subject_slot('follow_song')(_song_follow_changed)
def _do_song_follow(self, value):
if value != 0:
view = self.song().view
if view.follow_song:
view.follow_song = False
self.song_follow_button.send_value(0, True)
else:
view.follow_song = True
self.song_follow_button.send_value(1, True)
_do_song_follow = subject_slot('value')(_do_song_follow)
def _hold_duplicate_action(self, value):
if value != 0:
pass
1
_hold_duplicate_action = subject_slot('value')(_hold_duplicate_action)
def _hold_clear_action(self, value):
if value != 0:
self._mixer.enter_clear_mode()
self._device_component.enter_clear_mode()
else:
self._mixer.exit_clear_mode()
self._device_component.exit_clear_mode()
_hold_clear_action = subject_slot('value')(_hold_clear_action)
def _action_toogle_main_view(self, value):
if value != 0:
appv = self.application().view
if appv.is_view_visible('Arranger'):
appv.show_view('Session')
else:
appv.show_view('Arranger')
_action_toogle_main_view = subject_slot('value')(_action_toogle_main_view)
def _action_toogle_detail_view(self, value):
if value != 0:
appv = self.application().view
if self.isShiftDown():
if appv.is_view_visible('Arranger'):
appv.show_view('Session')
else:
appv.show_view('Arranger')
elif appv.is_view_visible('Detail/Clip'):
appv.show_view('Detail/DeviceChain')
else:
appv.show_view('Detail/Clip')
_action_toogle_detail_view = subject_slot('value')(
_action_toogle_detail_view)
def _on_change_reenabled(self):
if self.song().re_enable_automation_enabled:
self._reenable_button.turn_on()
else:
self._reenable_button.turn_off()
_on_change_reenabled = subject_slot('re_enable_automation_enabled')(
_on_change_reenabled)
def _do_auto_reenable(self, value):
if value != 0:
self.song().re_enable_automation()
_do_auto_reenable = subject_slot('value')(_do_auto_reenable)
def to_color_edit_mode(self, active):
pass
def clear_display_all(self):
self.send_to_display('', 0)
self.send_to_display('', 1)
self.send_to_display('', 2)
self.send_to_display('', 3)
def clear_display(self, grid):
self.send_to_display('', grid)
def timed_message(self, grid, text, hold=False):
if USE_DISPLAY == False:
self.show_message(text)
else:
self.display_task.set_func(self.clear_display, grid)
self.send_to_display(text, grid)
if hold:
self.display_task.hold()
self.display_task.start()
def timed_message_release(self):
self.display_task.release()
def update_bank_display(self):
if USE_DISPLAY:
(name, bank) = self._device._current_bank_details()
if self._display_device_param:
prms = len(bank)
d1 = ''
for i in range(4):
parm = bank[i]
if parm:
name = parm.name
if not i < 3 or '|':
pass
d1 += name[:6] + ''
continue
if not i < 3 or '|':
pass
d1 += ' ' + ''
self.send_to_display(d1, 2)
d1 = ''
for i in range(4):
parm = bank[i + 4]
if parm:
name = parm.name
if not i < 3 or '|':
pass
d1 += name[:6] + ''
continue
if not i < 3 or '|':
pass
d1 += ' ' + ''
self.send_to_display(d1, 4)
else:
self.timed_message(2, 'Bank: ' + name)
def display_parameters(self, paramlist):
if USE_DISPLAY == False:
return None
def send_to_display(self, text, grid=0):
if USE_DISPLAY == False:
return None
if self._diplay_cache[grid] == text:
return None
self._diplay_cache[grid] = text
if len(text) > 28:
text = text[:27]
msgsysex = [240, 0, 0, 102, 23, 18, min(grid, 3) * 28]
filled = text.ljust(28)
for c in filled:
msgsysex.append(ord(c))
msgsysex.append(247)
self._send_midi(tuple(msgsysex))
def cleanup(self):
pass
def disconnect(self):
self._pre_serialize()
self.clear_display_all()
for (track_index, scene_index) in self._bmatrix.iterbuttons():
if button:
button.send_color_direct(PColor.OFF[0])
continue
time.sleep(0.2)
self._active = False
self._suppress_send_midi = True
super(Maschine, self).disconnect()
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self._device_selection_follows_track_selection = True
with self.component_guard():
self._suppress_send_midi = True
self._suppress_session_highlight = True
self._control_is_with_automap = False
is_momentary = True
self._suggested_input_port = 'Akai MPK26'
self._suggested_output_port = 'Akai MPK26'
# self.log("BEFORE mixer")
self._setup_mixer_control()
self._setup_device_control()
# self.clipcontrol(8)
# self.log("AFTER MIXER")
"""SESSION ViEW"""
global session
session = SessionComponent(GRIDSIZE[0], GRIDSIZE[1])
session.name = 'Session_Control'
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
up_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER,
UP_BUTTON)
down_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER,
DOWN_BUTTON)
left_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER,
LEFT_BUTTON)
right_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER,
RIGHT_BUTTON)
session.set_scene_bank_buttons(down_button, up_button)
session.set_track_bank_buttons(right_button, left_button)
# session_zoom = SessionZoomingComponent(session)
# session_zoom.set_nav_buttons(up_button,down_button,left_button,right_button)
session_stop_buttons = []
# self.log("SETTING UP GRID")
for row in range(GRIDSIZE[1]):
button_row = []
# self.log("CZ ROW")
# self.log(str(row))
scene = session.scene(row)
scene.name = 'Scene_' + str(row)
scene.set_launch_button(
ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL,
SCENE_BUTTONS[row]))
scene.set_triggered_value(2)
for column in range(GRIDSIZE[0]):
# self.log("CZ COLUMN")
# self.log(str(column))
button = ConfigurableButtonElement(
True, MIDI_NOTE_TYPE, CHANNEL_MIXER,
LAUNCH_BUTTONS[row][column])
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
clip_slot.set_launch_button(button)
matrix.add_row(tuple(button_row))
for column in range(GRIDSIZE[0]):
session_stop_buttons.append(
(ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL_MIXER,
TRACK_STOPS[column])))
self._suppress_session_highlight = False
self._suppress_send_midi = False
self.set_highlighting_session_component(session)
session.set_stop_track_clip_buttons(tuple(session_stop_buttons))
session.set_mixer(mixer)
class APC40plus22(APC):
__doc__ = " Script for Akai's APC40 Controller with extra features added "
def __init__(self, c_instance):
self._c_instance = c_instance
self._shift_modes = None #added from APC20 script
self._encoder_modes = None #added
self._slider_modes = None #added
APC.__init__(self, c_instance)
self.show_message("APC40_22 script loaded")
# Disabling the scene launch buttons and assigning them to the first 5 repeats on Master
self._device_buttons = []
self.setup_device_buttons()
def disconnect(self): #this is from the APC20 script
for button in self._device_buttons:
button.remove_value_listener(self._device_toggle)
self._device_buttons = None
self._shift_modes = None
self._encoder_modes = None
self._slider_modes = None
APC.disconnect(self)
def setup_device_buttons(self):
repeat = RepeatComponent(self)
repeat.set_shift_button(self._shift_button)
def _setup_session_control(self):
is_momentary = True
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 98)
right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 96)
left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 97)
up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94)
down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 95)
right_button.name = 'Bank_Select_Right_Button'
left_button.name = 'Bank_Select_Left_Button'
up_button.name = 'Bank_Select_Up_Button'
down_button.name = 'Bank_Select_Down_Button'
self._session = PedaledSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._session.set_track_bank_buttons(right_button, left_button)
self._session.set_scene_bank_buttons(down_button, up_button)
self._matrix = ButtonMatrixElement() #was: matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix' #was: matrix.name = 'Button_Matrix'
scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82)) for index in range(5) ]
#self._track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(8) ]
self._track_stop_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(8) ]
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button'
for index in range(len(self._track_stop_buttons)):
self._track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
stop_all_button.name = 'Stop_All_Clips_Button'
self._session.set_stop_all_clips_button(stop_all_button)
self._session.set_stop_track_clip_buttons(tuple(self._track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
#button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53))
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53)) #use Launchpad configurable button instead
button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(3)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(5)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row)) #matrix.add_row(tuple(button_row))
# Removing the launch selected clip footpedal option
#self._session.set_slot_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = SessionZoomingComponent(self._session) #use APC20 Zooming instead
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix) #was: self._session_zoom.set_button_matrix(matrix)
self._session_zoom.set_zoom_button(self._shift_button) #set in MatrixModesComponent instead
self._session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
return None
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(self, 8) #added self for parent
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)
master_select_button.name = 'Master_Select_Button'
self._mixer.master_strip().set_select_button(master_select_button) #set in ShiftableSelectorComponent instead if used for Note Mode
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
select_buttons = [] #added
arm_buttons = [] #added
sliders = [] #added
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
#volume_control = SliderElement(MIDI_CC_TYPE, track, 7) #set in ShiftableSelectorComponent instead
#arm_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48) #see below
solo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)
solo_button.name = str(track) + '_Solo_Button'
strip.set_solo_button(solo_button)
if track < 4:
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50)
mute_button.name = str(track) + '_Mute_Button'
strip.set_mute_button(mute_button)
strip.set_invert_mute_feedback(True)
strip.set_shift_button(self._shift_button)
select_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51)) #added
select_buttons[-1].name = str(track) + '_Select_Button' #added
#strip.set_select_button(select_buttons[-1]) #added
arm_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48)) #added
arm_buttons[-1].name = str(track) + '_Arm_Button' #added
sliders.append(SliderElement(MIDI_CC_TYPE, track, 7)) #added
sliders[-1].name = str(track) + '_Volume_Control' #added
self._crossfader = SliderElement(MIDI_CC_TYPE, 0, 15)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
self._prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
self._crossfader.name = 'Crossfader' #not used in APC20
master_volume_control.name = 'Master_Volume_Control'
self._prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_shift_button(self._shift_button) #added for shifting prehear
self._mixer.set_crossfader_control(self._crossfader) #not used in APC20
self._mixer.set_prehear_volume_control(self._prehear_control) #functionality overridden in SpecialMixerComponent
self._mixer.master_strip().set_volume_control(master_volume_control)
self._slider_modes = SliderModesComponent(self._mixer, tuple(sliders)) #added from APC20 script
self._slider_modes.name = 'Slider_Modes' #added from APC20 script
matrix_modes = MatrixModesComponent(self._matrix, self._session, self._session_zoom, tuple(self._track_stop_buttons), self) #added new
matrix_modes.name = 'Matrix_Modes' #added new
# Original method args for ShiftableSelectorComponent: (self, select_buttons, master_button, arm_buttons, matrix, session, zooming, mixer, transport, slider_modes, mode_callback)
#self._shift_modes = ShiftableSelectorComponent(tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, transport, slider_modes, self._send_introduction_message)
self._shift_modes = ShiftableSelectorComponent(self, tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, self._slider_modes, matrix_modes) #, self._send_introduction_message) #also added self for _parent
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
def _setup_custom_components(self):
self._setup_looper_control()
self._setup_device_and_transport_control()
self._setup_global_control()
def _setup_looper_control(self):
is_momentary = True
#pedal = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67)
loop_on = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 4, 50)
loop_start = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 5, 50)
halve = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 6, 50)
double = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 7, 50)
looper = LooperComponent(self)
looper.set_shift_button(self._shift_button)
looper.set_loop_toggle_button(loop_on)
looper.set_loop_start_button(loop_start)
looper.set_loop_double_button(double)
looper.set_loop_halve_button(halve)
def _setup_device_and_transport_control(self):
is_momentary = True
device_bank_buttons = []
device_param_controls = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button', 'Detail_View_Button', 'Rec_Quantization_Button', 'Midi_Overdub_Button', 'Device_Lock_Button', 'Metronome_Button')
for index in range(8):
device_bank_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 58 + index))
device_bank_buttons[-1].name = bank_button_labels[index]
ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0, 24 + index)
ringed_encoder = RingedEncoderElement(MIDI_CC_TYPE, 0, 16 + index, Live.MidiMap.MapMode.absolute)
ringed_encoder.set_ring_mode_button(ring_mode_button)
ringed_encoder.set_feedback_delay(-1) #added from Axiom DirectLink example
ringed_encoder.name = 'Device_Control_' + str(index)
ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
device_param_controls.append(ringed_encoder)
self._device = ShiftableDeviceComponent()
self._device.name = 'Device_Component'
self._device.set_bank_buttons(tuple(device_bank_buttons))
self._device.set_shift_button(self._shift_button)
self._device.set_parameter_controls(tuple(device_param_controls))
self._device.set_on_off_button(device_bank_buttons[1])
self.set_device_component(self._device)
detail_view_toggler = DetailViewControllerComponent()
detail_view_toggler.name = 'Detail_View_Control'
detail_view_toggler.set_shift_button(self._shift_button)
detail_view_toggler.set_device_clip_toggle_button(device_bank_buttons[0])
detail_view_toggler.set_detail_toggle_button(device_bank_buttons[4])
detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2], device_bank_buttons[3])
transport = ShiftableTransportComponent()
transport.name = 'Transport'
play_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 91)
stop_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 92)
record_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 93)
nudge_up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 100)
nudge_down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 101)
tap_tempo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99)
play_button.name = 'Play_Button'
stop_button.name = 'Stop_Button'
record_button.name = 'Record_Button'
nudge_up_button.name = 'Nudge_Up_Button'
nudge_down_button.name = 'Nudge_Down_Button'
tap_tempo_button.name = 'Tap_Tempo_Button'
transport.set_shift_button(self._shift_button)
transport.set_play_button(play_button)
transport.set_stop_button(stop_button)
transport.set_record_button(record_button)
transport.set_nudge_buttons(nudge_up_button, nudge_down_button)
transport.set_undo_button(nudge_down_button) #shifted nudge
transport.set_redo_button(nudge_up_button) #shifted nudge
transport.set_tap_tempo_button(tap_tempo_button)
self._device.set_lock_button(tap_tempo_button) #shifted tap tempo
transport.set_quant_toggle_button(device_bank_buttons[5])
transport.set_overdub_button(device_bank_buttons[6])
transport.set_metronome_button(device_bank_buttons[7])
transport.set_tempo_encoder(self._prehear_control) #shifted prehear
bank_button_translator = ShiftableTranslatorComponent()
bank_button_translator.set_controls_to_translate(tuple(device_bank_buttons))
bank_button_translator.set_shift_button(self._shift_button)
def _setup_global_control(self):
is_momentary = True
self._global_bank_buttons = []
self._global_param_controls = []
for index in range(8):
ring_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0, 56 + index)
ringed_encoder = RingedEncoderElement(MIDI_CC_TYPE, 0, 48 + index, Live.MidiMap.MapMode.absolute)
ringed_encoder.name = 'Track_Control_' + str(index)
ringed_encoder.set_feedback_delay(-1)
ring_button.name = ringed_encoder.name + '_Ring_Mode_Button'
ringed_encoder.set_ring_mode_button(ring_button)
self._global_param_controls.append(ringed_encoder)
self._global_bank_buttons = []
global_bank_labels = ('Pan_Button', 'Send_A_Button', 'Send_B_Button', 'Send_C_Button')
for index in range(4):
self._global_bank_buttons.append(ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 87 + index))#(not is_momentary, MIDI_NOTE_TYPE, 0, 87 + index))
self._global_bank_buttons[-1].name = global_bank_labels[index]
self._encoder_modes = EncoderMixerModeSelectorComponent(self._mixer)
self._encoder_modes.name = 'Track_Control_Modes'
#self._encoder_modes.set_modes_buttons(self._global_bank_buttons) # set in ShiftableEncoderSelectorComponent
self._encoder_modes.set_controls(tuple(self._global_param_controls))
#self._encoder_device_modes = EncoderDeviceModeSelectorComponent(self._mixer, self._device) #new
self._encoder_device_modes = EncoderDeviceComponent(self._mixer, self._device, self)
self._encoder_device_modes.name = 'Alt_Device_Control_Modes' #new
self._encoder_eq_modes = EncoderEQComponent(self._mixer, self)#EncoderEQModeSelectorComponent(self._mixer) #new
self._encoder_eq_modes.name = 'EQ_Control_Modes' #new
global_translation_selector = ChannelTranslationSelector() #translate track encoders to channels 1 through 4, based on button selection (pan = 1, send A = 2, send B = 3, send C = 4)
global_translation_selector.name = 'Global_Translations'
global_translation_selector.set_controls_to_translate(tuple(self._global_param_controls))
global_translation_selector.set_mode_buttons(tuple(self._global_bank_buttons))
encoder_user_modes = EncoderUserModesComponent(self, self._encoder_modes, tuple(self._global_param_controls), tuple(self._global_bank_buttons), self._mixer, self._device, self._encoder_device_modes, self._encoder_eq_modes) #self._mixer, tuple(sliders)) #added
encoder_user_modes.name = 'Encoder_User_Modes' #added
self._encoder_shift_modes = ShiftableEncoderSelectorComponent(self, tuple(self._global_bank_buttons), encoder_user_modes, self._encoder_modes, self._encoder_eq_modes, self._encoder_device_modes) #tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, slider_modes, matrix_modes) #, self._send_introduction_message) #also added self for _parent
self._encoder_shift_modes.name = 'Encoder_Shift_Modes'
self._encoder_shift_modes.set_mode_toggle(self._shift_button)
def _on_selected_track_changed(self):
ControlSurface._on_selected_track_changed(self)
#self._slider_modes.update() #added to update alternate slider assignments
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if device_to_select == None and len(track.devices) > 0:
device_to_select = track.devices[0]
if device_to_select != None:
self.song().view.select_device(device_to_select)
self._device_component.set_device(device_to_select)
return None
def _product_model_id_byte(self):
return 115
class Serato(ControlSurface):
def __init__(self, c_instance):
publish_in_cs_list = True
ControlSurface.__init__(self, c_instance, not publish_in_cs_list)
self._device_selection_follows_track_selection = True
with self.component_guard():
self._matrix = None
self._session = None
self._mixer = None
self._device = None
self._scene_launch_buttons = None
self._track_arm_buttons = None
self._track_solo_buttons = None
self._track_mute_buttons = None
self._track_stop_buttons = None
self._track_select_buttons = None
self._device_on_off_button = None
self._shift_button = None
self._serato_interface = PySCAClipControl()
self._serato_interface.PySCA_InitializeClipControl()
self._setup_session_control()
self._setup_mixer_control()
self._setup_device_control()
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
return
def disconnect(self):
ControlSurface.disconnect(self)
self._serato_interface.PySCA_DeinitializeClipControl()
self._serato_interface = None
return
def connect_script_instances(self, instanciated_scripts):
""" Called by the Application as soon as all scripts are initialized.
You can connect yourself to other running scripts here, as we do it
connect the extension modules (MackieControlXTs).
"""
for control_surface in self._control_surfaces():
control_surface_session = control_surface.highlighting_session_component()
if control_surface_session:
self._session.sync_to(control_surface_session)
self._on_track_list_changed()
break
def build_midi_map(self, midi_map_handle):
pass
def update_display(self):
ControlSurface.update_display(self)
while self._serato_interface.PySCA_HasIncomingEvent():
new_event = self._serato_interface.PySCA_GetIncomingEvent()
if not self._handle_session_event(new_event):
if not self._handle_mixer_event(new_event):
if not self._handle_device_event(new_event):
print 'Unhandled Event: ' + str(new_event)
def _setup_session_control(self):
is_momentary = True
self._session = SpecialSessionComponent(NUM_TRACKS, NUM_SCENES)
self._session.set_serato_interface(self._serato_interface)
self._matrix = ButtonMatrixElement()
self._scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0) for index in range(NUM_SCENES) ]
self._track_stop_buttons = [ ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0) for index in range(NUM_TRACKS) ]
stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
self._session.set_stop_all_clips_button(stop_all_button)
self._session.set_stop_track_clip_buttons(tuple(self._track_stop_buttons))
for scene_index in range(NUM_SCENES):
scene = self._session.scene(scene_index)
button_row = []
scene.set_launch_button(self._scene_launch_buttons[scene_index])
scene.set_index(scene_index)
scene.set_serato_interface(self._serato_interface)
for track_index in range(NUM_TRACKS):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
clip_slot.set_serato_interface(self._serato_interface)
self._matrix.add_row(tuple(button_row))
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(NUM_TRACKS)
self._mixer.set_serato_interface(self._serato_interface)
self._mixer.master_strip().set_serato_interface(self._serato_interface)
self._track_arm_buttons = []
self._track_solo_buttons = []
self._track_mute_buttons = []
self._track_select_buttons = []
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
for track in range(NUM_TRACKS):
strip = self._mixer.channel_strip(track)
strip.set_serato_interface(self._serato_interface)
self._track_arm_buttons.append(ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_solo_buttons.append(ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_mute_buttons.append(ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_select_buttons.append(ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
strip.set_arm_button(self._track_arm_buttons[-1])
strip.set_solo_button(self._track_solo_buttons[-1])
strip.set_mute_button(self._track_mute_buttons[-1])
strip.set_select_button(self._track_select_buttons[-1])
strip.set_shift_button(self._shift_button)
def _setup_device_control(self):
is_momentary = True
self._device_on_off_button = ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0)
self._device = SpecialDeviceComponent()
self._device.set_serato_interface(self._serato_interface)
self._device.set_parameter_controls(tuple([ SliderElement(MIDI_CC_TYPE, 0, 0) for index in range(NUM_PARAMS) ]))
self._device.set_on_off_button(self._device_on_off_button)
self.set_device_component(self._device)
def _handle_session_event(self, event):
result = False
if event.type in CLIP_EVENTS:
value = 127 * int(event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventClipPlayedDown)
track_index = event.key1 - 1
scene_index = event.key2 - 1
if track_index in range(NUM_TRACKS) and scene_index in range(NUM_SCENES):
self._matrix.get_button(track_index, scene_index).receive_value(value)
result = True
elif event.type in SCENE_EVENTS:
value = 127 * int(event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventScenePlayedDown)
scene_index = event.key1 - 1
if scene_index in range(NUM_SCENES):
self._scene_launch_buttons[scene_index].receive_value(value)
result = True
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlMatrixSizeChanged:
new_width = event.key1
new_height = event.key2
self._session.set_size(new_width, new_height)
result = True
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlMatrixOffsetChanged:
x_increment = event.key1
y_increment = event.key2
self._session.move_by(x_increment, y_increment)
result = True
return result
def _handle_mixer_event(self, event):
result = True
track_index = event.key1 - 1
value = event.key2
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackMasterGainChange:
self._mixer.master_strip().set_track_volume(fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventMasterTrackStopped:
self.song().stop_all_clips()
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventMasterTrackSelect:
self.song().view.selected_track = self.song().master_track
else:
result = track_index in range(NUM_TRACKS) and self._handle_strip_event(event)
return result
def _handle_strip_event(self, event):
result = True
track_index = event.key1 - 1
value = event.key2
if value == 0:
self._shift_button.receive_value(127)
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSolo:
self._track_solo_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackRecord:
self._track_arm_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackActive:
self._track_mute_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackStopped:
self._track_stop_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSelect:
self._track_select_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackGainChange:
self._mixer.channel_strip(track_index).set_track_volume(fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSendAChange:
self._mixer.channel_strip(track_index).set_send(0, fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSendBChange:
self._mixer.channel_strip(track_index).set_send(1, fixed_value(value))
else:
result = False
self._shift_button.receive_value(0)
return result
def _handle_device_event(self, event):
result = True
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceValueChanged:
self._device.set_parameter_value(event.key1 - 1, fixed_value(event.key2))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceActivate:
self._device_on_off_button.receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceFocusMove:
self._move_device_focus(event.key1)
else:
result = False
return result
def _move_device_focus(self, increment):
if not self.application().view.is_view_visible('Detail') or not self.application().view.is_view_visible('Detail/DeviceChain'):
self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
modifier_pressed = True
direction = Live.Application.Application.View.NavDirection.left
if increment > 0:
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Detail/DeviceChain', not modifier_pressed)
class DC1(ControlSurface):
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
is_momentary = True
self._timer = 0 #used for flashing states, and is incremented by each call from self._update_display()
self._touched = 0
self.flash_status = 1 # Used in FlashingButtonElement (kludge for our purposes)
self._device_selection_follows_track_selection = True
with self.component_guard():
self._setup_transport_control()
if USE_MIXER_CONTROLS == True:
self.mixer_control()
if USE_SESSION_VIEW == True:
self.session_control()
self.setup_device_control()
def _setup_transport_control(self):
is_momentary = True # We'll only be using momentary buttons here
self.transport = TransportComponent() #Instantiate a Transport Component
"""set up the buttons"""
self.transport.set_play_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 60)) #ButtonElement(is_momentary, msg_type, channel, identifier) Note that the MIDI_NOTE_TYPE constant is defined in the InputControlElement module
self.transport.set_stop_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61))
self.transport.set_record_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 62))
def mixer_control(self):
is_momentary = True
self.num_tracks = N_TRACKS
if(USE_SENDS == True):
self.mixer = MixerComponent(N_TRACKS, N_SENDS_PER_TRACK, USE_MIXER_EQ, USE_MIXER_FILTERS)
else:
self.mixer = MixerComponent(N_TRACKS,0, USE_MIXER_EQ, USE_MIXER_FILTERS)
self.mixer.name = 'Mixer'
self.mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
for index in range(N_TRACKS):
self.mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
self.mixer.channel_strip(index)._invert_mute_feedback = True
if(USE_SELECT_BUTTONS == True):
self.selectbuttons = [None for index in range(N_TRACKS)]
for index in range(len(SELECT_BUTTONS)):
self.selectbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,SELECT_BUTTONS[index], 'Select_Button', self)
self.mixer.channel_strip(index).set_select_button(self.selectbuttons[index])
self.selectbuttons[index].set_on_value(SELECT_BUTTON_ON_COLOR)
self.selectbuttons[index].set_off_value(SELECT_BUTTON_OFF_COLOR)
if(USE_SOLO_BUTTONS == True):
self.solobuttons = [None for index in range(N_TRACKS)]
for index in range(len(SOLO_BUTTONS)):
self.solobuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,SOLO_BUTTONS[index], 'Solo_Button', self)
self.mixer.channel_strip(index).set_solo_button(self.solobuttons[index])
self.solobuttons[index].set_on_value(SOLO_BUTTON_ON_COLOR)
self.solobuttons[index].set_off_value(SOLO_BUTTON_OFF_COLOR)
if(USE_ARM_BUTTONS == True):
self.armbuttons = [None for index in range(N_TRACKS)]
for index in range(len(ARM_BUTTONS)):
self.armbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,ARM_BUTTONS[index], 'Arm_Button', self)
self.mixer.channel_strip(index).set_arm_button(self.armbuttons[index])
self.armbuttons[index].set_on_value(ARM_BUTTON_ON_COLOR)
self.armbuttons[index].set_off_value(ARM_BUTTON_OFF_COLOR)
if(USE_MUTE_BUTTONS == True):
self.mutebuttons = [None for index in range(N_TRACKS)]
for index in range(len(MUTE_BUTTONS)):
self.mutebuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,MUTE_BUTTONS[index], 'Mute_Button', self)
self.mixer.channel_strip(index).set_mute_button(self.mutebuttons[index])
self.mutebuttons[index].set_on_value(MUTE_BUTTON_ON_COLOR)
self.mutebuttons[index].set_off_value(MUTE_BUTTON_OFF_COLOR)
if(USE_SENDS == True):
self.sendencoders = [None for index in range(len(SEND_ENCODERS))]
for index in range(len(SEND_ENCODERS)):
self.sendencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, SEND_ENCODERS[index], Live.MidiMap.MapMode.absolute)
for index in range(len(SEND_ENCODERS)/N_SENDS_PER_TRACK):
self.mixer.channel_strip(index).set_send_controls(tuple(self.sendencoders[(index*N_SENDS_PER_TRACK):((index*N_SENDS_PER_TRACK)+N_SENDS_PER_TRACK-1)]))
if(USE_VOLUME_CONTROLS == True):
self.volencoders = [None for index in range(len(VOLUME_ENCODERS))]
for index in range (len(VOLUME_ENCODERS)):
self.volencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, VOLUME_ENCODERS[index], Live.MidiMap.MapMode.absolute)
self.mixer.channel_strip(index).set_volume_control(self.volencoders[index])
def session_control(self):
is_momentary = True
self._timer = 0
self.flash_status = 1
self.grid = [None for index in range(N_TRACKS*N_SCENES)]
for index in range(N_TRACKS*N_SCENES):
self.grid[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,TRACK_CLIP_BUTTONS[index], 'Grid' + str(index), self)
self.grid[index].set_off_value(0)
self.grid[index].turn_off()
self.matrix = ButtonMatrixElement()
for row in range(N_SCENES):
button_row = []
for column in range(N_TRACKS):
button_row.append(self.grid[row+(column*N_SCENES)])
self.matrix.add_row(tuple(button_row))
self.session = SessionComponent(N_TRACKS,N_SCENES)
self.session.name = "Session"
self.session.set_offsets(0,0)
self.scene = [None for index in range(N_SCENES)]
for row in range(N_SCENES):
self.scene[row] = self.session.scene(row)
self.scene[row].name = 'Scene_'+str(row)
for column in range(N_TRACKS):
clip_slot = self.scene[row].clip_slot(column)
clip_slot.name = str(column)+'_Clip_Slot'+str(row)
self.scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY_COLOR)
self.scene[row].clip_slot(column).set_stopped_value(CLIP_STOP_COLOR)
self.scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR)
self.set_highlighting_session_component(self.session)
self.session_zoom = DeprecatedSessionZoomingComponent(self.session) #this creates the ZoomingComponent that allows navigation when the shift button is pressed
self.session_zoom.name = 'Session_Overview' #name it so we can access it in m4l
self.session_zoom.set_stopped_value(ZOOM_STOPPED) #set the zooms stopped color
self.session_zoom.set_playing_value(ZOOM_PLAYING) #set the zooms playing color
self.session_zoom.set_selected_value(ZOOM_SELECTED) #set the zooms selected color
self.session_zoom.set_button_matrix(self.matrix) #assign the ButtonMatrixElement that we created in _setup_controls() to the zooming component so that we can control it
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63)
self.session_zoom.set_zoom_button(self._shift_button) #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent
self.looper = LooperComponent(self)
self.log_message(str(len(STOP_BUTTONS)))
if(USE_STOP_BUTTONS == True):
self.stopbuttons = [None for index in range(N_TRACKS)]
for index in range(len(STOP_BUTTONS)):
self.stopbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,STOP_BUTTONS[index], 'Stop_Button', self)
self.session.set_stop_track_clip_buttons(self.stopbuttons)
self.stopbuttons[index].set_on_value(STOP_BUTTON_ON_COLOR)
self.stopbuttons[index].set_off_value(STOP_BUTTON_OFF_COLOR)
self.scrollencoder = ScrollEncoderElement(MIDI_CC_TYPE, CHANNEL, 32, Live.MidiMap.MapMode.absolute, self.session, self.transport, self.mixer, self.looper)
self.scrollencoder.set_nav_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 0))
self.scrollencoder.set_transport_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 7))
self.scrollencoder.set_scene_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 3))
self.scrollencoder.set_library_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 4))
self.scrollencoder.set_button1(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 1))
self.scrollencoder.set_button2(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 2))
self.scrollencoder.set_button3(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 5))
self.scrollencoder.set_button4(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 6))
self.scrollencoder.set_encoder_button(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 32))
for column in range(N_TRACKS):
for row in range(N_SCENES):
self.scene[row].clip_slot(column).set_launch_button(self.grid[row+(column*N_SCENES)])
for index in range(N_TRACKS*N_SCENES):
self.grid[index].clear_send_cache()
if USE_MIXER_CONTROLS == True:
self.session.set_mixer(self.mixer)
self.refresh_state()
self.session.set_enabled(True)
self.session.update()
def setup_device_control(self):
is_momentary = True
device_bank_buttons = []
device_param_controls = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button')
for index in range(4):
device_bank_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 16 + index))
device_bank_buttons[-1].name = bank_button_labels[index]
for index in range(8):
#ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, CHANNEL, 21 + index)
ringed_encoder = CMDEncoderElement(MIDI_CC_TYPE, CHANNEL, 16 + index, Live.MidiMap.MapMode.relative_binary_offset, 20)
#ringed_encoder.set_ring_mode_button(ring_mode_button)
ringed_encoder.name = 'Device_Control_' + str(index)
#ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
device_param_controls.append(ringed_encoder)
device = ShiftableDeviceComponent()
device.name = 'Device_Component'
device.set_bank_buttons(tuple(device_bank_buttons))
device.set_shift_button(self._shift_button)
device.set_parameter_controls(tuple(device_param_controls))
device.set_on_off_button(device_bank_buttons[1])
self.set_device_component(device)
detail_view_toggler = DetailViewControllerComponent(self)
detail_view_toggler.name = 'Detail_View_Control'
detail_view_toggler.set_shift_button(self._shift_button)
detail_view_toggler.set_device_clip_toggle_button(device_bank_buttons[0])
detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2], device_bank_buttons[3])
def update_display(self):
ControlSurface.update_display(self)
self._timer = (self._timer + 1) % 256
def disconnect(self):
self._hosts = []
ControlSurface.disconnect(self)
return None
class APC20(APC):
""" Script for Akai's APC20 Controller """
def __init__(self, c_instance):
self._shift_modes = None
APC.__init__(self, c_instance)
def disconnect(self):
self._shift_modes = None
APC.disconnect(self)
def _activate_combination_mode(self, track_offset, support_devices):
APC._activate_combination_mode(self, track_offset, support_devices)
if support_devices:
self._shift_modes.invert_assignment()
def _setup_session_control(self):
is_momentary = True
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
self._session = APCSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix'
scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, index + 82) for index in range(5) ]
track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(8) ]
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, scene_index + 53)
button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = ShiftableZoomingComponent(self._session, tuple(track_stop_buttons))
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
solo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50)
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
master_volume_control.name = 'Master_Volume_Control'
prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_prehear_volume_control(prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
def _setup_custom_components(self):
is_momentary = True
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)
master_select_button.name = 'Master_Select_Button'
select_buttons = []
arm_buttons = []
sliders = []
for track in range(8):
select_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51))
arm_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
sliders.append(SliderElement(MIDI_CC_TYPE, track, 7))
select_buttons[-1].name = str(track) + '_Select_Button'
arm_buttons[-1].name = str(track) + '_Arm_Button'
sliders[-1].name = str(track) + '_Volume_Control'
transport = TransportComponent()
transport.name = 'Transport'
slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
slider_modes.name = 'Slider_Modes'
self._shift_modes = ShiftableSelectorComponent(tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, transport, slider_modes, self._send_introduction_message)
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
def _product_model_id_byte(self):
return 123
class APC40(APC, OptimizedControlSurface):
""" Script for Akai's APC40 Controller """
def __init__(self, *a, **k):
super(APC40, self).__init__(*a, **k)
self._color_skin = make_biled_skin()
self._default_skin = make_default_skin()
with self.component_guard():
self._create_controls()
self._create_session()
self._create_mixer()
self._create_device()
self._create_detail_view_control()
self._create_transport()
self._create_global_control()
self._create_fallback_control_owner()
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
self.set_device_component(self._device)
for component in self.components:
component.set_enabled(False)
self._device_selection_follows_track_selection = True
def _with_shift(self, button):
return ComboElement(button, modifiers=[self._shift_button])
def _create_controls(self):
make_on_off_button = partial(make_button, skin=self._default_skin)
make_color_button = partial(make_button, skin=self._color_skin)
self._shift_button = make_button(0, 98, resource_type=PrioritizedResource, name='Shift_Button')
self._right_button = make_button(0, 96, name='Bank_Select_Right_Button')
self._left_button = make_button(0, 97, name='Bank_Select_Left_Button')
self._up_button = make_button(0, 94, name='Bank_Select_Up_Button')
self._down_button = make_button(0, 95, name='Bank_Select_Down_Button')
self._session_matrix = ButtonMatrixElement(name='Button_Matrix')
self._scene_launch_buttons_raw = [ make_color_button(0, index + 82, name='Scene_%d_Launch_Button' % index) for index in xrange(SESSION_HEIGHT) ]
self._track_stop_buttons = [ make_color_button(index, 52, name='Track_%d_Stop_Button' % index) for index in xrange(SESSION_WIDTH) ]
self._stop_all_button = make_color_button(0, 81, name='Stop_All_Clips_Button')
self._matrix_rows_raw = [ [ make_color_button(track_index, scene_index + 53, name='%d_Clip_%d_Button' % (track_index, scene_index)) for track_index in xrange(SESSION_WIDTH) ] for scene_index in xrange(SESSION_HEIGHT) ]
for row in self._matrix_rows_raw:
self._session_matrix.add_row(row)
self._selected_slot_launch_button = make_pedal_button(67, name='Selected_Slot_Launch_Button')
self._selected_scene_launch_button = make_pedal_button(64, name='Selected_Scene_Launch_Button')
self._volume_controls = []
self._arm_buttons = []
self._solo_buttons = []
self._mute_buttons = []
self._select_buttons = []
for index in xrange(MIXER_SIZE):
self._volume_controls.append(make_slider(index, 7, name='%d_Volume_Control' % index))
self._arm_buttons.append(make_on_off_button(index, 48, name='%d_Arm_Button' % index))
self._solo_buttons.append(make_on_off_button(index, 49, name='%d_Solo_Button' % index))
self._mute_buttons.append(make_on_off_button(index, 50, name='%d_Mute_Button' % index))
self._select_buttons.append(make_on_off_button(index, 51, name='%d_Select_Button' % index))
self._crossfader_control = make_slider(0, 15, name='Crossfader')
self._master_volume_control = make_slider(0, 14, name='Master_Volume_Control')
self._master_select_button = make_on_off_button(0, 80, name='Master_Select_Button')
self._prehear_control = make_encoder(0, 47, name='Prehear_Volume_Control')
self._device_bank_buttons = []
self._device_param_controls_raw = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button', 'Detail_View_Button', 'Rec_Quantization_Button', 'Midi_Overdub_Button', 'Metronome_Button')
for index in range(8):
self._device_bank_buttons.append(make_on_off_button(0, 58 + index, name=bank_button_labels[index]))
encoder_name = 'Device_Control_%d' % index
ringed_encoder = make_ring_encoder(16 + index, 24 + index, name=encoder_name)
self._device_param_controls_raw.append(ringed_encoder)
self._play_button = make_button(0, 91, name='Play_Button')
self._stop_button = make_button(0, 92, name='Stop_Button')
self._record_button = make_button(0, 93, name='Record_Button')
self._nudge_up_button = make_button(0, 100, name='Nudge_Up_Button')
self._nudge_down_button = make_button(0, 101, name='Nudge_Down_Button')
self._tap_tempo_button = make_button(0, 99, name='Tap_Tempo_Button')
self._global_bank_buttons = []
self._global_param_controls = []
for index in range(8):
encoder_name = 'Track_Control_%d' % index
ringed_encoder = make_ring_encoder(48 + index, 56 + index, name=encoder_name)
self._global_param_controls.append(ringed_encoder)
self._global_bank_buttons = [ make_on_off_button(0, 87 + index, name=name) for index, name in enumerate(('Pan_Button', 'Send_A_Button', 'Send_B_Button', 'Send_C_Button')) ]
self._device_clip_toggle_button = self._device_bank_buttons[0]
self._device_on_off_button = self._device_bank_buttons[1]
self._detail_left_button = self._device_bank_buttons[2]
self._detail_right_button = self._device_bank_buttons[3]
self._detail_toggle_button = self._device_bank_buttons[4]
self._rec_quantization_button = self._device_bank_buttons[5]
self._overdub_button = self._device_bank_buttons[6]
self._metronome_button = self._device_bank_buttons[7]
def wrap_matrix(control_list, wrapper = nop):
return ButtonMatrixElement(rows=[map(wrapper, control_list)])
self._scene_launch_buttons = wrap_matrix(self._scene_launch_buttons_raw)
self._track_stop_buttons = wrap_matrix(self._track_stop_buttons)
self._volume_controls = wrap_matrix(self._volume_controls)
self._arm_buttons = wrap_matrix(self._arm_buttons)
self._solo_buttons = wrap_matrix(self._solo_buttons)
self._mute_buttons = wrap_matrix(self._mute_buttons)
self._select_buttons = wrap_matrix(self._select_buttons)
self._device_param_controls = wrap_matrix(self._device_param_controls_raw)
self._device_bank_buttons = wrap_matrix(self._device_bank_buttons, partial(DeviceBankButtonElement, modifiers=[self._shift_button]))
self._shifted_matrix = ButtonMatrixElement(rows=recursive_map(self._with_shift, self._matrix_rows_raw))
self._shifted_scene_buttons = ButtonMatrixElement(rows=[[ self._with_shift(button) for button in self._scene_launch_buttons_raw ]])
def _create_session(self):
self._session = SessionComponent(SESSION_WIDTH, SESSION_HEIGHT, auto_name=True, enable_skinning=True, is_enabled=False, layer=Layer(track_bank_left_button=self._left_button, track_bank_right_button=self._right_button, scene_bank_up_button=self._up_button, scene_bank_down_button=self._down_button, stop_all_clips_button=self._stop_all_button, stop_track_clip_buttons=self._track_stop_buttons, scene_launch_buttons=self._scene_launch_buttons, clip_launch_buttons=self._session_matrix, slot_launch_button=self._selected_slot_launch_button, selected_scene_launch_button=self._selected_scene_launch_button))
self._session_zoom = SessionZoomingComponent(self._session, name='Session_Overview', enable_skinning=True, is_enabled=False, layer=Layer(button_matrix=self._shifted_matrix, nav_up_button=self._with_shift(self._up_button), nav_down_button=self._with_shift(self._down_button), nav_left_button=self._with_shift(self._left_button), nav_right_button=self._with_shift(self._right_button), scene_bank_buttons=self._shifted_scene_buttons))
def _create_mixer(self):
self._mixer = MixerComponent(MIXER_SIZE, auto_name=True, is_enabled=False, invert_mute_feedback=True, layer=Layer(volume_controls=self._volume_controls, arm_buttons=self._arm_buttons, solo_buttons=self._solo_buttons, mute_buttons=self._mute_buttons, track_select_buttons=self._select_buttons, shift_button=self._shift_button, crossfader_control=self._crossfader_control, prehear_volume_control=self._prehear_control))
self._mixer.master_strip().layer = Layer(volume_control=self._master_volume_control, select_button=self._master_select_button)
def _create_device(self):
self._device = DeviceComponent(name='Device_Component', is_enabled=False, layer=Layer(bank_buttons=self._device_bank_buttons, on_off_button=self._device_on_off_button), use_fake_banks=True)
ChannelTranslationSelector(8, name='Control_Translations')
self._device.set_parameter_controls(tuple(self._device_param_controls_raw))
def _create_detail_view_control(self):
self._detail_view_toggler = DetailViewCntrlComponent(name='Detail_View_Control', is_enabled=False, layer=Layer(device_clip_toggle_button=self._device_clip_toggle_button, detail_toggle_button=self._detail_toggle_button, device_nav_left_button=self._detail_left_button, device_nav_right_button=self._detail_right_button))
def _create_transport(self):
self._transport = TransportComponent(name='Transport', is_enabled=False, layer=Layer(play_button=self._play_button, stop_button=self._stop_button, record_button=self._record_button, nudge_up_button=self._nudge_up_button, nudge_down_button=self._nudge_down_button, tap_tempo_button=self._tap_tempo_button, quant_toggle_button=self._rec_quantization_button, overdub_button=self._overdub_button, metronome_button=self._metronome_button))
self._bank_button_translator = ChannelTranslationSelector(name='Bank_Button_Translations', is_enabled=False)
def _create_global_control(self):
def set_pan_controls():
for index, control in enumerate(self._global_param_controls):
self._mixer.channel_strip(index).set_pan_control(control)
self._mixer.channel_strip(index).set_send_controls((None, None, None))
control.set_channel(0)
def set_send_controls(send_index):
for index, control in enumerate(self._global_param_controls):
self._mixer.channel_strip(index).set_pan_control(None)
send_controls = [None] * 3
send_controls[send_index] = control
self._mixer.channel_strip(index).set_send_controls(send_controls)
control.set_channel(send_index + 1)
encoder_modes = ModesComponent(name='Track_Control_Modes', is_enabled=False)
encoder_modes.add_mode('pan', [set_pan_controls])
encoder_modes.add_mode('send_a', [partial(set_send_controls, 0)])
encoder_modes.add_mode('send_b', [partial(set_send_controls, 1)])
encoder_modes.add_mode('send_c', [partial(set_send_controls, 2)])
encoder_modes.selected_mode = 'pan'
encoder_modes.layer = Layer(pan_button=self._global_bank_buttons[0], send_a_button=self._global_bank_buttons[1], send_b_button=self._global_bank_buttons[2], send_c_button=self._global_bank_buttons[3])
self._translation_selector = ChannelTranslationSelector(name='Global_Translations')
def _create_fallback_control_owner(self):
self.register_disconnectable(SimpleLayerOwner(layer=Layer(_matrix=self._session_matrix, priority=FALLBACK_CONTROL_OWNER_PRIORITY)))
def get_matrix_button(self, column, row):
return self._matrix_rows_raw[row][column]
def _product_model_id_byte(self):
return 115
class BlockMod(MonOhm):
__module__ = __name__
__doc__ = " Monomodular controller script for Livid Block "
def __init__(self, *a, **k):
self._shift_button = None
super(BlockMod, self).__init__(*a, **k)
self._host_name = 'BlockMod'
self._color_type = 'Monochrome'
self._link_mixer = LINK_MIXER
self._rgb = 1
self._ohm = 127
self._ohm_type = 'static'
self._pad_translations = PAD_TRANSLATION
self._mem = [4, 8, 12, 16]
self.modhandler._color_type = 'Monochrome'
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._fader = [None for index in range(8)]
self._dial = [None for index in range(8)]
self._button = [None for index in range(8)]
self._menu = [None for index in range(6)]
for index in range(2):
self._fader[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, SLIDER_CC[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
#for index in range(8):
# self._button[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
for index in range(8):
self._dial[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, KNOB_CC[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self)
for index in range(4):
self._menu[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, FUNCTION_NOTES[index], 'Menu_' + str(index), self)
#self._livid = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._livid = DoublePressElement(MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self))
self._shift_l = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', self)
self._shift_r = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', self)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
self._grid = [None for index in range(8)]
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
self._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 125)
self._dummy_button.name = 'Dummy1'
self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 126)
self._dummy_button2.name = 'Dummy2'
self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 127)
self._dummy_button2.name = 'Dummy3'
self._dial_matrix = ButtonMatrixElement()
self._dial_matrix.add_row(self._dial)
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_crossfader(self):
pass
def _setup_mod(self):
super(BlockMod, self)._setup_mod()
self.modhandler.nav_box.on_value = 8
def _setup_layers(self):
self._device_navigator.layer = Layer(priority = 5, prev_button = self._menu[2], next_button = self._menu[3])
self._device.mod_layer = AddLayerMode(self._device, Layer(priority = 5, bank_prev_button = self._menu[0], bank_next_button = self._menu[1]))
self._transport.mod_layer = AddLayerMode(self._transport, Layer(priority = 5, play_button = self._menu[2], stop_button = self._menu[3]))
self.modhandler.set_mod_button(self._livid)
self.modhandler.layer = Layer(priority = 5,
grid = self._monomod,
nav_up_button = self._menu[0],
nav_down_button = self._menu[1],
nav_left_button = self._menu[2],
nav_right_button = self._menu[3],
shift_button = self._shift_r,
alt_button = self._shift_l,
parameter_controls = self._dial_matrix)
self.modhandler.legacy_shift_mode = AddLayerMode(self.modhandler, Layer(priority = 6,
channel_buttons = self._monomod.submatrix[:, 1:2],
nav_matrix = self._monomod.submatrix[:4, 2:6]))
self.modhandler.shift_mode = AddLayerMode(self.modhandler, Layer(priority = 6,
lock_button = self._livid,
device_selector_matrix = self._monomod.submatrix[:, :1],
key_buttons = self._monomod.submatrix[:, 7:8]))
self.modhandler.shiftlock_mode = AddLayerMode(self.modhandler, Layer(priority = 6,
key_buttons = self._monomod.submatrix[:, 7:8]))
def _setup_modes(self):
self._monomod_mode = MonomodModeComponent(self, self.monomod_mode_update)
self._monomod_mode.name = 'Monomod_Mode'
self._monomod_mode.layer = Layer(priority = 5, mode_toggle = self._livid)
self._monomod_mode.set_enabled(True)
self._on_shift_doublepress_value.subject = self._livid.double_press
self._shift_mode = BlockModShiftModeComponent(self, self.shift_update)
self._shift_mode.name = 'Shift_Mode'
#self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
self._shift_mode.layer = Layer(priority = 3, toggle1 = self._shift_l, toggle2 = self._shift_r)
self._shift_mode.set_enabled(True)
self._l_function_mode = FunctionModeComponent(self, self.l_function_update)
self._l_function_mode.name = 'Left_Function_Mode'
self._r_function_mode = FunctionModeComponent(self, self.r_function_update)
self._r_function_mode.name = 'Right_Function_Mode'
self._m_function_mode = FunctionModeComponent(self, self.m_function_update)
self._m_function_mode.name = 'Main_Function_Mode'
self._function_modes = [self._l_function_mode, self._r_function_mode, self._m_function_mode]
@subject_slot('value')
def _on_shift_doublepress_value(self, value):
#self._monomod_mode.set_mode(abs(self._monomod_mode._mode_index -1))
pass
"""shift/zoom methods"""
def deassign_matrix(self):
self._session_zoom.set_button_matrix(None)
self._session_zoom2.set_button_matrix(None)
#self._session.set_stop_track_clip_buttons(None)
#self._session2.set_stop_track_clip_buttons(None)
self._session_zoom_main.set_button_matrix(None)
#self._session_main.set_stop_track_clip_buttons(None)
for column in range(4):
self._mixer2.channel_strip(column).set_select_button(None)
self._mixer2.return_strip(column).set_mute_button(None)
self._mixer2.return_strip(column).set_solo_button(None)
self._mixer2.return_strip(column).set_arm_button(None)
self._mixer2.return_strip(column).set_crossfade_toggle(None)
self._mixer2.return_strip(column).set_select_button(None) #shouldn't this be somewhere else?
self._mixer2.channel_strip(column).set_crossfade_toggle(None)
self._mixer2.channel_strip(column).set_mute_button(None)
self._mixer2.channel_strip(column).set_solo_button(None)
self._mixer2.channel_strip(column).set_arm_button(None)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(None)
self._scene2[row].clip_slot(column).set_launch_button(None)
for index in range(5):
self._scene[index].set_launch_button(None)
self._scene2[index].set_launch_button(None)
self._scene_main[index].set_launch_button(None)
self._session_zoom.set_nav_buttons(None, None, None, None)
self._session_zoom2.set_nav_buttons(None, None, None, None)
self._session_zoom_main.set_nav_buttons(None, None, None, None)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
self._session2.set_track_bank_buttons(None, None)
self._session2.set_scene_bank_buttons(None, None)
self._session_main.set_track_bank_buttons(None, None)
self._session_main.set_scene_bank_buttons(None, None)
for column in range(8):
self._mixer.channel_strip(column).set_select_button(None)
self._mixer.channel_strip(column).set_crossfade_toggle(None)
self._mixer.channel_strip(column).set_mute_button(None)
self._mixer.channel_strip(column).set_solo_button(None)
self._mixer.channel_strip(column).set_arm_button(None)
for row in range(5):
self._scene_main[row].clip_slot(column).set_launch_button(None)
for row in range(8):
self._grid[column][row].set_channel(0)
self._grid[column][row].release_parameter()
self._grid[column][row].use_default_message()
self._grid[column][row].set_enabled(True)
self._grid[column][row].set_on_off_values(127, 0)
self._grid[column][row].send_value(0, True)
#self._send_reset.set_buttons(tuple(None for index in range(4)))
def zoom_off(self):
for column in range(4):
self._grid[column][5].set_on_value(MUTE[self._rgb])
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6].set_on_value(ARM[self._rgb])
self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
if(self._r_function_mode._mode_index in range(0,3)):
self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
self._mixer2.channel_strip(column).set_mute_button(self._grid[column + 4][5])
self._grid[column + 4][6].set_on_value(ARM[self._rgb])
self._mixer2.channel_strip(column).set_arm_button(self._grid[column + 4][6])
for row in range(5):
self._scene2[row].clip_slot(column).set_launch_button(self._grid[column + 4][row])
elif(self._r_function_mode._mode_index is 3):
self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
self._mixer2.return_strip(column).set_mute_button(self._grid[column + 4][5])
for row in range(5):
self._grid[column + 4][row].send_value(USER1_COLOR[self._rgb], True)
self._grid[column + 4][row].set_channel(RIGHT_USER1_CHANNEL)
self._grid[column + 4][row].set_identifier(RIGHT_USER1_MAP[column][row])
self._grid[column + 4][row].set_enabled(False) #this has to happen for translate to work
#self._session_zoom2.set_ignore_buttons(True)
if(self._r_function_mode._mode_index is 0):
for index in range(4):
self._grid[index + 4][7].send_value(SEND_RESET[self._rgb], True)
#self._send_reset.set_buttons(tuple(self._grid[index + 4][7] for index in range(4)))
def zoom_off_m(self):
self.deassign_dials()
for column in range(8):
self._grid[column][5].set_on_value(MUTE[self._rgb])
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6].set_on_value(ARM[self._rgb])
self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
for row in range(5):
self._scene_main[row].clip_slot(column).set_launch_button(self._grid[column][row])
#self._session_zoom.set_button_matrix(self._matrix)
def zoom_left(self):
track_stop_buttons = []
track_stop_buttons2 = []
for index in range(4):
self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons2.append(self._grid[index + 4][6])
for index in range(5):
self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
self._scene[index].set_launch_button(self._grid[7][index])
#self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
#self._session.set_stop_track_clip_buttons(self._matrix.submatrix[:4][7:])
#self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
#self._session2.set_stop_track_clip_buttons(self._matrix.submatrix[4:8][7:])
self._session_zoom.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.set_matrix(self._monomod.submatrix[4:8][7:])
self._device_selector.set_offset(4)
def zoom_right(self):
track_stop_buttons = []
track_stop_buttons2 = []
for index in range(4):
self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
for index in range(5):
self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
self._scene2[index].set_launch_button(self._grid[7][index])
#self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
#self._session.set_stop_track_clip_buttons(self._matrix.submatrix[:4][7:])
if(self._r_function_mode._mode_index < 3):
for index in range(4):
self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons2.append(self._grid[index + 4][6])
#self._session2.set_stop_track_clip_buttons(self._matrix.submatrix[4:8][7:])
#self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
self._session_zoom2.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.set_matrix(self._monomod.submatrix[:4][7:])
self._device_selector.set_offset(0)
def zoom_main(self):
track_stop_buttons = []
for index in range(8):
self._grid[index][6].set_on_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
for index in range(5):
self._grid[7][index].set_on_value(SCENE_LAUNCH[self._rgb])
self._scene_main[index].set_launch_button(self._grid[7][index])
#self._session_main.set_stop_track_clip_buttons(tuple(track_stop_buttons))
#self._session_main.set_stop_track_clip_buttons(self._matrix[0:8][7:])
self._session_zoom_main.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.set_matrix(self._monomod.submatrix[4:8][7:])
self._device_selector.set_offset(4)
"""function mode callbacks"""
def l_function_update(self):
mode = self._l_function_mode._mode_index
if(self._l_function_mode.is_enabled() is False):
self._l_function_mode.set_mode_buttons(None)
if not self.modhandler.is_enabled():
if(self._l_function_mode.is_enabled() is True):
if(len(self._l_function_mode._modes_buttons) is 0):
for index in range(4):
self._mixer.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index][7])
self._l_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 2):
for index in range(4):
if(mode != index):
self._grid[index][7].turn_off()
else:
self._grid[index][7].turn_on()
if(mode is 0):
self.assign_device_dials()
self.show_message('Mixer Split:Dials Device Mode')
elif(mode is 1):
self.assign_send_dials()
self.show_message('Mixer Split:Dials Send Mode')
elif(mode is 2):
self.assign_split_volume_dials()
self.show_message('Mixer Split:Dials Volume Mode')
elif(mode is 3):
self.assign_user_dials()
self.show_message('Mixer Split:Dials User Map Mode')
def r_function_update(self):
mode = self._r_function_mode._mode_index
if(self._r_function_mode.is_enabled() is False):
self._r_function_mode.set_mode_buttons(None)
#self._session2.set_show_highlight(False)
#self._session._highlighting_callback(self._session._track_offset, self._session._scene_offset, 4, 5, 1)
if not self.modhandler.is_enabled():
if(self._r_function_mode.is_enabled() is True):
if(len(self._r_function_mode._modes_buttons) is 0):
for index in range(4):
self._mixer2.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index + 4][7])
self._r_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 3):
for index in range(4):
if(mode != index):
self._grid[index + 4][7].turn_off()
else:
self._grid[index + 4][7].turn_on()
self._session2.set_offsets(int(self._mem[mode]), self._session2._scene_offset)
self.show_message('Mixer Split: Track Offset' + str(RIGHT_MODE_OFFSETS[mode]))
def m_function_update(self):
mode = self._m_function_mode._mode_index
if(self._m_function_mode.is_enabled() is False):
self._m_function_mode.set_mode_buttons(None)
#self._session.set_show_highlight(False)
#self._session2.set_show_highlight(False)
#self._session_main._highlighting_callback(self._session_main._track_offset, self._session_main._scene_offset, 8, 5, 1)
if not self.modhandler.is_enabled():
if(self._m_function_mode.is_enabled() is True):
if(len(self._m_function_mode._modes_buttons) is 0):
for index in range(8):
self._mixer.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index][7])
self._m_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 4):
for index in range(4):
if(mode != index):
self._grid[index][7].turn_off()
else:
self._grid[index][7].turn_on()
if(mode is 0):
self.assign_device_dials()
self.show_message('Mixer Linked:Dials Device Mode')
elif(mode is 1):
self.assign_send_dials()
self.show_message('Mixer Linked:Dials Send Mode')
elif(mode is 2):
self.assign_volume_dials()
self.show_message('Mixer Linked:Dials Volume Mode')
elif(mode is 3):
self.assign_user_dials()
self.show_message('Mixer Linked:Dials User Map Mode')
def shift_update(self):
self._clutch_device_selection = True
#self.allow_updates(False)
#if(not self._in_build_midi_map):
# self.set_suppress_rebuild_requests(True)
self.deassign_channel_select_buttons()
self.deassign_matrix()
self.deassign_menu()
if(self._monomod_mode._mode_index is 0): #if monomod is not on
if(self._shift_mode._mode_index is 0): #if no shift is pressed
#self._shift_mode._mode_toggle1.turn_off()
#self._shift_mode._mode_toggle2.turn_off()
if(self.split_mixer() is False):
self.set_split_mixer(True)
for zoom in self._zooms:
zoom._on_zoom_value(0)
self.zoom_off()
self._device_selector.set_enabled(False)
for mode in self._function_modes:
mode.set_enabled(False)
self.assign_channel_select_buttons()
#self._recalculate_selected_channel()
#self.assign_transport_to_menu()
self.assign_session_nav_to_menu()
self.l_function_update()
self.r_function_update()
self.assign_crossfader()
self.set_highlighting_session_component(self._session)
self._session._do_show_highlight()
#self._session.set_show_highlight(True)
elif(self._shift_mode._mode_index is 1): #if no shift is pressed, but mixer is linked
#self._shift_mode._mode_toggle1.turn_on()
#self._shift_mode._mode_toggle2.turn_on()
if(self.split_mixer() is True):
self.set_split_mixer(False)
for zoom in self._zooms:
zoom._on_zoom_value(0)
self.zoom_off_m()
self._device_selector.set_enabled(False)
for mode in self._function_modes:
mode.set_enabled(False)
self.assign_main_channel_select_buttons()
self.assign_session_main_nav_to_menu()
self.m_function_update()
self.assign_crossfader()
self.set_highlighting_session_component(self._session_main)
self._session_main._do_show_highlight()
elif(self._shift_mode._mode_index > 1): #if a shift is pressed
self.assign_device_nav_to_menu()
self.deassign_channel_select_buttons()
if(self._shift_mode._mode_index is 2): #if shift left
#self._shift_mode._mode_toggle1.turn_on()
self.zoom_left()
self._session_zoom._on_zoom_value(1)
self._session.set_enabled(True) #this is a workaround so that the stop buttons still function
self._l_function_mode.set_enabled(True)
self.set_highlighting_session_component(self._session)
self._session._do_show_highlight()
elif(self._shift_mode._mode_index is 3): #if shift right
#self._shift_mode._mode_toggle2.turn_on()
self.zoom_right()
self._session_zoom2._on_zoom_value(1)
self._session2.set_enabled(True) #this is a workaround so that the stop buttons still function
self._r_function_mode.set_enabled(True)
self.assign_master_fader()
if(self._r_function_mode._mode_index < 4):
self.set_highlighting_session_component(self._session2)
self._session2._do_show_highlight()
elif(self._shift_mode._mode_index is 4): #if either shift pressed while mixer is linked
#self._shift_mode._mode_toggle1.turn_on()
#self._shift_mode._mode_toggle2.turn_on()
self.zoom_main()
self._session_zoom_main._on_zoom_value(1)
self._session_main.set_enabled(True) #this is a workaround so that the stop buttons still function
self._m_function_mode.set_enabled(True)
self.assign_master_fader()
self.set_highlighting_session_component(self._session_main)
self._session_main._do_show_highlight()
self._device_selector.set_enabled(True)
else:
for mode in self._function_modes:
mode.set_enabled(False)
#self.modhandler._shift_value(int(self._shift_mode._mode_index>1))
self.allow_updates(True)
#self.set_suppress_rebuild_requests(False)
self._clutch_device_selection = False
if(self._shift_mode._mode_index < 2):
self._monobridge._send('touch', 'off')
else:
self._monobridge._send('touch', 'on')
"""left control management methods"""
def deassign_dials(self):
for index in range(8):
self._dial[index].use_default_message()
self._dial[index].release_parameter()
self._dial[index].set_enabled(True)
if(self._device._parameter_controls != None):
for control in self._device._parameter_controls:
control.release_parameter()
self._device._parameter_controls = None
self._mixer.selected_strip().set_send_controls(None)
self._mixer.selected_strip().set_volume_control(None)
for track in range(4):
self._mixer.channel_strip(track).set_volume_control(None)
self._mixer.channel_strip(track+4).set_volume_control(None)
self._mixer2.channel_strip(track).set_volume_control(None)
self._mixer2.return_strip(track).set_volume_control(None)
def assign_device_dials(self):
self._ohm_type = OHM_TYPE[0]
self._ohm = OHM_VALUE[0]
self.deassign_dials()
self._device.set_enabled(True)
device_param_controls = []
for index in range(8):
device_param_controls.append(self._dial[index])
self._device.set_parameter_controls(tuple(device_param_controls))
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_send_dials(self):
self._ohm_type = OHM_TYPE[1]
self._ohm = OHM_VALUE[1]
self.deassign_dials()
dials = []
for index in range(4):
dials.append(self._dial[index])
for index in range(4):
if(self._mixer2.return_strip(index)):
self._mixer2.return_strip(index).set_volume_control(self._dial[index + 4])
self._mixer.selected_strip().set_send_controls(tuple(dials))
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_volume_dials(self):
self._ohm_type = OHM_TYPE[2]
self._ohm = OHM_VALUE[2]
self.deassign_dials()
for track in range(8):
self._mixer.channel_strip(track).set_volume_control(self._dial[track])
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_split_volume_dials(self):
self._ohm_type = OHM_TYPE[2]
self._ohm = OHM_VALUE[2]
self.deassign_dials()
for track in range(4):
self._mixer.channel_strip(track).set_volume_control(self._dial[track])
self._mixer2.channel_strip(track).set_volume_control(self._dial[track+4])
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_user_dials(self):
self._ohm_type = OHM_TYPE[3]
self._ohm = OHM_VALUE[3]
self.deassign_dials()
for index in range(8):
self._dial[index].set_channel(L_USER_DIAL_CHAN)
self._dial[index].set_identifier(L_USER_DIAL_MAP[index])
self._dial[index].set_enabled(False)
self._mixer.selected_strip().set_volume_control(self._fader[0])
"""menu button management methods"""
def deassign_menu(self):
self._device.set_lock_button(None)
self._device.set_on_off_button(None)
#self._device_navigator.set_device_nav_buttons(None, None)
self._device_navigator.set_enabled(False)
self._device.set_bank_nav_buttons(None, None)
self._transport.set_play_button(None)
self._transport.set_record_button(None)
self._transport.set_stop_button(None)
self._transport.set_loop_button(None)
self._transport.set_overdub_button(None)
self._session.set_stop_all_clips_button(None)
self._session_main.set_track_bank_buttons(None, None)
self._session_main.set_scene_bank_buttons(None, None)
def assign_device_nav_to_menu(self):
#self._device_navigator.set_device_nav_buttons(self._menu[2], self._menu[3])
self._device_navigator.set_enabled(True)
self._device.set_bank_nav_buttons(self._menu[0], self._menu[1])
def assign_transport_to_menu(self):
self._transport.set_play_button(self._menu[0])
self._transport.set_record_button(self._menu[2])
self._transport.set_stop_button(self._menu[1])
session.set_stop_all_clips_button(self._menu[3])
def assign_session_nav_to_menu(self):
self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_monomod_shift_to_menu(self):
#self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[2])
self._device_navigator.set_enabled(True)
self._device.set_bank_nav_buttons(self._menu[1], self._menu[0])
def assign_session_bank_to_menu(self):
self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_session2_bank_to_menu(self):
self._session2.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session2.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_session_main_nav_to_menu(self):
self._session_main.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session_main.set_scene_bank_buttons(self._menu[1], self._menu[0])
"""channel selection management methods"""
def deassign_channel_select_buttons(self):
for index in range(8):
if(self._mixer.channel_strip(index)):
self._mixer.channel_strip(index).set_select_button(None)
self._grid[index][7].release_parameter()
for index in range(4):
self._mixer2.channel_strip(index).set_select_button(None)
self._mixer2.return_strip(index).set_select_button(None)
self._mixer2.master_strip().set_select_button(None)
self._grid[index + 4][7].release_parameter()
def assign_channel_select_buttons(self):
for index in range(4):
#if(self._mixer.channel_strip(index)):
self._grid[index][7].set_on_off_values(127, 0)
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
if(self._r_function_mode._mode_index < 3):
for index in range(4):
self._grid[index][7].set_on_off_values(127, 0)
self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
else:
for index in range(4):
self._grid[index][7].set_on_off_values(1, 0)
self._mixer2.return_strip(index).set_select_button(self._grid[index + 4][7])
def assign_return_select_buttons(self):
for index in range(4):
self._grid[index + 4][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._grid[index + 4][7].set_on_value(1)
self._mixer.channel_strip(index).set_select_button(self._grid[index + 4][7])
def assign_l_channel_select_buttons(self):
self._mixer.set_select_buttons(None, None)
self._session.set_select_buttons(None, None)
for index in range(4):
self._grid[index][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
def assign_r_channel_select_buttons(self):
self._mixer2.set_select_buttons(None, None)
self._session2.set_select_buttons(None, None)
for index in range(4):
self._grid[index + 4][7].set_off_value(0)
if(self._mixer2.channel_strip(index)):
self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
def assign_main_channel_select_buttons(self):
for index in range(8):
self._grid[index][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._grid[index][7].set_on_value(127)
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
def assign_master_fader(self):
self._mixer.set_crossfader_control(None)
self._mixer.master_strip().set_volume_control(self._fader[1])
def assign_crossfader(self):
self._mixer.master_strip().set_volume_control(None)
self._mixer.set_crossfader_control(self._fader[1])
"""called on timer"""
def update_display(self):
super(BlockMod, self).update_display()
if(self._timer == 0):
self._shift_pressed_timer = -12
def strobe(self):
if(self._ohm_type != 'static'):
if(self._ohm_type is 'pulse'):
self._ohm = int(math.fabs(((self._timer * 8) % 64) -32) +32)
if(self._ohm_type is 'up'):
self._ohm = int(((self._timer * 4) % 64) + 16)
if(self._ohm_type is 'down'):
self._ohm = int(math.fabs(int(((self._timer * 4) % 64) - 64)) + 16)
self._send_midi(tuple([176, 63, int(self._ohm)]))
self._send_midi(tuple([176, 31, int(self._ohm)]))
def handle_sysex(self, midi_bytes):
pass
def _on_session_offset_changes(self):
if self._r_function_mode._mode_index in range(0,4):
self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset()
# a
class AumPC20(APC):
""" Monomodular script for Akai's APC20 Controller """
def __init__(self, c_instance, *a, **k):
self._shift_modes = None
super(AumPC20, self).__init__(c_instance, *a, **k)
def disconnect(self):
self._shift_modes = None
super(AumPC20, self).disconnect()
def _activate_combination_mode(self, track_offset, support_devices):
super(AumPC20,
self)._activate_combination_mode(track_offset, support_devices)
if support_devices:
self._shift_modes.invert_assignment()
def _setup_session_control(self):
is_momentary = True
self._shift_button = AumPCMonoButtonElement(is_momentary,
MIDI_NOTE_TYPE, 0, 81,
'Shift_Button', self)
self._session = APCSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix'
scene_launch_buttons = [
AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
(index + 82),
'Scene_' + str(index) + '_Launch_Button',
self) for index in range(5)
]
self._scene_launch_buttons = scene_launch_buttons
track_stop_buttons = [
AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52,
'Track_' + str(index) + '_Stop_Button',
self) for index in range(8)
]
self._track_stop_buttons = track_stop_buttons
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button'
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = AumPCMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, track_index,
(scene_index + 53),
'_Clip_' + str(scene_index) + '_Button', self)
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = ShiftableZoomingComponent(
self._session, tuple(track_stop_buttons))
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
self._solo_buttons = []
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
solo_button = AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE,
track, 49,
str(track) + '_Solo_Button',
self)
self._solo_buttons.append(solo_button)
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
50)
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
prehear_control = EncoderElement(
MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
master_volume_control.name = 'Master_Volume_Control'
prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_prehear_volume_control(prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
def _setup_custom_components(self):
is_momentary = True
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
80)
master_select_button.name = 'Master_Select_Button'
self._master_select_button = master_select_button
select_buttons = []
arm_buttons = []
sliders = []
for track in range(8):
select_buttons.append(
AumPCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51,
str(track) + '_Select_Button', self))
arm_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
sliders.append(
MonoEncoderElement(MIDI_CC_TYPE, track, 7,
Live.MidiMap.MapMode.absolute,
'Slider_' + str(track), track, self))
select_buttons[-1].name = str(track) + '_Select_Button'
arm_buttons[-1].name = str(track) + '_Arm_Button'
#sliders[-1].name = str(track) + '_Volume_Control'
self._select_buttons = select_buttons
transport = TransportComponent()
transport.name = 'Transport'
slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
slider_modes.name = 'Slider_Modes'
self._shift_modes = AumPC20ShiftableSelectorComponent(
tuple(select_buttons), master_select_button, tuple(arm_buttons),
self._matrix, self._session, self._session_zoom, self._mixer,
transport, slider_modes, self._send_introduction_message, self)
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
self._device = DeviceComponent()
def _product_model_id_byte(self):
return 123
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_monomod(self):
self._host = AumPC20MonomodComponent(self)
self._host.name = 'Monomod_Host'
self._host._navbox_selected = 16
self._host._navbox_unselected = 1
self.hosts = [self._host]
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
for row in range(5):
button_row = []
for column in range(8):
button_row.append(self._matrix.get_button(column, row))
self._monomod.add_row(tuple(button_row))
self._monomod.add_row(tuple(self._track_stop_buttons))
self._monomod.add_row(tuple(self._select_buttons))
self._monomod.add_row(tuple(self._solo_buttons))
self._monomod_mode = MonomodModeComponent(self._monomod_mode_update,
self)
self._monomod_mode.name = "Monomod_Mode_Component"
#self._shift_button.add_value_listener(self._shift_value)
def _shift_value(self, value):
if value > 0:
self._mixer.master_strip().set_select_button(None)
self._monomod_mode.set_mode_toggle(self._master_select_button)
else:
self._mixer.master_strip().set_select_button(
self._master_select_button)
self._monomod_mode.set_mode_toggle(None)
def _monomod_mode_update(self):
self.log_message('mode update: ' + str(self._monomod_mode._mode_index))
if (self._monomod_mode._mode_index == 0) or (self._host._active_client
== None):
self.flash_status = 0
self._host.set_enabled(False)
self._host._set_button_matrix(None)
#self._host._set_nav_buttons(None)
self._host._set_lock_button(None)
self._host._set_alt_button(None)
self._host._set_shift_button(None)
self._host._set_nav_buttons(None)
self._scene_launch_buttons[2].set_on_off_values(127, 0)
self._scene_launch_buttons[3].set_on_off_values(127, 0)
self._monomod.reset()
self._shift_modes.set_enabled(True)
#self._session.set_track_bank_buttons(self._right_button, self._left_button)
#self._session.set_scene_bank_buttons(self._down_button, self._up_button)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(
self._select_buttons[track])
self._mixer.channel_strip(track).set_solo_button(
self._solo_buttons[track])
#self._transport.set_nudge_buttons(self._nudge_up_button, self._nudge_down_button)
self._session.set_enabled(True)
self._session_zoom._is_zoomed_out = False
self._session_zoom.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_off()
elif (self._monomod_mode._mode_index == 1):
if self._shift_modes._note_mode_active is True:
self._shift_modes._mode_callback(ABLETON_MODE)
self._shift_modes._note_mode_active = False
self._session_zoom.set_ignore_buttons(False)
self._shift_modes._transport.update()
self._shift_modes._on_note_mode_changed()
#self._transport.set_nudge_buttons(None, None)
self._shift_modes.set_enabled(False)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
self._mixer.channel_strip(track).set_solo_button(None)
for scene in range(5):
self._scene_launch_buttons[scene].turn_off()
self._session.set_enabled(False)
self._session_zoom.set_enabled(False)
#self._session.set_track_bank_buttons(None, None)
#self._session.set_scene_bank_buttons(None, None)
self.flash_status = 1
self._monomod.reset()
self._host._set_button_matrix(self._monomod)
#self._host._set_nav_buttons([self._up_button, self._down_button, self._left_button, self._right_button])
self._host._set_shift_button(self._shift_button)
self._host._set_lock_button(self._scene_launch_buttons[0])
self._host._set_alt_button(self._scene_launch_buttons[1])
self._host._set_nav_buttons(
[self._scene_launch_buttons[2], self._scene_launch_buttons[3]])
self._host.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_on()
#self.log_message('mod mode')
"""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, MonoEncoderElement):
self._monobridge._send(sender.name, 'lcd_name',
str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value',
str(self.generate_strip_string(value)))
def touched(self):
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched += 1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
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
def update_display(self):
super(AumPC20, self).update_display()
self._timer = (self._timer + 1) % 256
self.flash()
def flash(self):
if self.flash_status:
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def set_appointed_device(self, *a, **k):
pass
def _setup_session_control(self):
self.session = CustomSessionComponent(self.box_width, self.box_height,
self) # subclass from _Framework
is_momentary = True # what exactly does this do in the _Framework?
if up_button_note_number >= 0 and down_button_note_number >= 0: # opt in enable UP/DOWN nav
up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
midi_channel, up_button_note_number)
up_button.name = 'Bank_Select_Up_Button' # sure, why not
down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
midi_channel, down_button_note_number)
down_button.name = 'Bank_Select_Down_Button' #sure, why not
self.session.set_scene_bank_buttons(down_button, up_button)
if right_button_note_number >= 0 and left_button_note_number >= 0: # opt in enable LEFT/RIGHT nav
right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
midi_channel,
right_button_note_number)
right_button.name = 'Bank_Select_Right_Button' #sure, why not
left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
midi_channel, left_button_note_number)
left_button.name = 'Bank_Select_Left_Button' #sure, why not
self.session.set_track_bank_buttons(right_button, left_button)
self.session.name = 'Session_Control' #sure, why not
matrix = ButtonMatrixElement(
) # @todo subclass this via established new patterns
matrix.name = 'Button_Matrix' #sure, why not
# I loop a little different. The goal is readbility, flexibility, and the web app...incase you did not notice yet
if len(scene_launch_notes) > 0 and len(
scene_launch_notes
) == self.box_height: # logic check have launch notes and scene = box height
for index in range(self.box_height):
self.session.scene(index).set_launch_button(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel,
scene_launch_notes[index]))
else:
self.log_message(
"..::|| Scene launch not in use or error on case of use. Modern.DJ ||::.."
)
if len(stop_track_buttons) > 0 and len(
stop_track_buttons
) == self.box_width: #logic check have track stop assignments and
track_stop_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel,
stop_track_buttons[index])
for index in range(len(stop_track_buttons))
]
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button' # sure, why not
self.session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
else:
self.log_message(
"..::|| Stop notes not in use or error found Modern.DJ ||::..")
# Check for stop all clips option
if stop_all_clips >= 0:
self.session.set_stop_all_clips_button(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel,
stop_all_clips))
# creating the matrix of buttons from the launch_button_list (tuple)
launch_button_list_len = len(
launch_button_list
) # var used multiple times. This is a performance modification
if (
self.box_height * self.box_width
) == launch_button_list_len: # check box size against number of button vars sent
launch_ctr = launch_button_list_len - 1 # decrement for zero offset in list/tuple
launch_button_list.reverse(
) #reverse list from human readable for decrement use (performance tweak)
## check for use of RGB
if use_velocity_for_RGB != 1: # if not enabled use these defaults
self.log_message(
"..::|| RGB not in effect assigning defaults ||::..")
self.clip_loaded_stopped = 1
self.clip_currently_playing = 127
self.clip_triggered_to_play = 64
else: # yes RGB in effect...assign per the parameters script
self.clip_loaded_stopped = clip_loaded_stopped
self.clip_currently_playing = clip_currently_playing
self.clip_triggered_to_play = clip_triggered_to_play
for scene_index in range(
self.box_height): # loop on the notes matrix
scene = self.session.scene(
scene_index) # part of the martix built, think rows
scene.name = 'Scene_' + str(scene_index) # sure, why not
button_row = [] # create recepticle
# loop across the tracks
for track_index in range(self.box_width):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
midi_channel,
launch_button_list[launch_ctr]
) # button instance for _Framework
launch_ctr = launch_ctr - 1 # decrement is faster than increment
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button' # sure, why not
button_row.append(button) # add to our growing list
clip_slot = scene.clip_slot(
track_index
) # clips slot and buttons are not the same thing, this aligns these ideas in the red box
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index) # sure, why not
# assign the button and and status in th refrech update
clip_slot.set_stopped_value(
self.clip_loaded_stopped
) # this number is sent back to the machine allowing diff colors for stopped
clip_slot.set_started_value(
self.clip_currently_playing
) # this number is sent back to the machine allowing diff colors for started/is-playing
clip_slot.set_triggered_to_play_value(
self.clip_triggered_to_play
) # this number is sent back to the machine allowing diff colors for cued, will play next
clip_slot.set_launch_button(
button) # part of the slit+button = go time paradigm
matrix.add_row(
tuple(button_row)
) # close out the matrix build. @todo - possible subclass here?
else: # log message
self.log_message(
"..::|| Number of notes defined does not match box height and width Modern.DJ ||::.."
)
''' live 9 only
self.set_highlighting_session_component(self.session) # new for live9 -- this is for the box. via aumhaa/bitnomad
'''
return None
class APC40(APC, OptimizedControlSurface):
""" Script for Akai's APC40 Controller """
def __init__(self, *a, **k):
super(APC40, self).__init__(*a, **k)
self._color_skin = make_biled_skin()
self._default_skin = make_default_skin()
with self.component_guard():
self._create_controls()
self._create_session()
self._create_mixer()
self._create_device()
self._create_detail_view_control()
self._create_transport()
self._create_global_control()
self._create_fallback_control_owner()
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
self.set_device_component(self._device)
for component in self.components:
component.set_enabled(False)
self._device_selection_follows_track_selection = True
def _with_shift(self, button):
return ComboElement(button, modifiers=[self._shift_button])
def _create_controls(self):
make_on_off_button = partial(make_button, skin=self._default_skin)
make_color_button = partial(make_button, skin=self._color_skin)
self._shift_button = make_button(0,
98,
resource_type=PrioritizedResource,
name='Shift_Button')
self._right_button = make_button(0,
96,
name='Bank_Select_Right_Button')
self._left_button = make_button(0, 97, name='Bank_Select_Left_Button')
self._up_button = make_button(0, 94, name='Bank_Select_Up_Button')
self._down_button = make_button(0, 95, name='Bank_Select_Down_Button')
self._session_matrix = ButtonMatrixElement(name='Button_Matrix')
self._scene_launch_buttons_raw = [
make_color_button(0,
index + 82,
name='Scene_%d_Launch_Button' % index)
for index in xrange(SESSION_HEIGHT)
]
self._track_stop_buttons = [
make_color_button(index, 52, name='Track_%d_Stop_Button' % index)
for index in xrange(SESSION_WIDTH)
]
self._stop_all_button = make_color_button(0,
81,
name='Stop_All_Clips_Button')
self._matrix_rows_raw = [[
make_color_button(track_index,
scene_index + 53,
name='%d_Clip_%d_Button' %
(track_index, scene_index))
for track_index in xrange(SESSION_WIDTH)
] for scene_index in xrange(SESSION_HEIGHT)]
for row in self._matrix_rows_raw:
self._session_matrix.add_row(row)
self._selected_slot_launch_button = make_pedal_button(
67, name='Selected_Slot_Launch_Button')
self._selected_scene_launch_button = make_pedal_button(
64, name='Selected_Scene_Launch_Button')
self._volume_controls = []
self._arm_buttons = []
self._solo_buttons = []
self._mute_buttons = []
self._select_buttons = []
for index in xrange(MIXER_SIZE):
self._volume_controls.append(
make_slider(index, 7, name='%d_Volume_Control' % index))
self._arm_buttons.append(
make_on_off_button(index, 48, name='%d_Arm_Button' % index))
self._solo_buttons.append(
make_on_off_button(index, 49, name='%d_Solo_Button' % index))
self._mute_buttons.append(
make_on_off_button(index, 50, name='%d_Mute_Button' % index))
self._select_buttons.append(
make_on_off_button(index, 51, name='%d_Select_Button' % index))
self._crossfader_control = make_slider(0, 15, name='Crossfader')
self._master_volume_control = make_slider(0,
14,
name='Master_Volume_Control')
self._master_select_button = make_on_off_button(
0, 80, name='Master_Select_Button')
self._prehear_control = make_encoder(0,
47,
name='Prehear_Volume_Control')
self._device_bank_buttons = []
self._device_param_controls_raw = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button',
'Previous_Device_Button', 'Next_Device_Button',
'Detail_View_Button', 'Rec_Quantization_Button',
'Midi_Overdub_Button', 'Metronome_Button')
for index in range(8):
self._device_bank_buttons.append(
make_on_off_button(0,
58 + index,
name=bank_button_labels[index]))
encoder_name = 'Device_Control_%d' % index
ringed_encoder = make_ring_encoder(16 + index,
24 + index,
name=encoder_name)
self._device_param_controls_raw.append(ringed_encoder)
self._play_button = make_button(0, 91, name='Play_Button')
self._stop_button = make_button(0, 92, name='Stop_Button')
self._record_button = make_button(0, 93, name='Record_Button')
self._nudge_up_button = make_button(0, 100, name='Nudge_Up_Button')
self._nudge_down_button = make_button(0, 101, name='Nudge_Down_Button')
self._tap_tempo_button = make_button(0, 99, name='Tap_Tempo_Button')
self._global_bank_buttons = []
self._global_param_controls = []
for index in range(8):
encoder_name = 'Track_Control_%d' % index
ringed_encoder = make_ring_encoder(48 + index,
56 + index,
name=encoder_name)
self._global_param_controls.append(ringed_encoder)
self._global_bank_buttons = [
make_on_off_button(0, 87 + index, name=name)
for index, name in enumerate(('Pan_Button', 'Send_A_Button',
'Send_B_Button', 'Send_C_Button'))
]
self._device_clip_toggle_button = self._device_bank_buttons[0]
self._device_on_off_button = self._device_bank_buttons[1]
self._detail_left_button = self._device_bank_buttons[2]
self._detail_right_button = self._device_bank_buttons[3]
self._detail_toggle_button = self._device_bank_buttons[4]
self._rec_quantization_button = self._device_bank_buttons[5]
self._overdub_button = self._device_bank_buttons[6]
self._metronome_button = self._device_bank_buttons[7]
def wrap_matrix(control_list, wrapper=nop):
return ButtonMatrixElement(rows=[map(wrapper, control_list)])
self._scene_launch_buttons = wrap_matrix(
self._scene_launch_buttons_raw)
self._track_stop_buttons = wrap_matrix(self._track_stop_buttons)
self._volume_controls = wrap_matrix(self._volume_controls)
self._arm_buttons = wrap_matrix(self._arm_buttons)
self._solo_buttons = wrap_matrix(self._solo_buttons)
self._mute_buttons = wrap_matrix(self._mute_buttons)
self._select_buttons = wrap_matrix(self._select_buttons)
self._device_param_controls = wrap_matrix(
self._device_param_controls_raw)
self._device_bank_buttons = wrap_matrix(
self._device_bank_buttons,
partial(DeviceBankButtonElement, modifiers=[self._shift_button]))
self._shifted_matrix = ButtonMatrixElement(
rows=recursive_map(self._with_shift, self._matrix_rows_raw))
self._shifted_scene_buttons = ButtonMatrixElement(rows=[[
self._with_shift(button)
for button in self._scene_launch_buttons_raw
]])
def _create_session(self):
self._session = SessionComponent(
SESSION_WIDTH,
SESSION_HEIGHT,
auto_name=True,
enable_skinning=True,
is_enabled=False,
layer=Layer(track_bank_left_button=self._left_button,
track_bank_right_button=self._right_button,
scene_bank_up_button=self._up_button,
scene_bank_down_button=self._down_button,
stop_all_clips_button=self._stop_all_button,
stop_track_clip_buttons=self._track_stop_buttons,
scene_launch_buttons=self._scene_launch_buttons,
clip_launch_buttons=self._session_matrix,
slot_launch_button=self._selected_slot_launch_button,
selected_scene_launch_button=self.
_selected_scene_launch_button))
self._session_zoom = SessionZoomingComponent(
self._session,
name='Session_Overview',
enable_skinning=True,
is_enabled=False,
layer=Layer(button_matrix=self._shifted_matrix,
nav_up_button=self._with_shift(self._up_button),
nav_down_button=self._with_shift(self._down_button),
nav_left_button=self._with_shift(self._left_button),
nav_right_button=self._with_shift(self._right_button),
scene_bank_buttons=self._shifted_scene_buttons))
def _create_mixer(self):
self._mixer = MixerComponent(
MIXER_SIZE,
auto_name=True,
is_enabled=False,
invert_mute_feedback=True,
layer=Layer(volume_controls=self._volume_controls,
arm_buttons=self._arm_buttons,
solo_buttons=self._solo_buttons,
mute_buttons=self._mute_buttons,
track_select_buttons=self._select_buttons,
shift_button=self._shift_button,
crossfader_control=self._crossfader_control,
prehear_volume_control=self._prehear_control))
self._mixer.master_strip().layer = Layer(
volume_control=self._master_volume_control,
select_button=self._master_select_button)
def _create_device(self):
self._device = DeviceComponent(
name='Device_Component',
is_enabled=False,
layer=Layer(bank_buttons=self._device_bank_buttons,
on_off_button=self._device_on_off_button),
use_fake_banks=True)
ChannelTranslationSelector(8, name='Control_Translations')
self._device.set_parameter_controls(
tuple(self._device_param_controls_raw))
def _create_detail_view_control(self):
self._detail_view_toggler = DetailViewCntrlComponent(
name='Detail_View_Control',
is_enabled=False,
layer=Layer(
device_clip_toggle_button=self._device_clip_toggle_button,
detail_toggle_button=self._detail_toggle_button,
device_nav_left_button=self._detail_left_button,
device_nav_right_button=self._detail_right_button))
def _create_transport(self):
self._transport = TransportComponent(
name='Transport',
is_enabled=False,
layer=Layer(play_button=self._play_button,
stop_button=self._stop_button,
record_button=self._record_button,
nudge_up_button=self._nudge_up_button,
nudge_down_button=self._nudge_down_button,
tap_tempo_button=self._tap_tempo_button,
quant_toggle_button=self._rec_quantization_button,
overdub_button=self._overdub_button,
metronome_button=self._metronome_button))
self._bank_button_translator = ChannelTranslationSelector(
name='Bank_Button_Translations', is_enabled=False)
def _create_global_control(self):
def set_pan_controls():
for index, control in enumerate(self._global_param_controls):
self._mixer.channel_strip(index).set_pan_control(control)
self._mixer.channel_strip(index).set_send_controls(
(None, None, None))
control.set_channel(0)
def set_send_controls(send_index):
for index, control in enumerate(self._global_param_controls):
self._mixer.channel_strip(index).set_pan_control(None)
send_controls = [None] * 3
send_controls[send_index] = control
self._mixer.channel_strip(index).set_send_controls(
send_controls)
control.set_channel(send_index + 1)
encoder_modes = ModesComponent(name='Track_Control_Modes',
is_enabled=False)
encoder_modes.add_mode('pan', [set_pan_controls])
encoder_modes.add_mode('send_a', [partial(set_send_controls, 0)])
encoder_modes.add_mode('send_b', [partial(set_send_controls, 1)])
encoder_modes.add_mode('send_c', [partial(set_send_controls, 2)])
encoder_modes.selected_mode = 'pan'
encoder_modes.layer = Layer(pan_button=self._global_bank_buttons[0],
send_a_button=self._global_bank_buttons[1],
send_b_button=self._global_bank_buttons[2],
send_c_button=self._global_bank_buttons[3])
self._translation_selector = ChannelTranslationSelector(
name='Global_Translations')
def _create_fallback_control_owner(self):
self.register_disconnectable(
SimpleLayerOwner(
layer=Layer(_matrix=self._session_matrix,
priority=FALLBACK_CONTROL_OWNER_PRIORITY)))
def get_matrix_button(self, column, row):
return self._matrix_rows_raw[row][column]
def _product_model_id_byte(self):
return 115
class Tweaker(ControlSurface):
__module__ = __name__
__doc__ = " MonOhmod companion controller script "
def __init__(self, c_instance):
"""everything except the '_on_selected_track_changed' override and 'disconnect' runs from here"""
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._update_linked_device_selection = None
self._tweaker_version = '0.2'
self.log_message("--------------= Tweaker Mixer " + str(self._tweaker_version) + " log opened =--------------")
self._update_linked_device_selection = None
self._setup_mixer_control()
self._setup_session_control()
"""script initialization methods"""
def _setup_controls(self):
is_momentary = True
self._grid = [None for index in range(8)]
for column in range(8):
self._grid[column] = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column + (row * 8), 'Grid_' + str(column) + '_' + str(row), self) for row in range(4)]
self._button = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_BUTTONS[index], 'Button_' + str(index), self) for index in range(len(TWEAKER_BUTTONS))]
self._nav = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_NAVS[index], 'Nav_' + str(index), self) for index in range(len(TWEAKER_NAVS))]
self._encoder_buttons = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_ENCODER_BUTTONS[index], 'Encoder_Button_' + str(index), self) for index in range(len(TWEAKER_ENCODER_BUTTONS))]
self._dial = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_DIALS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_DIALS))]
self._fader = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_FADERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_FADERS))]
self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute)
self._encoder = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_ENCODERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_ENCODERS))]
self._pad = [FlashingButtonElement(not is_momentary, MIDI_CC_TYPE, CHANNEL, TWEAKER_PADS[index], 'Pad_' + str(index), self) for index in range(len(TWEAKER_PADS))]
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
for row in range(4):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_mixer_control(self):
is_momentary = True
self._num_tracks = (2) #A mixer is one-dimensional;
self._mixer = MixerComponent(2, 0, False, True)
self._mixer.name = 'Mixer'
self._mixer.tracks_to_use = self._mixer_tracks_to_use(self._mixer)
self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
def _setup_session_control(self):
is_momentary = True
num_tracks = 2
num_scenes = 3
self._session = SessionComponent(num_tracks, num_scenes)
self._session.name = "Session"
self._session.set_offsets(0, 0)
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
"""general functionality"""
def allow_updates(self, allow_updates):
for component in self.components:
component.set_allow_update(int(allow_updates!=0))
def disconnect(self):
"""clean things up on disconnect"""
if self._session._is_linked():
self._session._unlink()
self.log_message("--------------= Tweaker Mixer " + str(self._tweaker_version) + " log closed =--------------") #Create entry in log file
ControlSurface.disconnect(self)
return None
def connect_script_instances(self, instanciated_scripts):
link = False
for s in instanciated_scripts:
if '_tweaker_version' in dir(s):
if s._tweaker_version == self._tweaker_version:
link = True
if not s is self:
s._linked_session = self._session
#break
if link is True:
if not self._session._is_linked():
#self._session.set_offsets(0, 0)
self._session._link()
def _mixer_tracks_to_use(self, mixer):
def tracks_to_use():
return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks)
return tracks_to_use
# a
class 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 Lemaur256(ControlSurface):
__module__ = __name__
__doc__ = " Lemaur256 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("--------------= Lemaur256 log opened =--------------")
self._suggested_input_port = 'None'
self._suggested_output_port = 'None'
self.set_suppress_rebuild_requests(True)
self._monomod_version = 'b994'
self._host_name = 'AumPad'
self._color_type = 'AumPad'
self.connected = 0
self.hosts = []
self._osc_registry = {}
self._bright = True
self._rgb = 0
self._timer = 0
self.flash_status = 1
self._setup_monobridge()
self._setup_controls()
self._setup_monomod()
self._setup_touchosc()
self._host2._set_shift_button(self._bank_button[0])
self._host2._set_alt_button(self._bank_button[1])
self._host2._set_button_matrix(self._monomod256)
self._host2._set_key_buttons(self._key_button)
self._host2.set_enabled(True)
self.set_suppress_rebuild_requests(False)
self.reset()
self.refresh_state()
self.show_message('Aum256 Control Surface Loaded')
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._monomod256 = ButtonMatrixElement()
self._monomod256.name = 'Monomod256'
self._square = [None for index in range(16)]
for column in range(16):
self._square[column] = [None for index in range(16)]
for row in range(16):
self._square[column][row] = OSCFlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, int(column/8) + 1, row + ((column%8) * 16), '256Grid_' + str(column) + '_' + str(row), '/Grid_'+str(column)+'_'+str(row), '/Grid/set '+str(column)+' '+str(row), None, self)
for row in range(16):
button_row = []
for column in range(16):
button_row.append(self._square[column][row])
self._monomod256.add_row(tuple(button_row))
#self._bank_buttons = ButtonMatrixElement()
self._key_buttons = ButtonMatrixElement()
self._bank_button = [None for index in range(2)]
for index in range(2):
self._bank_button[index] = OSCFlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index, '256Grid_Bank_' + str(index), '/Shift_'+str(index), '/Shift/set '+str(index), None, self)
#button_row = []
#for index in range(2):
# button_row.append(self._bank_button[index])
#self._bank_buttons.add_row(tuple(button_row))
button_row = []
self._key_button = [None for index in range(8)]
for index in range(8):
self._key_button[index] = OSCFlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index+8, '256Grid_Key_' + str(index), '/Keys_'+str(index), '/Keys/set '+str(index), None, self)
for index in range(8):
button_row.append(self._key_button[index])
self._key_buttons.add_row(tuple(button_row))
def _setup_monomod(self):
self._host2 = SpecialMonomodComponent(self)
self._host2.name = '256_Monomod_Host'
self.hosts = [self._host2]
def _setup_touchosc(self):
self._osc_registry = {}
self._osc_registry['/ping'] = self._monobridge.ping
self._osc_registry['/1'] = self._monobridge.page1
for control in self.controls:
if hasattr(control, 'osc'):
self._osc_registry[control.osc] = control.set_value
#if hasattr(control, 'osc_alt'):
# self._osc_registry[control.osc_alt] = control.set_value
"""called on timer"""
def update_display(self):
ControlSurface.update_display(self)
self._timer = (self._timer + 1) % 256
self.flash()
def flash(self):
if(self.flash_status > 0):
for control in self.controls:
if isinstance(control, OSCFlashingButtonElement):
control.flash(self._timer)
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 9
if (not display_string):
#return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
return ('`_')
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ',
'i',
'o',
'u',
'e',
'a']:
while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
else:
display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return '`' + ret.replace(' ', '_')
def notification_to_bridge(self, name, value, sender):
if(isinstance(sender, MonoEncoderElement2)):
#self.log_message(str(name) + str(value) + str(sender.num))
self._monobridge._send('lcd_name', sender.name, self.generate_strip_string(str(name)))
self._monobridge._send('lcd_value', sender.name, self.generate_strip_string(str(value)))
def clip_name(self, sender, name):
self._monobridge._send_osc(sender.osc_name, self.generate_strip_string(str(name)))
def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip():
clip_names.append(clip_slot._clip_slot)##.clip.name)
return clip_slot._clip_slot
##self.log_message(str(clip_slot._clip_slot.clip.name))
return clip_names
"""midi functionality"""
def max_to_midi(self, message): #takes a 'tosymbol' list from Max, such as "240 126 0 6 1 247"
msg_str = str(message) #gets rid of the quotation marks which 'tosymbol' has added
midi_msg = tuple(int(s) for s in msg_str.split()) #converts to a tuple
self._send_midi(midi_msg) #sends to controller
def max_from_midi(self, message): #takes a 'tosymbol' list from Max, such as "240 126 0 6 1 247"
msg_str = str(message) #gets rid of the quotation marks which 'tosymbol' has added
midi_msg = tuple(int(s) for s in msg_str.split()) #converts to a tuple
self.receive_external_midi(midi_msg) #sends to controller
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 receive_external_midi(self, midi_bytes):
#self.log_message('receive_external_midi' + str(midi_bytes))
assert (midi_bytes != None)
assert isinstance(midi_bytes, tuple)
self.set_suppress_rebuild_requests(True)
if (len(midi_bytes) is 3):
msg_type = (midi_bytes[0] & 240)
forwarding_key = [midi_bytes[0]]
self.log_message(str(self._forwarding_registry))
if (msg_type is not MIDI_PB_TYPE):
forwarding_key.append(midi_bytes[1])
recipient = self._forwarding_registry[tuple(forwarding_key)]
self.log_message('receive_midi recipient ' + str(recipient))
if (recipient != None):
recipient.receive_value(midi_bytes[2])
else:
self.handle_sysex(midi_bytes)
self.set_suppress_rebuild_requests(False)
"""general functionality"""
def disconnect(self):
"""clean things up on disconnect"""
#self._disconnect_notifier.set_mode(0)
self.log_message("--------------= Lemaur256 log closed =--------------") #Create entry in log file
ControlSurface.disconnect(self)
return None
def allow_updates(self, allow_updates):
for component in self.components:
component.set_allow_update(int(allow_updates!=0))
def _set_brightness(self, value):
#self._bright = (value != 0)
#for control in self.controls:
# if isinstance(control, OSCFlashingButtonElement):
# self._monobridge._send_osc(control.osc_alt, int(self._bright), True)
pass
def reset(self):
for control in self.controls:
control.reset()
class MonoWing(ControlSurface):
def __init__(self, *a, **k):
super(MonoWing, self).__init__(*a, **k)
self._monomod_version = 'b995'
self._codec_version = 'b996'
self._cntrlr_version = 'b996'
self._cntrlr = None
self._host_name = 'MonoWing'
self._color_type = 'OhmRGB'
self.hosts = []
self._timer = 0
self.flash_status = 0
self._touched = 0
self._last_main_mode = 'looper'
with self.component_guard():
self._setup_monobridge()
self._setup_controls()
self._setup_looper()
self._setup_launcher()
self._setup_device_control()
self._setup_modes()
self.schedule_message(1, self._open_log)
#self._loop_selector.set_enabled(True)
"""script initialization methods"""
def _open_log(self):
self.log_message("<<<<<<<<<<<<<<<<<<<<= " + str(self._host_name) + " " + str(self._monomod_version) + " log opened =>>>>>>>>>>>>>>>>>>>")
self.show_message(str(self._host_name) + ' Control Surface Loaded')
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
self._pedal = [None for index in range(12)]
for index in range(9):
self._pedal[index] = DoublePressElement(MonoButtonElement(True, MIDI_NOTE_TYPE, 0, PEDAL_DEFS[index], 'Pedal_'+str(index), self))
#is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self
self._pedal[index].name = 'Pedal_'+str(index)
self._pedal[index]._report = False
self._pedal[9] = LoopPedalExpressionElement(self, MIDI_CC_TYPE, 0, 3, Live.MidiMap.MapMode.absolute)
self._pedal[9].name = 'Pedal_'+str(9)
self._pedal[9]._report = False
self._pedal[10] = LoopPedalExpressionElement(self, MIDI_CC_TYPE, 0, 1, Live.MidiMap.MapMode.absolute)
self._pedal[10].name = 'Pedal_'+str(10)
self._pedal[10]._report = False
self._pedal[11] = LoopPedalExpressionElement(self, MIDI_CC_TYPE, 0, 2, Live.MidiMap.MapMode.absolute)
self._pedal[11].name = 'Pedal_'+str(11)
self._pedal[11]._report = False
self._leds = [self._pedal[6], self._pedal[5], self._pedal[4], self._pedal[3]]
self._side_buttons = [MonoButtonElement(True, MIDI_NOTE_TYPE, 0, SIDE_DEFS[index], 'Side_Button_'+str(index), self) for index in range(4)]
self._select_buttons = ButtonMatrixElement()
self._select_buttons.name = 'SelectMatrix'
self._select_buttons.add_row([self._pedal[6], self._pedal[5], self._pedal[4], self._pedal[3]])
self._doublepress_select_buttons = ButtonMatrixElement()
self._doublepress_select_buttons.name = 'DoublepressSelectMatrix'
self._doublepress_select_buttons.add_row([self._pedal[6].double_press, self._pedal[5].double_press, self._pedal[4].double_press, self._pedal[3].double_press])
self._record_button = self._pedal[1]
self._mute_button = self._pedal[2]
self._overdub_button = self._pedal[0]
self._clear_button = self._pedal[7]
self._reverse_button = self._pedal[8]
self._record_button.turn_off()
self._mute_button.turn_off()
self._overdub_button.turn_off()
self._clear_button.turn_off()
self._reverse_button.turn_off()
def _setup_looper(self):
self._looper = MonolooperComponent(self._leds, self)
self._looper.layer = Layer(select_buttons = self._select_buttons,
doublepress_select_buttons = self._doublepress_select_buttons,
overdub_button = self._pedal[2],
record_button = self._pedal[1],
mute_button = self._pedal[0],
clear_button = self._pedal[7],
reverse_button = self._pedal[8],
expression_pedal = self._pedal[9],)
def _setup_launcher(self):
self._launcher = LauncherComponent(self._leds, self)
self._launcher.set_enabled(False)
self._launcher.layer = Layer(select_buttons = self._select_buttons,
doublepress_select_buttons = self._doublepress_select_buttons,
fire1_button = self._pedal[2],
fire2_button = self._pedal[1],
fire3_button = self._pedal[0],
fire4_button = self._pedal[8],
expression_pedal = self._pedal[9])
def _setup_device_control(self):
self._device_control = DeviceControlComponent(self._leds, self)
self._device_control.set_enabled(False)
self._device_control.layer = Layer(select_buttons = self._select_buttons,
doublepress_select_buttons = self._doublepress_select_buttons,
toggle1_button = self._pedal[2],
toggle2_button = self._pedal[1],
toggle3_button = self._pedal[0],
toggle4_button = self._pedal[8],
expression_pedal = self._pedal[9],
expression2 = self._pedal[10],
expression3 = self._pedal[11])
def _setup_modes(self):
self._button_modes = ModesComponent(name='Button_Modes')
self._button_modes.add_mode('launcher', self._launcher)
self._button_modes.add_mode('looper', self._looper)
self._button_modes.add_mode('device', self._device_control)
self._button_modes.selected_mode = 'looper'
self._button_modes.layer = Layer(looper_button = self._side_buttons[0], launcher_button = self._side_buttons[1], device_button = self._side_buttons[2])
self._button_modes.set_enabled(True)
def receive_led(self, button, value):
#self.log_message('receive led: ' + str(index) + ' ' + str(value))
pass
def toggle_mode(self):
self._button_modes.selected_mode = 'launcher' if self._button_modes.selected_mode is 'looper' else 'looper'
self._last_main_mode = self._button_modes.selected_mode
#self.log_message('toggle mode to: ' + str(self._button_modes.selected_mode))
def toggle_device_control(self, x):
self._button_modes.selected_mode = 'device' if not self._button_modes.selected_mode is 'device' else self._last_main_mode
if self._button_modes.selected_mode is 'device':
self._device_control.set_bank(x)
"""called on timer"""
def update_display(self):
super(MonoWing, self).update_display()
self._timer = (self._timer + 1) % 256
self.flash()
def flash(self):
if(self.flash_status > 0):
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
class MidiFighterTwister(ControlSurface):
__module__ = __name__
__doc__ = "MidiFighterTwister class"
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self.__c_instance = c_instance
self.show_message('Script initiated')
self.init()
def init(self):
# initialize listeners, caches and colors
self.flush_all()
self.mf_disable_bank_buttons()
self.mf_init_page_config()
self.mf_init_light_pages()
# Start listeners to call dispatcher
self.song().view.add_detail_clip_listener(
self.dispatch_detail_clip_listener)
self.song().add_current_song_time_listener(
self.dispatch_current_song_time_listener)
self.song().view.add_selected_track_listener(
self.dispatch_selected_track_listener)
self.device_listener_wrapper()
# Initialize the sequencer buttons
self.sequencer_init_buttons()
self.sequencer_init_rotaries()
self.init_clip_page()
self.init_pad_page()
self.init_device_params()
def flush_all(self):
for poti in range(64):
for channel in range(4):
self._send_midi((175 + channel, poti, 0))
def mf_init_page_config(self):
# Initialize configuration parameters
# Sequencer configuration
self.sequencer_page_default_color = 1
self.sequencer_current_page_color_index = self.sequencer_page_default_color
self.sequencer_base_default_note = 36
self.sequencer_current_selected_note = self.sequencer_base_default_note
self.sequencer_clip_position_16th = None
# Midi Channels
self.rotary_midi_channel = 175 + 1
self.ring_midi_channel = 175 + 1
self.switch_midi_channel = 175 + 2
self.light_midi_channel = 175 + 2
# Pages cc map
self.clip_page_cc = range(0, 16)
self.sequencer_page_cc = range(16, 32)
self.note_page_cc = range(32, 48)
self.control_page_cc = range(48, 64)
# Pages init color
self.clip_page_colors = [1] * 16
self.sequencer_page_colors = [self.sequencer_page_default_color] * 16
self.note_page_colors = range(1, 127, 16) * 2
#self.note_page_colors = [0] * 16
self.control_page_colors = [1] * 16
# Status cache for sequencer
self.switch_encoder_status_cache = [False] * 64
# List to store ButtonElements in
self.switch_encoder_buttons = [False] * 64
# Status cache for rotaries
self.rotary_encoder_potis = [False] * 64
def mf_init_light_pages(self):
sequencer_page_map = zip(self.sequencer_page_cc,
self.sequencer_page_colors)
for light_encoder_cc, light_color_cc in sequencer_page_map:
self._mf_set_light(light_encoder_cc, light_color_cc, False)
note_page_map = zip(self.note_page_cc,
self.note_page_colors)
for light_encoder_cc, light_color_cc in note_page_map:
self._mf_set_light(light_encoder_cc, light_color_cc, False)
def _mf_set_light(self, light_encoder_cc, light_color_cc, status):
# Sets color on midi channel 2 (177) end updates status cache
# for sequencer to remember statuses
self._send_midi((self.light_midi_channel, light_encoder_cc,
light_color_cc))
self.switch_encoder_status_cache[light_encoder_cc] = status
def mf_disable_bank_buttons(self):
# Workaround for not sending values to track when pressing bank buttons
self.padm0 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 0)
self.padm1 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 1)
self.padm2 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 2)
self.padm3 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 3)
self.padm0.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm1.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm2.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm3.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
def bank_buttons_dummy(self):
pass
def dispatch_detail_clip_listener(self):
self.current_clip = self.song().view.highlighted_clip_slot.clip
self.init_sequencer()
try:
if self.current_clip.is_midi_clip and not self.current_clip.notes_has_listener:
# Update leds when notes are added or removed
self.current_clip.add_notes_listener(
self._sequencer_update_notes_to_light)
self.init_sequencer()
else:
self.sequencer_reset_colors()
except AttributeError:
pass
def dispatch_current_song_time_listener(self):
self.sequencer_light_follows_beat()
def dispatch_selected_track_listener(self):
self.device_auto_select()
self.device_listener_wrapper()
def device_listener_wrapper(self):
selected_track = self.song().view.selected_track
if not selected_track.devices_has_listener(self.device_auto_select):
self.song().view.selected_track.add_devices_listener(
self.device_auto_select)
# Sequencer
def init_sequencer(self):
self.sequencer_current_selected_note = self.sequencer_base_default_note
self.sequencer_current_page_color_index = self.sequencer_page_default_color
self._sequencer_update_notes_to_light()
def sequencer_init_buttons(self):
for switch_encoder_cc in self.sequencer_page_cc:
self.switch_encoder_buttons[switch_encoder_cc] = ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, switch_encoder_cc)
self.switch_encoder_buttons[switch_encoder_cc].add_value_listener(
self.sequencer_button_press, identify_sender=True)
self.padl14 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 14)
self.padr17 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 17)
self.padl16 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 16)
self.padr19 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 19)
self.padl14.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padr17.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padl16.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padr19.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
def sequencer_init_rotaries(self):
for rotary_encoder_cc in self.sequencer_page_cc:
self.rotary_encoder_potis[rotary_encoder_cc] = EncoderElement( MIDI_CC_TYPE, 0, rotary_encoder_cc, Live.MidiMap.MapMode.absolute)
self.rotary_encoder_potis[rotary_encoder_cc].add_value_listener(self.sequencer_rotary_change, identify_sender=True)
def sequencer_rotary_change(self, value, sender):
try:
self.current_clip
except AttributeError:
return False
if self.current_clip.is_midi_clip:
cc_value = sender._msg_identifier
if value > 0:
if not self.switch_encoder_status_cache[cc_value]:
self._send_midi((self.light_midi_channel,
cc_value,
self.sequencer_current_light_on_color))
self._send_midi((
self.ring_midi_channel, cc_value, 100))
self.switch_encoder_status_cache[cc_value] = True
self.current_clip.set_notes(((self.sequencer_current_selected_note, cc_value % 16 * 0.25, 0.25, value, False),))
elif value == 0:
self._send_midi((self.light_midi_channel,
cc_value, self.sequencer_current_page_color))
self.current_clip.remove_notes(
cc_value % 16 * 0.25,
self.sequencer_current_selected_note,
0.25, 1)
self.switch_encoder_status_cache[cc_value] = False
def sequencer_button_press(self, value, sender):
try:
self.current_clip
except AttributeError:
return False
if self.current_clip.is_midi_clip:
cc_value = sender._msg_identifier
if value > 0:
if not self.switch_encoder_status_cache[cc_value]:
self._send_midi((self.light_midi_channel,
cc_value,
self.sequencer_current_light_on_color))
self.current_clip.set_notes(((
self.sequencer_current_selected_note, cc_value % 16 *
0.25, 0.25, 100, False),))
self.switch_encoder_status_cache[cc_value] = True
self._send_midi((self.ring_midi_channel, cc_value, 100))
else:
self._send_midi((self.light_midi_channel,
cc_value,
self.sequencer_current_page_color))
self._send_midi((self.ring_midi_channel, cc_value, 0))
self.current_clip.remove_notes(
cc_value % 16 * 0.25,
self.sequencer_current_selected_note,
0.25, 1)
self.switch_encoder_status_cache[cc_value] = False
def sequencer_side_button_press(self, value, sender):
try:
cc_value = sender._msg_identifier
if value > 0:
# Note/clolor up/down
if cc_value == 14 and self.sequencer_current_selected_note > 0:
self.sequencer_current_selected_note = self.sequencer_current_selected_note - 1
self.sequencer_current_page_color_index = self.sequencer_current_page_color_index - 16
self._sequencer_update_notes_to_light()
self.sequencer_clip_position_16th = None
self.show_message("Selected Midi Note: "+str(self.sequencer_current_selected_note))
if cc_value == 17 and self.sequencer_current_selected_note < 127:
self.sequencer_current_selected_note = self.sequencer_current_selected_note + 1
self.sequencer_current_page_color_index = self.sequencer_current_page_color_index + 16
self._sequencer_update_notes_to_light()
self.sequencer_clip_position_16th = None
self.show_message("Selected Midi Note: "+str(self.sequencer_current_selected_note))
# New/duplicate clip
if cc_value == 16 and self.sequencer_current_selected_note > 0:
self.duplicate_clip()
if cc_value == 19 and self.sequencer_current_selected_note > 0:
self.session_record()
except AttributeError:
pass
def sequencer_light_follows_beat(self):
try:
if self.current_clip.is_midi_clip:
if self.sequencer_clip_position_16th == None:
self.sequencer_clip_position_16th = int(self.current_clip.playing_position / 0.25)
if self.switch_encoder_status_cache[self.sequencer_page_cc[self.sequencer_clip_position_16th]]:
self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_on_color))
else:
self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_page_color))
elif self.sequencer_clip_position_16th != int(self.current_clip.playing_position/0.25):
if self.switch_encoder_status_cache[self.sequencer_page_cc[self.sequencer_clip_position_16th]]:
self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_on_color))
else:
self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_page_color))
self.sequencer_clip_position_16th = int(self.current_clip.playing_position/0.25)
self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_beat_color))
except IndexError:
pass
@property
def sequencer_current_light_on_color(self):
# light on color to be relative to page color
return self.sequencer_current_page_color + 32 % 128
@property
def sequencer_current_light_beat_color(self):
# light on color to be relative to page color
return self.sequencer_current_page_color + 64 % 128
@property
def sequencer_current_page_color(self):
return self.sequencer_current_page_color_index % 128
def _sequencer_get_midi_notes(self, note):
# self.current_clip.get_notes(start, self.sequencer_current_selected_note,
# selection_length, hight)
try:
return self.current_clip.get_notes(0, note, 4, 1)
except AttributeError:
return []
def _sequencer_update_notes_to_light(self):
self.sequencer_reset_colors()
notes_for_current_selected_note = self._sequencer_get_midi_notes(
self.sequencer_current_selected_note)
for note in notes_for_current_selected_note:
light_encoder_cc = int(note[1]*4+self.sequencer_page_cc[0])
self._send_midi((self.ring_midi_channel, light_encoder_cc, note[3]))
self._mf_set_light(light_encoder_cc,
self.sequencer_current_light_on_color, True)
def sequencer_reset_colors(self):
for light_encoder_cc in self.sequencer_page_cc:
self._mf_set_light(light_encoder_cc,
self.sequencer_current_page_color, False)
self._send_midi((self.ring_midi_channel, light_encoder_cc, 0))
def duplicate_clip(self):
self.log_message("duplicate clip")
#if self._clip_slot and self._clip_slot.has_clip:
# slot_name = self._clip_slot.clip.name
# track = self._clip_slot.canonical_parent
current_track = self.song().view.selected_track
current_clip_slot = self.song().view.highlighted_clip_slot
self.song().duplicate_scene(list(current_track.clip_slots).index(current_clip_slot))
#new_clip = current_track.duplicate_clip_slot(
# list(current_track.clip_slots).index(current_clip_slot)+1)
#self.log_message(new_clip)
#selected_track = self.song().view.selected_track
#selected_track.duplicate_clip_slot(selected_track)
def session_record(self):
self.log_message("session record")
#self.song().trigger_session_record()
# Clip page setion
def init_clip_page(self):
num_tracks = 4
num_scenes = 3
self.flash_status = 1
self.Mixer = MixerComponent(4, 3)
# Volencoder
self.volencoders = [None for index in range(num_tracks)]
for index in range(num_tracks):
self.volencoders[index] = EncoderElement(
MIDI_CC_TYPE, 0, index, Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_volume_control(
self.volencoders[index])
# Sendencoder
for index in range(num_tracks):
encoder_cc_send_1 = index + num_tracks
encoder_cc_send_2 = index + num_tracks * 2
send1 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_1,
Live.MidiMap.MapMode.absolute)
send2 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_2,
Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_send_controls((send1, send2))
# Panencoder
for index in range(num_tracks):
encoder_cc_pan = index + num_tracks * 3
pan = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_pan,
Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_pan_control(pan)
# Arm-/selectbuttons
for index in range(num_tracks):
armbutton = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1,
index + 12)
self.Mixer.channel_strip(index).set_arm_button(armbutton)
self.Mixer.channel_strip(index).set_select_button(armbutton)
# Navigation buttons
self.padl11 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 11)
self.padr8 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 8)
self.padl10 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 10)
self.padr13 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 13)
self.grid = [None for index in range(num_tracks * 3)]
for index in range(num_tracks * 3):
self.grid[index] = ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, index)
self.matrix = ButtonMatrixElement()
for row in range(num_scenes):
button_row = []
for column in range(num_tracks):
button_row.append(self.grid[column+(row*4)])
self.log_message(str(column+(row*4)))
self.matrix.add_row(tuple(button_row))
self.Session = SessionComponent(num_tracks, num_scenes)
self.Session.name = "Session"
self.Session.set_offsets(0, 0)
self.Session.set_mixer(self.Mixer)
self.Session._do_show_highlight()
self.set_highlighting_session_component(self.Session)
self.Session.set_track_bank_buttons(self.padl11, self.padr8)
self.Session.set_scene_bank_buttons(self.padr13, self.padl10)
self.scene = [None for index in range(num_scenes)]
for row in range(num_scenes):
self.scene[row] = self.Session.scene(row)
self.scene[row].name = 'Scene_'+str(row)
for column in range(num_tracks):
clip_slot = self.scene[row].clip_slot(column)
clip_slot.name = str(column)+'_Clip_Slot'+str(row)
self.scene[row].clip_slot(column).set_triggered_to_play_value(35)
self.scene[row].clip_slot(column).set_stopped_value(68)
self.scene[row].clip_slot(column).set_started_value(45)
self.scene[row].clip_slot(column).set_triggered_to_record_value(100)
self.scene[row].clip_slot(column).set_recording_value(80)
for column in range(num_tracks):
for row in range(num_scenes):
self.scene[row].clip_slot(column).set_launch_button(self.grid[column+(row*4)])
for index in range(num_tracks*num_scenes):
self.grid[index].clear_send_cache()
def update_display(self):
# Called every 100 ms
ControlSurface.update_display(self)
self.refresh_state()
self.Session.set_enabled(True)
self.Session.update()
# Sequencer hack
try:
for light_encoder_cc in self.sequencer_page_cc:
self._send_midi((self.ring_midi_channel, light_encoder_cc, 0))
notes_for_current_selected_note = self._sequencer_get_midi_notes(
self.sequencer_current_selected_note)
for note in notes_for_current_selected_note:
light_encoder_cc = int(note[1]*4+self.sequencer_page_cc[0])
self._send_midi((self.ring_midi_channel, light_encoder_cc,
note[3]))
except AttributeError:
pass
# Pad Section
def init_pad_page(self):
self.pad_device_params()
PAD_TRANSLATION = (
(0, 0, 32, 1), (1, 0, 33, 1), (2, 0, 34, 1), (3, 0, 35, 1),
(0, 1, 36, 1), (1, 1, 37, 1), (2, 1, 38, 1), (3, 1, 39, 1),
(0, 2, 40, 1), (1, 2, 41, 1), (2, 2, 42, 1), (3, 2, 43, 1),
(0, 3, 44, 1), (1, 3, 45, 1), (2, 3, 46, 1), (3, 3, 47, 1))
self.set_pad_translations(PAD_TRANSLATION)
self._device_selection_follows_track_selection = True
def pad_device_params(self):
device_param_controls = []
for param in self.note_page_cc[:8]:
self.rotary_encoder_potis[param] = EncoderElement(
MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute)
self.rotary_encoder_potis[param].release_parameter()
self.rotary_encoder_potis[param].send_value(0, True)
self.rotary_encoder_potis[param].clear_send_cache()
device_param_controls.append(self.rotary_encoder_potis[param])
device = DeviceComponent()
device.name = 'Device_Component pad'
device.set_parameter_controls(tuple(device_param_controls))
self.set_device_component(device)
#def scrolling(self):
# self.application().view.scroll_view(ndir, 'Detail/DeviceChain', True)
# Live.Song.Song.View.selected_track
#Live.Song.Song.View.select_device()[0]
# Device parameter section
def init_device_params(self):
device_param_controls = []
device_bank_buttons = []
for param in self.control_page_cc[:8]:
self.rotary_encoder_potis[param] = EncoderElement(
MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute)
self.switch_encoder_buttons[param] = ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, param)
self.rotary_encoder_potis[param].release_parameter()
self.rotary_encoder_potis[param].send_value(0, True)
self.rotary_encoder_potis[param].clear_send_cache()
device_param_controls.append(self.rotary_encoder_potis[param])
device_bank_buttons.append(self.switch_encoder_buttons[param])
device = DeviceComponent()
device.name = 'Device_Component'
device.set_parameter_controls(tuple(device_param_controls))
device.set_bank_buttons(tuple(device_bank_buttons))
device.set_on_off_button(ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, 56))
self.set_device_component(device)
def device_auto_select(self):
# Iterates through devices within a track and assigns the first
# DrumPad device to activate the individual drum's device.
# Use first device in case none is a DrumPad device.
selected_track = self.song().view.selected_track
devices = selected_track.devices
for device in devices:
if device.can_have_drum_pads:
self.current_drum_device = device
pad_device = self.current_drum_device.view.selected_chain.devices[0]
self.song().view.select_device(pad_device)
if not self.current_drum_device.view.selected_drum_pad_has_listener(
self.device_update_current_note):
self.current_drum_device.view.add_selected_drum_pad_listener(
self.device_update_current_note)
break
else:
self.song().view.select_device(devices[0])
def device_update_current_note(self):
current_note = self.current_drum_device.view.selected_drum_pad.note
self.sequencer_current_selected_note = current_note
# Update light of active pad
#self._send_midi((self.light_midi_channel, light_encoder_cc, 63))
try:
self.current_clip = self.song().view.highlighted_clip_slot.clip
self.current_clip.is_midi_clip
self._sequencer_update_notes_to_light()
except AttributeError:
pass
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._monomod_version = 'b995'
self._host_name = 'LaunchMod'
self._color_type = 'Launchpad'
self.hosts = []
self._timer = 0
self._suppress_send_midi = True
self._suppress_session_highlight = True
self._suppress_highlight = False
is_momentary = True
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(
is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(
self._user_byte_value)
self._wrote_user_byte = False
self._challenge = Live.Application.get_random_int(
0, 400000000) & 2139062143
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = [
ConfigurableButtonElement(
is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column),
str(column) + '_Clip_' + str(row) + '_Button', self)
for column in range(8)
]
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary,
MIDI_CC_TYPE,
0,
0,
optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
top_button_names = [
'Bank_Select_Up_Button', 'Bank_Select_Down_Button',
'Bank_Select_Left_Button', 'Bank_Select_Right_Button',
'Session_Button', 'User1_Button', 'User2_Button',
'Mixer_Button'
]
side_button_names = [
'Vol_Button', 'Pan_Button', 'SndA_Button', 'SndB_Button',
'Stop_Button', 'Trk_On_Button', 'Solo_Button', 'Arm_Button'
]
top_buttons = [
ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0,
(104 + index),
top_button_names[index], self)
for index in range(8)
]
side_buttons = [
ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
SIDE_NOTES[index],
side_button_names[index], self)
for index in range(8)
]
self._setup_monobridge()
self._setup_monomod()
self._selector = MainSelectorComponent(matrix, tuple(top_buttons),
tuple(side_buttons),
self._config_button, self)
self._selector.name = 'Main_Modes'
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.add_value_listener(self._button_value)
self.set_highlighting_session_component(
self._selector.session_component())
self._suppress_session_highlight = False
self.log_message(
"--------------= " + str(self._monomod_version) +
" log opened =--------------") #Create entry in log file
def _setup_session_control(self):
is_momentary = True
num_tracks = 4
num_scenes = 4
global session #We want to instantiate the global session as a SessionComponent object (it was a global "None" type up until now...)
session = MaschineSessionComponent(num_tracks, num_scenes) #(num_tracks, num_scenes)
session.set_offsets(0, 0) #(track_offset, scene_offset) Sets the initial offset of the red box from top left
matrix = ButtonMatrixElement()
self._register_timer_callback(session.flash_clip_slots)
"""set up the session buttons"""
left_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 91)
right_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 93)
session.set_track_bank_buttons(right_button, left_button)
# Stop buttons
track_stop_buttons = [ ButtonElement(is_momentary, MIDI_CC_TYPE, 4, (55 + index)) for index in range(num_tracks) ]
session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
up_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 81)
down_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 92)
session.set_scene_bank_buttons(down_button, up_button) # (up_button, down_button) This is to move the "red box" up or down (increment track up or down, not screen up or down, so they are inversed)
session.set_mixer(mixer) #Bind the mixer to the session so that they move together
selected_scene = self.song().view.selected_scene #this is from the Live API
all_scenes = self.song().scenes
index = list(all_scenes).index(selected_scene)
session.set_offsets(0, index) #(track_offset, scene_offset)
scene_launch_buttons = []
for scene_index in range(4):
scene = session.scene(scene_index)
launch_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1, (124 + scene_index))
scene.set_launch_button(launch_button)
scene_launch_buttons.append(launch_button)
clip_launch_notes = [
[24, 25, 26, 27],
[20, 21, 22, 23],
[16, 17, 18, 19],
[12, 13, 14, 15],
]
for scene_index in range(num_scenes):
button_row = []
for track_index in range(num_tracks):
clip_slot = session.scene(scene_index).clip_slot(track_index)
clip_slot.set_triggered_to_record_value(127)
clip_slot.set_recording_value(127)
clip_slot.set_started_value(127)
clip_slot.set_stopped_value(127)
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 2, clip_launch_notes[scene_index][track_index])
clip_slot.set_launch_button(button)
button_row.append(button)
matrix.add_row(tuple(button_row))
session_zoom = SessionZoomingComponent(session)
session_zoom.set_zoom_button(self.shift_button)
session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button)
session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
session_zoom.set_button_matrix(matrix)
session_zoom.set_stopped_value(0)
session_zoom.set_selected_value(127)
def init(self):
#skip init if already done.
if self._init_done:
return
self._init_done = True
# second part of the __init__ after model has been identified using its challenge response
if self._mk3_rgb or self._lpx:
from .SkinMK2 import make_skin
self._skin = make_skin()
self._side_notes = (89, 79, 69, 59, 49, 39, 29, 19)
self._drum_notes = (20, 30, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
elif self._mk2_rgb:
from .SkinMK2 import make_skin
self._skin = make_skin()
self._side_notes = (89, 79, 69, 59, 49, 39, 29, 19)
#self._drum_notes = (20, 30, 31, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
self._drum_notes = (20, 30, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
else:
from .SkinMK1 import make_skin # @Reimport
self._skin = make_skin()
self._side_notes = (8, 24, 40, 56, 72, 88, 104, 120)
self._drum_notes = (41, 42, 43, 44, 45, 46, 47, 57, 58, 59, 60, 61, 62, 63, 73, 74, 75, 76, 77, 78, 79, 89, 90, 91, 92, 93, 94, 95, 105, 106, 107)
with self.component_guard():
is_momentary = True
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = []
for column in range(8):
if self._mk2_rgb or self._mk3_rgb or self._lpx:
# for mk2 buttons are assigned "top to bottom"
midi_note = (81 - (10 * row)) + column
else:
midi_note = row * 16 + column
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, midi_note, skin = self._skin, control_surface = self)
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
matrix.add_row(tuple(button_row))
if self._mk3_rgb or self._lpx :
top_buttons = [ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 91 + index, skin = self._skin) for index in range(8)]
side_buttons = [ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, self._side_notes[index], skin = self._skin) for index in range(8)]
else:
top_buttons = [ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 104 + index, skin = self._skin) for index in range(8)]
side_buttons = [ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, self._side_notes[index], skin = self._skin) for index in range(8)]
top_buttons[0].name = 'Bank_Select_Up_Button'
top_buttons[1].name = 'Bank_Select_Down_Button'
top_buttons[2].name = 'Bank_Select_Left_Button'
top_buttons[3].name = 'Bank_Select_Right_Button'
top_buttons[4].name = 'Session_Button'
top_buttons[5].name = 'User1_Button'
top_buttons[6].name = 'User2_Button'
top_buttons[7].name = 'Mixer_Button'
side_buttons[0].name = 'Vol_Button'
side_buttons[1].name = 'Pan_Button'
side_buttons[2].name = 'SndA_Button'
side_buttons[3].name = 'SndB_Button'
side_buttons[4].name = 'Stop_Button'
side_buttons[5].name = 'Trk_On_Button'
side_buttons[6].name = 'Solo_Button'
side_buttons[7].name = 'Arm_Button'
self._osd = M4LInterface()
self._osd.name = "OSD"
self._init_note_repeat()
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self._osd, self, self._note_repeat)
self._selector.name = 'Main_Modes'
self._do_combine()
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self._suppress_session_highlight = False
self.set_highlighting_session_component(self._selector.session_component())
# due to our 2 stage init, we need to rebuild midi map
self.request_rebuild_midi_map()
# and request update
self._selector.update()
if self._lpx:
self.log_message("LaunchPad95 (LPX) Loaded !")
elif self._mk3_rgb:
self.log_message("LaunchPad95 (mk3) Loaded !")
elif self._mk2_rgb:
self.log_message("LaunchPad95 (mk2) Loaded !")
else:
self.log_message("LaunchPad95 (classic) Loaded !")
class AumPC20(APC):
__doc__ = " Script for Akai's APC20 Controller "
def __init__(self, c_instance):
self._shift_modes = None
APC.__init__(self, c_instance)
return None
def disconnect(self):
self._shift_modes = None
APC.disconnect(self)
return None
def _activate_combination_mode(self, track_offset, support_devices):
APC._activate_combination_mode(self, track_offset, support_devices)
if support_devices:
self._shift_modes.invert_assignment()
def _setup_session_control(self):
is_momentary = True
self._shift_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81, self)
self._session = APCSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix'
scene_launch_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82), self) for index in range(5) ]
self._scene_launch_buttons = scene_launch_buttons
track_stop_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52, self) for index in range(8) ]
self._track_stop_buttons = track_stop_buttons
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53), self)
button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = ShiftableZoomingComponent(self._session, tuple(track_stop_buttons))
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
self._solo_buttons = []
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
solo_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50, self)
self._solo_buttons.append(solo_button)
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
master_volume_control.name = 'Master_Volume_Control'
prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_prehear_volume_control(prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
def _setup_custom_components(self):
is_momentary = True
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)
self._master_select_button = master_select_button
master_select_button.name = 'Master_Select_Button'
select_buttons = []
self._select_buttons = []
arm_buttons = []
sliders = []
for track in range(8):
select_buttons.append(FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51, self))
self._select_buttons.append(select_buttons[track])
arm_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
if track is 7:
self._user3 = arm_buttons[track]
sliders.append(MonoEncoderElement2(MIDI_CC_TYPE, track, 7, Live.MidiMap.MapMode.absolute, 'Slider_' + str(track), track, self))
#sliders.append(MonoEncoderElement2(MIDI_CC_TYPE, track, 7))
select_buttons[-1].name = str(track) + '_Select_Button'
arm_buttons[-1].name = str(track) + '_Arm_Button'
#sliders[-1].name = str(track) + '_Volume_Control'
transport = TransportComponent()
transport.name = 'Transport'
slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
slider_modes.name = 'Slider_Modes'
self._shift_modes = ShiftableSelectorComponent(tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, transport, slider_modes, self._send_introduction_message, self)
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
def _product_model_id_byte(self):
return 123
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_monomod(self):
self._host = MonomodComponent(self)
self._host.name = 'Monomod_Host'
self._host._set_nav_buttons = self._mod_set_nav_buttons(self._host)
self._host._update_nav_buttons = self._mod_update_nav_buttons(self._host)
self._host._set_nav_buttons = self._mod_set_nav_buttons(self._host)
self.hosts = [self._host]
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
for row in range(5):
button_row = []
for column in range(8):
button_row.append(self._matrix.get_button(column, row))
self._monomod.add_row(tuple(button_row))
self._monomod.add_row(tuple(self._track_stop_buttons))
self._monomod.add_row(tuple(self._select_buttons))
self._monomod.add_row(tuple(self._solo_buttons))
self._monomod_mode = MonomodModeComponent(self._monomod_mode_update, self)
self._monomod_mode.name = "Monomod_Mode_Component"
def _monomod_mode_update(self):
if(self._monomod_mode._mode_index == 0) or (self._host._active_client == None):
self.flash_status = 0
self._host.set_enabled(False)
self._host._set_button_matrix(None)
#self._host._set_nav_buttons(None)
self._host._set_lock_button(None)
self._host._set_alt_button(None)
self._host._set_shift_button(None)
self._host._set_nav_buttons(None)
self._scene_launch_buttons[2].set_on_off_values(127, 0)
self._scene_launch_buttons[3].set_on_off_values(127, 0)
self._monomod.reset()
self._shift_modes.set_enabled(True)
#self._session.set_track_bank_buttons(self._right_button, self._left_button)
#self._session.set_scene_bank_buttons(self._down_button, self._up_button)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(self._select_buttons[track])
self._mixer.channel_strip(track).set_solo_button(self._solo_buttons[track])
#self._transport.set_nudge_buttons(self._nudge_up_button, self._nudge_down_button)
self._session.set_enabled(True)
self._session_zoom._is_zoomed_out = False
self._session_zoom.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_off()
elif(self._monomod_mode._mode_index == 1):
if self._shift_modes._note_mode_active is True:
self._shift_modes._mode_callback(ABLETON_MODE)
self._shift_modes._note_mode_active = False
self._session_zoom.set_ignore_buttons(False)
self._shift_modes._transport.update()
self._shift_modes._on_note_mode_changed()
#self._transport.set_nudge_buttons(None, None)
self._shift_modes.set_enabled(False)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
self._mixer.channel_strip(track).set_solo_button(None)
for scene in range(5):
self._scene_launch_buttons[scene].turn_off()
self._session.set_enabled(False)
self._session_zoom.set_enabled(False)
#self._session.set_track_bank_buttons(None, None)
#self._session.set_scene_bank_buttons(None, None)
self.flash_status = 1
self._monomod.reset()
self._host._set_button_matrix(self._monomod)
#self._host._set_nav_buttons([self._up_button, self._down_button, self._left_button, self._right_button])
self._host._set_shift_button(self._shift_button)
self._host._set_lock_button(self._scene_launch_buttons[0])
self._host._set_alt_button(self._scene_launch_buttons[1])
self._host._set_nav_buttons([self._scene_launch_buttons[2], self._scene_launch_buttons[3]])
self._host.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_on()
"""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
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()
def flash(self):
if(self.flash_status > 0):
for row in range(8):
for column in range(8):
button = self._monomod.get_button(column, row)
if(button._flash_state > 0):
button.flash(self._timer)
### Mod Overrides ####
def _mod_set_nav_buttons(self, mod):
def _set_nav_buttons(buttons):
if mod._nav_buttons != None:
mod._nav_buttons[0].remove_value_listener(mod._nav_up_value)
mod._nav_buttons[1].remove_value_listener(mod._nav_down_value)
mod._nav_buttons = buttons
if buttons != None:
assert len(buttons) == 2
for button in buttons:
assert isinstance(button, FlashingButtonElement)
mod._nav_buttons[0].set_on_off_values(8, 2)
mod._nav_buttons[0].add_value_listener(mod._nav_up_value)
mod._nav_buttons[1].set_on_off_values(8, 2)
mod._nav_buttons[1].add_value_listener(mod._nav_down_value)
return _set_nav_buttons
def _mod_update_nav_buttons(self, mod):
def _update_nav_buttons():
if mod._nav_buttons != None:
if(mod._y > 0):
mod._nav_buttons[0].turn_on()
else:
mod._nav_buttons[0].turn_off()
if(mod._y < 8):
mod._nav_buttons[1].turn_on()
else:
mod._nav_buttons[1].turn_off()
return _update_nav_buttons
class AumPC20(APC20):
def __init__(self, c_instance, *a, **k):
self._monomod_version = 'b996'
self._host_name = 'AumPC'
self._color_type = 'APC'
self._timer = 0
self._touched = 0
self.flash_status = False
super(AumPC20, self).__init__(c_instance, *a, **k)
with self.component_guard():
self._setup_mod()
def disconnect(self):
super(AumPC20, self).disconnect()
rebuild_sys()
def _create_controls(self):
make_color_button = partial(make_button, skin=self._skin)
self._shift_button = make_button(0,
81,
name='Shift_Button',
num=0,
cs=self)
self._matrix = ButtonMatrixElement(name='Button_Matrix')
self._scene_launch_buttons_raw = [
make_color_button(0,
index + 82,
name='Scene_%d_Launch_Button' % index,
num=index,
cs=self) for index in xrange(SESSION_HEIGHT)
]
self._track_stop_buttons = [
make_color_button(index,
52,
name='Track_%d_Stop_Button' % index,
num=index,
cs=self) for index in xrange(SESSION_WIDTH)
]
self._matrix_rows_raw = []
for scene_index in xrange(SESSION_HEIGHT):
row = [
make_color_button(
track_index,
scene_index + 53,
name='%d_Clip_%d_Button' % (track_index, scene_index),
num=index,
cs=self) for track_index in xrange(SESSION_WIDTH)
]
self._matrix_rows_raw.append(row)
self._matrix.add_row(row)
self._selected_scene_launch_button = make_pedal_button(
64, name='Selected_Scene_Launch_Button')
self._scene_launch_buttons = ButtonMatrixElement(
rows=[self._scene_launch_buttons_raw])
self._solo_buttons = [
make_button(track_index,
49,
name='%d_Solo_Button' % track_index,
num=track_index,
cs=self) for track_index in xrange(MIXER_SIZE)
]
self._mute_buttons = [
make_button(track_index,
50,
name='%d_Mute_Button' % track_index,
num=track_index,
cs=self) for track_index in xrange(MIXER_SIZE)
]
self._master_volume_control = make_slider(0,
14,
name='Master_Volume_Control',
num=0,
script=self)
self._prehear_control = EncoderElement(MIDI_CC_TYPE,
0,
47,
MapMode.relative_two_compliment,
name='Prehear_Volume_Control',
num=0,
script=self)
self._master_select_button = make_button(0,
80,
name='Master_Select_Button',
num=index,
cs=self)
self._select_buttons = [
make_button(track_index,
51,
name='%d_Select_Button' % track_index,
num=track_index,
cs=self) for track_index in xrange(8)
]
self._arm_buttons = [
make_button(track_index,
48,
name='%d_Arm_Button' % track_index,
num=track_index,
cs=self) for track_index in xrange(8)
]
self._sliders = [
make_slider(track_index,
7,
name='%d_Volume_Control' % track_index,
num=track_index,
script=self) for track_index in xrange(8)
]
self._monomod = ButtonMatrixElement(name='Monomod')
for row in self._matrix_rows_raw:
self._monomod.add_row(row)
self._monomod.add_row(self._track_stop_buttons)
self._monomod.add_row(self._select_buttons)
self._monomod.add_row(self._mute_buttons)
self._setup_monobridge(
) #had to put this here b/c the original author foolishly placed assignment methods inside of creation methods...argh.
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_mod(self):
self.monomodular = get_monomodular(self)
self.monomodular.name = 'monomodular_switcher'
self.modhandler = APCModHandler(self)
self.modhandler.name = 'ModHandler'
self.modhandler.layer = Layer(
priority=5,
grid=self._monomod,
nav_up_button=self._scene_launch_buttons_raw[2],
nav_down_button=self._scene_launch_buttons_raw[3],
lock_button=self._scene_launch_buttons_raw[4],
shiftlock_button=self._scene_launch_buttons_raw[0],
alt_button=self._scene_launch_buttons_raw[1],
shift_button=self._shift_button)
self.modhandler.set_enabled(False)
self._monomod_mode = MonomodModeComponent(self._monomod_mode_update,
self)
self._monomod_mode.name = "Monomod_Mode_Component"
self._monomod_mode.layer = Layer(
priority=5, mode_toggle=self._master_select_button)
self._on_shift_value.subject = self._shift_button
self._on_master_value.subject = self._master_select_button
@subject_slot('value')
def _on_shift_value(self, value):
self._monomod_mode.set_enabled(value > 0)
@subject_slot('value')
def _on_master_value(self, value):
if not self._shift_button.is_pressed(
) and not self.modhandler.is_enabled():
self.schedule_message(1, self._shift_modes.update)
def _monomod_mode_update(self):
#self.log_message('mode update: ' + str(self._monomod_mode._mode_index))
if (self._monomod_mode._mode_index == 0):
self.flash_status = False
self.modhandler.set_enabled(False)
self._slider_modes.set_enabled(True)
self._shift_modes.set_enabled(True)
self._scene_launch_buttons[2].set_on_off_values(127, 0)
self._scene_launch_buttons[3].set_on_off_values(127, 0)
self._monomod.reset()
self._shift_modes.set_enabled(True)
for track in range(8):
self._mixer.channel_strip(track).set_mute_button(
self._mute_buttons[track])
self._session.set_enabled(True)
self._session_zoom._is_zoomed_out = False
self._session_zoom.set_enabled(True)
self._transport.set_enabled(True)
self.request_rebuild_midi_map()
self.schedule_message(1, self._shift_modes.update)
elif (self._monomod_mode._mode_index == 1):
self._slider_modes.set_enabled(False)
if self._shift_modes._note_mode_active is True:
self._shift_modes._mode_callback(ABLETON_MODE)
self._shift_modes._note_mode_active = False
self._session_zoom.set_ignore_buttons(False)
self._shift_modes._transport.update()
self._shift_modes._on_note_mode_changed()
self._shift_modes.set_enabled(False)
self._session.set_clip_launch_buttons(None)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
self._mixer.channel_strip(track).set_mute_button(None)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
for scene in range(5):
self._scene_launch_buttons[scene].turn_off()
self._transport.set_enabled(False)
self._session.set_enabled(False)
self._session_zoom.set_enabled(False)
self.flash_status = True
self._monomod.reset()
self.modhandler.set_enabled(True)
self._master_select_button.send_value(self._monomod_mode._mode_index)
"""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, (MonoRingedEncoderElement, MonoEncoderElement)):
self._monobridge._send(sender.name, 'lcd_name',
str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value',
str(self.generate_strip_string(value)))
def touched(self):
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched += 1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
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
def update_display(self):
super(AumPC20, self).update_display()
self._timer = (self._timer + 1) % 256
self.flash()
def flash(self):
if self.flash_status:
for control, _ in self._monomod.iterbuttons():
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
class LemurPad(MonOhm):
__module__ = __name__
__doc__ = " Lemur version of the MonOhm companion controller script "
def __init__(self, *a, **k):
self._timer_callbacks = [] #Used for _monobridge, which uses L8 method for registering timer callbacks. deprecated, needs to be replaced by new L9 Task class.
self._osc_registry = {}
self._display_button_names = DISPLAY_BUTTON_NAMES
super(LemurPad, self).__init__(*a, **k)
self._host_name = "LemurPad"
self._color_type = 'AumPad'
self.connected = 0
with self.component_guard():
self._setup_touchosc()
self._assign_host2()
self._assign_session_colors()
def query_ohm(self):
pass
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = OSCMonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._fader = [None for index in range(8)]
self._dial = [None for index in range(16)]
self._button = [None for index in range(8)]
self._menu = [None for index in range(6)]
for index in range(8):
self._fader[index] = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, '/Fader_'+str(index)+'/x', '/Strip'+str(index+8)+'/set', '/Strip'+str(index)+'/set', self)
for index in range(8):
self._button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_'+str(index), '/Select_'+str(index)+'/value', '/Select/set '+str(index), '/Select/text '+str(index), self)
for index in range(16):
self._dial[index] = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, '/Dial_'+str(index)+'/x', '/Dial'+str(index)+'val/set', '/Dial'+str(index)+'name/set', self)
for index in range(6):
self._menu[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), '/Function_'+str(index)+'/value', '/Function/set '+str(index), '/Function/text '+str(index), self)
self._crossfader = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute, "Crossfader", 24, '/XFader/x', '/XFader/none', None, self)
self._livid = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', '/Livid/x', '/Livid/x', None, self)
self._shift_l = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', '/ShiftL/x', '/ShiftL/x', None, self)
self._shift_r = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', '/ShiftR/x', '/ShiftR/x', None, self)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
self._grid = [None for index in range(8)]
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), '/ClipGrid_'+str(column)+'_'+str(row)+'/value', '/ClipGrid/set '+str(column)+' '+str(row), '/ClipGrid/text '+str(column)+' '+str(row), self)
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
self._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 125)
self._dummy_button.name = 'Dummy1'
self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 126)
self._dummy_button2.name = 'Dummy2'
self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 127)
self._dummy_button2.name = 'Dummy3'
self._monomod256 = ButtonMatrixElement()
self._monomod256.name = 'Monomod256'
self._square = [None for index in range(16)]
for column in range(16):
self._square[column] = [None for index in range(16)]
for row in range(16):
self._square[column][row] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, int(column/8) + 1, row + ((column%8) * 16), '256Grid_' + str(column) + '_' + str(row), '/Grid_'+str(column)+'_'+str(row)+'/value', '/Grid/set '+str(column)+' '+str(row), None, self)
#self._square[column][row] = FlashingButtonElement(is_momentary, 0, 15, -1, '256Grid_' + str(column) + '_' + str(row), '/1/p_grid/'+str(column)+'/'+str(row), '/1/c_grid/'+str(column)+'/'+str(row), self)
for row in range(16):
button_row = []
for column in range(16):
button_row.append(self._square[column][row])
self._monomod256.add_row(tuple(button_row))
self._bank_buttons = ButtonMatrixElement()
self._key_buttons = ButtonMatrixElement()
self._bank_button = [None for index in range(2)]
for index in range(2):
self._bank_button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index, '256Grid_Bank_' + str(index), '/Shift_'+str(index)+'/value', '/Shift/set '+str(index), None, self)
button_row = []
for index in range(2):
button_row.append(self._bank_button[index])
self._bank_buttons.add_row(tuple(button_row))
button_row = []
self._key_button = [None for index in range(8)]
for index in range(8):
self._key_button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index+8, '256Grid_Key_' + str(index), '/Keys_'+str(index)+'/value', '/Keys/set '+str(index), None, self)
for index in range(8):
button_row.append(self._key_button[index])
self._key_buttons.add_row(tuple(button_row))
self._pedal = [None for index in range(8)]
if self._use_pedal is True:
for index in range(8):
self._pedal[index] = EncoderElement(MIDI_CC_TYPE, 0, 25+index, Live.MidiMap.MapMode.absolute)
self._pedal[index].name = 'Pedal_'+str(index)
self._pedal[index]._report = False
def _setup_session_control(self):
is_momentary = True
num_tracks = 4
num_scenes = 5
self._session = NameServerSessionComponent(num_tracks, num_scenes, self)
self._session.name = "Left_Session"
self._session.set_offsets(0, 0)
self._session.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene = [None for index in range(5)]
for row in range(num_scenes):
self._scene[row] = self._session.scene(row)
self._scene[row].name = 'L_Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_L_' + str(row)
clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING'])
self._session.set_mixer(self._mixer)
self._session_zoom = SessionZoomingComponent(self._session)
self._session_zoom.name = 'L_Session_Overview'
self._session_zoom.set_stopped_value(self._color_defs['ZOOM_STOPPED'])
self._session_zoom.set_playing_value(self._color_defs['ZOOM_PLAYING'])
self._session_zoom.set_selected_value(self._color_defs['ZOOM_SELECTED'])
self._session_zoom._zoom_button = (self._dummy_button)
self._session_zoom.set_enabled(True)
self._session2 = SessionComponent(num_tracks, num_scenes)
self._session2.name = 'Right_Session'
self._session2.set_offsets(4, 0)
self._session2.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene2 = [None for index in range(5)]
for row in range(num_scenes):
self._scene2[row] = self._session2.scene(row)
self._scene2[row].name = 'R_Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene2[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_R_' + str(row)
clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING'])
self._session2.set_mixer(self._mixer2)
self._session2.add_offset_listener(self._on_session_offset_changes)
self._session_zoom2 = SessionZoomingComponent(self._session2)
self._session_zoom2.name = 'R_Session_Overview'
self._session_zoom2.set_stopped_value(self._color_defs['ZOOM_STOPPED'])
self._session_zoom2.set_playing_value(self._color_defs['ZOOM_PLAYING'])
self._session_zoom2.set_selected_value(self._color_defs['ZOOM_SELECTED'])
self._session_zoom.set_enabled(True)
self._session_zoom2._zoom_button = (self._dummy_button2)
self._session_main = SessionComponent(8, num_scenes)
self._session_main.name = 'Main_Session'
self._session_main.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene_main = [None for index in range(5)]
for row in range(num_scenes):
self._scene_main[row] = self._session_main.scene(row)
self._scene_main[row].name = 'M_Scene_' + str(row)
for column in range(8):
clip_slot = self._scene_main[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_M_' + str(row)
clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING'])
self._session_main.set_mixer(self._mixer)
self._session_zoom_main = SessionZoomingComponent(self._session_main)
self._session_zoom_main.name = 'M_Session_Overview'
self._session_zoom_main.set_stopped_value(self._color_defs['ZOOM_STOPPED'])
self._session_zoom_main.set_playing_value(self._color_defs['ZOOM_PLAYING'])
self._session_zoom_main.set_selected_value(self._color_defs['ZOOM_SELECTED'])
self._session_zoom_main.set_enabled(True)
self._session_zoom_main._zoom_button = (self._dummy_button3)
self._sessions = [self._session, self._session2, self._session_main]
self._zooms = [self._session_zoom, self._session_zoom2, self._session_zoom_main]
def _setup_monomod(self):
self._host = MonomodComponent(self)
self._host.name = 'Monomod_Host'
self._host2 = SpecialMonomodComponent(self)
self._host2.name = '256_Monomod_Host'
self.hosts = [self._host, self._host2]
def _assign_host2(self):
self._host2._set_shift_button(self._bank_button[0])
self._host2._set_alt_button(self._bank_button[1])
self._host2._set_button_matrix(self._monomod256)
self._host2._set_key_buttons(self._key_button)
self._host2.set_enabled(True)
def _setup_touchosc(self):
self._osc_registry = {}
#self._osc_registry['/ping'] = self._monobridge.ping
#self._osc_registry['/1'] = self._monobridge.page1
#self._osc_registry['/2'] = self._monobridge.page2
for control in self.controls:
if hasattr(control, 'osc'):
self._osc_registry[control.osc] = control.set_value
#if hasattr(control, 'osc_alt'):
# self._osc_registry[control.osc_alt] = control.set_value
#self.log_message('create dict key: ' + str(control.osc) + str(control.name))
"""shift/zoom methods"""
def deassign_matrix(self):
super(LemurPad, self).deassign_matrix()
self.clear_grid_names()
"""menu button management methods"""
def deassign_menu(self):
super(LemurPad, self).deassign_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(' '))
def assign_device_nav_to_menu(self):
super(LemurPad, self).assign_device_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(DEVICE_NAV_NAMES[index])))
def assign_transport_to_menu(self):
super(LemurPad, self).assign_transport_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(TRANSPORT_NAMES[index])))
def assign_session_nav_to_menu(self):
super(LemurPad, self).assign_session_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index])))
def assign_session_main_nav_to_menu(self):
super(LemurPad, self).assign_session_main_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index])))
def assign_monomod_shift_to_menu(self):
super(LemurPad, self).assign_monomod_shift_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_SHIFT_NAMES[index])))
def assign_monomod_to_menu(self):
super(LemurPad, self).assign_monomod_shift_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_NAMES[index])))
def assign_session_bank_to_menu(self):
super(LemurPad, self).assign_session_bank_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK_NAMES[index])))
def assign_session2_bank_to_menu(self):
super(LemurPad, self).assign_session2_bank_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK2_NAMES[index])))
def assign_session_main_nav_to_menu(self):
super(LemurPad, self).assign_session_main_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_MAIN_BANK_NAMES[index])))
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 9
if (not display_string):
return ('`_')
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ',
'i',
'o',
'u',
'e',
'a']:
while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
else:
display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return '`' + ret.replace(' ', '_')
def notification_to_bridge(self, name, value, sender):
if(isinstance(sender, MonoEncoderElement2)):
#self.log_message(str(name) + str(value) + str(sender.num))
self._monobridge._send('lcd_name', sender.name, self.generate_strip_string(str(name)))
self._monobridge._send('lcd_value', sender.name, self.generate_strip_string(str(value)))
def clip_name(self, sender, name):
#self.log_message('clip name ' + str(sender.osc_name) + ' ' + str(self.generate_strip_string(str(name))))
self._monobridge._send_osc(sender.osc_name, self.generate_strip_string(str(name)))
"""def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip():
clip_names.append(clip_slot._clip_slot)##.clip.name)
#return clip_slot._clip_slot
#self.log_message('clip name' + str(clip_slot._clip_slot.clip.name))
return clip_names"""
"""called on timer"""
def update_display(self):
super(LemurPad, self).update_display()
for callback in self._timer_callbacks:
callback()
def flash(self):
if(self.flash_status > 0):
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def strobe(self):
pass
"""general functionality"""
def disconnect(self):
super(MonOhm, self).disconnect()
def clear_grid_names(self):
#self.log_message('clear grid names' + str(self))
for column in range(8):
for row in range(8):
self._monobridge._send_osc(self._grid[column][row].osc_name, '`_')
def _register_timer_callback(self, callback):
""" Registers a callback that is triggerd on every call of update_display """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 0)
self._timer_callbacks.append(callback)
return None
def _unregister_timer_callback(self, callback):
""" Unregisters a timer callback """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 1)
self._timer_callbacks.remove(callback)
return None
def _set_brightness(self, value):
#self._bright = (value != 0)
#for control in self.controls:
# if isinstance(control, OSCMonoButtonElement):
# self._monobridge._send_osc(control.osc_alt, int(self._bright), True)
pass
def reset(self):
#self._monobridge._send_osc('/reset')
for control in self.controls:
control.reset()
def assign_lower_grid_names(self, mode):
if self._display_button_names is True:
for column in range(8):
for row in range(3):
self._monobridge._send_osc(self._grid[column][row+5].osc_name, self.generate_strip_string(str(GRID_NAMES[mode][row][column])))
def reset_and_refresh_state(self, *a, **k):
self.schedule_message(1, self.reset)
self.schedule_message(2, self.refresh_state)
class MatrixModesComponent(ModeSelectorComponent):
' SelectorComponent that assigns matrix to different functions '
__module__ = __name__
def __init__(self, matrix, session, zooming, stop_buttons, parent):
assert isinstance(matrix, ButtonMatrixElement)
ModeSelectorComponent.__init__(self)
self._controls = None
self._session = session
self._session_zoom = zooming
self._matrix = matrix
self._track_stop_buttons = stop_buttons
self._stop_button_matrix = ButtonMatrixElement(
) #new dummy matrix for stop buttons, to allow note mode/user mode switching
button_row = []
for track_index in range(8):
button = self._track_stop_buttons[track_index]
button_row.append(button)
self._stop_button_matrix.add_row(tuple(button_row))
self._nav_left_button = None
self._nav_right_button = None
self._mode_index = 0
self._last_mode = 0
self._parent = parent
self._parent.set_pad_translations(
PAD_TRANSLATIONS) #comment out to remove Drum Rack mapping
self._vu = None
self._shift_button = self._parent._shift_button
self._shift_button.add_value_listener(self._shift_value)
def disconnect(self):
for button in self._modes_buttons:
button.remove_value_listener(self._mode_value)
self._controls = None
self._session = None
self._session_zoom = None
self._matrix = None
self._track_stop_buttons = None
self._stop_button_matrix = None
self._shift_button.remove_value_listener(self._shift_value)
ModeSelectorComponent.disconnect(self)
def set_mode(
self,
mode): #override ModeSelectorComponent set_mode, to avoid flickers
assert isinstance(mode, int)
assert (mode in range(self.number_of_modes()))
if (self._mode_index != mode):
self._last_mode = 0 # self._mode_index # keep track of previous mode, to allow refresh after Note Mode only
self._mode_index = mode
self._set_modes()
def set_mode_buttons(self, buttons):
assert isinstance(buttons, (tuple, type(None)))
for button in self._modes_buttons:
button.remove_value_listener(self._mode_value)
self._modes_buttons = []
if (buttons != None):
for button in buttons:
assert isinstance(button, ButtonElement)
identify_sender = True
button.add_value_listener(self._mode_value, identify_sender)
self._modes_buttons.append(button)
for index in range(len(self._modes_buttons)):
if (index == self._mode_index):
self._modes_buttons[index].turn_on()
else:
self._modes_buttons[index].turn_off()
def _mode_value(self, value, sender):
assert (len(self._modes_buttons) > 0)
assert isinstance(value, int)
assert isinstance(sender, ButtonElement)
assert (self._modes_buttons.count(sender) == 1)
if self.is_enabled():
if ((value is not 0) or (not sender.is_momentary())):
self.set_mode(self._modes_buttons.index(sender))
def number_of_modes(self):
return 8
def update(self):
pass
def get_mode_index_value(self):
return self._mode_index
def _set_modes(self):
if self.is_enabled():
if self._vu != None:
self._vu.disconnect()
self._session.set_allow_update(False)
self._session_zoom.set_allow_update(False)
assert (self._mode_index in range(self.number_of_modes()))
for index in range(len(self._modes_buttons)):
if (index == self._mode_index):
self._modes_buttons[index].turn_on()
else:
self._modes_buttons[index].turn_off()
self._session.set_stop_track_clip_buttons(
tuple(self._track_stop_buttons))
for track_index in range(8):
button = self._track_stop_buttons[track_index]
button.use_default_message()
button.set_enabled(True)
button.set_force_next_value()
button.send_value(0)
self._session_zoom.set_enabled(True)
self._session.set_enabled(True)
self._session.set_show_highlight(True)
self._session_zoom.set_zoom_button(self._parent._shift_button)
for scene_index in range(5):
scene = self._session.scene(scene_index)
for track_index in range(8):
button = self._matrix.get_button(track_index, scene_index)
button.use_default_message()
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
button.set_enabled(True)
if (self._mode_index == 0): #Clip Launch
self._session_zoom._on_zoom_value(1) #zoom out
elif (self._mode_index == 1): #Session Overview
self._session_zoom.set_zoom_button(None)
self._session_zoom.set_enabled(True)
self._session_zoom._is_zoomed_out = True
self._session_zoom._scene_bank_index = int(
((self._session_zoom._session.scene_offset() /
self._session_zoom._session.height()) /
self._session_zoom._buttons.height()))
self._session.set_enabled(False)
self._session_zoom.update()
elif (self._mode_index == 2):
self._set_note_mode(PATTERN_1, CHANNEL_1, NOTEMAP_1,
USE_STOP_ROW_1, IS_NOTE_MODE_1)
elif (self._mode_index == 3):
self._set_note_mode(PATTERN_2, CHANNEL_2, NOTEMAP_2,
USE_STOP_ROW_2, IS_NOTE_MODE_2)
elif (self._mode_index == 4):
self._set_note_mode(PATTERN_3, CHANNEL_3, NOTEMAP_3,
USE_STOP_ROW_3, IS_NOTE_MODE_3)
elif (self._mode_index == 5):
self._set_note_mode(PATTERN_4, CHANNEL_4, NOTEMAP_4,
USE_STOP_ROW_4, IS_NOTE_MODE_4)
elif (self._mode_index == 6):
self._set_note_mode(PATTERN_5, CHANNEL_5, NOTEMAP_5,
USE_STOP_ROW_5, IS_NOTE_MODE_5)
elif (self._mode_index == 7):
self._set_note_mode(PATTERN_6, CHANNEL_6, NOTEMAP_6, True,
False)
# VU Meters
self._session.set_enabled(False)
self._session_zoom._on_zoom_value(1) #zoom out
self._session_zoom.set_enabled(True)
self._session_zoom._is_zoomed_out = False
self._session_zoom.set_zoom_button(self._parent._shift_button)
self._session_zoom.update()
self._update_vu_meters()
else:
pass
self._session.set_allow_update(True)
self._session_zoom.set_allow_update(True)
#self._rebuild_callback()
def _set_note_mode(self,
pattern,
channel,
notemap,
use_stop_row=False,
is_note_mode=True):
self._session_zoom.set_zoom_button(None)
self._session_zoom.set_enabled(False)
for scene_index in range(5):
scene = self._session.scene(scene_index)
for track_index in range(8):
clip_slot = scene.clip_slot(track_index)
button = self._matrix.get_button(track_index, scene_index)
clip_slot.set_launch_button(None)
button.set_channel(
channel) #remap all Note Mode notes to new channel
button.set_identifier(notemap[scene_index][track_index])
button.set_on_off_values(pattern[scene_index][track_index], 0)
button.set_force_next_value()
button.turn_on()
if is_note_mode == True:
button.set_enabled(False)
if use_stop_row == True:
self._session.set_stop_track_clip_buttons(None)
for track_index in range(8):
button = self._stop_button_matrix.get_button(track_index, 0)
button.set_channel(
channel) #remap all Note Mode notes to new channel
button.set_identifier(notemap[5][track_index])
button.set_force_next_value()
button.send_value(pattern[5][track_index])
if is_note_mode == True:
button.set_enabled(False)
else:
for track_index in range(8):
button = self._stop_button_matrix.get_button(track_index, 0)
button.send_value(0, True)
self._session.set_enabled(True)
self._session.set_show_highlight(True)
def _on_track_offset_changed(self):
if (self.is_enabled() and self._mode_index == 7):
self._update_vu_meters()
def _shift_value(self, value):
if (self.is_enabled() and self._mode_index == 7 and self._vu != None):
if value != 0:
self._vu.disconnect()
self._vu.disable()
else:
self._update_vu_meters()
self._vu.enable()
def _update_vu_meters(self):
if self._vu == None:
self._vu = VUMeters(self._parent)
else:
self._vu.disconnect()
self._vu.observe(int(self._session_zoom._session.track_offset()))
def _setup_session_control(self):
Live.Base.log("LOG: AAAMatrix _setup_session_control")
is_momentary = True
# Set Highlight Grid Size
session = CustomSessionComponent(num_tracks, num_scenes)
# Set Session Name
session.name = 'AAAMatrix Session'
# Set Highlight Grid Size
session.set_offsets(offset_tracks, offset_scenes)
# SESSION NAVIGATION BUTTONS
right_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
right_button_CC)
left_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
left_button_CC)
right_button.name = 'Bank_Select_Right_Button'
left_button.name = 'Bank_Select_Left_Button'
session.set_track_bank_buttons(right_button, left_button)
up_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
up_button_CC)
down_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
down_button_CC)
up_button.name = 'Bank_Select_Up_Button'
down_button.name = 'Bank_Select_Down_Button'
session.set_scene_bank_buttons(down_button, up_button)
#SCENE NAVIGATION BUTTONS
prev_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
left_select_CC)
next_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
right_select_CC)
next_button.name = 'Next_Select_Button'
prev_button.name = 'Prev_Select__Button'
session.set_select_buttons(next_button, prev_button)
#STOP ALL CLIP BUTTON
stop_all_button = ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL,
stop_all_clips_CC)
stop_all_button.name = 'Stop_All_Button'
session.set_stop_all_clips_button(stop_all_button)
#SCENE LAUCH BUTTONS
scene_launch_buttons = [
ButtonElement(True, MIDI_CC_TYPE, CHANNEL,
scene_launch_column_CCs[index])
for index in xrange(num_scenes)
]
scene_launch_buttons = ButtonMatrixElement(name='Scene_Launch_Buttons',
rows=[scene_launch_buttons])
session.set_scene_launch_buttons(scene_launch_buttons)
#CLIP STOP BUTTONS
scene_stop_buttons = [
ButtonElement(True, MIDI_CC_TYPE, CHANNEL,
clip_stop_row_CCs[index])
for index in xrange(num_tracks)
]
scene_stop_buttons = ButtonMatrixElement(name='Scene_Stop_Buttons',
rows=[scene_stop_buttons])
session.set_stop_track_clip_buttons(scene_stop_buttons)
#CLIP LAUCH BUTTONS
matrix = ButtonMatrixElement(name='Button_Matrix')
for scene_index in xrange(num_scenes):
row = [
ButtonElement(True, MIDI_CC_TYPE, CHANNEL,
clip_CCs[scene_index][track_index])
for track_index in xrange(num_tracks)
]
matrix.add_row(row)
session.set_clip_launch_buttons(matrix)
self.set_highlighting_session_component(session)
class APC_64_40_9(APC):
""" Script for Akai's APC40 Controller """
def __init__(self, c_instance):
self._c_instance = c_instance
self._shift_modes = None
self._encoder_modes = None
self._slider_modes = None
self._sequencer = None
APC.__init__(self, c_instance)
self._device_selection_follows_track_selection = True
def disconnect(self):
self._shift_modes = None
self._encoder_modes = None
self._slider_modes = None
self._sequencer = None
APC.disconnect(self)
def _setup_session_control(self):
is_momentary = True
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 98)
self._right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 96)
self._left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 97)
self._up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94)
self._down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 95)
self._right_button.name = 'Bank_Select_Right_button'
self._left_button.name = 'Bank_Select_Left_button'
self._up_button.name = 'Bank_Select_Up_button'
self._down_button.name = 'Bank_Select_Down_button'
self._session = PedaledSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._session.set_track_bank_buttons(self._right_button,
self._left_button)
self._session.set_scene_bank_buttons(self._down_button,
self._up_button)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix'
self._scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, index + 82)
for index in range(5)
]
self._track_stop_buttons = [
ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52)
for index in range(8)
]
for index in range(len(self._scene_launch_buttons)):
self._scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
for index in range(len(self._track_stop_buttons)):
self._track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button'
self._stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
81)
self._stop_all_button.name = 'Stop_All_Clips_Button'
self._session.set_stop_all_clips_button(self._stop_all_button)
self._session.set_stop_track_clip_buttons(
tuple(self._track_stop_buttons))
self._session.set_stop_clip_value(0)
self._session.set_stop_clip_triggered_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(self._scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = ConfigurableButtonElement(is_momentary,
MIDI_NOTE_TYPE, track_index,
(scene_index + 53))
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row))
self._session.set_slot_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = ShiftableZoomingComponent(
self._session, tuple(self._track_stop_buttons))
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_nav_buttons(self._up_button, self._down_button,
self._left_button,
self._right_button)
self._session_zoom.set_scene_bank_buttons(
tuple(self._scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(self, 8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
80)
master_select_button.name = 'Master_Select_Button'
self._mixer.master_strip().set_select_button(master_select_button)
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
select_buttons = []
arm_buttons = []
solo_buttons = []
mute_buttons = []
sliders = []
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
solo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
49)
solo_buttons.append(solo_button)
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
50)
mute_buttons.append(mute_button)
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
select_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51))
select_buttons[-1].name = str(track) + '_Select_Button'
arm_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
arm_buttons[-1].name = str(track) + '_Arm_Button'
sliders.append(SliderElement(MIDI_CC_TYPE, track, 7))
sliders[-1].name = str(track) + '_Volume_Control'
self._crossfader = SliderElement(MIDI_CC_TYPE, 0, 15)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
self._prehear_control = EncoderElement(
MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
self._crossfader.name = 'Crossfader'
master_volume_control.name = 'Master_Volume_Control'
self._prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_shift_button(self._shift_button)
self._mixer.set_crossfader_control(self._crossfader)
self._mixer.set_prehear_volume_control(self._prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
self._slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
self._slider_modes.name = 'Slider_Modes'
matrix_modes = MatrixModesComponent(self._matrix, self._session,
self._session_zoom,
tuple(self._track_stop_buttons),
self)
matrix_modes.name = 'Matrix_Modes'
self._sequencer = StepSequencerComponent(
self, self._session, self._matrix, tuple(self._track_stop_buttons))
self._sequencer.set_bank_buttons(tuple(select_buttons))
self._sequencer.set_nav_buttons(self._up_button, self._down_button,
self._left_button, self._right_button)
self._sequencer.set_button_matrix(self._matrix)
self._sequencer.set_follow_button(master_select_button)
self._sequencer.set_velocity_buttons(tuple(arm_buttons))
self._sequencer.set_shift_button(self._shift_button)
self._sequencer.set_lane_mute_buttons(tuple(
self._scene_launch_buttons))
self._sequencer.set_loop_start_buttons(tuple(mute_buttons))
self._sequencer.set_loop_length_buttons(tuple(solo_buttons))
self._shift_modes = ShiftableSelectorComponent(
self, tuple(select_buttons), master_select_button,
tuple(self._track_stop_buttons), self._stop_all_button,
tuple(mute_buttons), tuple(solo_buttons), tuple(arm_buttons),
tuple(self._scene_launch_buttons), self._matrix, self._session,
self._session_zoom, self._mixer, self._slider_modes, matrix_modes,
self._sequencer)
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
def _setup_custom_components(self):
self._setup_device_and_transport_control()
self._setup_global_control()
def _setup_device_and_transport_control(self):
is_momentary = True
device_bank_buttons = []
device_param_controls = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button',
'Previous_Device_Button', 'Next_Device_Button',
'Detail_View_Button', 'Rec_Quantization_Button',
'Midi_Overdub_Button', 'Metronome_Button')
for index in range(8):
device_bank_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 58 + index))
device_bank_buttons[-1].name = bank_button_labels[index]
ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0,
24 + index)
ringed_encoder = RingedEncoderElement(
MIDI_CC_TYPE, 0, 16 + index, Live.MidiMap.MapMode.absolute)
ringed_encoder.set_ring_mode_button(ring_mode_button)
ringed_encoder.set_feedback_delay(-1)
ringed_encoder.name = 'Device_Control_' + str(index)
ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
device_param_controls.append(ringed_encoder)
self._device = ShiftableDeviceComponent()
self._device.name = 'Device_Component'
self._device.set_bank_buttons(tuple(device_bank_buttons))
self._device.set_shift_button(self._shift_button)
self._device.set_parameter_controls(tuple(device_param_controls))
self._device.set_on_off_button(device_bank_buttons[1])
self.set_device_component(self._device)
detail_view_toggler = DetailViewCntrlComponent()
detail_view_toggler.name = 'Detail_View_Control'
detail_view_toggler.set_shift_button(self._shift_button)
detail_view_toggler.set_device_clip_toggle_button(
device_bank_buttons[0])
detail_view_toggler.set_detail_toggle_button(device_bank_buttons[4])
detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2],
device_bank_buttons[3])
transport = ShiftableTransportComponent()
transport.name = 'Transport'
play_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 91)
stop_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 92)
record_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 93)
nudge_up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 100)
nudge_down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 101)
tap_tempo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99)
play_button.name = 'Play_Button'
stop_button.name = 'Stop_Button'
record_button.name = 'Record_Button'
nudge_up_button.name = 'Nudge_Up_button'
nudge_down_button.name = 'Nudge_Down_button'
tap_tempo_button.name = 'Tap_Tempo_Button'
transport.set_shift_button(self._shift_button)
transport.set_play_button(play_button)
transport.set_stop_button(stop_button)
transport.set_record_button(record_button)
transport.set_nudge_buttons(nudge_up_button, nudge_down_button)
transport.set_undo_button(nudge_down_button)
transport.set_redo_button(nudge_up_button)
transport.set_tap_tempo_button(tap_tempo_button)
self._device.set_lock_button(tap_tempo_button)
transport.set_quant_toggle_button(device_bank_buttons[5])
transport.set_overdub_button(device_bank_buttons[6])
transport.set_metronome_button(device_bank_buttons[7])
transport.set_tempo_encoder(self._prehear_control)
bank_button_translator = ShiftTranslatorComponent()
bank_button_translator.set_controls_to_translate(
tuple(device_bank_buttons))
bank_button_translator.set_shift_button(self._shift_button)
def _setup_global_control(self):
is_momentary = True
self._global_bank_buttons = []
self._global_param_controls = []
for index in range(8):
ring_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0,
56 + index)
ringed_encoder = RingedEncoderElement(
MIDI_CC_TYPE, 0, 48 + index, Live.MidiMap.MapMode.absolute)
ringed_encoder.name = 'Track_Control_' + str(index)
ringed_encoder.set_feedback_delay(-1)
ring_button.name = ringed_encoder.name + '_Ring_Mode_Button'
ringed_encoder.set_ring_mode_button(ring_button)
self._global_param_controls.append(ringed_encoder)
self._global_bank_buttons = []
global_bank_labels = ('Pan_Button', 'Send_A_Button', 'Send_B_Button',
'Send_C_Button')
for index in range(4):
self._global_bank_buttons.append(
ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
87 + index))
self._global_bank_buttons[-1].name = global_bank_labels[index]
self._encoder_modes = EncModeSelectorComponent(self._mixer)
self._encoder_modes.name = 'Track_Control_Modes'
self._encoder_modes.set_controls(tuple(self._global_param_controls))
self._encoder_device_modes = EncoderDeviceComponent(
self._mixer, self._device, self)
self._encoder_device_modes.name = 'Alt_Device_Control_Modes'
self._encoder_eq_modes = EncoderEQComponent(self._mixer, self)
self._encoder_eq_modes.name = 'EQ_Control_Modes'
global_translation_selector = ChannelTranslationSelector()
global_translation_selector.name = 'Global_Translations'
global_translation_selector.set_controls_to_translate(
tuple(self._global_param_controls))
global_translation_selector.set_mode_buttons(
tuple(self._global_bank_buttons))
encoder_user_modes = EncoderUserModesComponent(
self, self._encoder_modes, tuple(self._global_param_controls),
tuple(self._global_bank_buttons), self._mixer, self._device,
self._encoder_device_modes, self._encoder_eq_modes)
encoder_user_modes.name = 'Encoder_User_Modes'
self._encoder_shift_modes = ShiftableEncoderSelectorComponent(
self, tuple(self._global_bank_buttons), encoder_user_modes,
self._encoder_modes, self._encoder_eq_modes,
self._encoder_device_modes)
self._encoder_shift_modes.name = 'Encoder_Shift_Modes'
self._encoder_shift_modes.set_mode_toggle(self._shift_button)
def _on_selected_track_changed(self):
ControlSurface._on_selected_track_changed(self)
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if device_to_select == None and len(track.devices) > 0:
device_to_select = track.devices[0]
if device_to_select != None:
self.song().view.select_device(device_to_select)
self._device_component.set_device(device_to_select)
return None
def _product_model_id_byte(self):
return 115
class AumPC40(APC40):
def __init__(self, c_instance, *a, **k):
super(AumPC40, self).__init__(c_instance, *a, **k)
self._monomod_version = 'b996'
self._host_name = 'AumPC'
self._color_type = 'APC'
self._timer = 0
self._touched = 0
self.flash_status = False
with self.component_guard():
self._setup_monobridge()
self._setup_mod()
self._device_component._current_bank_details = self._make_current_bank_details(self._device_component)
def disconnect(self):
super(AumPC40, self).disconnect()
rebuild_sys()
def _create_controls(self):
make_on_off_button = partial(make_button, skin=self._default_skin)
make_color_button = partial(make_button, skin=self._color_skin)
self._shift_button = make_button(0, 98, resource_type=PrioritizedResource, name='Shift_Button')
self._right_button = make_button(0, 96, name='Bank_Select_Right_Button')
self._left_button = make_button(0, 97, name='Bank_Select_Left_Button')
self._up_button = make_button(0, 94, name='Bank_Select_Up_Button')
self._down_button = make_button(0, 95, name='Bank_Select_Down_Button')
self._session_matrix = ButtonMatrixElement(name='Button_Matrix')
self._scene_launch_buttons = [ make_color_button(0, index + 82, name='Scene_%d_Launch_Button' % index, cs = self) for index in xrange(SESSION_HEIGHT) ]
self._track_stop_buttons = [ make_color_button(index, 52, name='Track_%d_Stop_Button' % index, cs = self) for index in xrange(SESSION_WIDTH) ]
self._stop_all_button = make_color_button(0, 81, name='Stop_All_Clips_Button', cs = self)
self._matrix_rows_raw = [ [ make_color_button(track_index, scene_index + 53, name='%d_Clip_%d_Button' % (track_index, scene_index), cs = self) for track_index in xrange(SESSION_WIDTH) ] for scene_index in xrange(SESSION_HEIGHT) ]
for row in self._matrix_rows_raw:
self._session_matrix.add_row(row)
self._selected_slot_launch_button = make_pedal_button(67, name='Selected_Slot_Launch_Button')
self._selected_scene_launch_button = make_pedal_button(64, name='Selected_Scene_Launch_Button')
self._volume_controls = []
self._arm_buttons = []
self._original_solo_buttons = []
self._original_mute_buttons = []
self._select_buttons = []
for index in xrange(MIXER_SIZE):
self._volume_controls.append(make_slider(index, 7, name='%d_Volume_Control' % index, num=index, script = self))
self._arm_buttons.append(make_on_off_button(index, 48, name='%d_Arm_Button' % index, cs = self))
self._original_solo_buttons.append(make_on_off_button(index, 49, name='%d_Solo_Button' % index, cs = self))
self._original_mute_buttons.append(make_on_off_button(index, 50, name='%d_Mute_Button' % index, cs = self))
self._select_buttons.append(make_on_off_button(index, 51, name='%d_Select_Button' % index, cs = self))
self._crossfader_control = make_slider(0, 15, name='Crossfader', script = self)
self._master_volume_control = make_slider(0, 14, name='Master_Volume_Control', script = self)
self._master_select_button = make_on_off_button(0, 80, name='Master_Select_Button', cs = self)
self._prehear_control = make_encoder(0, 47, name='Prehear_Volume_Control', script = self)
self._device_bank_buttons = []
self._device_param_controls_raw = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button', 'Detail_View_Button', 'Rec_Quantization_Button', 'Midi_Overdub_Button', 'Metronome_Button')
for index in range(8):
self._device_bank_buttons.append(make_on_off_button(0, 58 + index, name=bank_button_labels[index]))
encoder_name = 'Device_Control_%d' % index
ringed_encoder = make_ring_encoder(16 + index, 24 + index, name=encoder_name, num = index + 8, script = self)
self._device_param_controls_raw.append(ringed_encoder)
self._play_button = make_button(0, 91, name='Play_Button')
self._stop_button = make_button(0, 92, name='Stop_Button')
self._record_button = make_button(0, 93, name='Record_Button')
self._nudge_up_button = make_button(0, 100, name='Nudge_Up_Button')
self._nudge_down_button = make_button(0, 101, name='Nudge_Down_Button')
self._tap_tempo_button = make_button(0, 99, name='Tap_Tempo_Button')
self._global_bank_buttons = []
self._global_param_controls = []
for index in range(8):
encoder_name = 'Track_Control_%d' % index
ringed_encoder = make_ring_encoder(48 + index, 56 + index, name=encoder_name, num = index, script = self)
self._global_param_controls.append(ringed_encoder)
self._global_bank_buttons = [ make_on_off_button(0, 87 + index, name=name) for index, name in enumerate(('Pan_Button', 'Send_A_Button', 'Send_B_Button', 'Send_C_Button')) ]
self._device_clip_toggle_button = self._device_bank_buttons[0]
self._device_on_off_button = self._device_bank_buttons[1]
self._detail_left_button = self._device_bank_buttons[2]
self._detail_right_button = self._device_bank_buttons[3]
self._detail_toggle_button = self._device_bank_buttons[4]
self._rec_quantization_button = self._device_bank_buttons[5]
self._overdub_button = self._device_bank_buttons[6]
self._metronome_button = self._device_bank_buttons[7]
self._monomod = ButtonMatrixElement(name = 'Monomod')
for row in self._matrix_rows_raw:
self._monomod.add_row(row)
self._monomod.add_row(self._track_stop_buttons)
self._monomod.add_row(self._select_buttons)
self._monomod.add_row(self._original_mute_buttons)
#self._doublepress_detail_button = DoublePressElement(self._detail_toggle_button)
def wrap_matrix(control_list, wrapper = nop):
return ButtonMatrixElement(rows=[map(wrapper, control_list)])
self._scene_launch_buttons = wrap_matrix(self._scene_launch_buttons)
self._track_stop_buttons = wrap_matrix(self._track_stop_buttons)
self._volume_controls = wrap_matrix(self._volume_controls)
self._arm_buttons = wrap_matrix(self._arm_buttons)
self._original_solo_buttons = wrap_matrix(self._original_solo_buttons)
self._original_mute_buttons = wrap_matrix(self._original_mute_buttons)
self._select_buttons = wrap_matrix(self._select_buttons)
self._device_param_controls = wrap_matrix(self._device_param_controls_raw)
self._device_bank_buttons = wrap_matrix(self._device_bank_buttons, partial(DeviceBankButtonElement, modifiers=[self._shift_button]))
self._solo_buttons = self._original_solo_buttons
self._mute_buttons = self._original_mute_buttons
def _create_detail_view_control(self):
self._detail_view_toggler = DetailViewCntrlComponent(name='Detail_View_Control', is_enabled=False, layer=Layer(device_clip_toggle_button=self._device_clip_toggle_button, device_nav_left_button=self._detail_left_button, device_nav_right_button=self._detail_right_button)) #detail_toggle_button=self._detail_toggle_button
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_mod(self):
self.monomodular = get_monomodular(self)
self.monomodular.name = 'monomodular_switcher'
self.modhandler = APCModHandler(self)
self.modhandler.name = 'ModHandler'
self.modhandler.layer = Layer(priority = 5,
grid = self._monomod,
nav_up_button = self._up_button,
nav_down_button = self._down_button,
nav_left_button = self._left_button,
nav_right_button = self._right_button,
shiftlock_button = self._nudge_up_button,
alt_button = self._nudge_down_button,
shift_button = self._shift_button)
self.modhandler.set_device_component(self._device_component)
self.modhandler.set_enabled(False)
self._monomod_mode = MonomodModeComponent(self._monomod_mode_update, self)
self._monomod_mode.name = "Monomod_Mode_Component"
self._monomod_mode.layer = Layer(priority = 5, mode_toggle = self._detail_toggle_button)
self._on_shift_value.subject = self._shift_button
@subject_slot('value')
def _on_shift_value(self, value):
#self._monomod_mode.set_enabled(value>0)
self._monomod_mode.set_enabled(value is 0)
#self.modhandler.is_enabled() and self.modhanlder._shift_value(value)
if value:
self.modhandler.set_lock_button(self._detail_toggle_button)
else:
self.modhandler.set_lock_button(None)
def _monomod_mode_update(self):
#self.log_message('mode update: ' + str(self._monomod_mode._mode_index))
if(self._monomod_mode._mode_index == 0):
self.flash_status = False
self.modhandler.set_enabled(False)
self._monomod.reset()
self._on_selected_track_changed()
elif(self._monomod_mode._mode_index == 1):
self.flash_status = True
self._monomod.reset()
self.modhandler.set_enabled(True)
self._detail_toggle_button.send_value(self._monomod_mode._mode_index)
"""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, (MonoRingedEncoderElement, MonoEncoderElement)):
self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value)))
def touched(self):
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched +=1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
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
def update_display(self):
super(AumPC40, self).update_display()
self._timer = (self._timer + 1) % 256
self.flash()
def flash(self):
if self.flash_status:
for control, _ in self._monomod.iterbuttons():
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def _make_current_bank_details(self, device_component):
def _current_bank_details():
if not self.modhandler.active_mod() is None:
if self.modhandler.active_mod() and self.modhandler.active_mod()._param_component._device_parent != None:
bank_name = self.modhandler.active_mod()._param_component._bank_name
bank = [param._parameter for param in self.modhandler.active_mod()._param_component._params]
if self.modhandler._alt_value.subject and self.modhandler._alt_value.subject.is_pressed():
bank = bank[8:]
#self.log_message('current mod bank details: ' + str(bank_name) + ' ' + str(bank))
return (bank_name, bank)
else:
return DeviceComponent._current_bank_details(device_component)
else:
return DeviceComponent._current_bank_details(device_component)
return _current_bank_details
class Serato(ControlSurface):
def __init__(self, c_instance):
publish_in_cs_list = True
ControlSurface.__init__(self, c_instance, not publish_in_cs_list)
self._device_selection_follows_track_selection = True
with self.component_guard():
self._matrix = None
self._session = None
self._mixer = None
self._device = None
self._scene_launch_buttons = None
self._track_arm_buttons = None
self._track_solo_buttons = None
self._track_mute_buttons = None
self._track_stop_buttons = None
self._track_select_buttons = None
self._device_on_off_button = None
self._shift_button = None
self._serato_interface = PySCAClipControl()
self._serato_interface.PySCA_InitializeClipControl()
self._setup_session_control()
self._setup_mixer_control()
self._setup_device_control()
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
return
def disconnect(self):
ControlSurface.disconnect(self)
self._serato_interface.PySCA_DeinitializeClipControl()
self._serato_interface = None
return
def connect_script_instances(self, instanciated_scripts):
""" Called by the Application as soon as all scripts are initialized.
You can connect yourself to other running scripts here, as we do it
connect the extension modules (MackieControlXTs).
"""
for control_surface in self._control_surfaces():
control_surface_session = control_surface.highlighting_session_component(
)
if control_surface_session:
self._session.sync_to(control_surface_session)
self._on_track_list_changed()
break
def build_midi_map(self, midi_map_handle):
pass
def update_display(self):
ControlSurface.update_display(self)
while self._serato_interface.PySCA_HasIncomingEvent():
new_event = self._serato_interface.PySCA_GetIncomingEvent()
if not self._handle_session_event(new_event):
if not self._handle_mixer_event(new_event):
if not self._handle_device_event(new_event):
print 'Unhandled Event: ' + str(new_event)
def _setup_session_control(self):
is_momentary = True
self._session = SpecialSessionComponent(NUM_TRACKS, NUM_SCENES)
self._session.set_serato_interface(self._serato_interface)
self._matrix = ButtonMatrixElement()
self._scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
for index in range(NUM_SCENES)
]
self._track_stop_buttons = [
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0)
for index in range(NUM_TRACKS)
]
stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
self._session.set_stop_all_clips_button(stop_all_button)
self._session.set_stop_track_clip_buttons(
tuple(self._track_stop_buttons))
for scene_index in range(NUM_SCENES):
scene = self._session.scene(scene_index)
button_row = []
scene.set_launch_button(self._scene_launch_buttons[scene_index])
scene.set_index(scene_index)
scene.set_serato_interface(self._serato_interface)
for track_index in range(NUM_TRACKS):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
clip_slot.set_serato_interface(self._serato_interface)
self._matrix.add_row(tuple(button_row))
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(NUM_TRACKS)
self._mixer.set_serato_interface(self._serato_interface)
self._mixer.master_strip().set_serato_interface(self._serato_interface)
self._track_arm_buttons = []
self._track_solo_buttons = []
self._track_mute_buttons = []
self._track_select_buttons = []
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 0)
for track in range(NUM_TRACKS):
strip = self._mixer.channel_strip(track)
strip.set_serato_interface(self._serato_interface)
self._track_arm_buttons.append(
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_solo_buttons.append(
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_mute_buttons.append(
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
self._track_select_buttons.append(
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 0))
strip.set_arm_button(self._track_arm_buttons[-1])
strip.set_solo_button(self._track_solo_buttons[-1])
strip.set_mute_button(self._track_mute_buttons[-1])
strip.set_select_button(self._track_select_buttons[-1])
strip.set_shift_button(self._shift_button)
def _setup_device_control(self):
is_momentary = True
self._device_on_off_button = ButtonElement(not is_momentary,
MIDI_NOTE_TYPE, 0, 0)
self._device = SpecialDeviceComponent()
self._device.set_serato_interface(self._serato_interface)
self._device.set_parameter_controls(
tuple([
SliderElement(MIDI_CC_TYPE, 0, 0)
for index in range(NUM_PARAMS)
]))
self._device.set_on_off_button(self._device_on_off_button)
self.set_device_component(self._device)
def _handle_session_event(self, event):
result = False
if event.type in CLIP_EVENTS:
value = 127 * int(event.type == libInterprocessCommsAPIPython.
kAbletonClipControlEventClipPlayedDown)
track_index = event.key1 - 1
scene_index = event.key2 - 1
if track_index in range(NUM_TRACKS) and scene_index in range(
NUM_SCENES):
self._matrix.get_button(track_index,
scene_index).receive_value(value)
result = True
elif event.type in SCENE_EVENTS:
value = 127 * int(event.type == libInterprocessCommsAPIPython.
kAbletonClipControlEventScenePlayedDown)
scene_index = event.key1 - 1
if scene_index in range(NUM_SCENES):
self._scene_launch_buttons[scene_index].receive_value(value)
result = True
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlMatrixSizeChanged:
new_width = event.key1
new_height = event.key2
self._session.set_size(new_width, new_height)
result = True
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlMatrixOffsetChanged:
x_increment = event.key1
y_increment = event.key2
self._session.move_by(x_increment, y_increment)
result = True
return result
def _handle_mixer_event(self, event):
result = True
track_index = event.key1 - 1
value = event.key2
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackMasterGainChange:
self._mixer.master_strip().set_track_volume(fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventMasterTrackStopped:
self.song().stop_all_clips()
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventMasterTrackSelect:
self.song().view.selected_track = self.song().master_track
else:
result = track_index in range(
NUM_TRACKS) and self._handle_strip_event(event)
return result
def _handle_strip_event(self, event):
result = True
track_index = event.key1 - 1
value = event.key2
if value == 0:
self._shift_button.receive_value(127)
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSolo:
self._track_solo_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackRecord:
self._track_arm_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackActive:
self._track_mute_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackStopped:
self._track_stop_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSelect:
self._track_select_buttons[track_index].receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackGainChange:
self._mixer.channel_strip(track_index).set_track_volume(
fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSendAChange:
self._mixer.channel_strip(track_index).set_send(
0, fixed_value(value))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventTrackSendBChange:
self._mixer.channel_strip(track_index).set_send(
1, fixed_value(value))
else:
result = False
self._shift_button.receive_value(0)
return result
def _handle_device_event(self, event):
result = True
if event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceValueChanged:
self._device.set_parameter_value(event.key1 - 1,
fixed_value(event.key2))
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceActivate:
self._device_on_off_button.receive_value(127)
elif event.type == libInterprocessCommsAPIPython.kAbletonClipControlEventDeviceFocusMove:
self._move_device_focus(event.key1)
else:
result = False
return result
def _move_device_focus(self, increment):
if not self.application().view.is_view_visible(
'Detail') or not self.application().view.is_view_visible(
'Detail/DeviceChain'):
self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
modifier_pressed = True
direction = Live.Application.Application.View.NavDirection.left
if increment > 0:
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction,
'Detail/DeviceChain',
not modifier_pressed)
class Codec(ControlSurface):
__module__ = __name__
__doc__ = " MonoCode controller script "
def __init__(self, c_instance, *a, **k):
super(Codec, self).__init__(c_instance, *a, **k)
self._monomod_version = 'b995'
self._version_check = 'b995'
self._host_name = 'Codec'
self._color_type = 'Monochrome'
self._link_mixer = LINK_MIXER
self._hosts = []
self._linked_script = None
self._local_ring_control = True
self._last_device = None
self._device_list = [None, None, None, None]
self._device_select_buttons = None
self._last_device_component = None
self._timer = 0
self._touched = 0
self._locked = False
self.flash_status = 1
self._shift_button = None
self._shift_pressed = 0
self._shift_pressed_timer = 0
self._shift_thresh = SHIFT_THRESH
self._use_device_selector = USE_DEVICE_SELECTOR
self._device_selection_follows_track_selection = FOLLOW
with self.component_guard():
#self.local_ring_control(True)
#self.set_absolute_mode(True)
self._setup_controls()
self._setup_monobridge()
self._setup_device_controls()
self._setup_special_device_control()
self._device.append(
self._special_device
) #necessary for device browsing to work with special device
self._setup_device_chooser()
self._setup_mixer_controls()
self._setup_monomod()
self._setup_modes()
self._setup_device_selector()
self._setup_send_reset()
self._setup_default_buttons()
self.set_local_ring_control(1)
self.song().view.add_selected_track_listener(
self._update_selected_device)
self._initialize_code()
#self._shift_mode.set_mode(0)
#self._monomod_mode.set_mode(0)
self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec ' +
str(self._monomod_version) +
' log opened >>>>>>>>>>>>>>>>>>>>>>>>>')
self.show_message('Codec Control Surface Loaded')
self.request_rebuild_midi_map()
"""script initialization methods"""
def _initialize_code(self):
self._send_midi(factoryreset)
self._send_midi(btn_channels)
self._send_midi(enc_channels)
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._livid = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE,
CHANNEL, LIVID, 'Livid_Button',
self)
self._dial = [None for index in range(8)]
for column in range(8):
self._dial[column] = [None for index in range(4)]
for row in range(4):
self._dial[column][row] = CodecEncoderElement(
MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column],
Live.MidiMap.MapMode.absolute,
'Dial_' + str(column) + '_' + str(row),
(column + (row * 8)), self) #CODE_DIALS[row][column]
self._button = [None for index in range(8)]
for column in range(8):
self._button[column] = [None for index in range(4)]
for row in range(4):
self._button[column][row] = CodecMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, CHANNEL,
CODE_BUTTONS[row][column],
'Button_' + str(column) + '_' + str(row), self)
self._column_button = [None for index in range(8)]
for index in range(8):
self._column_button[index] = CodecMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, CHANNEL,
CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index),
self)
self._row_button = [None for index in range(4)]
for index in range(4):
self._row_button[index] = CodecMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index],
'Row_Button_' + str(index), self)
self._dial_matrix = EncoderMatrixElement(self)
self._dial_matrix.name = 'Encoder_Matrix'
for row in range(4):
dial_row = tuple([self._dial[column][row] for column in range(8)])
self._dial_matrix.add_row(dial_row)
self._button_matrix = ButtonMatrixElement()
self._button_matrix.name = 'Button_Matrix'
for row in range(4):
button_row = [self._button[column][row] for column in range(8)]
button_row.append(self._row_button[row])
self._button_matrix.add_row(tuple(button_row))
self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
def _setup_modes(self):
self._monomod_mode = MonomodModeComponent(self._mod_mode_update, self)
self._monomod_mode.name = 'Monomod_Mode'
self.set_shift_button(self._livid)
self._shift_mode = ShiftModeComponent(self._shift_update, self)
self._shift_mode.name = 'Shift_Mode'
self._shift_mode.set_mode_buttons(
tuple([
self._row_button[0], self._row_button[1], self._row_button[2],
self._row_button[3]
]))
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_monomod(self):
self._host = CodecMonomodComponent(self)
self._host.name = 'Monomod_Host'
self._host._set_dial_matrix(self._dial_matrix, self._button_matrix)
self.hosts = [self._host]
encs = []
for row in range(4):
for col in range(8):
encs.append(self._dial[col][row])
self._host._set_parameter_controls(encs)
def _setup_mixer_controls(self):
is_momentary = True
self._num_tracks = (8)
self._session = SessionComponent(self._num_tracks, 0)
self._session.name = 'Session'
self._mixer = MixerComponent(self._num_tracks, 0, False, False)
self._mixer.name = 'Mixer'
self._mixer._next_track_value = self._mixer_next_track_value(
self._mixer)
self._mixer._prev_track_value = self._mixer_prev_track_value(
self._mixer)
self._mixer.set_track_offset(
0) #Sets start point for mixer strip (offset from left)
#for index in range(8):
#use the bottom row of encoders for volume, so add 24 to offset the index
# self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
for index in range(8):
self._mixer.channel_strip(
index).name = 'Mixer_ChannelStrip_' + str(index)
self._mixer.channel_strip(index)._invert_mute_feedback = True
self._mixer.channel_strip(
index)._mute_value = self._channelstrip_mute_value(
self._mixer.channel_strip(index))
self._mixer.channel_strip(
index)._solo_value = self._channelstrip_solo_value(
self._mixer.channel_strip(index))
#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
self.song().view.selected_track = self._mixer.channel_strip(
0
)._track #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error
self._session.set_mixer(self._mixer)
def _setup_device_controls(self):
self._device = [None for index in range(4)]
for index in range(4):
self._device[index] = CodecDeviceComponent(self)
self._device[index].name = 'CodecDevice_Component_' + str(index)
device_param_controls = []
for control in range(8):
device_param_controls.append(self._dial[control][index])
self._device[index].set_on_off_button(self._button[1][index])
self._device[index].set_lock_button(self._button[2][index])
self._device[index].set_bank_nav_buttons(self._button[4][index],
self._button[5][index])
self._device[index].set_nav_buttons(self._button[6][index],
self._button[7][index])
self._device[index].set_parameter_controls(
tuple(device_param_controls))
self.set_device_component(self._device[0])
self._last_device_component = self._device[0]
def _setup_special_device_control(self):
self._special_device = SpecialCodecDeviceComponent(self)
self._special_device.name = 'SpecialCodecDeviceComponent'
self._special_device.set_on_off_button(self._button[1][0])
self._special_device.set_lock_button(self._button[2][0])
self._special_device.set_bank_nav_buttons(self._button[4][0],
self._button[5][0])
self._special_device.set_nav_buttons(self._button[6][0],
self._button[7][0])
device_param_controls = []
for row in range(4):
for column in range(8):
device_param_controls.append(self._dial[column][row])
self._special_device.set_parameter_controls(
tuple(device_param_controls))
def _setup_device_chooser(self):
self._selected_device = self._device[0]
self._last_selected_device = self._device[0]
self._device_select_buttons = [
self._button[0][index] for index in range(4)
]
for button in self._device_select_buttons:
button.add_value_listener(self._device_select_value, True)
def _setup_device_selector(self):
self._device_selector = CodecDeviceSelectorComponent(
self, 'c', self._device + [self._special_device])
self._device_selector.name = 'Device_Selector'
self._device_selector.set_mode_buttons(self._column_button)
#self._device_selector.set_mode_toggle(self._livid)
def _setup_send_reset(self):
self._send_reset = CodecResetSendsComponent(self)
self._send_reset.set_buttons(self._button)
def _setup_default_buttons(self):
self._value_default = ParameterDefaultComponent(self)
buttons = []
dials = []
for column in self._button:
for button in column:
buttons.append(button)
for column in self._dial:
for dial in column:
dials.append(dial)
self._value_default.set_buttons(buttons)
self._value_default.set_dials(dials)
"""multiple device support"""
def _device_select_value(self, value, sender):
#self.log_message('device_select_value ' + str(value) + ' ' + str(self._device_select_buttons.index(sender)))
if not self._shift_pressed:
if sender.is_momentary or value > 0:
if self._shift_mode._mode_index == 2:
self.set_device_component(self._device[
self._device_select_buttons.index(sender)])
self._last_device_component = self._device_component
if self._device_component != None and isinstance(
self._device_component._device,
Live.Device.Device):
if self._device_component.find_track(
self._device_component._device) == self.song(
).view.selected_track:
self._device_component.display_device()
"""livid double press mechanism"""
def set_shift_button(self, button):
assert ((button == None) or (isinstance(button, MonoButtonElement)))
if self._shift_button != None:
self._shift_button.remove_value_listener(self._shift_value)
self._shift_button = button
if self._shift_button != None:
self._shift_button.add_value_listener(self._shift_value)
def _shift_value(self, value):
self._shift_pressed = int(value != 0)
if self._shift_pressed > 0:
self._send_midi(SLOWENCODER)
if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
#if(self._host.is_enabled() != True)
self.log_message('mod mode: ' +
str(abs(self._monomod_mode._mode_index - 1)))
self._monomod_mode.set_mode(
max(0, min(1, abs(self._monomod_mode._mode_index - 1))))
#else:
# self._monomod_mode.set_mode(0)
self._shift_pressed_timer = self._timer % 256
else:
self._send_midi(NORMALENCODER)
def _mod_mode_update(self):
if (self._monomod_mode._mode_index == 0):
self._host._set_shift_button(None)
self._host.set_enabled(False)
self._dial_matrix.reset()
self._shift_mode.set_enabled(True)
self._shift_update()
self.request_rebuild_midi_map()
self._livid.turn_off()
elif (self._monomod_mode._mode_index == 1):
self._shift_mode.set_enabled(False)
self._deassign_all()
self._dial_matrix.reset()
self._button_matrix.reset()
self._livid.turn_on()
if not self._host._active_client == None:
self._host.set_enabled(True)
self._host._set_shift_button(self._livid)
else:
self._assign_alternate_mappings(1)
self.request_rebuild_midi_map()
"""Mode Functions"""
def _shift_update(self):
if (self._shift_mode.is_enabled()):
with self.component_guard():
self.allow_updates(False)
#if(not self._in_build_midi_map):
# self.set_suppress_rebuild_requests(True)
self._deassign_all()
if (self._shift_mode._mode_index is 0):
self._assign_volume()
elif (self._shift_mode._mode_index is 1):
self._assign_sends()
elif (self._shift_mode._mode_index is 2):
self._assign_devices()
elif (self._shift_mode._mode_index is 3):
self._assign_special_device()
for index in range(self._shift_mode.number_of_modes()):
if index == self._shift_mode._mode_index:
self._shift_mode._modes_buttons[index].turn_on()
else:
self._shift_mode._modes_buttons[index].turn_off()
self.allow_updates(True)
#self.set_suppress_rebuild_requests(False)
self.request_rebuild_midi_map()
def _deassign_all(self):
self._assign_alternate_mappings(0)
self._device_selector.set_enabled(False)
for index in range(8):
self._mixer.channel_strip(index).set_volume_control(None)
self._mixer.channel_strip(index).set_pan_control(None)
self._mixer.channel_strip(index).set_send_controls(
tuple([None, None, None, None]))
for index in range(4):
self._device[index].set_enabled(False)
self._device[index]._parameter_controls = None
#self._device_navigator[index].set_enabled(False)
self._special_device.set_enabled(False)
self._special_device._parameter_controls = None
self._device_selector.set_enabled(False)
self._deassign_buttons()
for control in self.controls:
control.reset()
self.request_rebuild_midi_map()
def _deassign_buttons(self):
for index in range(8):
self._mixer.channel_strip(index).set_select_button(None)
self._mixer.channel_strip(index).set_solo_button(None)
self._mixer.channel_strip(index).set_mute_button(None)
self._mixer.set_select_buttons(None, None)
self._send_reset.set_enabled(False)
def _assign_volume(self):
for index in range(8):
self._mixer.channel_strip(index).set_volume_control(
self._dial[index][3])
self._mixer.channel_strip(index).set_pan_control(
self._dial[index][2])
self._mixer.channel_strip(index).set_send_controls(
tuple([self._dial[index][0], self._dial[index][1]]))
self._mixer.channel_strip(index).set_select_button(
self._column_button[index])
self._mixer.channel_strip(index).set_solo_button(
self._button[index][2])
self._mixer.channel_strip(index).set_mute_button(
self._button[index][3])
self._mixer.set_select_buttons(self._button[7][0], self._button[6][0])
def _assign_sends(self):
for index in range(8):
self._mixer.channel_strip(index).set_send_controls(
tuple([
self._dial[index][0], self._dial[index][1],
self._dial[index][2], self._dial[index][3]
]))
self._mixer.channel_strip(index).set_select_button(
self._column_button[index])
self._send_reset.set_enabled(True)
def _assign_devices(self):
self.set_device_component(self._last_device_component)
self._device_select_value(
1, self._device_select_buttons[self._device.index(
self._device_component)])
for index in range(4):
device_param_controls = []
for control in range(8):
device_param_controls.append(self._dial[control][index])
self._device[index].set_parameter_controls(
tuple(device_param_controls))
self._device[index].set_enabled(True)
self._device_selector.set_enabled(self._use_device_selector)
if not self._use_device_selector:
for index in range(8):
self._mixer.channel_strip(index).set_select_button(
self._column_button[index])
def _assign_special_device(self):
self.set_device_component(self._special_device)
device_param_controls = []
for row in range(4):
for column in range(8):
device_param_controls.append(self._dial[column][row])
self._special_device.set_parameter_controls(
tuple(device_param_controls))
self._special_device.set_enabled(True)
self._device_selector.set_enabled(self._use_device_selector)
if not self._use_device_selector:
for index in range(8):
self._mixer.channel_strip(index).set_select_button(
self._column_button[index])
def _assign_alternate_mappings(self, chan):
for column in self._dial:
for control in column:
control.set_channel(chan)
control.set_enabled(chan is 0)
for column in self._button:
for control in column:
control.set_channel(chan)
control.set_enabled(chan is 0)
for control in self._column_button:
control.set_channel(chan)
control.set_enabled(chan is 0)
for control in self._row_button:
control.set_channel(chan)
control.set_enabled(chan is 0)
"""general functionality"""
def disconnect(self):
"""clean things up on disconnect"""
if not self._shift_button is None:
if self._shift_button.value_has_listener(self._shift_value):
self._shift_button.remove_value_listener(self._shift_value)
for button in self._device_select_buttons:
if button.value_has_listener(self._device_select_value):
button.remove_value_listener(self._device_select_value)
if self._session._is_linked():
self._session._unlink()
self.song().view.remove_selected_track_listener(
self._update_selected_device)
"""for cs in self._control_surfaces():
for host in self._hosts:
self.log_message('installed: ' + str(cs) + ' vs. ' + str(host))
if str(type(cs)) == str(type(host)):
self.log_message('disconnecting: ' + str(type(cs)))
cs.disconnect(cs)"""
#self._host._set_parameter_controls(None)
self._hosts = []
if self._linked_script != None:
self._linked_script._update_linked_device_selection = None
self._linked_script = None
#self._disconnect_notifier.set_mode(0)
self.log_message(
'<<<<<<<<<<<<<<<<<<<<<<<<< Codec log closed >>>>>>>>>>>>>>>>>>>>>>>>>'
)
ControlSurface.disconnect(self)
return None
def connect_script_instances(self, instanciated_scripts):
found = False
for s in instanciated_scripts:
if '_codec_version' in dir(s):
if s._codec_version == self._version_check:
if s._host_name == ('MonOhm'):
self.log_message('found codec version ' +
str(s._codec_version) +
' in script ' + str(s._host_name))
found = True
self._linked_script = s
self._linked_script._update_linked_device_selection = self._update_linked_device_selection
if not self._session._is_linked(
) and self._link_mixer is True:
self._session.set_offsets(LINK_OFFSET[0],
LINK_OFFSET[1])
self._session._link()
else:
self.log_message('version mismatch: Monomod version ' +
str(self._version_check) +
' vs. Host version ' +
str(s._codec_version))
if found == False:
for s in instanciated_scripts:
if '_codec_version' in dir(s):
if s._codec_version == self._version_check:
if s._host_name == 'BlockMod':
self.log_message('found codec version ' +
str(s._codec_version) +
' in script ' + str(s._host_name))
self._linked_script = s
self._linked_script._update_linked_device_selection = self._update_linked_device_selection
if not self._session._is_linked(
) and self._link_mixer is True:
self._session.set_offsets(LINK_OFFSET[0],
LINK_OFFSET[1])
self._session._link()
else:
self.log_message('version mismatch: Monomod version ' +
str(self._version_check) +
' vs. Host version ' +
str(s._codec_version))
#self.log_message('hosts: ' + str(self._hosts))"""
def update_display(self):
ControlSurface.update_display(
self
) #since we are overriding this from the inherited method, we need to call the original routine as well
self._timer = (self._timer + 1) % 256
if (self._timer == 0):
self._shift_pressed_timer = -12
if (self._local_ring_control is False):
self.send_ring_leds()
self.flash()
def handle_sysex(self, midi_bytes):
#self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
#response = [long(0),long(0)]
#self.log_message(response)
pass
def flash(self):
if (self.flash_status > 0):
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def send_ring_leds(self):
leds = [240, 0, 1, 97, 4, 31]
for column in range(8):
for row in range(4):
wheel = self._dial[column][row]
bytes = wheel._get_ring()
leds.append(bytes[0])
leds.append(int(bytes[1]) + int(bytes[2]))
#if(row == 1 and column == 0):
# self.log_message(str(leds) + ' ' + str(bytes[0]) + ' ' + str(bytes[1]) + ' ' + str(bytes[2]))
leds.append(247)
self._send_midi(tuple(leds))
def set_absolute_mode(self, val=1):
self._absolute_mode = (val != 0)
if self._absolute_mode is True:
self._send_midi(
tuple([240, 0, 1, 97, 4, 17, 0, 0, 0, 0, 0, 0, 0, 0, 247]))
else:
self._send_midi(
tuple([
240, 0, 1, 97, 4, 17, 127, 127, 127, 127, 127, 127, 127,
127, 247
]))
def set_local_ring_control(self, val=1):
self._local_ring_control = (val != 0)
if (self._local_ring_control is True):
#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 0, 247]))
self._send_midi(tuple([240, 0, 1, 97, 4, 8, 72, 247]))
else:
#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 1, 247]))
self._send_midi(tuple([240, 0, 1, 97, 4, 8, 64, 247]))
def device_follows_track(self, val):
self._device_selection_follows_track_selection = (val == 1)
return self
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 12
if (not display_string):
return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.endswith('dB') and
(display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ', 'i', 'o', 'u', 'e', 'a']:
while ((len(display_string) >
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] +
display_string[(um_pos + 1):])
else:
display_string = display_string.center(
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127)
or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return ret
def notification_to_bridge(self, name, value, sender):
if (isinstance(sender, CodecEncoderElement)):
self._monobridge._send(sender.name, 'lcd_name',
str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value',
str(self.generate_strip_string(value)))
def touched(self):
if not self._host.is_enabled():
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched += 1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip() is True:
clip_names.append(clip_slot._clip_slot) ##.clip.name)
return clip_slot._clip_slot
##self.log_message(str(clip_slot._clip_slot.clip.name))
return clip_names
"""overrides"""
def allow_updates(self, allow_updates):
for component in self.components:
component.set_allow_update(int(allow_updates != 0))
def set_device_component(self, device_component):
if self._device_component != None:
self._device_component._lock_callback = None
assert (device_component != None)
assert isinstance(device_component, DeviceComponent)
self._device_component = device_component
self._device_component._lock_callback = self._toggle_lock #old: self._device_component.set_lock_callback(self._toggle_lock)
if self._device_select_buttons != None:
for button in self._device_select_buttons:
button.send_value(
self._device_select_buttons.index(button) ==
self._device.index(self._device_component))
self._update_device_selection()
return None
def _update_selected_device(self):
if self._device_selection_follows_track_selection is True:
self._update_device_selection()
return None
def _update_linked_device_selection(self, device):
#self.log_message('codec received ' + str(device.name))
if self._device_component != None and device != None:
if not self._device_component.is_locked():
self._device_component.set_device(device)
def _get_num_tracks(self):
return self.num_tracks
def _update_device_selection(self):
#self.log_message('_update_device_selection')
if self._device_component != None:
if not self._device_component.is_locked():
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if ((device_to_select == None) and (len(track.devices) > 0)):
device_to_select = track.devices[0]
if (device_to_select != None):
self.song().view.select_device(device_to_select)
self._device_component.set_device(device_to_select)
def _channelstrip_mute_value(self, channelstrip):
def _mute_value(value):
if not self._shift_pressed:
self.log_message('shift not pressed')
ChannelStripComponent._mute_value(channelstrip, value)
return _mute_value
def _channelstrip_solo_value(self, channelstrip):
def _solo_value(value):
if not self._shift_pressed:
ChannelStripComponent._solo_value(channelstrip, value)
return _solo_value
def _mixer_next_track_value(self, mixer):
def _next_track_value(value):
if not self._shift_pressed:
MixerComponent._next_track_value(mixer, value)
return _next_track_value
def _mixer_prev_track_value(self, mixer):
def _prev_track_value(value):
if not self._shift_pressed:
MixerComponent._prev_track_value(mixer, value)
return _prev_track_value
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self.set_suppress_rebuild_requests(True)
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary,
MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = Live.Application.get_random_int(
0, 400000000) & 2139062143
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = []
for column in range(8):
button = ConfigurableButtonElement(is_momentary,
MIDI_NOTE_TYPE, 0,
row * 16 + column)
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
self._config_button.add_value_listener(self._config_value)
top_buttons = [
ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0,
104 + index) for index in range(8)
]
side_buttons = [
ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
SIDE_NOTES[index]) for index in range(8)
]
top_buttons[0].name = 'Bank_Select_Up_Button'
top_buttons[1].name = 'Bank_Select_Down_Button'
top_buttons[2].name = 'Bank_Select_Left_Button'
top_buttons[3].name = 'Bank_Select_Right_Button'
top_buttons[4].name = 'Session_Button'
top_buttons[5].name = 'User1_Button'
top_buttons[6].name = 'User2_Button'
top_buttons[7].name = 'Mixer_Button'
side_buttons[0].name = 'Vol_Button'
side_buttons[1].name = 'Pan_Button'
side_buttons[2].name = 'SndA_Button'
side_buttons[3].name = 'SndB_Button'
side_buttons[4].name = 'Stop_Button'
side_buttons[5].name = 'Trk_On_Button'
side_buttons[6].name = 'Solo_Button'
side_buttons[7].name = 'Arm_Button'
self._selector = MainSelectorComponent(matrix, tuple(top_buttons),
tuple(side_buttons),
self._config_button, self)
self._selector.name = 'Main_Modes'
self._do_combine()
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self._suppress_session_highlight = False
self.set_suppress_rebuild_requests(False)
self.log_message("LaunchPad85 Loaded !")
class APC20(APC):
""" Script for Akai's APC20 Controller """
def __init__(self, *a, **k):
super(APC20, self).__init__(*a, **k)
self._skin = make_biled_skin()
with self.component_guard():
self._create_controls()
self._create_session()
self._create_mixer()
self._create_transport()
self._create_background()
self._create_global_control()
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
for component in self.components:
component.set_enabled(False)
def _activate_combination_mode(self, track_offset, support_devices):
super(APC20, self)._activate_combination_mode(track_offset, support_devices)
if support_devices:
self._shift_modes.invert_assignment()
def _create_controls(self):
make_color_button = partial(make_button, skin=self._skin)
self._shift_button = make_button(0, 81, name='Shift_Button')
self._matrix = ButtonMatrixElement(name='Button_Matrix')
self._scene_launch_buttons = [ make_color_button(0, index + 82, name='Scene_%d_Launch_Button' % index) for index in xrange(SESSION_HEIGHT) ]
self._track_stop_buttons = [ make_color_button(index, 52, name='Track_%d_Stop_Button' % index) for index in xrange(SESSION_WIDTH) ]
for scene_index in xrange(SESSION_HEIGHT):
row = [ make_color_button(track_index, scene_index + 53, name='%d_Clip_%d_Button' % (track_index, scene_index)) for track_index in xrange(SESSION_WIDTH) ]
self._matrix.add_row(row)
self._selected_scene_launch_button = make_pedal_button(64, name='Selected_Scene_Launch_Button')
self._scene_launch_buttons = ButtonMatrixElement(name='Scene_Launch_Buttons', rows=[self._scene_launch_buttons])
self._solo_buttons = [ make_button(track_index, 49, name='%d_Solo_Button' % track_index) for track_index in xrange(MIXER_SIZE) ]
self._mute_buttons = [ make_button(track_index, 50, name='%d_Mute_Button' % track_index) for track_index in xrange(MIXER_SIZE) ]
self._master_volume_control = make_slider(0, 14, name='Master_Volume_Control')
self._prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, MapMode.relative_two_compliment, name='Prehear_Volume_Control')
self._master_select_button = make_button(0, 80, name='Master_Select_Button')
self._select_buttons = [ make_button(track_index, 51, name='%d_Select_Button' % track_index) for track_index in xrange(8) ]
self._arm_buttons = [ make_button(track_index, 48, name='%d_Arm_Button' % track_index) for track_index in xrange(8) ]
self._sliders = [ make_slider(track_index, 7, name='%d_Volume_Control' % track_index) for track_index in xrange(8) ]
self._note_matrix = ButtonMatrixElement(name='Note_Button_Matrix')
self._note_buttons = [ [ make_button(9, note + i, name='Note_%d_Button' % (note + i)) for i in xrange(4) ] for note in xrange(36, 75, 4) ]
for row in self._note_buttons:
for button in row:
button.send_depends_on_forwarding = False
self._note_matrix.add_row(row)
def _create_session(self):
self._session = SessionComponent(SESSION_WIDTH, SESSION_HEIGHT, name='Session_Control', auto_name=True, enable_skinning=True)
self._session.set_clip_launch_buttons(self._matrix)
self._session.set_stop_track_clip_buttons(tuple(self._track_stop_buttons))
self._session.set_scene_launch_buttons(self._scene_launch_buttons)
for scene_index in xrange(SESSION_HEIGHT):
scene = self._session.scene(scene_index)
for track_index in xrange(SESSION_WIDTH):
clip_slot = scene.clip_slot(track_index)
clip_slot.name = '%d_Clip_Slot_%d' % (track_index, scene_index)
self._session.selected_scene().set_launch_button(self._selected_scene_launch_button)
self._session_zoom = ShiftableZoomingComponent(self._session, tuple(self._track_stop_buttons), name='Session_Overview', enable_skinning=True)
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_scene_bank_buttons(self._scene_launch_buttons)
def _create_mixer(self):
self._mixer = MixerComponent(MIXER_SIZE, name='Mixer')
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
buttons = izip(self._solo_buttons, self._mute_buttons)
for track_index, (solo_button, mute_button) in enumerate(buttons):
strip = self._mixer.channel_strip(track_index)
strip.name = 'Channel_Strip_%d' % track_index
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
self._mixer.set_prehear_volume_control(self._prehear_control)
self._mixer.master_strip().set_volume_control(self._master_volume_control)
def _create_transport(self):
self._transport = TransportComponent(name='Transport')
def _create_background(self):
self._background = BackgroundComponent(name='Background')
def _create_global_control(self):
self._slider_modes = SliderModesComponent(self._mixer, tuple(self._sliders), name='Slider_Modes')
self._shift_modes = ShiftableSelectorComponent(tuple(self._select_buttons), self._master_select_button, tuple(self._arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, self._transport, self._slider_modes, self._send_introduction_message, self._note_matrix, self._background, name='Shift_Modes')
self._shift_modes.set_mode_toggle(self._shift_button)
def _product_model_id_byte(self):
return 123
class APC20(APC):
""" Script for Akai's APC20 Controller """
def __init__(self, c_instance):
self._shift_modes = None
APC.__init__(self, c_instance)
def disconnect(self):
self._shift_modes = None
APC.disconnect(self)
def _activate_combination_mode(self, track_offset, support_devices):
APC._activate_combination_mode(self, track_offset, support_devices)
if support_devices:
self._shift_modes.invert_assignment()
def _setup_session_control(self):
is_momentary = True
self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
self._session = APCSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Button_Matrix'
scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, index + 82)
for index in range(5)
]
track_stop_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52)
for index in range(8)
]
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button'
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE,
track_index, scene_index + 53)
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
self._matrix.add_row(tuple(button_row))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = ShiftableZoomingComponent(
self._session, tuple(track_stop_buttons))
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
solo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
49)
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
50)
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
prehear_control = EncoderElement(
MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
master_volume_control.name = 'Master_Volume_Control'
prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_prehear_volume_control(prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
def _setup_custom_components(self):
is_momentary = True
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
80)
master_select_button.name = 'Master_Select_Button'
select_buttons = []
arm_buttons = []
sliders = []
for track in range(8):
select_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51))
arm_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
sliders.append(SliderElement(MIDI_CC_TYPE, track, 7))
select_buttons[-1].name = str(track) + '_Select_Button'
arm_buttons[-1].name = str(track) + '_Arm_Button'
sliders[-1].name = str(track) + '_Volume_Control'
transport = TransportComponent()
transport.name = 'Transport'
slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
slider_modes.name = 'Slider_Modes'
self._shift_modes = ShiftableSelectorComponent(
tuple(select_buttons), master_select_button, tuple(arm_buttons),
self._matrix, self._session, self._session_zoom, self._mixer,
transport, slider_modes, self._send_introduction_message)
self._shift_modes.name = 'Shift_Modes'
self._shift_modes.set_mode_toggle(self._shift_button)
def _product_model_id_byte(self):
return 123
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._suggested_input_port = "Launchpad"
self._suggested_output_port = "Launchpad"
# Launchpad configuration
self._send_midi(LAUNCHPAD_RESET)
self._send_midi(LAUNCHPAD_ENABLE_BLINKING)
# make buttons
top_buttons = [make_button(MIDI_CC_TYPE, 104 + i) for i in range(8)]
side_buttons = [make_button(MIDI_NOTE_TYPE, 8 + 16 * i) for i in range(8)]
matrix = ButtonMatrixElement()
for row in range(8):
button_row = [make_button(MIDI_NOTE_TYPE, 16 * row + col) for col in range(8)]
matrix.add_row(tuple(button_row))
# mixer and session components
self._mixer = MixerComponent(8)
self._session = SessionComponent(8, SCENES_AMOUNT)
self._session.set_mixer(self._mixer)
self.set_highlighting_session_component(self._session)
# navigation
for button in top_buttons[:4]:
button.set_on_off_values(GREEN_FULL, GREEN_THIRD)
self._session.set_scene_bank_buttons(top_buttons[1], top_buttons[0])
self._session.set_track_bank_buttons(top_buttons[3], top_buttons[2])
# clip launch
for scene_index in range(SCENES_AMOUNT):
scene = self._session.scene(scene_index)
scene.set_launch_button(side_buttons[scene_index])
scene.set_triggered_value(GREEN_BLINK)
scene.set_scene_value(GREEN_THIRD)
scene.set_no_scene_value(LED_OFF)
for track_index in range(8):
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(matrix.get_button(track_index, scene_index))
clip_slot.set_triggered_to_play_value(GREEN_BLINK)
clip_slot.set_triggered_to_record_value(RED_BLINK)
clip_slot.set_started_value(GREEN_FULL)
clip_slot.set_stopped_value(AMBER_THIRD)
clip_slot.set_recording_value(RED_FULL)
# track stop
self._session.set_stop_track_clip_buttons([matrix.get_button(i, ROW_STOP) for i in range(8)])
self._session.set_stop_clip_value(RED_THIRD)
self._session.set_stop_clip_triggered_value(RED_BLINK)
button_stop_all = side_buttons[ROW_STOP]
button_stop_all.set_on_off_values(RED_FULL, RED_THIRD)
self._session.set_stop_all_clips_button(button_stop_all)
# track select
self._mixer.set_track_select_buttons([matrix.get_button(i, ROW_SELECT) for i in range(8)])
self._mixer.set_track_select_values(AMBER_FULL, AMBER_THIRD, LED_OFF)
button_select_master = side_buttons[ROW_SELECT]
button_select_master.set_on_off_values(AMBER_FULL, AMBER_THIRD)
self._mixer.set_master_select_button(button_select_master)
# delete clip button
self._delete_button = top_buttons[INDEX_DELETE_BUTTON]
self._delete_button.set_on_off_values(RED_BLINK, RED_THIRD)
self._delete_button.add_value_listener(self._delete_value_listener)
self._del_pressed = False
self._delete_button.turn_off()
# quantization toggle
self._quantization_toggle = QuantizationToggle(
top_buttons[INDEX_QUANTIZATION_BUTTON], self.song(), GREEN_THIRD, RED_THIRD
)
# browser view toggle
self._browser_view_toggle = ViewToggle(
side_buttons[INDEX_BROWSER_VIEW_BUTTON], ABLETON_VIEW_BROWSER, GREEN_THIRD, RED_THIRD
)
# detail view toggle
self._device_view_toggle = DetailViewToggle(
side_buttons[INDEX_DETAIL_VIEW_BUTTON], GREEN_THIRD, RED_THIRD, LED_OFF
)
class LemurPad(MonOhm):
__module__ = __name__
__doc__ = " Lemur version of the MonOhm companion controller script "
def __init__(self, *a, **k):
self._timer_callbacks = [
] #Used for _monobridge, which uses L8 method for registering timer callbacks. deprecated, needs to be replaced by new L9 Task class.
self._osc_registry = {}
self._display_button_names = DISPLAY_BUTTON_NAMES
super(LemurPad, self).__init__(*a, **k)
self._host_name = "LemurPad"
self._color_type = 'AumPad'
self.connected = 0
with self.component_guard():
self._setup_touchosc()
self._assign_host2()
self._assign_session_colors()
def query_ohm(self):
pass
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = OSCMonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._fader = [None for index in range(8)]
self._dial = [None for index in range(16)]
self._button = [None for index in range(8)]
self._menu = [None for index in range(6)]
for index in range(8):
self._fader[index] = OSCMonoEncoderElement(
MIDI_CC_TYPE,
CHANNEL,
OHM_FADERS[index],
Live.MidiMap.MapMode.absolute,
'Fader_' + str(index),
index,
self,
osc='/Fader_' + str(index) + '/x',
osc_parameter='/Strip' + str(index + 8) + '/set',
osc_name='/Strip' + str(index) + '/set')
for index in range(8):
self._button[index] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
CHANNEL,
OHM_BUTTONS[index],
'Button_' + str(index),
self,
osc='/Select_' + str(index) + '/value',
osc_alt='/Select/set ' + str(index),
osc_name='/Select/text ' + str(index))
for index in range(16):
self._dial[index] = OSCMonoEncoderElement(
MIDI_CC_TYPE,
CHANNEL,
OHM_DIALS[index],
Live.MidiMap.MapMode.absolute,
'Dial_' + str(index),
index + 8,
self,
osc='/Dial_' + str(index) + '/x',
osc_parameter='/Dial' + str(index) + 'val/set',
osc_name='/Dial' + str(index) + 'name/set')
for index in range(6):
self._menu[index] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
CHANNEL,
OHM_MENU[index],
'Menu_' + str(index),
self,
osc='/Function_' + str(index) + '/value',
osc_alt='/Function/set ' + str(index),
osc_name='/Function/text ' + str(index))
self._crossfader = OSCMonoEncoderElement(MIDI_CC_TYPE,
CHANNEL,
CROSSFADER,
Live.MidiMap.MapMode.absolute,
"Crossfader",
24,
self,
osc='/XFader/x',
osc_parameter='/XFader/none',
osc_name=None)
self._livid = OSCMonoButtonElement(is_momentary,
MIDI_NOTE_TYPE,
CHANNEL,
LIVID,
'Livid_Button',
self,
osc='/Livid/x',
osc_alt='/Livid/x',
osc_name=None)
self._shift_l = OSCMonoButtonElement(is_momentary,
MIDI_NOTE_TYPE,
CHANNEL,
SHIFT_L,
'Shift_Button_Left',
self,
osc='/ShiftL/x',
osc_alt='/ShiftL/x',
osc_name=None)
self._shift_r = OSCMonoButtonElement(is_momentary,
MIDI_NOTE_TYPE,
CHANNEL,
SHIFT_R,
'Shift_Button_Right',
self,
osc='/ShiftR/x',
osc_alt='/ShiftR/x',
osc_name=None)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
self._grid = [None for index in range(8)]
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
CHANNEL, (column * 8) + row,
'Grid_' + str(column) + '_' + str(row),
self,
osc='/ClipGrid_' + str(column) + '_' + str(row) + '/value',
osc_alt='/ClipGrid/set ' + str(column) + ' ' + str(row),
osc_name='/ClipGrid/text ' + str(column) + ' ' + str(row))
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
self._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15,
125)
self._dummy_button.name = 'Dummy1'
self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15,
126)
self._dummy_button2.name = 'Dummy2'
self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15,
127)
self._dummy_button2.name = 'Dummy3'
self._monomod256 = ButtonMatrixElement()
self._monomod256.name = 'Monomod256'
self._square = [None for index in range(16)]
for column in range(16):
self._square[column] = [None for index in range(16)]
for row in range(16):
self._square[column][row] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
int(column / 8) + 1,
row + ((column % 8) * 16),
'256Grid_' + str(column) + '_' + str(row),
self,
osc='/Grid_' + str(column) + '_' + str(row) + '/value',
osc_alt='/Grid/set ' + str(column) + ' ' + str(row),
osc_name=None)
#self._square[column][row] = FlashingButtonElement(is_momentary, 0, 15, -1, '256Grid_' + str(column) + '_' + str(row), '/1/p_grid/'+str(column)+'/'+str(row), '/1/c_grid/'+str(column)+'/'+str(row), self)
for row in range(16):
button_row = []
for column in range(16):
button_row.append(self._square[column][row])
self._monomod256.add_row(tuple(button_row))
self._bank_buttons = ButtonMatrixElement()
self._key_buttons = ButtonMatrixElement()
self._bank_button = [None for index in range(2)]
for index in range(2):
self._bank_button[index] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
15,
index,
'256Grid_Bank_' + str(index),
self,
osc='/Shift_' + str(index) + '/value',
osc_alt='/Shift/set ' + str(index),
osc_name=None)
button_row = []
for index in range(2):
button_row.append(self._bank_button[index])
self._bank_buttons.add_row(tuple(button_row))
button_row = []
self._key_button = [None for index in range(8)]
for index in range(8):
self._key_button[index] = OSCMonoButtonElement(
is_momentary,
MIDI_NOTE_TYPE,
15,
index + 8,
'256Grid_Key_' + str(index),
self,
osc='/Keys_' + str(index) + '/value',
osc_alt='/Keys/set ' + str(index),
osc_name=None)
for index in range(8):
button_row.append(self._key_button[index])
self._key_buttons.add_row(tuple(button_row))
def _setup_session_control(self):
is_momentary = True
num_tracks = 4
num_scenes = 5
self._session = NameServerSessionComponent(num_tracks, num_scenes,
self)
self._session.name = "Left_Session"
self._session.set_offsets(0, 0)
self._session.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene = [None for index in range(5)]
for row in range(num_scenes):
self._scene[row] = self._session.scene(row)
self._scene[row].name = 'L_Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_L_' + str(row)
clip_slot.set_triggered_to_play_value(
self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(
self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(
self._color_defs['CLIP_RECORDING'])
self._session.set_mixer(self._mixer)
self._session_zoom = SessionZoomingComponent(self._session)
self._session_zoom.name = 'L_Session_Overview'
self._session_zoom.set_stopped_value(self._color_defs['ZOOM_STOPPED'])
self._session_zoom.set_playing_value(self._color_defs['ZOOM_PLAYING'])
self._session_zoom.set_selected_value(
self._color_defs['ZOOM_SELECTED'])
self._session_zoom._zoom_button = (self._dummy_button)
self._session_zoom.set_enabled(True)
self._session2 = SessionComponent(num_tracks, num_scenes)
self._session2.name = 'Right_Session'
self._session2.set_offsets(4, 0)
self._session2.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene2 = [None for index in range(5)]
for row in range(num_scenes):
self._scene2[row] = self._session2.scene(row)
self._scene2[row].name = 'R_Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene2[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_R_' + str(row)
clip_slot.set_triggered_to_play_value(
self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(
self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(
self._color_defs['CLIP_RECORDING'])
self._session2.set_mixer(self._mixer2)
self._session2.add_offset_listener(self._on_session_offset_changes)
self._session_zoom2 = SessionZoomingComponent(self._session2)
self._session_zoom2.name = 'R_Session_Overview'
self._session_zoom2.set_stopped_value(self._color_defs['ZOOM_STOPPED'])
self._session_zoom2.set_playing_value(self._color_defs['ZOOM_PLAYING'])
self._session_zoom2.set_selected_value(
self._color_defs['ZOOM_SELECTED'])
self._session_zoom.set_enabled(True)
self._session_zoom2._zoom_button = (self._dummy_button2)
self._session_main = SessionComponent(8, num_scenes)
self._session_main.name = 'Main_Session'
self._session_main.set_stop_clip_value(self._color_defs['STOP_CLIP'])
self._scene_main = [None for index in range(5)]
for row in range(num_scenes):
self._scene_main[row] = self._session_main.scene(row)
self._scene_main[row].name = 'M_Scene_' + str(row)
for column in range(8):
clip_slot = self._scene_main[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_M_' + str(row)
clip_slot.set_triggered_to_play_value(
self._color_defs['CLIP_TRG_PLAY'])
clip_slot.set_triggered_to_record_value(
self._color_defs['CLIP_TRG_REC'])
clip_slot.set_stopped_value(self._color_defs['CLIP_STOP'])
clip_slot.set_started_value(self._color_defs['CLIP_STARTED'])
clip_slot.set_recording_value(
self._color_defs['CLIP_RECORDING'])
self._session_main.set_mixer(self._mixer)
self._session_zoom_main = SessionZoomingComponent(self._session_main)
self._session_zoom_main.name = 'M_Session_Overview'
self._session_zoom_main.set_stopped_value(
self._color_defs['ZOOM_STOPPED'])
self._session_zoom_main.set_playing_value(
self._color_defs['ZOOM_PLAYING'])
self._session_zoom_main.set_selected_value(
self._color_defs['ZOOM_SELECTED'])
self._session_zoom_main.set_enabled(True)
self._session_zoom_main._zoom_button = (self._dummy_button3)
self._sessions = [self._session, self._session2, self._session_main]
self._zooms = [
self._session_zoom, self._session_zoom2, self._session_zoom_main
]
def _setup_mod(self):
self.monomodular = get_monomodular(self)
self.monomodular.name = 'monomodular_switcher'
self.modhandler = LemurOhmModHandler(self)
self.modhandler.name = 'ModHandler'
self.modhandler256 = LemurModHandler(self)
self.modhandler256.name = 'ModHandler256'
def _assign_host2(self):
self.modhandler256.set_shift_button(self._bank_button[0])
self.modhandler256.set_alt_button(self._bank_button[1])
self.modhandler256.set_grid(self._monomod256)
self.modhandler256.set_key_buttons(self._key_buttons)
self.modhandler256.set_enabled(True)
def _setup_touchosc(self):
self._osc_registry = {}
#self._osc_registry['/ping'] = self._monobridge.ping
#self._osc_registry['/1'] = self._monobridge.page1
#self._osc_registry['/2'] = self._monobridge.page2
for control in self.controls:
if hasattr(control, 'osc'):
self._osc_registry[control.osc] = control.set_value
#if hasattr(control, 'osc_alt'):
# self._osc_registry[control.osc_alt] = control.set_value
#self.log_message('create dict key: ' + str(control.osc) + str(control.name))
"""shift/zoom methods"""
def deassign_matrix(self):
super(LemurPad, self).deassign_matrix()
self.clear_grid_names()
"""menu button management methods"""
def deassign_menu(self):
super(LemurPad, self).deassign_menu()
for index in range(6):
self._monobridge._send_osc(self._menu[index].osc_name,
self.generate_strip_string(' '))
def assign_device_nav_to_menu(self):
super(LemurPad, self).assign_device_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(DEVICE_NAV_NAMES[index])))
def assign_transport_to_menu(self):
super(LemurPad, self).assign_transport_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(TRANSPORT_NAMES[index])))
def assign_session_nav_to_menu(self):
super(LemurPad, self).assign_session_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(SESSION_NAV_NAMES[index])))
def assign_session_main_nav_to_menu(self):
super(LemurPad, self).assign_session_main_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(SESSION_NAV_NAMES[index])))
def assign_monomod_shift_to_menu(self):
super(LemurPad, self).assign_monomod_shift_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(MONOMOD_SHIFT_NAMES[index])))
def assign_monomod_to_menu(self):
super(LemurPad, self).assign_monomod_shift_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(MONOMOD_NAMES[index])))
def assign_session_bank_to_menu(self):
super(LemurPad, self).assign_session_bank_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(SESSION_BANK_NAMES[index])))
def assign_session2_bank_to_menu(self):
super(LemurPad, self).assign_session2_bank_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(SESSION_BANK2_NAMES[index])))
def assign_session_main_nav_to_menu(self):
super(LemurPad, self).assign_session_main_nav_to_menu()
for index in range(6):
self._monobridge._send_osc(
self._menu[index].osc_name,
self.generate_strip_string(str(
SESSION_MAIN_BANK_NAMES[index])))
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 9
if (not display_string):
return ('`_')
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.endswith('dB') and
(display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ', 'i', 'o', 'u', 'e', 'a']:
while ((len(display_string) >
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] +
display_string[(um_pos + 1):])
else:
display_string = display_string.center(
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127)
or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return '`' + ret.replace(' ', '_')
def notification_to_bridge(self, name, value, sender):
if (isinstance(sender, MonoEncoderElement2)):
#self.log_message(str(name) + str(value) + str(sender.num))
self._monobridge._send('lcd_name', sender.name,
self.generate_strip_string(str(name)))
self._monobridge._send('lcd_value', sender.name,
self.generate_strip_string(str(value)))
def clip_name(self, sender, name):
#self.log_message('clip name ' + str(sender.osc_name) + ' ' + str(self.generate_strip_string(str(name))))
self._monobridge._send_osc(sender.osc_name,
self.generate_strip_string(str(name)))
"""def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip():
clip_names.append(clip_slot._clip_slot)##.clip.name)
#return clip_slot._clip_slot
#self.log_message('clip name' + str(clip_slot._clip_slot.clip.name))
return clip_names"""
"""called on timer"""
def update_display(self):
super(LemurPad, self).update_display()
for callback in self._timer_callbacks:
callback()
def strobe(self):
pass
"""general functionality"""
def disconnect(self):
super(MonOhm, self).disconnect()
def clear_grid_names(self):
#self.log_message('clear grid names' + str(self))
for column in range(8):
for row in range(8):
self._monobridge._send_osc(self._grid[column][row].osc_name,
'`_')
def _register_timer_callback(self, callback):
""" Registers a callback that is triggerd on every call of update_display """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 0)
self._timer_callbacks.append(callback)
return None
def _unregister_timer_callback(self, callback):
""" Unregisters a timer callback """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 1)
self._timer_callbacks.remove(callback)
return None
def _set_brightness(self, value):
#self._bright = (value != 0)
#for control in self.controls:
# if isinstance(control, OSCMonoButtonElement):
# self._monobridge._send_osc(control.osc_alt, int(self._bright), True)
pass
def reset(self):
#self._monobridge._send_osc('/reset')
for control in self.controls:
control.reset()
def assign_lower_grid_names(self, mode):
if self._display_button_names is True:
for column in range(8):
for row in range(3):
self._monobridge._send_osc(
self._grid[column][row + 5].osc_name,
self.generate_strip_string(
str(GRID_NAMES[mode][row][column])))
def reset_and_refresh_state(self, *a, **k):
self.schedule_message(1, self.reset)
self.schedule_message(2, self.refresh_state)
class BlockMod(MonOhm):
__module__ = __name__
__doc__ = " Monomodular controller script for Livid Block "
def __init__(self, *a, **k):
self._shift_button = None
self._shift_pressed = 0
self._shift_pressed_timer = 0
self._shift_thresh = SHIFT_THRESH
super(BlockMod, self).__init__(*a, **k)
self._host_name = 'BlockMod'
self._color_type = 'Monochrome'
self._link_mixer = LINK_MIXER
self._rgb = 1
self._ohm = 127
self._ohm_type = 'static'
self._pad_translations = PAD_TRANSLATION
self._mem = [4, 8, 12, 16]
self._host._navbox_selected = 8
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._fader = [None for index in range(8)]
self._dial = [None for index in range(16)]
self._button = [None for index in range(8)]
self._menu = [None for index in range(6)]
for index in range(2):
self._fader[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, SLIDER_CC[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
#for index in range(8):
# self._button[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
for index in range(8):
self._dial[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, KNOB_CC[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self)
for index in range(4):
self._menu[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, FUNCTION_NOTES[index], 'Menu_' + str(index), self)
self._livid = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._shift_l = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', self)
self._shift_r = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', self)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
self._grid = [None for index in range(8)]
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
self._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 125)
self._dummy_button.name = 'Dummy1'
self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 126)
self._dummy_button2.name = 'Dummy2'
self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 127)
self._dummy_button2.name = 'Dummy3'
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_crossfader(self):
pass
def _setup_modes(self):
self._monomod_mode = MonomodModeComponent(self, self.monomod_mode_update)
self._monomod_mode.name = 'Monomod_Mode'
self.set_shift_button(self._livid)
self._shift_mode = BlockModShiftModeComponent(self, self.shift_update)
self._shift_mode.name = 'Shift_Mode'
self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
self._l_function_mode = FunctionModeComponent(self, self.l_function_update)
self._l_function_mode.name = 'Left_Function_Mode'
self._r_function_mode = FunctionModeComponent(self, self.r_function_update)
self._r_function_mode.name = 'Right_Function_Mode'
self._m_function_mode = FunctionModeComponent(self, self.m_function_update)
self._m_function_mode.name = 'Main_Function_Mode'
self._function_modes = [self._l_function_mode, self._r_function_mode, self._m_function_mode]
"""livid double press mechanism"""
def set_shift_button(self, button):
assert ((button == None) or (isinstance(button, MonoButtonElement)))
if self._shift_button != None:
self._shift_button.remove_value_listener(self._shift_value)
self._shift_button = button
if self._shift_button != None:
self._shift_button.add_value_listener(self._shift_value)
def _shift_value(self, value):
self._shift_pressed = int(value != 0)
if self._shift_pressed > 0:
if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
if(self._host._active_client != None):
if(self._host.is_enabled() != True):
self._monomod_mode.set_mode(1)
else:
self._monomod_mode.set_mode(0)
else:
self._shift_pressed_timer = self._timer % 256
if(self._cntrlr != None):
self._cntrlr._monohm_shift(2)
else:
if(self._cntrlr != None):
self._cntrlr._monohm_shift(0)
"""shift/zoom methods"""
def deassign_matrix(self):
self._session_zoom.set_button_matrix(None)
self._session_zoom2.set_button_matrix(None)
self._session.set_stop_track_clip_buttons(None)
self._session2.set_stop_track_clip_buttons(None)
self._session_zoom_main.set_button_matrix(None)
self._session_main.set_stop_track_clip_buttons(None)
for column in range(4):
self._mixer2.channel_strip(column).set_select_button(None)
self._mixer2.return_strip(column).set_mute_button(None)
self._mixer2.return_strip(column).set_solo_button(None)
self._mixer2.return_strip(column).set_arm_button(None)
self._mixer2.return_strip(column).set_crossfade_toggle(None)
self._mixer2.return_strip(column).set_select_button(None) #shouldn't this be somewhere else?
self._mixer2.channel_strip(column).set_crossfade_toggle(None)
self._mixer2.channel_strip(column).set_mute_button(None)
self._mixer2.channel_strip(column).set_solo_button(None)
self._mixer2.channel_strip(column).set_arm_button(None)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(None)
self._scene2[row].clip_slot(column).set_launch_button(None)
for index in range(5):
self._scene[index].set_launch_button(None)
self._scene2[index].set_launch_button(None)
self._scene_main[index].set_launch_button(None)
self._session_zoom.set_nav_buttons(None, None, None, None)
self._session_zoom2.set_nav_buttons(None, None, None, None)
self._session_zoom_main.set_nav_buttons(None, None, None, None)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
self._session2.set_track_bank_buttons(None, None)
self._session2.set_scene_bank_buttons(None, None)
self._session_main.set_track_bank_buttons(None, None)
self._session_main.set_scene_bank_buttons(None, None)
for column in range(8):
self._mixer.channel_strip(column).set_select_button(None)
self._mixer.channel_strip(column).set_crossfade_toggle(None)
self._mixer.channel_strip(column).set_mute_button(None)
self._mixer.channel_strip(column).set_solo_button(None)
self._mixer.channel_strip(column).set_arm_button(None)
for row in range(5):
self._scene_main[row].clip_slot(column).set_launch_button(None)
for row in range(8):
self._grid[column][row].set_channel(0)
self._grid[column][row].release_parameter()
self._grid[column][row].use_default_message()
self._grid[column][row].set_enabled(True)
self._grid[column][row].set_on_off_values(127, 0)
self._grid[column][row].send_value(0, True)
self._send_reset.set_buttons(tuple(None for index in range(4)))
def zoom_off(self):
for column in range(4):
self._grid[column][5].set_on_value(MUTE[self._rgb])
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6].set_on_value(ARM[self._rgb])
self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
if(self._r_function_mode._mode_index in range(0,3)):
self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
self._mixer2.channel_strip(column).set_mute_button(self._grid[column + 4][5])
self._grid[column + 4][6].set_on_value(ARM[self._rgb])
self._mixer2.channel_strip(column).set_arm_button(self._grid[column + 4][6])
for row in range(5):
self._scene2[row].clip_slot(column).set_launch_button(self._grid[column + 4][row])
elif(self._r_function_mode._mode_index is 3):
self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
self._mixer2.return_strip(column).set_mute_button(self._grid[column + 4][5])
for row in range(5):
self._grid[column + 4][row].send_value(USER1_COLOR[self._rgb], True)
self._grid[column + 4][row].set_channel(RIGHT_USER1_CHANNEL)
self._grid[column + 4][row].set_identifier(RIGHT_USER1_MAP[column][row])
self._grid[column + 4][row].set_enabled(False) #this has to happen for translate to work
#self._session_zoom2.set_ignore_buttons(True)
if(self._r_function_mode._mode_index is 0):
for index in range(4):
self._grid[index + 4][7].send_value(SEND_RESET[self._rgb], True)
self._send_reset.set_buttons(tuple(self._grid[index + 4][7] for index in range(4)))
def zoom_off_m(self):
self.deassign_dials()
for column in range(8):
self._grid[column][5].set_on_value(MUTE[self._rgb])
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6].set_on_value(ARM[self._rgb])
self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
for row in range(5):
self._scene_main[row].clip_slot(column).set_launch_button(self._grid[column][row])
#self._session_zoom.set_button_matrix(self._matrix)
def zoom_left(self):
track_stop_buttons = []
track_stop_buttons2 = []
for index in range(4):
self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons2.append(self._grid[index + 4][6])
for index in range(5):
self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
self._scene[index].set_launch_button(self._grid[7][index])
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
self._session_zoom.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.assign_buttons(tuple(self._grid[index + 4][7] for index in range(4)), 4)
def zoom_right(self):
track_stop_buttons = []
track_stop_buttons2 = []
for index in range(4):
self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
for index in range(5):
self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
self._scene2[index].set_launch_button(self._grid[7][index])
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
if(self._r_function_mode._mode_index < 3):
for index in range(4):
self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
track_stop_buttons2.append(self._grid[index + 4][6])
self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
self._session_zoom2.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.assign_buttons(tuple(self._grid[index][7] for index in range(4)), 0)
def zoom_main(self):
track_stop_buttons = []
for index in range(8):
self._grid[index][6].set_on_value(TRACK_STOP[self._rgb])
track_stop_buttons.append(self._grid[index][6])
for index in range(5):
self._grid[7][index].set_on_value(SCENE_LAUNCH[self._rgb])
self._scene_main[index].set_launch_button(self._grid[7][index])
self._session_main.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session_zoom_main.set_button_matrix(self._matrix)
self._grid[0][5].set_on_value(RECORD[self._rgb])
self._transport.set_record_button(self._grid[0][5])
self._grid[1][5].set_on_value(OVERDUB[self._rgb])
self._transport.set_overdub_button(self._grid[1][5])
self._grid[2][5].set_on_value(LOOP[self._rgb])
self._transport.set_loop_button(self._grid[2][5])
self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
self._session.set_stop_all_clips_button(self._grid[3][5])
for index in range(4):
self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
for index in range(4):
self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
self._device_selector.assign_buttons(tuple(self._grid[index + 4][7] for index in range(4)), 4)
"""function mode callbacks"""
def l_function_update(self):
mode = self._l_function_mode._mode_index
#if(self._l_function_mode.is_enabled() is False):
# self._l_function_mode.set_mode_buttons(None)
if(self._l_function_mode.is_enabled() is True):
if(len(self._l_function_mode._modes_buttons) is 0):
for index in range(4):
self._mixer.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index][7])
self._l_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 2):
for index in range(4):
if(mode != index):
self._grid[index][7].turn_off()
else:
self._grid[index][7].turn_on()
if(mode is 0):
self.assign_device_dials()
self.show_message('Mixer Split:Dials Device Mode')
elif(mode is 1):
self.assign_send_dials()
self.show_message('Mixer Split:Dials Send Mode')
elif(mode is 2):
self.assign_split_volume_dials()
self.show_message('Mixer Split:Dials Volume Mode')
elif(mode is 3):
self.assign_user_dials()
self.show_message('Mixer Split:Dials User Map Mode')
def r_function_update(self):
mode = self._r_function_mode._mode_index
#if(self._r_function_mode.is_enabled() is False):
# self._r_function_mode.set_mode_buttons(None)
#self._session2.set_show_highlight(False)
#self._session._highlighting_callback(self._session._track_offset, self._session._scene_offset, 4, 5, 1)
if(self._r_function_mode.is_enabled() is True):
if(len(self._r_function_mode._modes_buttons) is 0):
for index in range(4):
self._mixer2.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index + 4][7])
self._r_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 3):
for index in range(4):
if(mode != index):
self._grid[index + 4][7].turn_off()
else:
self._grid[index + 4][7].turn_on()
self._session2.set_offsets(int(self._mem[mode]), self._session2._scene_offset)
self.show_message('Mixer Split: Track Offset' + str(RIGHT_MODE_OFFSETS[mode]))
def m_function_update(self):
mode = self._m_function_mode._mode_index
#if(self._m_function_mode.is_enabled() is False):
# self._m_function_mode.set_mode_buttons(None)
#self._session.set_show_highlight(False)
#self._session2.set_show_highlight(False)
#self._session_main._highlighting_callback(self._session_main._track_offset, self._session_main._scene_offset, 8, 5, 1)
if(self._m_function_mode.is_enabled() is True):
if(len(self._m_function_mode._modes_buttons) is 0):
for index in range(8):
self._mixer.channel_strip(index).set_select_button(None)
buttons = []
for index in range(4):
buttons.append(self._grid[index][7])
self._m_function_mode.set_mode_buttons(tuple(buttons))
if(self._shift_mode._mode_index is 4):
for index in range(4):
if(mode != index):
self._grid[index][7].turn_off()
else:
self._grid[index][7].turn_on()
if(mode is 0):
self.assign_device_dials()
self.show_message('Mixer Linked:Dials Device Mode')
elif(mode is 1):
self.assign_send_dials()
self.show_message('Mixer Linked:Dials Send Mode')
elif(mode is 2):
self.assign_volume_dials()
self.show_message('Mixer Linked:Dials Volume Mode')
elif(mode is 3):
self.assign_user_dials()
self.show_message('Mixer Linked:Dials User Map Mode')
def shift_update(self):
self._clutch_device_selection = True
#self.allow_updates(False)
#if(not self._in_build_midi_map):
# self.set_suppress_rebuild_requests(True)
self.deassign_channel_select_buttons()
self.deassign_matrix()
self.deassign_menu()
if(self._monomod_mode._mode_index is 0): #if monomod is not on
if(self._shift_mode._mode_index is 0): #if no shift is pressed
self._shift_mode._mode_toggle1.turn_off()
self._shift_mode._mode_toggle2.turn_off()
if(self.split_mixer() is False):
self.set_split_mixer(True)
for zoom in self._zooms:
zoom._on_zoom_value(0)
self.zoom_off()
self._device_selector.set_enabled(False)
for mode in self._function_modes:
mode.set_enabled(False)
self.assign_channel_select_buttons()
#self._recalculate_selected_channel()
#self.assign_transport_to_menu()
self.assign_session_nav_to_menu()
self.l_function_update()
self.r_function_update()
self.assign_crossfader()
self.set_highlighting_session_component(self._session)
self._session._do_show_highlight()
#self._session.set_show_highlight(True)
elif(self._shift_mode._mode_index is 1): #if no shift is pressed, but mixer is linked
self._shift_mode._mode_toggle1.turn_on()
self._shift_mode._mode_toggle2.turn_on()
if(self.split_mixer() is True):
self.set_split_mixer(False)
for zoom in self._zooms:
zoom._on_zoom_value(0)
self.zoom_off_m()
self._device_selector.set_enabled(False)
for mode in self._function_modes:
mode.set_enabled(False)
self.assign_main_channel_select_buttons()
self.assign_session_main_nav_to_menu()
self.m_function_update()
self.assign_crossfader()
self.set_highlighting_session_component(self._session_main)
self._session_main._do_show_highlight()
elif(self._shift_mode._mode_index > 1): #if a shift is pressed
self.assign_device_nav_to_menu()
self.deassign_channel_select_buttons()
if(self._shift_mode._mode_index is 2): #if shift left
self._shift_mode._mode_toggle1.turn_on()
self.zoom_left()
self._session_zoom._on_zoom_value(1)
self._session.set_enabled(True) #this is a workaround so that the stop buttons still function
self._l_function_mode.set_enabled(True)
self.set_highlighting_session_component(self._session)
self._session._do_show_highlight()
elif(self._shift_mode._mode_index is 3): #if shift right
self._shift_mode._mode_toggle2.turn_on()
self.zoom_right()
self._session_zoom2._on_zoom_value(1)
self._session2.set_enabled(True) #this is a workaround so that the stop buttons still function
self._r_function_mode.set_enabled(True)
self.assign_master_fader()
if(self._r_function_mode._mode_index < 4):
self.set_highlighting_session_component(self._session2)
self._session2._do_show_highlight()
elif(self._shift_mode._mode_index is 4): #if either shift pressed while mixer is linked
self._shift_mode._mode_toggle1.turn_on()
self._shift_mode._mode_toggle2.turn_on()
self.zoom_main()
self._session_zoom_main._on_zoom_value(1)
self._session_main.set_enabled(True) #this is a workaround so that the stop buttons still function
self._m_function_mode.set_enabled(True)
self.assign_master_fader()
self.set_highlighting_session_component(self._session_main)
self._session_main._do_show_highlight()
self._device_selector.set_enabled(True)
self.allow_updates(True)
#self.set_suppress_rebuild_requests(False)
self._clutch_device_selection = False
if(self._shift_mode._mode_index < 2):
self._monobridge._send('touch', 'off')
else:
self._monobridge._send('touch', 'on')
def monomod_mode_update(self):
if (self._monomod_mode._mode_index == 0) or (self._host._active_client == None):
self._host.set_enabled(False)
self._host._set_button_matrix(None)
self._host._set_nav_buttons(None)
self._host._set_lock_button(None)
self._host._set_alt_button(None)
self._host._set_shift_button(None)
self._livid.turn_off()
self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
self._shift_mode.update()
#self._session._reassign_scenes()
elif(self._monomod_mode._mode_index == 1):
self._livid.turn_on()
self.deassign_matrix()
self.deassign_menu()
self._monomod.reset()
self._host._set_button_matrix(self._monomod)
self._host._set_nav_buttons(self._menu[0:4])
self._host._set_lock_button(self._shift_l)
self._host._set_alt_button(self._shift_r)
self._host._set_shift_button(self._livid)
self._shift_mode.set_mode_toggle(None, None)
self._host.set_enabled(True)
self._shift_mode.update()
#self.show_message('Monomod grid enabled')
"""left control management methods"""
def deassign_dials(self):
for index in range(8):
self._dial[index].use_default_message()
self._dial[index].release_parameter()
self._dial[index].set_enabled(True)
if(self._device._parameter_controls != None):
for control in self._device._parameter_controls:
control.release_parameter()
self._device._parameter_controls = None
self._mixer.selected_strip().set_send_controls(None)
self._mixer.selected_strip().set_volume_control(None)
for track in range(4):
self._mixer.channel_strip(track).set_volume_control(None)
self._mixer.channel_strip(track+4).set_volume_control(None)
self._mixer2.channel_strip(track).set_volume_control(None)
self._mixer2.return_strip(track).set_volume_control(None)
def assign_device_dials(self):
self._ohm_type = OHM_TYPE[0]
self._ohm = OHM_VALUE[0]
self.deassign_dials()
self._device.set_enabled(True)
device_param_controls = []
for index in range(8):
device_param_controls.append(self._dial[index])
self._device.set_parameter_controls(tuple(device_param_controls))
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_send_dials(self):
self._ohm_type = OHM_TYPE[1]
self._ohm = OHM_VALUE[1]
self.deassign_dials()
dials = []
for index in range(4):
dials.append(self._dial[index])
for index in range(4):
if(self._mixer2.return_strip(index)):
self._mixer2.return_strip(index).set_volume_control(self._dial[index + 4])
self._mixer.selected_strip().set_send_controls(tuple(dials))
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_volume_dials(self):
self._ohm_type = OHM_TYPE[2]
self._ohm = OHM_VALUE[2]
self.deassign_dials()
for track in range(8):
self._mixer.channel_strip(track).set_volume_control(self._dial[track])
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_split_volume_dials(self):
self._ohm_type = OHM_TYPE[2]
self._ohm = OHM_VALUE[2]
self.deassign_dials()
for track in range(4):
self._mixer.channel_strip(track).set_volume_control(self._dial[track])
self._mixer2.channel_strip(track).set_volume_control(self._dial[track+4])
self._mixer.selected_strip().set_volume_control(self._fader[0])
def assign_user_dials(self):
self._ohm_type = OHM_TYPE[3]
self._ohm = OHM_VALUE[3]
self.deassign_dials()
for index in range(8):
self._dial[index].set_channel(L_USER_DIAL_CHAN)
self._dial[index].set_identifier(L_USER_DIAL_MAP[index])
self._dial[index].set_enabled(False)
self._mixer.selected_strip().set_volume_control(self._fader[0])
"""menu button management methods"""
def deassign_menu(self):
self._device.set_lock_button(None)
self._device.set_on_off_button(None)
self._device_navigator.set_device_nav_buttons(None, None)
self._device.set_bank_nav_buttons(None, None)
self._transport.set_play_button(None)
self._transport.set_record_button(None)
self._transport.set_stop_button(None)
self._transport.set_loop_button(None)
self._transport.set_overdub_button(None)
self._session.set_stop_all_clips_button(None)
self._transport.set_play_button(None)
self._transport.set_stop_button(None)
self._session_main.set_track_bank_buttons(None, None)
self._session_main.set_scene_bank_buttons(None, None)
def assign_device_nav_to_menu(self):
self._device_navigator.set_device_nav_buttons(self._menu[2], self._menu[3])
self._device.set_bank_nav_buttons(self._menu[0], self._menu[1])
def assign_transport_to_menu(self):
self._transport.set_play_button(self._menu[0])
self._transport.set_record_button(self._menu[2])
self._transport.set_stop_button(self._menu[1])
session.set_stop_all_clips_button(self._menu[3])
def assign_session_nav_to_menu(self):
self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_monomod_shift_to_menu(self):
self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[2])
self._device.set_bank_nav_buttons(self._menu[1], self._menu[0])
def assign_session_bank_to_menu(self):
self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_session2_bank_to_menu(self):
self._session2.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session2.set_scene_bank_buttons(self._menu[1], self._menu[0])
def assign_session_main_nav_to_menu(self):
self._session_main.set_track_bank_buttons(self._menu[3], self._menu[2])
self._session_main.set_scene_bank_buttons(self._menu[1], self._menu[0])
"""channel selection management methods"""
def deassign_channel_select_buttons(self):
for index in range(8):
if(self._mixer.channel_strip(index)):
self._mixer.channel_strip(index).set_select_button(None)
self._grid[index][7].release_parameter()
for index in range(4):
self._mixer2.channel_strip(index).set_select_button(None)
self._mixer2.return_strip(index).set_select_button(None)
self._mixer2.master_strip().set_select_button(None)
self._grid[index + 4][7].release_parameter()
def assign_channel_select_buttons(self):
for index in range(4):
#if(self._mixer.channel_strip(index)):
self._grid[index][7].set_on_off_values(127, 0)
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
if(self._r_function_mode._mode_index < 3):
for index in range(4):
self._grid[index][7].set_on_off_values(127, 0)
self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
else:
for index in range(4):
self._grid[index][7].set_on_off_values(1, 0)
self._mixer2.return_strip(index).set_select_button(self._grid[index + 4][7])
def assign_return_select_buttons(self):
for index in range(4):
self._grid[index + 4][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._grid[index + 4][7].set_on_value(1)
self._mixer.channel_strip(index).set_select_button(self._grid[index + 4][7])
def assign_l_channel_select_buttons(self):
self._mixer.set_select_buttons(None, None)
self._session.set_select_buttons(None, None)
for index in range(4):
self._grid[index][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
def assign_r_channel_select_buttons(self):
self._mixer2.set_select_buttons(None, None)
self._session2.set_select_buttons(None, None)
for index in range(4):
self._grid[index + 4][7].set_off_value(0)
if(self._mixer2.channel_strip(index)):
self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
def assign_main_channel_select_buttons(self):
for index in range(8):
self._grid[index][7].set_off_value(0)
if(self._mixer.channel_strip(index)):
self._grid[index][7].set_on_value(127)
self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
def assign_master_fader(self):
self._mixer.set_crossfader_control(None)
self._mixer.master_strip().set_volume_control(self._fader[1])
def assign_crossfader(self):
self._mixer.master_strip().set_volume_control(None)
self._mixer.set_crossfader_control(self._fader[1])
"""called on timer"""
def update_display(self):
super(BlockMod, self).update_display()
if(self._timer == 0):
self._shift_pressed_timer = -12
def strobe(self):
if(self._ohm_type != 'static'):
if(self._ohm_type is 'pulse'):
self._ohm = int(math.fabs(((self._timer * 8) % 64) -32) +32)
if(self._ohm_type is 'up'):
self._ohm = int(((self._timer * 4) % 64) + 16)
if(self._ohm_type is 'down'):
self._ohm = int(math.fabs(int(((self._timer * 4) % 64) - 64)) + 16)
self._send_midi(tuple([176, 63, int(self._ohm)]))
self._send_midi(tuple([176, 31, int(self._ohm)]))
def handle_sysex(self, midi_bytes):
pass
def _on_session_offset_changes(self):
if self._r_function_mode._mode_index in range(0,4):
self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset()
# a
class MidiFighterTwister(ControlSurface):
__module__ = __name__
__doc__ = "MidiFighterTwister class"
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self.__c_instance = c_instance
self.show_message('Script initiated')
self.init()
def init(self):
# initialize listeners, caches and colors
self.flush_all()
self.mf_disable_bank_buttons()
self.mf_init_page_config()
self.mf_init_light_pages()
# Start listeners to call dispatcher
self.song().view.add_detail_clip_listener(
self.dispatch_detail_clip_listener)
self.song().add_current_song_time_listener(
self.dispatch_current_song_time_listener)
self.song().view.add_selected_track_listener(
self.dispatch_selected_track_listener)
self.device_listener_wrapper()
# Initialize the sequencer buttons
self.sequencer_init_buttons()
self.sequencer_init_rotaries()
self.init_clip_page()
self.init_pad_page()
self.init_device_params()
def flush_all(self):
for poti in range(64):
for channel in range(4):
self._send_midi((175 + channel, poti, 0))
def mf_init_page_config(self):
# Initialize configuration parameters
# Sequencer configuration
self.sequencer_page_default_color = 1
self.sequencer_current_page_color_index = self.sequencer_page_default_color
self.sequencer_base_default_note = 36
self.sequencer_current_selected_note = self.sequencer_base_default_note
self.sequencer_clip_position_16th = None
# Midi Channels
self.rotary_midi_channel = 175 + 1
self.ring_midi_channel = 175 + 1
self.switch_midi_channel = 175 + 2
self.light_midi_channel = 175 + 2
# Pages cc map
self.clip_page_cc = range(0, 16)
self.sequencer_page_cc = range(16, 32)
self.note_page_cc = range(32, 48)
self.control_page_cc = range(48, 64)
# Pages init color
self.clip_page_colors = [1] * 16
self.sequencer_page_colors = [self.sequencer_page_default_color] * 16
self.note_page_colors = range(1, 127, 16) * 2
#self.note_page_colors = [0] * 16
self.control_page_colors = [1] * 16
# Status cache for sequencer
self.switch_encoder_status_cache = [False] * 64
# List to store ButtonElements in
self.switch_encoder_buttons = [False] * 64
# Status cache for rotaries
self.rotary_encoder_potis = [False] * 64
def mf_init_light_pages(self):
sequencer_page_map = zip(self.sequencer_page_cc,
self.sequencer_page_colors)
for light_encoder_cc, light_color_cc in sequencer_page_map:
self._mf_set_light(light_encoder_cc, light_color_cc, False)
note_page_map = zip(self.note_page_cc, self.note_page_colors)
for light_encoder_cc, light_color_cc in note_page_map:
self._mf_set_light(light_encoder_cc, light_color_cc, False)
def _mf_set_light(self, light_encoder_cc, light_color_cc, status):
# Sets color on midi channel 2 (177) end updates status cache
# for sequencer to remember statuses
self._send_midi(
(self.light_midi_channel, light_encoder_cc, light_color_cc))
self.switch_encoder_status_cache[light_encoder_cc] = status
def mf_disable_bank_buttons(self):
# Workaround for not sending values to track when pressing bank buttons
self.padm0 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 0)
self.padm1 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 1)
self.padm2 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 2)
self.padm3 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 3)
self.padm0.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm1.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm2.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
self.padm3.add_value_listener(self.bank_buttons_dummy,
identify_sender=True)
def bank_buttons_dummy(self):
pass
def dispatch_detail_clip_listener(self):
self.current_clip = self.song().view.highlighted_clip_slot.clip
self.init_sequencer()
try:
if self.current_clip.is_midi_clip and not self.current_clip.notes_has_listener:
# Update leds when notes are added or removed
self.current_clip.add_notes_listener(
self._sequencer_update_notes_to_light)
self.init_sequencer()
else:
self.sequencer_reset_colors()
except AttributeError:
pass
def dispatch_current_song_time_listener(self):
self.sequencer_light_follows_beat()
def dispatch_selected_track_listener(self):
self.device_auto_select()
self.device_listener_wrapper()
def device_listener_wrapper(self):
selected_track = self.song().view.selected_track
if not selected_track.devices_has_listener(self.device_auto_select):
self.song().view.selected_track.add_devices_listener(
self.device_auto_select)
# Sequencer
def init_sequencer(self):
self.sequencer_current_selected_note = self.sequencer_base_default_note
self.sequencer_current_page_color_index = self.sequencer_page_default_color
self._sequencer_update_notes_to_light()
def sequencer_init_buttons(self):
for switch_encoder_cc in self.sequencer_page_cc:
self.switch_encoder_buttons[switch_encoder_cc] = ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, switch_encoder_cc)
self.switch_encoder_buttons[switch_encoder_cc].add_value_listener(
self.sequencer_button_press, identify_sender=True)
self.padl14 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 14)
self.padr17 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 17)
self.padl16 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 16)
self.padr19 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 19)
self.padl14.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padr17.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padl16.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
self.padr19.add_value_listener(self.sequencer_side_button_press,
identify_sender=True)
def sequencer_init_rotaries(self):
for rotary_encoder_cc in self.sequencer_page_cc:
self.rotary_encoder_potis[rotary_encoder_cc] = EncoderElement(
MIDI_CC_TYPE, 0, rotary_encoder_cc,
Live.MidiMap.MapMode.absolute)
self.rotary_encoder_potis[rotary_encoder_cc].add_value_listener(
self.sequencer_rotary_change, identify_sender=True)
def sequencer_rotary_change(self, value, sender):
try:
self.current_clip
except AttributeError:
return False
if self.current_clip.is_midi_clip:
cc_value = sender._msg_identifier
if value > 0:
if not self.switch_encoder_status_cache[cc_value]:
self._send_midi((self.light_midi_channel, cc_value,
self.sequencer_current_light_on_color))
self._send_midi((self.ring_midi_channel, cc_value, 100))
self.switch_encoder_status_cache[cc_value] = True
self.current_clip.set_notes(
((self.sequencer_current_selected_note,
cc_value % 16 * 0.25, 0.25, value, False), ))
elif value == 0:
self._send_midi((self.light_midi_channel, cc_value,
self.sequencer_current_page_color))
self.current_clip.remove_notes(
cc_value % 16 * 0.25, self.sequencer_current_selected_note,
0.25, 1)
self.switch_encoder_status_cache[cc_value] = False
def sequencer_button_press(self, value, sender):
try:
self.current_clip
except AttributeError:
return False
if self.current_clip.is_midi_clip:
cc_value = sender._msg_identifier
if value > 0:
if not self.switch_encoder_status_cache[cc_value]:
self._send_midi((self.light_midi_channel, cc_value,
self.sequencer_current_light_on_color))
self.current_clip.set_notes(
((self.sequencer_current_selected_note,
cc_value % 16 * 0.25, 0.25, 100, False), ))
self.switch_encoder_status_cache[cc_value] = True
self._send_midi((self.ring_midi_channel, cc_value, 100))
else:
self._send_midi((self.light_midi_channel, cc_value,
self.sequencer_current_page_color))
self._send_midi((self.ring_midi_channel, cc_value, 0))
self.current_clip.remove_notes(
cc_value % 16 * 0.25,
self.sequencer_current_selected_note, 0.25, 1)
self.switch_encoder_status_cache[cc_value] = False
def sequencer_side_button_press(self, value, sender):
try:
cc_value = sender._msg_identifier
if value > 0:
# Note/clolor up/down
if cc_value == 14 and self.sequencer_current_selected_note > 0:
self.sequencer_current_selected_note = self.sequencer_current_selected_note - 1
self.sequencer_current_page_color_index = self.sequencer_current_page_color_index - 16
self._sequencer_update_notes_to_light()
self.sequencer_clip_position_16th = None
self.show_message(
"Selected Midi Note: " +
str(self.sequencer_current_selected_note))
if cc_value == 17 and self.sequencer_current_selected_note < 127:
self.sequencer_current_selected_note = self.sequencer_current_selected_note + 1
self.sequencer_current_page_color_index = self.sequencer_current_page_color_index + 16
self._sequencer_update_notes_to_light()
self.sequencer_clip_position_16th = None
self.show_message(
"Selected Midi Note: " +
str(self.sequencer_current_selected_note))
# New/duplicate clip
if cc_value == 16 and self.sequencer_current_selected_note > 0:
self.duplicate_clip()
if cc_value == 19 and self.sequencer_current_selected_note > 0:
self.session_record()
except AttributeError:
pass
def sequencer_light_follows_beat(self):
try:
if self.current_clip.is_midi_clip:
if self.sequencer_clip_position_16th == None:
self.sequencer_clip_position_16th = int(
self.current_clip.playing_position / 0.25)
if self.switch_encoder_status_cache[self.sequencer_page_cc[
self.sequencer_clip_position_16th]]:
self._send_midi(
(177, self.sequencer_page_cc[
self.sequencer_clip_position_16th],
self.sequencer_current_light_on_color))
else:
self._send_midi((177, self.sequencer_page_cc[
self.sequencer_clip_position_16th],
self.sequencer_current_page_color))
elif self.sequencer_clip_position_16th != int(
self.current_clip.playing_position / 0.25):
if self.switch_encoder_status_cache[self.sequencer_page_cc[
self.sequencer_clip_position_16th]]:
self._send_midi(
(177, self.sequencer_page_cc[
self.sequencer_clip_position_16th],
self.sequencer_current_light_on_color))
else:
self._send_midi((177, self.sequencer_page_cc[
self.sequencer_clip_position_16th],
self.sequencer_current_page_color))
self.sequencer_clip_position_16th = int(
self.current_clip.playing_position / 0.25)
self._send_midi((177, self.sequencer_page_cc[
self.sequencer_clip_position_16th],
self.sequencer_current_light_beat_color))
except IndexError:
pass
@property
def sequencer_current_light_on_color(self):
# light on color to be relative to page color
return self.sequencer_current_page_color + 32 % 128
@property
def sequencer_current_light_beat_color(self):
# light on color to be relative to page color
return self.sequencer_current_page_color + 64 % 128
@property
def sequencer_current_page_color(self):
return self.sequencer_current_page_color_index % 128
def _sequencer_get_midi_notes(self, note):
# self.current_clip.get_notes(start, self.sequencer_current_selected_note,
# selection_length, hight)
try:
return self.current_clip.get_notes(0, note, 4, 1)
except AttributeError:
return []
def _sequencer_update_notes_to_light(self):
self.sequencer_reset_colors()
notes_for_current_selected_note = self._sequencer_get_midi_notes(
self.sequencer_current_selected_note)
for note in notes_for_current_selected_note:
light_encoder_cc = int(note[1] * 4 + self.sequencer_page_cc[0])
self._send_midi(
(self.ring_midi_channel, light_encoder_cc, note[3]))
self._mf_set_light(light_encoder_cc,
self.sequencer_current_light_on_color, True)
def sequencer_reset_colors(self):
for light_encoder_cc in self.sequencer_page_cc:
self._mf_set_light(light_encoder_cc,
self.sequencer_current_page_color, False)
self._send_midi((self.ring_midi_channel, light_encoder_cc, 0))
def duplicate_clip(self):
self.log_message("duplicate clip")
#if self._clip_slot and self._clip_slot.has_clip:
# slot_name = self._clip_slot.clip.name
# track = self._clip_slot.canonical_parent
current_track = self.song().view.selected_track
current_clip_slot = self.song().view.highlighted_clip_slot
self.song().duplicate_scene(
list(current_track.clip_slots).index(current_clip_slot))
#new_clip = current_track.duplicate_clip_slot(
# list(current_track.clip_slots).index(current_clip_slot)+1)
#self.log_message(new_clip)
#selected_track = self.song().view.selected_track
#selected_track.duplicate_clip_slot(selected_track)
def session_record(self):
self.log_message("session record")
#self.song().trigger_session_record()
# Clip page setion
def init_clip_page(self):
num_tracks = 4
num_scenes = 3
self.flash_status = 1
self.Mixer = MixerComponent(4, 3)
# Volencoder
self.volencoders = [None for index in range(num_tracks)]
for index in range(num_tracks):
self.volencoders[index] = EncoderElement(
MIDI_CC_TYPE, 0, index, Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_volume_control(
self.volencoders[index])
# Sendencoder
for index in range(num_tracks):
encoder_cc_send_1 = index + num_tracks
encoder_cc_send_2 = index + num_tracks * 2
send1 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_1,
Live.MidiMap.MapMode.absolute)
send2 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_2,
Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_send_controls((send1, send2))
# Panencoder
for index in range(num_tracks):
encoder_cc_pan = index + num_tracks * 3
pan = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_pan,
Live.MidiMap.MapMode.absolute)
self.Mixer.channel_strip(index).set_pan_control(pan)
# Arm-/selectbuttons
for index in range(num_tracks):
armbutton = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1,
index + 12)
self.Mixer.channel_strip(index).set_arm_button(armbutton)
self.Mixer.channel_strip(index).set_select_button(armbutton)
# Navigation buttons
self.padl11 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 11)
self.padr8 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 8)
self.padl10 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 10)
self.padr13 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 13)
self.grid = [None for index in range(num_tracks * 3)]
for index in range(num_tracks * 3):
self.grid[index] = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1,
index)
self.matrix = ButtonMatrixElement()
for row in range(num_scenes):
button_row = []
for column in range(num_tracks):
button_row.append(self.grid[column + (row * 4)])
self.log_message(str(column + (row * 4)))
self.matrix.add_row(tuple(button_row))
self.Session = SessionComponent(num_tracks, num_scenes)
self.Session.name = "Session"
self.Session.set_offsets(0, 0)
self.Session.set_mixer(self.Mixer)
self.Session._do_show_highlight()
self.set_highlighting_session_component(self.Session)
self.Session.set_track_bank_buttons(self.padl11, self.padr8)
self.Session.set_scene_bank_buttons(self.padr13, self.padl10)
self.scene = [None for index in range(num_scenes)]
for row in range(num_scenes):
self.scene[row] = self.Session.scene(row)
self.scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self.scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot' + str(row)
self.scene[row].clip_slot(column).set_triggered_to_play_value(
35)
self.scene[row].clip_slot(column).set_stopped_value(68)
self.scene[row].clip_slot(column).set_started_value(45)
self.scene[row].clip_slot(
column).set_triggered_to_record_value(100)
self.scene[row].clip_slot(column).set_recording_value(80)
for column in range(num_tracks):
for row in range(num_scenes):
self.scene[row].clip_slot(column).set_launch_button(
self.grid[column + (row * 4)])
for index in range(num_tracks * num_scenes):
self.grid[index].clear_send_cache()
def update_display(self):
# Called every 100 ms
ControlSurface.update_display(self)
self.refresh_state()
self.Session.set_enabled(True)
self.Session.update()
# Sequencer hack
try:
for light_encoder_cc in self.sequencer_page_cc:
self._send_midi((self.ring_midi_channel, light_encoder_cc, 0))
notes_for_current_selected_note = self._sequencer_get_midi_notes(
self.sequencer_current_selected_note)
for note in notes_for_current_selected_note:
light_encoder_cc = int(note[1] * 4 + self.sequencer_page_cc[0])
self._send_midi(
(self.ring_midi_channel, light_encoder_cc, note[3]))
except AttributeError:
pass
# Pad Section
def init_pad_page(self):
self.pad_device_params()
PAD_TRANSLATION = ((0, 0, 32, 1), (1, 0, 33, 1), (2, 0, 34, 1),
(3, 0, 35, 1), (0, 1, 36, 1), (1, 1, 37, 1),
(2, 1, 38, 1), (3, 1, 39, 1), (0, 2, 40, 1),
(1, 2, 41, 1), (2, 2, 42, 1), (3, 2, 43, 1),
(0, 3, 44, 1), (1, 3, 45, 1), (2, 3, 46,
1), (3, 3, 47, 1))
self.set_pad_translations(PAD_TRANSLATION)
self._device_selection_follows_track_selection = True
def pad_device_params(self):
device_param_controls = []
for param in self.note_page_cc[:8]:
self.rotary_encoder_potis[param] = EncoderElement(
MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute)
self.rotary_encoder_potis[param].release_parameter()
self.rotary_encoder_potis[param].send_value(0, True)
self.rotary_encoder_potis[param].clear_send_cache()
device_param_controls.append(self.rotary_encoder_potis[param])
device = DeviceComponent()
device.name = 'Device_Component pad'
device.set_parameter_controls(tuple(device_param_controls))
self.set_device_component(device)
#def scrolling(self):
# self.application().view.scroll_view(ndir, 'Detail/DeviceChain', True)
# Live.Song.Song.View.selected_track
#Live.Song.Song.View.select_device()[0]
# Device parameter section
def init_device_params(self):
device_param_controls = []
device_bank_buttons = []
for param in self.control_page_cc[:8]:
self.rotary_encoder_potis[param] = EncoderElement(
MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute)
self.switch_encoder_buttons[param] = ButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, 1, param)
self.rotary_encoder_potis[param].release_parameter()
self.rotary_encoder_potis[param].send_value(0, True)
self.rotary_encoder_potis[param].clear_send_cache()
device_param_controls.append(self.rotary_encoder_potis[param])
device_bank_buttons.append(self.switch_encoder_buttons[param])
device = DeviceComponent()
device.name = 'Device_Component'
device.set_parameter_controls(tuple(device_param_controls))
device.set_bank_buttons(tuple(device_bank_buttons))
device.set_on_off_button(
ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 56))
self.set_device_component(device)
def device_auto_select(self):
# Iterates through devices within a track and assigns the first
# DrumPad device to activate the individual drum's device.
# Use first device in case none is a DrumPad device.
selected_track = self.song().view.selected_track
devices = selected_track.devices
for device in devices:
if device.can_have_drum_pads:
self.current_drum_device = device
pad_device = self.current_drum_device.view.selected_chain.devices[
0]
self.song().view.select_device(pad_device)
if not self.current_drum_device.view.selected_drum_pad_has_listener(
self.device_update_current_note):
self.current_drum_device.view.add_selected_drum_pad_listener(
self.device_update_current_note)
break
else:
self.song().view.select_device(devices[0])
def device_update_current_note(self):
current_note = self.current_drum_device.view.selected_drum_pad.note
self.sequencer_current_selected_note = current_note
# Update light of active pad
#self._send_midi((self.light_midi_channel, light_encoder_cc, 63))
try:
self.current_clip = self.song().view.highlighted_clip_slot.clip
self.current_clip.is_midi_clip
self._sequencer_update_notes_to_light()
except AttributeError:
pass
def _setup_session_control(self): is_momentary = True right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 43) left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 42) up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 44) down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 45) right_button.name = 'Bank_Select_Right_Button' left_button.name = 'Bank_Select_Left_Button' up_button.name = 'Bank_Select_Up_Button' down_button.name = 'Bank_Select_Down_Button' global session session = SessionComponent(4, 4) session.name = 'Session_Control' session.set_track_bank_buttons(right_button, left_button) session.set_scene_bank_buttons(down_button, up_button) self._session = session matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' scene_launch_notes = [33,34,35,36] scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, scene_launch_notes[index]) for index in range(4) ] #track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(4) ] for index in range(len(scene_launch_buttons)): scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button' #for index in range(len(track_stop_buttons)): # track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button' #stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81) #stop_all_button.name = 'Stop_All_Clips_Button' #self._session.set_stop_all_clips_button(stop_all_button) #self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons)) #self._session.set_stop_clip_value(2) button_notes = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32] for scene_index in range(4): scene = session.scene(scene_index) scene.name = 'Scene_' + str(scene_index) button_row = [] scene.set_launch_button(scene_launch_buttons[scene_index]) #scene.set_triggered_value(2) for track_index in range(4): button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, (track_index * 4) + scene_index + 1) button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button' button_row.append(button) clip_slot = scene.clip_slot(track_index) clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index) #clip_slot.set_triggered_to_play_value(2) #clip_slot.set_triggered_to_record_value(4) clip_slot.set_stopped_value(0) clip_slot.set_started_value(64) #clip_slot.set_recording_value(3) clip_slot.set_launch_button(button) matrix.add_row(tuple(button_row)) #self._session.set_slot_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67)) session.selected_scene().name = 'Selected_Scene' #session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) #session_zoom = SessionZoomingComponent(session) #session_zoom.name = 'Session_Overview' #session_zoom.set_button_matrix(matrix) #session_zoom.set_zoom_button(self._shift_button) #session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) #session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) #session_zoom.set_stopped_value(0) #session_zoom.set_selected_value(127) self.set_highlighting_session_component(session) session.set_mixer(mixer) return None #return session
class AumPC40(APC):
__doc__ = " Script for Akai's APC40 Controller "
def __init__(self, c_instance):
APC.__init__(self, c_instance)
self._device_selection_follows_track_selection = True
def _setup_session_control(self):
is_momentary = True
self._shift_button = FlashingButtonElement(is_momentary,
MIDI_NOTE_TYPE, 0, 98, self)
right_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
96, self)
self._right_button = right_button
left_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
97, self)
self._left_button = left_button
up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94,
self)
self._up_button = up_button
down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
95, self)
self._down_button = down_button
right_button.name = 'Bank_Select_Right_Button'
left_button.name = 'Bank_Select_Left_Button'
up_button.name = 'Bank_Select_Up_Button'
down_button.name = 'Bank_Select_Down_Button'
self._session = PedaledSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._session.set_track_bank_buttons(right_button, left_button)
self._session.set_scene_bank_buttons(down_button, up_button)
matrix = ButtonMatrixElement()
self._matrix = matrix # added a
matrix.name = 'Button_Matrix'
scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82))
for index in range(5)
]
track_stop_buttons = [
FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52,
self) for index in range(8)
]
self._track_stop_buttons = track_stop_buttons # added a
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button'
stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
stop_all_button.name = 'Stop_All_Clips_Button'
self._session.set_stop_all_clips_button(stop_all_button)
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
track_index, (scene_index + 53),
self)
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
matrix.add_row(tuple(button_row))
self._session.set_slot_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = SessionZoomingComponent(self._session)
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_nav_buttons(up_button, down_button, left_button,
right_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
return None
def _setup_mixer_control(self):
is_momentary = True
self._mixer = SpecialMixerComponent(8)
self._mixer.name = 'Mixer'
self._mixer.master_strip().name = 'Master_Channel_Strip'
self._mixer.selected_strip().name = 'Selected_Channel_Strip'
self._solo_buttons = [] # added a
self._select_buttons = [] # added a
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.name = 'Channel_Strip_' + str(track)
volume_control = MonoEncoderElement2(MIDI_CC_TYPE, track, 7,
Live.MidiMap.MapMode.absolute,
'Slider_' + str(track), track,
self)
arm_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48)
solo_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
track, 50, self)
self._solo_buttons.append(solo_button) # added a
mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
49)
select_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
track, 51, self)
self._select_buttons.append(select_button) # added a
#volume_control.name = str(track) + '_Volume_Control'
arm_button.name = str(track) + '_Arm_Button'
solo_button.name = str(track) + '_Solo_Button'
mute_button.name = str(track) + '_Mute_Button'
select_button.name = str(track) + '_Select_Button'
strip.set_volume_control(volume_control)
strip.set_arm_button(arm_button)
strip.set_solo_button(solo_button)
strip.set_mute_button(mute_button)
strip.set_select_button(select_button)
strip.set_shift_button(self._shift_button)
strip.set_invert_mute_feedback(True)
crossfader = SliderElement(MIDI_CC_TYPE, 0, 15)
master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
80)
self._master_select_button = master_select_button
prehear_control = EncoderElement(
MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
crossfader.name = 'Crossfader'
master_volume_control.name = 'Master_Volume_Control'
master_select_button.name = 'Master_Select_Button'
prehear_control.name = 'Prehear_Volume_Control'
self._mixer.set_crossfader_control(crossfader)
self._mixer.set_prehear_volume_control(prehear_control)
self._mixer.master_strip().set_volume_control(master_volume_control)
self._mixer.master_strip().set_select_button(master_select_button)
def _setup_custom_components(self):
self._setup_device_and_transport_control()
self._setup_global_control()
def _setup_device_and_transport_control(self):
is_momentary = True
device_bank_buttons = []
device_param_controls = []
bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button',
'Previous_Device_Button', 'Next_Device_Button',
'Detail_View_Button', 'Rec_Quantization_Button',
'Midi_Overdub_Button', 'Metronome_Button')
for index in range(8):
device_bank_buttons.append(
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 58 + index))
device_bank_buttons[-1].name = bank_button_labels[index]
ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0,
24 + index)
ringed_encoder = MonoRingedEncoderElement(
MIDI_CC_TYPE, 0, 16 + index, Live.MidiMap.MapMode.absolute,
index, self)
ringed_encoder.set_ring_mode_button(ring_mode_button)
ringed_encoder.name = 'Device_Control_' + str(index)
ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
device_param_controls.append(ringed_encoder)
device = ShiftableDeviceComponent(self)
device.name = 'Device_Component'
device.set_bank_buttons(tuple(device_bank_buttons))
device.set_shift_button(self._shift_button)
device.set_parameter_controls(tuple(device_param_controls))
device.set_on_off_button(device_bank_buttons[1])
self.set_device_component(device)
detail_view_toggler = DetailViewCntrlComponent()
detail_view_toggler.name = 'Detail_View_Control'
detail_view_toggler.set_shift_button(self._shift_button)
detail_view_toggler.set_device_clip_toggle_button(
device_bank_buttons[0])
detail_view_toggler.set_detail_toggle_button(device_bank_buttons[4])
detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2],
device_bank_buttons[3])
transport = ShiftableTransportComponent()
transport.name = 'Transport'
self._transport = transport
play_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 91)
stop_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 92)
record_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 93)
nudge_up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
0, 100, self)
self._nudge_up_button = nudge_up_button
nudge_down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
0, 101, self)
self._nudge_down_button = nudge_down_button
tap_tempo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99)
play_button.name = 'Play_Button'
stop_button.name = 'Stop_Button'
record_button.name = 'Record_Button'
nudge_up_button.name = 'Nudge_Up_Button'
nudge_down_button.name = 'Nudge_Down_Button'
tap_tempo_button.name = 'Tap_Tempo_Button'
transport.set_shift_button(self._shift_button)
transport.set_play_button(play_button)
transport.set_stop_button(stop_button)
transport.set_record_button(record_button)
transport.set_nudge_buttons(nudge_up_button, nudge_down_button)
transport.set_tap_tempo_button(tap_tempo_button)
transport.set_quant_toggle_button(device_bank_buttons[5])
transport.set_overdub_button(device_bank_buttons[6])
transport.set_metronome_button(device_bank_buttons[7])
bank_button_translator = ShiftTranslatorComponent()
bank_button_translator.set_controls_to_translate(
tuple(device_bank_buttons))
bank_button_translator.set_shift_button(self._shift_button)
def _setup_global_control(self):
is_momentary = True
global_bank_buttons = []
global_param_controls = []
for index in range(8):
ring_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0,
56 + index)
ringed_encoder = MonoRingedEncoderElement(
MIDI_CC_TYPE, 0, 48 + index, Live.MidiMap.MapMode.absolute,
index + 8, self)
ringed_encoder.name = 'Track_Control_' + str(index)
ring_button.name = ringed_encoder.name + '_Ring_Mode_Button'
ringed_encoder.set_ring_mode_button(ring_button)
global_param_controls.append(ringed_encoder)
global_bank_buttons = []
global_bank_labels = ('Pan_Button', 'Send_A_Button', 'Send_B_Button',
'Send_C_Button')
for index in range(4):
global_bank_buttons.append(
ButtonElement(not is_momentary, MIDI_NOTE_TYPE, 0, 87 + index))
global_bank_buttons[-1].name = global_bank_labels[index]
encoder_modes = EncModeSelectorComponent(self._mixer)
encoder_modes.name = 'Track_Control_Modes'
encoder_modes.set_modes_buttons(global_bank_buttons)
encoder_modes.set_controls(tuple(global_param_controls))
global_translation_selector = ChannelTranslationSelector()
global_translation_selector.name = 'Global_Translations'
global_translation_selector.set_controls_to_translate(
tuple(global_param_controls))
global_translation_selector.set_mode_buttons(
tuple(global_bank_buttons))
def _product_model_id_byte(self):
return 115
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_monomod(self):
self._host = MonomodComponent(self)
self._host.name = 'Monomod_Host'
self.hosts = [self._host]
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
for row in range(5):
button_row = []
for column in range(8):
button_row.append(self._matrix.get_button(column, row))
self._monomod.add_row(tuple(button_row))
self._monomod.add_row(tuple(self._track_stop_buttons))
self._monomod.add_row(tuple(self._select_buttons))
self._monomod.add_row(tuple(self._solo_buttons))
self._monomod_mode = MonomodModeComponent(self._monomod_mode_update,
self)
self._monomod_mode.name = "Monomod_Mode_Component"
def _monomod_mode_update(self):
if (self._monomod_mode._mode_index == 0) or (self._host._active_client
== None):
self.flash_status = 0
self._host.set_enabled(False)
self._host._set_button_matrix(None)
self._host._set_nav_buttons(None)
self._host._set_lock_button(None)
self._host._set_alt_button(None)
self._host._set_shift_button(None)
self._monomod.reset()
self._session.set_track_bank_buttons(self._right_button,
self._left_button)
self._session.set_scene_bank_buttons(self._down_button,
self._up_button)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(
self._select_buttons[track])
self._mixer.channel_strip(track).set_solo_button(
self._solo_buttons[track])
self._transport.set_nudge_buttons(self._nudge_up_button,
self._nudge_down_button)
self._session.set_enabled(True)
self._session_zoom._is_zoomed_out = False
self._session_zoom.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_off()
elif (self._monomod_mode._mode_index == 1):
self._transport.set_nudge_buttons(None, None)
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
self._mixer.channel_strip(track).set_solo_button(None)
self._session.set_enabled(False)
self._session_zoom.set_enabled(False)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
self.flash_status = 1
self._monomod.reset()
self._host._set_button_matrix(self._monomod)
self._host._set_nav_buttons([
self._up_button, self._down_button, self._left_button,
self._right_button
])
self._host._set_shift_button(self._shift_button)
self._host._set_lock_button(self._nudge_up_button)
self._host._set_alt_button(self._nudge_down_button)
self._host.set_enabled(True)
self.request_rebuild_midi_map()
self._master_select_button.turn_on()
"""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, (MonoRingedEncoderElement, 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
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()
def flash(self):
if (self.flash_status > 0):
for row in range(8):
for column in range(8):
button = self._monomod.get_button(column, row)
if (button._flash_state > 0):
button.flash(self._timer)
def _setup_session_control(self):
self.session = CustomSessionComponent(self.box_width, self.box_height, self) # subclass from _Framework
is_momentary = True # what exactly does this do in the _Framework?
if up_button_note_number >= 0 and down_button_note_number >= 0: # opt in enable UP/DOWN nav
up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, up_button_note_number)
up_button.name = 'Bank_Select_Up_Button' # sure, why not
down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, down_button_note_number)
down_button.name = 'Bank_Select_Down_Button' #sure, why not
self.session.set_scene_bank_buttons(down_button, up_button)
if right_button_note_number >= 0 and left_button_note_number >= 0: # opt in enable LEFT/RIGHT nav
right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, right_button_note_number)
right_button.name = 'Bank_Select_Right_Button' #sure, why not
left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, left_button_note_number)
left_button.name = 'Bank_Select_Left_Button' #sure, why not
self.session.set_track_bank_buttons(right_button, left_button)
self.session.name = 'Session_Control' #sure, why not
matrix = ButtonMatrixElement() # @todo subclass this via established new patterns
matrix.name = 'Button_Matrix' #sure, why not
# I loop a little different. The goal is readbility, flexibility, and the web app...incase you did not notice yet
if len(scene_launch_notes) > 0 and len(scene_launch_notes) == self.box_height: # logic check have launch notes and scene = box height
for index in range(self.box_height):
self.session.scene(index).set_launch_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, scene_launch_notes[index]))
else :
self.log_message("..::|| Scene launch not in use or error on case of use. Modern.DJ ||::..")
if len(stop_track_buttons) >0 and len(stop_track_buttons) == self.box_width: #logic check have track stop assignments and
track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, stop_track_buttons[index]) for index in range(len(stop_track_buttons))]
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button' # sure, why not
self.session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
else :
self.log_message("..::|| Stop notes not in use or error found Modern.DJ ||::..")
# Check for stop all clips option
if stop_all_clips >=0 :
self.session.set_stop_all_clips_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, stop_all_clips))
# creating the matrix of buttons from the launch_button_list (tuple)
launch_button_list_len = len(launch_button_list) # var used multiple times. This is a performance modification
if (self.box_height*self.box_width) == launch_button_list_len : # check box size against number of button vars sent
launch_ctr = launch_button_list_len -1 # decrement for zero offset in list/tuple
launch_button_list.reverse() #reverse list from human readable for decrement use (performance tweak)
## check for use of RGB
if use_velocity_for_RGB != 1: # if not enabled use these defaults
self.log_message("..::|| RGB not in effect assigning defaults ||::..")
self.clip_loaded_stopped = 1
self.clip_currently_playing = 127
self.clip_triggered_to_play = 64
else: # yes RGB in effect...assign per the parameters script
self.clip_loaded_stopped = clip_loaded_stopped
self.clip_currently_playing = clip_currently_playing
self.clip_triggered_to_play = clip_triggered_to_play
for scene_index in range(self.box_height): # loop on the notes matrix
scene = self.session.scene(scene_index) # part of the martix built, think rows
scene.name = 'Scene_' + str(scene_index) # sure, why not
button_row = [] # create recepticle
# loop across the tracks
for track_index in range(self.box_width):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, midi_channel, launch_button_list[launch_ctr]) # button instance for _Framework
launch_ctr = launch_ctr -1# decrement is faster than increment
button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button' # sure, why not
button_row.append(button) # add to our growing list
clip_slot = scene.clip_slot(track_index) # clips slot and buttons are not the same thing, this aligns these ideas in the red box
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index) # sure, why not
# assign the button and and status in th refrech update
clip_slot.set_stopped_value(self.clip_loaded_stopped ) # this number is sent back to the machine allowing diff colors for stopped
clip_slot.set_started_value(self.clip_currently_playing) # this number is sent back to the machine allowing diff colors for started/is-playing
clip_slot.set_triggered_to_play_value(self.clip_triggered_to_play) # this number is sent back to the machine allowing diff colors for cued, will play next
clip_slot.set_launch_button(button) # part of the slit+button = go time paradigm
matrix.add_row(tuple(button_row)) # close out the matrix build. @todo - possible subclass here?
else : # log message
self.log_message("..::|| Number of notes defined does not match box height and width Modern.DJ ||::..")
''' live 9 only
self.set_highlighting_session_component(self.session) # new for live9 -- this is for the box. via aumhaa/bitnomad
'''
return None
def _setup_session_control(self):
is_momentary = True
self._shift_button = FlashingButtonElement(is_momentary,
MIDI_NOTE_TYPE, 0, 98, self)
right_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
96, self)
self._right_button = right_button
left_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
97, self)
self._left_button = left_button
up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94,
self)
self._up_button = up_button
down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
95, self)
self._down_button = down_button
right_button.name = 'Bank_Select_Right_Button'
left_button.name = 'Bank_Select_Left_Button'
up_button.name = 'Bank_Select_Up_Button'
down_button.name = 'Bank_Select_Down_Button'
self._session = PedaledSessionComponent(8, 5)
self._session.name = 'Session_Control'
self._session.set_track_bank_buttons(right_button, left_button)
self._session.set_scene_bank_buttons(down_button, up_button)
matrix = ButtonMatrixElement()
self._matrix = matrix # added a
matrix.name = 'Button_Matrix'
scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82))
for index in range(5)
]
track_stop_buttons = [
FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52,
self) for index in range(8)
]
self._track_stop_buttons = track_stop_buttons # added a
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
for index in range(len(track_stop_buttons)):
track_stop_buttons[index].name = 'Track_' + str(
index) + '_Stop_Button'
stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
stop_all_button.name = 'Stop_All_Clips_Button'
self._session.set_stop_all_clips_button(stop_all_button)
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_track_clip_value(2)
for scene_index in range(5):
scene = self._session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
scene.set_triggered_value(2)
for track_index in range(8):
button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
track_index, (scene_index + 53),
self)
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
clip_slot.set_triggered_to_play_value(2)
clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(5)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
matrix.add_row(tuple(button_row))
self._session.set_slot_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
self._session.selected_scene().name = 'Selected_Scene'
self._session.selected_scene().set_launch_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
self._session_zoom = SessionZoomingComponent(self._session)
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_button_matrix(matrix)
self._session_zoom.set_zoom_button(self._shift_button)
self._session_zoom.set_nav_buttons(up_button, down_button, left_button,
right_button)
self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
self._session_zoom.set_stopped_value(3)
self._session_zoom.set_selected_value(5)
return None
def __init__(self, c_instance):
live = Live.Application.get_application()
self._live_major_version = live.get_major_version()
self._live_minor_version = live.get_minor_version()
self._live_bugfix_version = live.get_bugfix_version()
self._mk2 = Settings.DEVICE == 'Launchpad mk2'
if self._mk2:
self._skin = Skin('Launchpad mk2')
self._side_notes = (89, 79, 69, 59, 49, 39, 29, 19)
self._drum_notes = (20, 30, 31, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
else:
self._skin = Skin('Launchpad')
self._side_notes = (8, 24, 40, 56, 72, 88, 104, 120)
self._drum_notes = (41, 42, 43, 44, 45, 46, 47, 57, 58, 59, 60, 61, 62, 63, 73, 74, 75, 76, 77, 78, 79, 89, 90, 91, 92, 93, 94, 95, 105, 106, 107)
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
if self._mk2:
self._suggested_input_port = 'Launchpad'
self._suggested_output_port = 'Launchpad'
else:
self._suggested_input_port = 'Launchpad MK2'
self._suggested_output_port = 'Launchpad MK2'
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = Live.Application.get_random_int(0, 400000000) & 2139062143
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = []
for column in range(8):
if self._mk2:
# for mk2 buttons are assigned "top to bottom"
midi_note = (81 - (10 * row)) + column
else:
midi_note = row * 16 + column
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, midi_note, self._skin.off)
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 104 + index, self._skin.off) for index in range(8)]
side_buttons = [ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, self._side_notes[index], self._skin.off) for index in range(8)]
top_buttons[0].name = 'Bank_Select_Up_Button'
top_buttons[1].name = 'Bank_Select_Down_Button'
top_buttons[2].name = 'Bank_Select_Left_Button'
top_buttons[3].name = 'Bank_Select_Right_Button'
top_buttons[4].name = 'Session_Button'
top_buttons[5].name = 'User1_Button'
top_buttons[6].name = 'User2_Button'
top_buttons[7].name = 'Mixer_Button'
side_buttons[0].name = 'Vol_Button'
side_buttons[1].name = 'Pan_Button'
side_buttons[2].name = 'SndA_Button'
side_buttons[3].name = 'SndB_Button'
side_buttons[4].name = 'Stop_Button'
side_buttons[5].name = 'Trk_On_Button'
side_buttons[6].name = 'Solo_Button'
side_buttons[7].name = 'Arm_Button'
self._osd = M4LInterface()
self._osd.name = "OSD"
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self._osd, self, self._skin)
self._selector.name = 'Main_Modes'
self._do_combine()
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self.set_highlighting_session_component(self._selector.session_component())
self._suppress_session_highlight = False
self.log_message("LaunchPad95 Loaded !")
class OhmModesHH(ControlSurface):
__module__ = __name__
__doc__ = " OhmModes controller script, custom script for Herbie Hancock by amounra "
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= OhmModesHH2 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.revision = 'HH'
self.flash_status = 1
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._scene_indexes = [[[0,0], [8, 0], [16, 0], [24, 0], [32, 0], [40, 0]],
[[0,0], [8, 0], [16, 0], [24, 0], [32, 0], [40, 0]],
[[0,0], [8, 0], [16, 0], [24, 0], [32, 0], [40, 0]],
[[0,0], [8, 0], [16, 0], [24, 0], [32, 0], [40, 0]],
[[0,0], [8, 0], [16, 0], [24, 0], [32, 0], [40, 0]]]
self._scene_bank = 0
self._bank_is_on = False
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_looper()
#self._setup_scene_selector()
#self._setup_modes()
self._assign_page_constants()
self.assign_page_0()
self._setup_hilight_knobs()
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._on_selected_scene_changed()
self.show_message('OhmModes Control Surface Loaded')
self._send_midi(tuple(switchxfader))
#self.schedule_message(10, self.query_ohm, None)
#self.song().view.selected_scene = self.song().scenes[0]
self._assign_session_colors()
def query_ohm(self):
#self.log_message('querying Ohm')
self._send_midi(tuple(check_model))
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def update_display(self):
ControlSurface.update_display(self)
self._timer = (self._timer + 1) % 256
self.flash()
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] = EncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute)
self._fader[index].name = 'Fader_' + str(index), self
for index in range(8):
self._button[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
for index in range(16):
self._dial[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute)
self._dial[index].name = 'Dial_' + str(index)
for index in range(6):
self._menu[index] = MonoButtonElement(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 = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._shift_l = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Page_Button_Left', self)
self._shift_r = MonoButtonElement(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)]
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
for row in range(6):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
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._select_mode = ModeSelectorComponent(self)
#self._select_mode.name = 'Select_Mode'
#self._select_mode.set_mode_toggle(self._menu[5])
#self._select_mode.update = self.select_mode_update(self._select_mode)
#self._menu[5].add_value_listener(self._select_mode)
#self._scale_mode = ScaleModeComponent(self)
#self._scale_mode.name = "Scale_Mode"
#self._octave_mode = OctaveModeComponent(self)
#self._octave_mode.name = "Octave_Mode"
def select_mode_update(self, mode_selector):
def update():
if mode_selector._mode_index>0:
pass
return update
def _setup_looper(self):
self._looper = [None for index in range(2)]
for index in range(2):
self._looper[index] = LooperListenerComponent(self, index + 1)
self._looper[index].assign_buttons(self._button[index*4], self._button[(index*4)+1], self._button[(index*4)+2], self._button[(index*4)+3])
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 = 7 ###changed from 5 for HH
global session
session = SessionComponent(num_tracks, num_scenes)
session.name = "Session"
session.set_offsets(0, 0)
self._session = session
self._scene = [None for index in range(num_scenes)]
for row in range(num_scenes):
self._scene[row] = session.scene(row)
self._scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
session.set_mixer(mixer)
self._session_zoom = SessionZoomingComponent(session)
self._session_zoom.name = 'Session_Overview'
#self._session_zoom.set_enabled(False)
self.set_highlighting_session_component(self._session)
def _assign_session_colors(self):
num_tracks = 7
num_scenes = 7
self._session.set_stop_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 _setup_scene_selector(self):
for index in range(5):
self._menu[index].add_value_listener(self._select_new_scene, True)
def set_bank(self, val):
self._scene_bank = int(val)
self._monobridge._send('bank', self._scene_bank)
self._display_bank()
def _select_mode(self, value):
self.log_message('select mode update' + str(value))
self._bank_is_on = value!=0
if self._bank_is_on is True:
self._display_bank()
else:
self._on_selected_scene_changed()
def _select_new_scene(self, value, sender):
if self._bank_is_on is False:
if value > 0:
new_scene = int(self._scene_indexes[self._scene_bank][self._menu.index(sender)][0])
new_track = int(self._scene_indexes[self._scene_bank][self._menu.index(sender)][1])
self.log_message('select new scene ' + str(new_scene) + ' and track ' + str(new_track))
all_scenes = self.song().scenes
all_tracks = self.song().tracks
if (new_scene < len(all_scenes)) and (new_track < len(all_tracks)):
self.song().view.selected_scene = all_scenes[(new_scene)]
self.song().view.selected_track = all_tracks[(new_track)]
self._session.set_offsets(self._scene_indexes[self._scene_bank][self._menu.index(sender)][1], self._scene_indexes[self._scene_bank][self._menu.index(sender)][0])
else:
if value > 0:
self._scene_bank = int(self._menu.index(sender))
self._monobridge._send('bank', self._scene_bank)
self._display_bank()
def _display_bank(self):
if(self._bank_is_on):
for index in range(5):
if index == self._scene_bank:
self._menu[index].send_value(11)
else:
self._menu[index].send_value(0)
def _on_selected_scene_changed(self):
ControlSurface._on_selected_scene_changed(self)
#self.log_message('scene offset: ' + str(self._session._scene_offset))
for index in range(6):
if self._session._scene_offset == self._scene_indexes[self._scene_bank][index][0]: ## and self._session._scene_offset < self._scene_indexes[index + 1]:
self._menu[index].turn_on()
else:
self._menu[index].turn_off()
#if self._session._scene_offset >= self._scene_indexes[5]:
# self._menu[5].turn_on
#else:
# self._menu[5].turn_off
def _setup_hilight_knobs(self):
self._dial[15].add_value_listener(self._knob_set_scene, True)
self._dial[14].add_value_listener(self._knob_set_track, True)
def _knob_set_scene(self, value, sender):
all_scenes = self.song().scenes
num_scenes = len(all_scenes)
new_scene = float(value/127.0) * float(num_scenes - 1)
self.song().view.selected_scene = all_scenes[int(new_scene)]
self._session.set_offsets(self._session._track_offset, int(new_scene))
def _knob_set_track(self, value, sender):
#self.log_message(str(value))
all_tracks = self.song().visible_tracks #self.song().tracks
num_tracks = len(self.song().visible_tracks)
new_track = float(value/127.0) * float(num_tracks - 1)
#self.log_message(str(int(new_track)))
#self.log_message(str(value) + str(float(value/127.0)))
self.song().view.selected_track = all_tracks[int(new_track)]
self._session.set_offsets(int(new_track), self._session._scene_offset)
def disconnect(self):
"""clean things up on disconnect"""
for index in range(5):
if self._menu[index].value_has_listener(self._select_new_scene):
self._menu[index].remove_value_listener(self._select_new_scene)
if self._menu[5].value_has_listener(self._select_mode):
self._menu[5].remove_value_listener(self._select_mode)
if self._dial[15].value_has_listener(self._knob_set_scene):
self._dial[15].remove_value_listener(self._knob_set_scene)
if self._dial[15].value_has_listener(self._knob_set_scene):
self._dial[15].remove_value_listener(self._knob_set_scene)
self.song().view.remove_selected_track_listener(self._update_selected_device)
ControlSurface.disconnect(self)
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= OhmModes log closed =--------------") #Create entry in log file
return None
def _get_num_tracks(self):
return self.num_tracks
def flash(self):
#if(self.flash_status > 0):
for index in range(6):
if(self._menu[index]._flash_state>0):
self._menu[index].flash(self._timer)
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._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)
#if self._dial[15].has_value_listener(self._knob_set_scene):
# self._dial[15].remove_value_listener(self._knob_set_scene)
#if self._dial[14].has_value_listener(self._knob_set_track):
# self._dial[14].remove_value_listener(self._knob_set_track)
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(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(7):
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(8):
# self._button[index].set_channel(0)
# self._button[index].use_default_message()
# self._button[index].set_enabled(True)
# self._button[index].reset()
#for index in range(6):
# self._menu[index]._on_value = 127
# self._menu[index]._off_value = 0
# self._menu[index].reset()
#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_navigator.set_enabled(False)
self._mixer.update()
self._matrix.reset()
"""HH Specific"""
#self._mixer.master_strip().set_select_button(None)
#for column in range(7):
# self._mixer.channel_strip(column).set_select_button(None)
self._session_zoom.set_zoom_button(None)
self._transport.set_play_button(None)
self._transport.set_stop_button(None)
self._device_navigator.set_device_nav_buttons(None, None)
#for index in range(2):
# self._looper[index].find_looper()
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])
#for column in range(8):
# self._button[column]._on_value = SELECT_COLOR[self._rgb]
#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])
for index in range(2):
self._menu[index + 4]._on_value = SESSION_NAV[self._rgb]
self._menu[index * 3]._on_value = SESSION_NAV[self._rgb]
self._session.set_track_bank_buttons(self._menu[5], self._menu[4])
self._session.set_scene_bank_buttons(self._menu[3], self._menu[0])
def assign_page_0(self):
self._backlight_type = 'static'
#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 = 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(7):
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]]))
track_stop_buttons = []
for index in range(7):
self._grid[7][index]._off_value = SCENE_LAUNCH_COLOR[self._rgb]
self._scene[index].set_launch_button(self._grid[7][index])
self._grid[index][7]._on_value = TRACK_STOP[self._rgb]
self._grid[index][7]._off_value = TRACK_STOP[self._rgb]
track_stop_buttons.append(self._grid[index][7])
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._session.set_stop_all_clips_button(self._grid[7][7])
#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])
#for index in range(6):
# self._menu[index]._on_value = HHMENU[index][1]
# self._menu[index]._off_value = HHMENU[index][0]
for index in range(8):
self._button[index].set_channel(2)
self._button[index].set_identifier(index)
#self._button[index].reset()
self._button[index].set_enabled(False)
self.request_rebuild_midi_map()
for index in range(7):
self._grid[index][7].turn_on()
for index in range(2):
self._looper[index]._state_change()
self._button[1 + (index * 4)].send_value(3)
self._button[2 + (index * 4)].send_value(6)
self._button[3 + (index * 4)].send_value(1)
def assign_page_1(self):
self._backlight_type = 'pulse'
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._button[column].set_on_off_values(REC_ARM, 0)
#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)
"""HH Specific from Constants"""
#self._mixer.master_strip().set_select_button(self._button[7])
#for column in range(7):
# self._button[column].set_on_off_values(REC_ARM, 0)
#self._session_zoom.set_zoom_button(self._grid[7][7])
#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])
for index in range(8):
self._button[index].set_channel(2)
self._button[index].set_identifier(index)
#self._button[index].reset()
self._button[index].set_enabled(False)
self.request_rebuild_midi_map()
#for index in range(8):
# self._grid[index][7].send(self.
for index in range(2):
self._looper[index]._state_change()
self._button[1 + (index * 4)].send_value(3)
self._button[2 + (index * 4)].send_value(6)
self._button[3 + (index * 4)].send_value(1)
def assign_page_2(self):
self._backlight_type = 'up'
#self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_enabled(False)
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]])
"""HH Specific from Constants"""
#self._mixer.master_strip().set_select_button(self._button[7])
#for column in range(7):
# self._mixer.channel_strip(column).set_select_button(self._button[column])
#for index in range(8):
# self._button[index].set_on_off_values(SELECT_COLOR[self._rgb], 0)
self._session_zoom.set_zoom_button(self._grid[7][7])
#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])
for index in range(8):
self._button[index].set_channel(2)
self._button[index].set_identifier(index)
#self._button[index].reset()
self._button[index].set_enabled(False)
self.request_rebuild_midi_map()
for index in range(2):
self._looper[index]._state_change()
self._button[1 + (index * 4)].send_value(3)
self._button[2 + (index * 4)].send_value(6)
self._button[3 + (index * 4)].send_value(1)
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()
#self._shift_mode.update()
self.deassign_matrix()
self._assign_page_constants()
self.assign_page_0()
#self._setup_hilight_knobs()
for index in range(8):
self._grid[7][index].send_value(SCENE_LAUNCH_COLOR[self._rgb])
for index in range(7):
self._grid[index][7].turn_on()
# def handle_sysex(self, midi_bytes):
# #assert(isinstance (midi_bytes, tuple))
# ##self.log_message(str('sysex') + str(midi_bytes))
# if midi_bytes == tuple([240, 126, 0, 6, 2, 0, 1, 97, 1, 0, 7, 0, 15, 10, 0, 0, 247]):
# self.log_message(str('color detected'))
# self._rgb = 1
# elif midi_bytes == tuple([240, 126, 0, 6, 2, 0, 1, 97, 1, 0, 2, 0, 0, 1, 1, 0, 247]):
# 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)
with self.component_guard():
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))
def set_scene_index_value(self, bank_index, scene, track):
bank = int(bank_index)/5
index = int(bank_index)%5
self.log_message('set_scene_index_value' + str(bank) + str(index) + str(scene) + str(track))
#self.log_message( str(type(index)) + str(type(scene)) + str(type(track)))
self._scene_indexes[bank][index][0] = scene
self._scene_indexes[bank][index][1] = track
#self._on_selected_scene_changed()
def connect_script_instances(self, instanciated_scripts):
#link = False
#offsets = [0, 0]
#new_channel = CHAN
for s in instanciated_scripts:
if isinstance(s, APC) or s is self:
#link = True
if not s._session._is_linked():
s._session._link()
#self.log_message('found other linked instance')
#offsets[0] += (int(self._link_offset[0]) * 8)
#offsets[1] += (int(self._link_offset[1]) * 4)
#new_channel += 1
#if link and not self._session._is_linked():
#self._session.set_offsets(offsets[0], offsets[1])
#self._session._link()
#self._set_code_channels(new_channel)
#
#
class code(ControlSurface):
__module__ = __name__
__doc__ = " Code controller script "
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= Code opened =--------------") # Writes message into Live's main log file. This is a ControlSurface method.
self._send_midi(factoryreset)
self._send_midi(btn_channels)
self._send_midi(enc_channels)
#self.set_suppress_rebuild_requests(True) # Turn off rebuild MIDI map until after we're done setting up
self._setup_controls()
self._setup_device_controls()
self._setup_mixer_control() # Setup the mixer object
self._setup_transport_control()
self._setup_session_control() # Setup the session object - do this last
self._setup_modes()
#self.set_suppress_rebuild_requests(False) # Turn rebuild back on, once we're done setting up
##self.assign_page_2()
def handle_sysex(self, midi_bytes):
self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
#response = [long(0),long(0)]
#self.log_message(str(response))
def _setup_controls(self):
is_momentary = True
self._dial = [None for index in range(DIALCOUNT)]
self._trackbtns = [None for index in range(8)]
self._modebtns = [None for index in range(5)]
for index in range(DIALCOUNT):
self._dial[index] = EncoderElement(MIDI_CC_TYPE, CH, matrix_nums[index], Live.MidiMap.MapMode.absolute)
self._dial[index].name = 'Dial_' + str(index)
self._dial[index].set_feedback_delay(-1)
for index in range(8):
self._trackbtns[index] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index])
self._trackbtns[index].name = 'Button_' + str(index)
for index in range(5):
self._modebtns[index] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, mode_select_notes[index])
self._modebtns[index].name = 'ModeButton_' + str(index)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._grid = [None for index in range(COLS)]
for column in range(COLS):
self._grid[column] = [None for index in range(COLS)]
for row in range(ROWS):
nn = 1+(column * ROWS) + row
self._grid[column][row] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, nn) #comment out if you don't want clip launch
self._grid[column][row].name = 'Grid_' + str(column) + '_' + str(row)
for row in range(ROWS):
button_row = []
for column in range(COLS):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
""" not sure about this bit, but somehow I'll need to set up the modes here...!"""
def _setup_modes(self):
self._shift_mode = ShiftModeComponent(self, tuple(button for button in self._modebtns))
self._shift_mode.name = 'Mix_Mode' #mode 1
#self._shift_mode.set_mode_buttons(self._modebtns)
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_mixer_control(self):
is_momentary = True
self._num_tracks = (COLS)
global mixer
mixer = MixerComponent(COLS, 0, True, True)
mixer.name = 'Mixer'
self._mixer = mixer
mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
for index in range(COLS):
#use the bottom row of encoders for volume, so add 24 to offset the index
mixer.channel_strip(index).set_volume_control(self._dial[index+24])
for index in range(COLS):
mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
mixer.track_eq(index).name = 'Mixer_EQ_' + str(index)
mixer.track_filter(index).name = 'Mixer_Filter_' + str(index) #added by a
mixer.channel_strip(index)._invert_mute_feedback = True
#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
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
""" Technically, we aren't using the session control, but I'm going to set it up in case inter-script communication needs it"""
def _setup_session_control(self):
is_momentary = True
num_tracks = COLS
num_scenes = ROWS
global session
session = SessionComponent(num_tracks, num_scenes)
session.name = "Session"
session.set_offsets(0, 0)
self._session = session
self._session.set_stop_track_clip_value(0)
self._scene = [None for index in range(ROWS)]
for row in range(num_scenes):
self._scene[row] = session.scene(row)
self._scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
clip_slot.set_triggered_to_play_value(64)
clip_slot.set_triggered_to_record_value(64)
clip_slot.set_stopped_value(0)
clip_slot.set_started_value(64)
clip_slot.set_recording_value(64)
#clip_slot.set_launch_button(self._grid[column][row]) #comment out if you don't want clip launch
session.set_mixer(mixer)
self._session_zoom = SessionZoomingComponent(session)
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_stopped_value(0)
self._session_zoom.set_playing_value(64)
self._session_zoom.set_selected_value(64)
if STANDALONE is True:
self.set_highlighting_session_component(self._session)
self._session.set_track_bank_buttons(self._grid[5][3], self._grid[4][3]) #comment out when using with Griid
self._session.set_scene_bank_buttons(self._grid[7][3], self._grid[6][3]) # comment out when using with Griid
"""this is where we take care of setting up the the multiple devices per page, we will need 4"""
def _setup_device_controls(self):
self._device = [None for index in range(4)]
for index in range(ROWS):
self._device[index] = DeviceComponent()
self._device[index].name = 'Device_Component_' + str(index)
#self.set_device_component(self._device) #this doesn't work anymore, because we have multiple devices for the controller....we'll have to get fancy here, but that's for later
#self._device_navigator = DetailViewControllerComponent() #its unclear if we'll need this....how is device navigation (i.e. banking for device parameter banks) going to be handled by the script?
#self._device_navigator.name = 'Device_Navigator'
device_param_controls = []
for control in range(COLS):
"""this setups up 8 device parameters per row"""
#dial_index = control + (index*COLS)
"""alternatively, this setus up device controls in 4 4x2 groups"""
dial_index = device_encoders[control + (index*COLS)]
device_param_controls.append(self._dial[dial_index])
self._device[index].set_parameter_controls(tuple(device_param_controls))
"""this is where we deassign every control that will be changing function when we switch modes...best to just deassign them all, and reassign them on update"""
def deassign_matrix(self):
for index in range(DIALCOUNT): #this should totally work!!! I'm over appealing to Python's sadistic mannerisms right now....
self._dial[index].send_value(0, True) ##this is kind of a hack, and should be unnecessary; the bool at the end tells the send_value method to force the value out to the controller
for index in range(COLS):
self._mixer.track_eq(index).set_enabled(False) ##set_gain_controls(tuple([None for index in range(3)]))
self._mixer.channel_strip(index).set_volume_control(None)
self._mixer.track_filter(index).set_enabled(False) ##set_filter_controls(tuple([None, None]))
self._mixer.channel_strip(index).set_pan_control(None)
self._mixer.channel_strip(index).set_select_button(None)
self._mixer.channel_strip(index).set_send_controls(tuple([None for index in range(4)]))
for device in range(4):
self._device[device].set_bank_nav_buttons(None, None)
self._device[device].set_enabled(False) ##set_parameter_controls(tuple([None for index in range(8)]))
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
for scene in range(4):
self._scene[scene].clip_slot(track).set_launch_button(None)
#self.request_rebuild_midi_map() # I think this is causing problems updating the leds when in build?
"""EQ Hi/Mid/Low and volume"""
def assign_page_0(self):
"""for each column"""
is_momentary = True
for index in range(COLS):
self._mixer.track_eq(index).set_gain_controls((self._dial[index+16],self._dial[index+8],self._dial[index]))
self._mixer.track_eq(index).set_enabled(True)
self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])#use the bottom row of encoders for volume, so add 24 to offset the index
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self.assign_cliplaunch()
self._mixer.update()
"""sends 1-4"""
def assign_page_1(self):
is_momentary = True
for index in range(COLS):
send_controllers = [self._dial[index],self._dial[index+8],self._dial[index+16],self._dial[index+24]]
self._mixer.channel_strip(index).set_send_controls(tuple(send_controllers))
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self._mixer.update()
"""devices 1-8"""
def assign_pages_2_3(self): ##these need to be here anyway, whether or not there is a device present to control
for index in range(4):
self._device[index].set_enabled(True)
#device_param_controls = [] ###no need to reassign it, since we are turning it off and on
#for control in range(COLS): ###in fact, I think we can assign all this stuff in the header except for things directly connected to the mixer module
# device_param_controls.append(self._dial[control + (index*COLS)])
#self._device[index].set_parameter_controls(tuple(device_param_controls))
self._reassign_devices(self._shift_mode._mode_index)
""" filter res,filter q, pan, volume"""
def assign_page_4(self):
is_momentary = True
for index in range(COLS):
self._mixer.track_filter(index).set_filter_controls(self._dial[index], self._dial[index + 8]) #set_filter_controls(self, freq, reso)
self._mixer.track_filter(index).set_enabled(True)
#self._mixer.track_eq(index).set_gain_controls((self._dial[index],self._dial[index+8],self._dial[index+16]))
self._mixer.channel_strip(index).set_pan_control(self._dial[index+16])
self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self._mixer.update()
def assign_cliplaunch(self):
if STANDALONE is True:
for column in range(COLS):
for row in range(ROWS-1):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
def _reassign_devices(self, mode_index):
if self._shift_mode._mode_index in range(2, 4): ##both of these lines would be better handled by a property
offset = (mode_index - 2) * 4 ## set up in an override module of the device_component....bleh
track = self.song().view.selected_track
for index in range(4):
if index + offset < len(track.devices):
#self.log_message('assigning device')
self._device[index].set_device(track.devices[index + offset])
else:
#self.log_message('assigning device to None')
self._device[index].set_device(None)
self._device[index].set_bank_nav_buttons(self._trackbtns[(index * 2)], self._trackbtns[(index * 2) + 1])
self._device[index].update()
def disconnect(self):
"""clean things up on disconnect"""
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= Code log closed =--------------") #Create entry in log file
ControlSurface.disconnect(self)
return None
class BCRXL(ControlSurface, IsotonikCommon):
def __init__(self, c_instance):
self._dynamic = True
self._LOG_BCL = False
self._preset = 0
self._use_32 = False
self._enable_function = False
self._track_navigation = False
self._swap_arm = False
self._direct_bank = False
self._relative = False
self._bit_14 = False
self._fold_enabled = True
self._can_fold = False
self._show_returns = 0
self._max_returns = -1
self._returns_toggled = False
self._has_pans = False
self._track_bank_size = 1
self._show_master = 0
self._show_selected = 0
self._button_row_1 = 'select'
self._button_row_2 = 'mute'
self._button_row_3 = 'solo'
self._button_reselect_track = 'fold'
self._channel_strip = False
self._toggle_1 = False
self._toggle_2 = False
self._toggle_3 = False
self._toggle_4 = False
self._has_strip_device_enable = True
self._USB = True
self._has_transport = False
self._showing_selected = False
self._x_offset = 0
self._y_offset = 0
self._track_left = 113
self._track_right = 114
self._device_toggle = 109
self._track_fold = 110
self._refresh = 111
self._device_lock = 110
self._bank_up = 111
self._bank_down = 112
self._toggle_returns = False
self._user_custom = False
IsotonikCommon.__init__(self, parent=self, c_instance=c_instance)
self._init(path.dirname(path.realpath(__file__)), 'BCR_XL', 24)
super(BCRXL, self).__init__(c_instance)
with self.component_guard():
self._startup()
def disconnect(self):
if self._dynamic:
pass
self._shutdown()
super(BCRXL, self).disconnect()
def _sigabort_create(self):
if self._show_returns == 3 or self._show_returns == 4:
self._fold_enabled = False
self._toggle_returns = True
if not self._enable_function:
self._direct_bank = False
self._has_transport = False
if self._channel_strip:
self._fold_enabled = False
self._user_custom = self._enable_function and not self._direct_bank and not self._has_transport
self._bcr_controls = BCL(self, self._preset, self._relative,
self._bit_14)
self._device_selection_follows_track_selection = True
self._default_skin = make_default_skin()
with inject(skin=const(self._default_skin)).everywhere():
self._create_controls()
self._set_offsets_task = self._tasks.add(
Task.sequence(Task.wait(0), Task.run(self._set_session_offsets)))
self._set_offsets_task.kill()
if self._show_selected:
self._show_selected_task = self._tasks.add(
Task.sequence(Task.wait(1),
Task.run(self._show_selected_track)))
return False
def _enable_components(self):
with self.component_guard():
for component in self.components:
self.log('Enable: ' + component.name)
component.set_enabled(True)
def set_session_offsets(self, x, y):
self.log('bcrxl: set_session_offsets: ' + str(x) + ',' + str(y))
self._scene = y
self._x_offset = x
self._y_offset = y
self._set_offsets_task.restart()
def _set_session_offsets(self):
self._set_offsets_task.kill()
self.log('_set_session_offsets')
self._session.set_offsets(self._x_offset, self._y_offset)
def _show_controlled_tracks_message(self, session):
track_offset = session.track_offset()
self.log('_show_controlled_tracks_message: ' + str(track_offset) +
', ' + str(self._scene))
self._set_session_highlight(track_offset, self._scene, 8, 1, False)
def _set_session_highlight(self, track_offset, scene_offset, width, height,
include_return_tracks):
self.log('_set_session_highlight: ' + str(track_offset) + ', ' +
str(scene_offset) + ', ' + str(width) + ', ' + str(height) +
', ' + str(include_return_tracks))
super(BCRXL,
self)._set_session_highlight(track_offset, scene_offset, width,
height, include_return_tracks)
def _on_selected_scene_changed(self):
if self._box_follows_scene:
self._scene = list(self.song().scenes).index(
self.song().view.selected_scene)
self._show_controlled_tracks_message(
self._on_session_offset_changed.subject)
self.log('_on_selected_scene_changed: index: ' + str(self._scene))
super(BCRXL, self)._on_selected_scene_changed()
def _show_selected_track(self):
self.log('_show_selected_track: ' + str(self._showing_selected) +
', index: ' + str(self._mixer._selected_track_index))
self._showing_selected = not self._showing_selected
volume_cc = 0 if self._bit_14 else 1
if self._mixer._selected_track_index != -1:
curr_val = self._mixer._channel_strips[
self._mixer.
_selected_track_index]._track.mixer_device.volume.value
self._do_send_midi(
(176 + MIXER_MODE,
volume_cc + self._mixer._selected_track_index,
int(math.floor(curr_val *
127.0)) if self._showing_selected else 0))
self._show_selected_task = self._tasks.add(
Task.sequence(Task.delay(2), Task.run(self._show_selected_track)))
def on_identified(self):
self.log('on_identified')
self._identified = True
if hasattr(self, 'default_session'):
self.default_session.set_show_highlight(True)
self._set_session_highlight(0, 0, 8, 1, False)
super(BCRXL, self).on_identified()
def _create_controls(self):
self.log(
'_create_controls: dynamic: ' + str(self._dynamic) +
', function: ' + str(self._enable_function), True)
if not self._dynamic:
self._track_left = 105
self._track_right = 106
self._device_toggle = 107
elif not self._enable_function:
self._device_toggle = 105
self._track_fold = 106
self._device_lock = 106
self._bank_up = 107
self._bank_down = 108
self.log('left: ' + str(self._track_left) + ', right: ' +
str(self._track_right) + ', toggle: ' +
str(self._device_toggle) + ', user_custom: ' +
str(self._user_custom))
if self._dynamic:
if self._user_custom:
self._bcr_controls.connect(self._toggle_1, self._toggle_2,
self._toggle_3, self._toggle_4)
else:
self._bcr_controls.connect()
self._modes = ModesComponent()
self._create_our_controls()
self._create_mixer()
self._create_session()
self._create_device()
self._create_transport()
def log(self, msg, force=False):
if self._LOG or force:
if isinstance(msg, str):
logger.info(msg)
else:
logger.error('**++** Invalid log msg: ' + str(type(msg)) +
': ' + IsotonikCommon.repr3(msg))
def _create_our_controls(self):
self.log('_create_our_controls')
def make_button(identifier,
name,
midi_type=MIDI_CC_TYPE,
skin=self._default_skin):
control = ButtonElement(False,
midi_type,
MIXER_MODE,
identifier,
name=name,
skin=skin)
return control
def make_button_list(identifiers, name, midi_type=MIDI_NOTE_TYPE):
return [
make_button(identifier, name % (i + 1), midi_type,
self._default_skin)
for i, identifier in enumerate(identifiers)
]
def make_encoder(identifier, name, bit_14=True):
if self._bit_14:
self.log('make_encoder: ' + name + ', CC: ' + str(identifier) +
', 14_bit: ' + str(bit_14))
control = EncoderElement(
MIDI_CC_TYPE,
MIXER_MODE,
identifier,
Live.MidiMap.MapMode.absolute_14_bit
if bit_14 else Live.MidiMap.MapMode.absolute,
name=name)
else:
control = EncoderElement(
MIDI_CC_TYPE,
MIXER_MODE,
identifier,
Live.MidiMap.MapMode.absolute if not self._relative else
Live.MidiMap.MapMode.relative_two_compliment,
name=name)
return control
self._top_buttons = ButtonMatrixElement(rows=[
make_button_list(chain(xrange(65, 73)), 'BCR_Top_Buttons_%d',
MIDI_CC_TYPE)
])
self._bottom_buttons = ButtonMatrixElement(rows=[
make_button_list(chain(xrange(73, 81)), 'BCR_Bottom_Buttons_%d',
MIDI_CC_TYPE)
])
self._strip_enable_buttons = ButtonMatrixElement(rows=[
make_button_list(chain(xrange(73, 81)), 'BCR_Bottom_Buttons_%d',
MIDI_CC_TYPE)
])
if self._direct_bank or self._has_transport:
self._direct_bank_buttons = ButtonMatrixElement(rows=[
make_button_list(chain(xrange(105, 109)),
'BCR_User_Buttons_%d', MIDI_CC_TYPE)
])
self._left_button = make_button(self._track_left, 'Track_Left',
MIDI_CC_TYPE)
self._right_button = make_button(self._track_right, 'Track_Right',
MIDI_CC_TYPE)
self._device_engage_button = make_button(self._device_toggle,
'XXL_Pan_Device_Mode')
self._track_fold_button = make_button(self._track_fold, 'Track_Fold',
MIDI_CC_TYPE)
if self._fold_enabled or self._toggle_returns or self._channel_strip:
self._on_track_fold.subject = self._track_fold_button
self._track_fold_button.enabled = False
self._bank_up_button = make_button(self._bank_up, 'Device_Bank_Up',
MIDI_CC_TYPE)
self._bank_down_button = make_button(self._bank_down,
'Device_Bank_Down', MIDI_CC_TYPE)
if self._bit_14:
volume_cc = 0
sends_cc = 8
pans_cc = 81
select_cc = 89
else:
volume_cc = 1
sends_cc = 81
pans_cc = 9
select_cc = 33
self._volume_encoders = ButtonMatrixElement(rows=[[
make_encoder(volume_cc + i, 'Volume_%d' % (i + 1))
for i in xrange(8)
]])
if self._has_pans:
self._pan_encoders = ButtonMatrixElement(rows=[[
make_encoder(pans_cc + i, 'Pan_%d' % (i + 1), bit_14=False)
for i in xrange(8)
]])
self._send_encoders = ButtonMatrixElement(
rows=[[
make_encoder(sends_cc + i, 'Send_0_%d' % (i + 1))
for i in xrange(8)
],
[
make_encoder(sends_cc + 8 + i, 'Send_1_%d' % (i + 1))
for i in xrange(8)
],
[
make_encoder(sends_cc + 16 + i, 'Send_2_%d' % (i + 1))
for i in xrange(8)
]])
self._push_buttons = ButtonMatrixElement(rows=[
make_button_list(chain(xrange(select_cc, select_cc + 8)),
'BCR_Track_Select_%d', MIDI_CC_TYPE)
])
def _do_send_midi(self, midi_bytes):
is_sysex = midi_bytes[0] == 240
if self._LOG_MIDI and not is_sysex:
self.log('_do_send_midi: ' + str(midi_bytes))
if self._LOG_SYSEX and is_sysex:
self.log('_do_send_midi: ' + str(midi_bytes))
super(BCRXL, self)._do_send_midi(midi_bytes)
def receive_midi(self, midi_bytes):
is_sysex = midi_bytes[0] == 240
send_off = False
midi_id = 176 + MIXER_MODE
adjusted = False
if self._LOG_MIDI and not is_sysex:
self.log('receive_midi: ' + str(midi_bytes) + ', id: ' +
str(midi_id))
if self._LOG_SYSEX and is_sysex:
self.log('receive_midi: ' + str(midi_bytes))
if midi_bytes[0] == midi_id:
if midi_bytes[2] == 0:
if self._has_transport:
if midi_bytes[1] in (107, 108):
midi_bytes = (midi_id, midi_bytes[1], 127)
adjusted = True
elif midi_bytes[1] == 106:
midi_bytes = (midi_id, midi_bytes[1], 127)
self._do_send_midi(midi_bytes)
adjusted = True
if not self._device_mode:
if midi_bytes[1] in pad_identifiers:
midi_bytes = (midi_id, midi_bytes[1], 127)
adjusted = True
if midi_bytes[1] in [self._track_left, self._track_right]:
midi_bytes = (midi_id, midi_bytes[1], 127)
adjusted = True
if self._LOG_MIDI and adjusted:
self.log('receive_midi(adjusted): ' + str(midi_bytes) +
', send_off: ' + str(send_off))
if send_off:
midi_bytes_new = (midi_id, midi_bytes[1], 0)
if self._LOG_MIDI:
self.log('send_off:receive_midi: ' + str(midi_bytes_new), True)
super(BCRXL, self).receive_midi(midi_bytes_new)
super(BCRXL, self).receive_midi(midi_bytes)
def _create_user(self):
def make_control_button(identifier, name, channel=0, is_pad=False):
button = ButtonElement(True,
MIDI_NOTE_TYPE if is_pad else MIDI_CC_TYPE,
channel, identifier)
button.name = name
button.set_on_off_values(127, 0)
return button
def make_control_encoder(identifier, name, channel=0):
encoder = EncoderElement(
MIDI_CC_TYPE, channel, identifier,
Live.MidiMap.MapMode.absolute if not self._relative else
Live.MidiMap.MapMode.relative_two_compliment)
encoder.reset = nop
encoder.set_feedback_delay(-1)
encoder.name = name
return encoder
def make_all_encoders(name_prefix='',
make_encoder=make_control_encoder):
return ([
make_encoder(13 + index, name_prefix + '_' + str(index) + '_0')
for index in xrange(8)
], [
make_encoder(80 + index, name_prefix + '_' + str(index) + '_1')
for index in xrange(8)
], [
make_encoder(88 + index, name_prefix + '_' + str(index) + '_2')
for index in xrange(8)
], [
make_encoder(96 + index, name_prefix + '_' + str(index) + '_3')
for index in xrange(8)
])
make_button = partial(make_control_button, channel=USER_MODE)
make_encoder = partial(make_control_encoder, channel=USER_MODE)
encoders_row_1, encoders_row_2, encoders_row_3, encoders_row_4 = make_all_encoders(
'User_Encoder', make_encoder)
buttons_0 = [
make_button(pad_identifiers[i],
'User_Button_Matrix_' + str(i) + '_0',
is_pad=True) for i in xrange(8)
]
buttons_1 = [
make_button(pad_identifiers[i + 8],
'User_Button_Matrix_' + str(i) + '_1',
is_pad=True) for i in xrange(8)
]
self._matrix = ButtonMatrixElement()
self._matrix.name = 'User_Button_Matrix'
self._matrix.add_row(tuple(buttons_0))
self._matrix.add_row(tuple(buttons_1))
self.request_rebuild_midi_map()
def on_selected_track_changed(self):
self._selected_track = self.song().view.selected_track
if hasattr(self, '_mixer'):
if self._show_selected and self._mixer._last_selected_track_index != -1:
volume_cc = 0 if self._bit_14 else 1
curr_val = self._mixer._channel_strips[
self._mixer.
_last_selected_track_index]._track.mixer_device.volume.value
self.log(
'reset value for track: ' +
str(self._mixer._last_selected_track_index) + ' to ' +
str(curr_val), True)
self._do_send_midi(
(176 + MIXER_MODE,
volume_cc + self._mixer._last_selected_track_index,
int(math.floor(curr_val * 127.0))))
if self._fold_enabled:
can_fold = False
if self._selected_track != None:
can_fold = self._selected_track.is_foldable
self._can_fold = can_fold
self.log('on_selected_track_changed: can_fold: ' + str(can_fold))
self._track_fold_button.enabled = can_fold
self._track_fold_button.send_value(127 if can_fold else 0)
if hasattr(self, '_device'):
self._device.on_selected_track_changed()
@subject_slot('value')
def _on_track_fold(self, value):
self.log('_on_track_fold: ' + str(value) + ', fold_enabled: ' +
str(self._fold_enabled) + ', can_fold: ' +
str(self._can_fold) + ', toggle_returns: ' +
str(self._toggle_returns) + ', channel_strip: ' +
str(self._channel_strip))
if self._channel_strip and self._modes.selected_mode != 'device':
self.log('process channel_strip')
if value:
self.device_mode.layer = None
self._on_device_engage(127, True)
self._device.enable_channel_strip(True, True)
self._on_strip_up.subject = self._bank_down_button
self._on_strip_down.subject = self._bank_up_button
if self._has_strip_device_enable:
self._on_strip_enable.replace_subjects(
self._strip_enable_buttons)
self._update_strip_bank_buttons()
self._update_strip_enable_buttons()
else:
self.device_mode.layer = Layer(
device_mode_button=self._device_engage_button)
self._device.enable_channel_strip(False, True)
self._on_device_engage(0, True)
self._on_strip_up.subject = None
self._on_strip_down.subject = None
if self._has_strip_device_enable:
self._on_strip_enable.replace_subjects([])
elif self._fold_enabled:
self.log('process fold')
self._track_fold_button.send_value(127 if self._can_fold else 0)
if self._selected_track:
self.log('can_fold: ' + str(self._selected_track.is_foldable))
if self._selected_track.is_foldable:
self.log('currently folded: ' +
str(self._selected_track.fold_state))
self._selected_track.fold_state = not self._selected_track.fold_state
elif self._toggle_returns:
self.log('process toggle returns')
self._returns_toggled = value == 127
self.log('returns_toggled: ' + str(self._returns_toggled))
self._mixer._reassign_tracks(1 if self._returns_toggled else 0)
@subject_slot('value')
def _on_strip_up(self, value):
self.log('_on_strip_up', True)
self._device._do_strip_up()
self._update_strip_bank_buttons()
@subject_slot('value')
def _on_strip_down(self, value):
self.log('_on_strip_down', True)
self._device._do_strip_down()
self._update_strip_bank_buttons()
@subject_slot_group('value')
def _on_strip_enable(self, value, button):
index = list(self._strip_enable_buttons).index(button)
self.log('_on_strip_enable: ' + str(index) + ', ' + str(value), True)
self._device._do_strip_enable(index)
def _update_strip_bank_buttons(self):
self._bank_up_button.send_value(
127 if self._device._channel_strip_bank != 0 else 0)
self._bank_down_button.send_value(
127 if self._device._channel_strip_bank != 2 else 0)
def _update_strip_enable_buttons(self):
for i in range(0, len(self._device._iso_rack_enable)):
if self._strip_enable_buttons[i] is not None:
on = self._device._iso_rack_enable[
i] and self._device._iso_rack_enable[i].value
self._strip_enable_buttons[i].send_value(127 if on else 0)
@subject_slot('value')
def _on_skip_racks(self, value):
if value == 127:
self._device.toggle_enable_or_select()
def _release_parameters(self, controls):
if controls != None:
for control in controls:
if control != None:
control.release_parameter()
def _create_transport(self):
self.log('_create_transport: ' + str(self._has_transport), True)
if not self._has_transport:
return
self._transport = TransportComponent()
self._transport.set_stop_button(self._direct_bank_buttons[0])
self._transport.set_play_button(self._direct_bank_buttons[1])
self._transport.set_record_button(self._direct_bank_buttons[2])
self._transport.set_overdub_button(self._direct_bank_buttons[3])
def _create_session(self):
self.log('_create_session', True)
self._session = SessionComponent(self,
name='BCR2K_Session',
num_tracks=NUM_TRACKS,
track_bank_size=self._track_bank_size,
is_enabled=True,
auto_name=True)
self._session.layer = Layer(track_bank_left_button=self._left_button,
track_bank_right_button=self._right_button)
self._session.set_mixer(self._mixer)
self._session._setup_controls()
self._on_session_offset_changed.subject = self._session
self._session.set_show_highlight(True)
self._set_session_highlight(0, 0, 8, 1, False)
@subject_slot('offset')
def _on_session_offset_changed(self):
self.log('_on_session_offset_changed')
session = self._on_session_offset_changed.subject
self._show_controlled_tracks_message(session)
if hasattr(self._device, '_assign_channel_strip'
) and self._device._assign_channel_strip:
self._device._on_session_offset_changed()
def _create_mixer(self):
self.log('_create_mixer', True)
mixer = MixerComponent(self,
NUM_TRACKS,
3,
show_returns=self._show_returns,
max_returns=self._max_returns,
show_master=self._show_master,
delayed_update=True,
is_enabled=True,
auto_name=True)
layer = Layer(volume_controls=self._volume_encoders,
send_controls=self._send_encoders,
next_sends_button=self._bank_down_button,
prev_sends_button=self._bank_up_button)
valid_opts = self._get_button_options()
layer += Layer(**valid_opts)
mixer.layer = layer
self._mixer = mixer
self._bcr_controls.setup_mixer_controls()
self._modes.add_mode('mixer', [AddLayerMode(self._mixer, layer)])
self._modes.selected_mode = 'mixer'
def _get_button_options(self, channel_strip=False):
opts = {}
use_bottom_row_for_channel_strip = self._has_strip_device_enable
if not use_bottom_row_for_channel_strip:
channel_strip = False
if self._has_pans:
opts['pan_controls'] = self._pan_encoders
opts[
'track_select_buttons'] = self._push_buttons if self._button_row_1 == 'select' else (
self._top_buttons if self._button_row_2 == 'select' else
(self._bottom_buttons if self._button_row_3 == 'select'
and not channel_strip else None))
opts[
'mute_buttons'] = self._push_buttons if self._button_row_1 == 'mute' else (
self._top_buttons if self._button_row_2 == 'mute' else
(self._bottom_buttons if self._button_row_3 == 'mute'
and not channel_strip else None))
opts[
'solo_buttons'] = self._push_buttons if self._button_row_1 == 'solo' else (
self._top_buttons if self._button_row_2 == 'solo' else
(self._bottom_buttons if self._button_row_3 == 'solo'
and not channel_strip else None))
opts[
'arm_buttons'] = self._push_buttons if self._button_row_1 == 'arm' else (
self._top_buttons if self._button_row_2 == 'arm' else
(self._bottom_buttons if self._button_row_3 == 'arm'
and not channel_strip else None))
valid_opts = {}
for k, v in opts.iteritems():
if v is not None:
valid_opts[k] = v
return valid_opts
def _on_device_engage(self, value, channel_strip=False):
self.log('_on_device_engage: ' + str(value) + ', channel_strip: ' +
str(channel_strip))
if value == 127:
if not channel_strip:
self._session.set_mixer(None)
self._session.layer = None
self.set_device_component(self._device)
self._device_mode = True
self._bcr_controls._mode = 1
self._modes.selected_mode = 'device_strip' if channel_strip else 'device'
if self._use_32:
self._mixer.set_volume_controls(None)
else:
self._device_mode = False
self._bcr_controls._mode = 0
self._bcr_controls.setup_mixer_controls(-1, -1, True, -1)
if not channel_strip:
self._session.set_mixer(self._mixer)
self._session.layer = Layer(
track_bank_left_button=self._left_button,
track_bank_right_button=self._right_button)
if self._fold_enabled or self._toggle_returns:
if self._fold_enabled:
self._can_fold = self._selected_track != None and self._selected_track.is_foldable
self._on_track_fold.subject = self._track_fold_button
self._modes.selected_mode = 'mixer'
if self._use_32:
self._mixer.set_volume_controls(self._volume_encoders)
def _create_device(self):
self.log('_create_device', True)
def make_button(identifier,
name,
midi_type=MIDI_CC_TYPE,
skin=self._default_skin):
return ButtonElement(True,
midi_type,
MIXER_MODE,
identifier,
name=name,
skin=skin)
def make_encoder(identifier, name, bit_14=True):
if self._bit_14:
self.log('make_encoder: ' + name + ', CC: ' + str(identifier) +
', 14_bit: ' + str(bit_14))
control = EncoderElement(
MIDI_CC_TYPE,
MIXER_MODE,
identifier,
Live.MidiMap.MapMode.absolute_14_bit
if bit_14 else Live.MidiMap.MapMode.absolute,
name=name)
else:
control = EncoderElement(
MIDI_CC_TYPE,
MIXER_MODE,
identifier,
Live.MidiMap.MapMode.absolute if not self._relative else
Live.MidiMap.MapMode.relative_two_compliment,
name=name)
return control
if self._bit_14:
volume_cc = 0
sends_cc = 8
else:
volume_cc = 1
sends_cc = 81
if self._use_32:
self._device_encoders = ButtonMatrixElement(
rows=[[
make_encoder(volume_cc + i, 'Volume_%d' % (i + 1))
for i in xrange(8)
],
[
make_encoder(sends_cc + i, 'BCR_Device_0_%d' %
(i + 1)) for i in xrange(8)
],
[
make_encoder(sends_cc + 8 + i, 'BCR_Device_1_%d' %
(i + 1)) for i in xrange(8)
],
[
make_encoder(sends_cc + 16 + i, 'BCR_Device_2_%d' %
(i + 1)) for i in xrange(8)
]])
self._send_encoders = self._device_encoders.submatrix[:8, 1:4]
else:
self._device_encoders = self._send_encoders
if self._channel_strip:
self._device = DeviceComponent_Strip(
self,
name='XL_Device',
is_enabled=True,
direct_bank=self._direct_bank,
num_params=32 if self._use_32 else 24,
path=self._my_path,
delayed_update=True)
else:
self._device = DeviceComponent(
self,
name='XL_Device',
is_enabled=True,
direct_bank=self._direct_bank,
num_params=32 if self._use_32 else 24,
path=self._my_path,
delayed_update=True)
self.set_preditor_device_component(self._device)
if self._direct_bank:
device_layer = Layer(parameter_controls=self._device_encoders,
device_select=self._top_buttons,
device_enable=self._bottom_buttons,
device_lock_button=self._track_fold_button,
bank_up_button=self._bank_down_button,
bank_down_button=self._bank_up_button,
direct_bank=self._direct_bank_buttons)
else:
device_layer = Layer(parameter_controls=self._device_encoders,
device_select=self._top_buttons,
device_enable=self._bottom_buttons,
device_lock_button=self._track_fold_button,
bank_up_button=self._bank_down_button,
bank_down_button=self._bank_up_button)
device_settings_layer = Layer()
self.device_mode = DeviceModeComponent(script=self,
component=self._device,
device_settings_mode=[
AddLayerMode(
self._device,
device_settings_layer)
],
is_enabled=True)
self.device_mode.layer = Layer(
device_mode_button=self._device_engage_button)
if self._has_pans:
mixer_layer = Layer(volume_controls=self._volume_encoders,
pan_controls=self._pan_encoders)
else:
mixer_layer = Layer(volume_controls=self._volume_encoders)
self._modes.add_mode('device', [
AddLayerMode(self._device, device_layer),
AddLayerMode(self._mixer, mixer_layer)
])
if self._channel_strip:
if hasattr(self._device, 'enable_channel_strip'):
strip_layer = Layer(parameter_controls=self._device_encoders)
valid_opts = self._get_button_options(True)
mixer_layer += Layer(**valid_opts)
self._modes.add_mode('device_strip', [
AddLayerMode(self._device, strip_layer),
AddLayerMode(self._mixer, mixer_layer),
AddLayerMode(
self._session,
Layer(track_bank_left_button=self._left_button,
track_bank_right_button=self._right_button))
])
else:
self._channel_strip = False
def update(self):
self.log('update: device_mode: ' + str(self._device_mode))
super(BCRXL, self).update()
def refresh_state(self):
self.log('refresh_state')
super(BCRXL, self).refresh_state()
def handle_sysex(self, midi_bytes):
if self._LOG_SYSEX:
self.log('handle_sysex: ' + str(midi_bytes))
if midi_bytes[:4] == BCR_SYSEX[:4] and midi_bytes[5] == 21:
if self._bcr_controls.receive_ack(midi_bytes):
if self._device_mode:
self._device.map_controls()
else:
self._mixer.map_controls()
if midi_bytes[9:10] != (0, ):
self.log('Received sysex error code: ' + str(midi_bytes), True)
@subject_slot_group('value')
def _on_select_pressed(self, value, button):
pass
def same_track_selected(self):
self.log('BCRXL: same_track_selected')
selected_track = self.song().view.selected_track
if selected_track != None:
if self._device_mode:
self.song().view.selected_track = self.song().master_track
elif self._button_reselect_track == 'mute':
selected_track.mute = not selected_track.mute
elif self._button_reselect_track == 'solo':
selected_track.solo = not selected_track.solo
elif self._button_reselect_track == 'arm':
if selected_track.can_be_armed:
selected_track.arm = not selected_track.arm
elif self._button_reselect_track == 'fold':
if self._selected_track.is_foldable:
self._selected_track.fold_state = not self._selected_track.fold_state
return False
class MaschineMk2(ControlSurface):
__module__ = __name__
__doc__ = 'Control Script for Maschine Mk2 and Maschine Mikro Mk2'
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance, False)
with self.component_guard():
self._suppress_send_midi = True
self.togglecolor = (10, 30, 50, 70, 90)
self.toggleindex = 0
self._c_ref = c_instance
self._challenge = Live.Application.get_random_int(0, 400000000) & 2139062143
self._c_inst = c_instance
is_momentary = True
self._active = True
self._modifier_down = False
self._return_mode = 0
self._returntopad = False
self._mode = CLIP_MODE
self.init_slot = 0
self.init_done = False
self._midi_pause_count = 0
self.nav_index = 0
self._base_note = 0
self._octave = 0.55
self._scale_select_mode = MODE_PRESS_NONE
self.send_slider_index = 0
self._pad_mode = PM_OFF
self._note_display_mode = ND_KEYBOARD1
self._set_suppress_rebuild_requests(True)
self._scenematrix = SceneMatrix(self)
self._master_knob = Mk2KnobControl(self)
self._device = self._set_up_device_control()
self.show_message(str(''))
self.request_rebuild_midi_map()
self._set_global_buttons()
self._set_mode_buttons()
self._setup_transport()
self._set_modecontrol()
self._set_up_session()
self._set_up_mixer()
self._set_up_timer()
self._set_up_machine_knobs()
self.current_scale_index = 0
self.assign_transpose(SCALES[self.current_scale_index])
self.set_highlighting_session_component(self._session)
self._navigate_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 127)
self._navigate_button.add_value_listener(self._do_focus_navigate)
self.display_update_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 86)
self.display_update_button.add_value_listener(self._a_display_update)
self._set_suppress_rebuild_requests(False)
self.song().view.add_detail_clip_listener(self.clip_handle)
self.song().add_visible_tracks_listener(self.clip_handle)
self.song().add_scenes_listener(self.clip_handle)
self.application().view.add_view_focus_changed_listener(self.focus_changed)
self.log_message('########## LIVE 9 MASCHINE MK2 V 1.02 #############')
self._suppress_send_midi = False
def _set_up_mixer(self):
is_momentary = True
self._mixer = MixerComponent(8)
self.send_sliders = []
for track in range(8):
self.send_sliders.append(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, SEND_CC_OFF + track))
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.set_arm_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, ARM_CC_OFF + track))
strip.set_solo_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, SOLO_CC_OFF + track))
strip.set_mute_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, MUTE_CC_OFF + track))
strip.set_volume_control(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, LEVEL_CC_OFF + track))
strip.set_pan_control(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, PAN_CC_OFF + track))
strip.set_select_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, SELECT_CC_OFF + track))
st = tuple([self.send_sliders[track]])
strip.set_send_controls(st)
self.send_slider_toggle_button = StateButton(False, MIDI_CC_TYPE, 0, 90)
self.send_slider_toggle_button.add_value_listener(self._do_toggle_send)
self._session.set_mixer(self._mixer)
def _set_global_buttons(self):
is_momentary = True
self._undo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 85)
self._undo_button.add_value_listener(self._do_undo)
self._redo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 87)
self._redo_button.add_value_listener(self._do_redo)
self._armsolomode_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 89)
self._armsolomode_button.add_value_listener(self._do_armsolo_mode)
self._fire_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 9)
self._fire_button.add_value_listener(self._do_fire_button)
self.track_left_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 120)
self.track_right_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 121)
self.track_left_button.add_value_listener(self._a_trk_left)
self.track_right_button.add_value_listener(self._a_trk_right)
self.test_button = StateButton(True, MIDI_CC_TYPE, 5, 60)
self.note_repeat_button = StateButton(True, MIDI_CC_TYPE, 5, 61)
self.test_button.add_value_listener(self.do_test)
self.note_repeat_button.add_value_listener(self.do_note_repeat)
self.reset_test_button = StateButton(True, MIDI_CC_TYPE, 5, 62)
self.reset_test_button.add_value_listener(self.do_reset)
def _set_mode_buttons(self):
self.xfade_assign_button = StateButton(True, MIDI_CC_TYPE, 0, 116)
self._pad_select_button = StateButton(False, MIDI_CC_TYPE, 0, 117)
self._pad_solo_button = StateButton(False, MIDI_CC_TYPE, 0, 118)
self._mute_button = StateButton(False, MIDI_CC_TYPE, 0, 119)
self._pad_scale_up = GatedColorButton(True, MIDI_CC_TYPE, 83, 0)
self._pad_scale_down = GatedColorButton(True, MIDI_CC_TYPE, 94, 16)
self._pad_select_button.add_value_listener(self._do_pad_select_multi)
self._mute_button.add_value_listener(self._do_mute_button)
self._pad_solo_button.add_value_listener(self._do_pad_solo_multi)
self.xfade_assign_button.add_value_listener(self._do_xfade_assign)
self._pad_scale_up.add_value_listener(self._do_pad_note_up)
self._pad_scale_down.add_value_listener(self._do_pad_note_down)
def set_appointed_device(self, device):
with self.component_guard():
self._device_component.set_device(device)
def _set_up_device_control(self):
is_momentary = True
device = MaschineDeviceComponent(self)
device.set_device_changed_listener(self._handle_device_changed)
device.set_device_parm_listener(self._hande_device_parm_changed)
param_controls = []
for index in range(8):
param_controls.append(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_CC_OFF + index))
device.set_parameter_controls(tuple(param_controls))
device.set_on_off_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF))
device.set_bank_nav_buttons(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF + 4), ButtonElement(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF + 5))
self._device_nav_button_left = StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF + 6)
self._device_nav_button_right = StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF + 7)
self._device_nav_button_left.add_value_listener(self._nav_value_left)
self._device_nav_button_right.add_value_listener(self._nav_value_right)
device.name = 'Device_Component'
self.set_device_component(device)
return device
def _setup_transport(self):
is_momentary = True
transport = TransportComponent()
playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
playButton.name = 'Play'
stopButton.name = 'Stop'
recordButton.name = 'Record'
overdubButton.name = 'Overdub'
metrononmeButton.name = 'Metronome'
transport.set_play_button(playButton)
transport.set_stop_button(stopButton)
transport.set_record_button(recordButton)
transport.set_overdub_button(overdubButton)
transport.set_metronome_button(metrononmeButton)
transport.set_nudge_buttons(StateButton(is_momentary, MIDI_CC_TYPE, 1, 51), StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
punchinbutton.name = 'Punch In'
punchoutbutton.name = 'Punch Out'
transport.set_punch_buttons(punchinbutton, punchoutbutton)
transport.set_loop_button(StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
transport.set_seek_buttons(self.transp_ff_button, self.transp_rw_button)
self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 100)
self.xfadeKnob.connect_to(self.song().master_track.mixer_device.crossfader)
self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
self.tap_button.add_value_listener(self._do_tap_tempo)
self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 55)
self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
self.cue_add_delete_button.add_value_listener(self._do_toggle_cue)
self.cue_prev_button.add_value_listener(self._do_toggle_prev_cue)
self.cue_next_button.add_value_listener(self._do_toggle_next_cue)
def _set_up_machine_knobs(self):
master_track = self.song().master_track
self.master_volume = SliderElement(MIDI_CC_TYPE, 0, 40)
self.prehear = SliderElement(MIDI_CC_TYPE, 0, 41)
self.master_volume.connect_to(master_track.mixer_device.volume)
self.prehear.connect_to(master_track.mixer_device.cue_volume)
def _set_up_session(self):
is_momentary = True
self._session = MaschineSessionComponent()
self._session.add_offset_listener(self.notify_track_scroll)
nhue = COLOR_HUE_NAV
self.nav_buttons = (GatedColorButton(True, MIDI_CC_TYPE, 92, nhue),
GatedColorButton(True, MIDI_CC_TYPE, 81, nhue),
GatedColorButton(True, MIDI_CC_TYPE, 93, nhue),
GatedColorButton(True, MIDI_CC_TYPE, 91, nhue))
self._session.set_scene_bank_buttons(self.nav_buttons[0], self.nav_buttons[1])
self._session.set_track_bank_buttons(self.nav_buttons[2], self.nav_buttons[3])
self._session.set_stop_all_clips_button(StateButton(is_momentary, MIDI_CC_TYPE, 0, 111))
track_stop_buttons = [ StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, index + STOP_CC_OFF) for index in range(4) ]
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._init_matrix()
self._set_up_buttons()
self._session._link()
self._session.set_advance(STEP4)
def _set_up_buttons(self):
self._bmatrix = ButtonMatrixElement()
for scene_index in range(4):
button_row = []
scene = self._session.scene(scene_index)
for track_index in range(4):
button = self._matrix[scene_index][track_index]
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
clip_slot.set_triggered_to_play_value(1)
clip_slot.set_triggered_to_record_value(1)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(1)
clip_slot.set_stopped_value(1)
self._bmatrix.add_row(tuple(button_row))
def _init_matrix(self):
is_momentary = True
self._button_sequence = []
self._matrix = []
for scene_index in range(4):
button_row = []
for track_index in range(4):
button = VarButtonElement(is_momentary, 0, scene_index, track_index, self)
partner = TwinButton(is_momentary, 1, button)
partner.add_value_listener(self.ox, True)
button_row.append(button)
self._matrix.append(tuple(button_row))
for scene_index in [3,
2,
1,
0]:
for track_index in range(4):
self._button_sequence.append(self._matrix[scene_index][track_index])
self._session.set_matrix(self._matrix)
def set_pad_translations(self, pad_translations):
ControlSurface.set_pad_translations(pad_translations)
def refresh_state(self):
ControlSurface.refresh_state(self)
self._update_hardware()
def ox(self, value, button):
if not isinstance(button, TwinButton):
raise AssertionError
self._mode == PAD_MODE and button.fire(value)
def _update_hardware(self):
self._session.update()
self._set_suppress_rebuild_requests(True)
self._set_mode()
self._master_knob.update()
if self._scenematrix.soloexclusive:
self._armsolomode_button.send_value(1, True)
else:
self._armsolomode_button.send_value(0, True)
self._master_knob.start_up()
self._pad_scale_up.activate()
self._pad_scale_down.activate()
self.current_scale_to_display()
self.send_to_display(KEY_COLOR_MODES_STRINGS[self._note_display_mode], 1)
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
button = self._matrix[scene_index][track_index]
button.refresh()
self._set_suppress_rebuild_requests(False)
def get_color(self, value, track_index, scene_index):
if not self._active:
return
if self._mode == SCENE_MODE or self._mode == CONTROL_MODE or self._pad_mode == PM_ON:
element = self._scenematrix.get_element(scene_index, track_index)
return element.get_color(value)
elif self._mode == CLIP_MODE:
scene = self._session.scene(scene_index)
clip_slot = scene.clip_slot(track_index)._clip_slot
cindex = 0
if value == 0:
cindex = 1
if clip_slot != None:
if clip_slot.has_clip:
if clip_slot.clip.is_recording or clip_slot.clip.will_record_on_start:
return PColor.CLIP_RECORD[cindex]
if clip_slot.clip.is_playing:
return PColor.CLIP_PLAY[cindex]
elif clip_slot.clip.is_triggered:
return PColor.CLIP_PLAY[cindex]
else:
return PColor.CLIP_STOPPED[cindex]
elif clip_slot.will_record_on_start:
return PColor.CLIP_RECORD[cindex]
elif clip_slot.is_playing:
return PColor.CLIP_GROUP_PLAY[cindex]
elif clip_slot.controls_other_clips:
return PColor.CLIP_GROUP_CONTROL[cindex]
elif clip_slot.is_triggered:
return PColor.CLIP_GROUP_TRIGGER[cindex]
elif self._mode == PAD_MODE:
button = self._matrix[scene_index][track_index]
return self.get_color_by_note_mode(button.get_identifier(), value > 0)
def step_key_color_mode(self):
self._note_display_mode = (self._note_display_mode + 1) % len(KEY_COLOR_MODES_STRINGS)
self.show_message('Pad Mode Key Color = ' + KEY_COLOR_MODES_STRINGS[self._note_display_mode])
self.send_to_display('Colors: ' + KEY_COLOR_MODES_STRINGS[self._note_display_mode], 1)
if self._mode == PAD_MODE:
for note_index in range(16):
button = self._button_sequence[note_index]
button.send_color_direct(self.get_color_by_note_mode(button.get_identifier(), False))
def get_color_by_note_mode(self, midi_note, on):
if self._note_display_mode == ND_BASE_OTHER:
interval = (midi_note + 12 - self._base_note) % 12
if on:
return INTERVAL_COLOR_MAP[interval][0]
else:
return INTERVAL_COLOR_MAP[interval][1]
elif on:
return KEY_COLOR_MAP[midi_note % 12][0]
else:
return KEY_COLOR_MAP[midi_note % 12][1]
def _send_midi(self, midi_bytes, **keys):
self._c_ref.send_midi(midi_bytes)
if self._midi_pause_count == 2:
time.sleep(0.002)
self._midi_pause_count = 0
else:
self._midi_pause_count = self._midi_pause_count + 1
return True
def clip_handle(self):
if self._mode == SCENE_MODE or self._mode == CONTROL_MODE or self._modifier_down:
self._scenematrix.update()
def _a_display_update(self, value):
if not self.display_update_button != None:
raise AssertionError
raise value in range(128) or AssertionError
(value != 0 or not self.display_update_button.is_momentary()) and self._update_hardware()
self.show_message('Maschine Display Updated')
def _set_up_timer(self):
self.blink_state = 1
def update_display(self):
with self.component_guard():
with self._is_sending_scheduled_messages():
self._task_group.update(0.1)
if self._mode == CLIP_MODE and not self._modifier_down:
if self.blink_state == 0:
self._session.notify(1, 0)
elif self.blink_state == 1:
self._session.notify(1, 1)
elif self.blink_state == 3:
self._session.notify(2, 0)
elif self.blink_state == 4:
self._session.notify(2, 1)
elif self._mode == PAD_MODE:
pass
elif self.blink_state == 0:
self._scenematrix.notify_scene_mode(1)
elif self.blink_state == 2:
self._scenematrix.notify_scene_mode(0)
self.blink_state = (self.blink_state + 1) % 4
self.init_slot += 1
def _invoke_track_edit(self, mode):
self._deassign_matrix()
self._scenematrix.assign()
self._scenematrix.set_mode(mode)
self._pad_mode = PM_ON
self.request_rebuild_midi_map()
self._scenematrix.update()
def _set_modecontrol(self):
is_momentary = True
self.scene_mode_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 112)
self.clip_mode_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 113)
self.pad_mode_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 114)
self.control_mode_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 115)
self.xfade_assign_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 116)
self.scene_mode_button.add_value_listener(self._a_mode_scene)
self.clip_mode_button.add_value_listener(self._a_mode_clip)
self.pad_mode_button.add_value_listener(self._a_mode_pad)
self.control_mode_button.add_value_listener(self._a_mode_control)
def _set_mode(self, mode = None):
if mode == None:
mode = self._mode
if mode == SCENE_MODE:
self.clip_mode_button.send_value(OFF_VALUE, True)
self.pad_mode_button.send_value(OFF_VALUE, True)
self.control_mode_button.send_value(OFF_VALUE, True)
self.scene_mode_button.send_value(ON_VALUE, True)
elif mode == CLIP_MODE:
self.scene_mode_button.send_value(OFF_VALUE, True)
self.pad_mode_button.send_value(OFF_VALUE, True)
self.control_mode_button.send_value(OFF_VALUE, True)
self.clip_mode_button.send_value(ON_VALUE, True)
elif mode == PAD_MODE:
self.scene_mode_button.send_value(OFF_VALUE, True)
self.clip_mode_button.send_value(OFF_VALUE, True)
self.control_mode_button.send_value(OFF_VALUE, True)
self.pad_mode_button.send_value(ON_VALUE, True)
elif mode == CONTROL_MODE:
self.scene_mode_button.send_value(OFF_VALUE, True)
self.clip_mode_button.send_value(OFF_VALUE, True)
self.pad_mode_button.send_value(OFF_VALUE, True)
self.control_mode_button.send_value(ON_VALUE, True)
def _reset_matrix(self):
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
button = self._matrix[scene_index][track_index]
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
def update_button_matrix(self):
self._session.update()
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
button = self._matrix[scene_index][track_index]
clip_slot = scene.clip_slot(track_index)
if clip_slot._clip_slot != None and clip_slot._clip_slot.clip != None:
button.send_value(1, True)
else:
button.send_value(0, True)
def _deassign_matrix(self):
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(None)
def _from_pad_mode(self, matrix_mode):
self._mode = SCENE_MODE
self._register_buttons()
self._scenematrix.assign()
self._scenematrix.set_mode(matrix_mode)
self._set_suppress_rebuild_requests(True)
self.request_rebuild_midi_map()
self._scenematrix.update()
self._set_suppress_rebuild_requests(False)
def _enter_pad_mode(self):
self._set_mode(PAD_MODE)
if self._mode == CLIP_MODE:
self._deassign_matrix()
elif self._mode == SCENE_MODE:
self._scenematrix.deassign()
elif self._mode == CONTROL_MODE:
self._scenematrix.deassign()
self._master_knob.exit_matrix_mode()
self._mode = PAD_MODE
self._set_suppress_rebuild_requests(True)
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
button.send_value(0, True)
button.set_to_notemode(True)
self._forwarding_registry[MIDI_NOTE_ON_STATUS, button.get_identifier()] = button
self._forwarding_registry[MIDI_NOTE_OFF_STATUS, button.get_identifier()] = button
self._set_suppress_rebuild_requests(False)
def _register_buttons(self, update = False):
self._set_suppress_rebuild_requests(True)
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
button.set_to_notemode(False)
if update:
button.send_value(127, True)
fwkey = [MIDI_NOTE_ON_STATUS]
fwkey.append(button.get_identifier())
self._forwarding_registry[tuple(fwkey)] = button
self._forwarding_registry[MIDI_NOTE_OFF_STATUS, button.get_identifier()] = button
self._set_suppress_rebuild_requests(False)
def _back_to_clip_mode(self):
self._pad_mode = PM_OFF
self._scenematrix.set_mode(SCENE_MODE_NORMAL)
self._scenematrix.deassign()
self._set_up_clip_matrix()
def _set_up_clip_matrix(self):
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
button.set_to_notemode(False)
self._set_suppress_rebuild_requests(True)
self.request_rebuild_midi_map()
self._reset_matrix()
self.update_button_matrix()
self._set_suppress_rebuild_requests(False)
def _enter_scene_mode(self):
self._set_mode(SCENE_MODE)
if self._mode == CLIP_MODE:
self._deassign_matrix()
elif self._mode == CONTROL_MODE:
self._master_knob.exit_matrix_mode()
elif self._mode == PAD_MODE:
self._register_buttons()
self._mode = SCENE_MODE
self._scenematrix.assign()
self._scenematrix.set_mode(SCENE_MODE_NORMAL)
self._return_mode = SCENE_MODE_NORMAL
self.request_rebuild_midi_map()
def _enter_clip_mode(self):
self._set_suppress_rebuild_requests(True)
self._set_mode(CLIP_MODE)
if self._mode == SCENE_MODE:
self._scenematrix.deassign()
elif self._mode == CONTROL_MODE:
self._master_knob.exit_matrix_mode()
self._mode = CLIP_MODE
self._set_up_clip_matrix()
self.request_rebuild_midi_map()
self._set_suppress_rebuild_requests(False)
def _enter_control_mode(self):
self._set_mode(CONTROL_MODE)
if self._mode == CLIP_MODE:
self._deassign_matrix()
elif self._mode == PAD_MODE:
self._mode = CONTROL_MODE
self._register_buttons()
self._mode = CONTROL_MODE
self._set_suppress_rebuild_requests(True)
self._scenematrix.set_mode(SCENE_MODE_CONTROL)
self._return_mode = SCENE_MODE_CONTROL
self._scenematrix.assign()
self._master_knob.switch_to_matrix_mode()
self._set_suppress_rebuild_requests(False)
self.request_rebuild_midi_map()
self._scenematrix.update()
def _a_mode_scene(self, value):
if not self.scene_mode_button != None:
raise AssertionError
raise value in range(128) or AssertionError
value != 0 and self.show_message('SCENE MODE')
self._enter_scene_mode()
def _a_mode_clip(self, value):
if not self.clip_mode_button != None:
raise AssertionError
raise value in range(128) or AssertionError
value != 0 and self.show_message('CLIP MODE')
self._enter_clip_mode()
def _a_mode_pad(self, value):
if not self.pad_mode_button != None:
raise AssertionError
raise value in range(128) or AssertionError
value != 0 and self.show_message('PAD MODE')
self._enter_pad_mode()
def _a_mode_control(self, value):
if not self.control_mode_button != None:
raise AssertionError
raise value in range(128) or AssertionError
value != 0 and self.show_message('CONTROL MODE')
self._enter_control_mode()
def _do_pad_select_multi(self, value):
if not value in range(128):
raise AssertionError
self._modifier_down = value != 0
if self._mode == PAD_MODE or self._returntopad:
value != 0 and self._from_pad_mode(SCENE_MODE_SELECT)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == CLIP_MODE:
if value != 0:
self._invoke_track_edit(SCENE_MODE_SELECT)
else:
self._back_to_clip_mode()
elif self._mode != PAD_MODE:
if value == 0:
self._scenematrix.set_mode(self._return_mode)
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_SELECT)
def _do_mute_button(self, value):
if not self._mute_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
self._modifier_down = value != 0
(self._mode == PAD_MODE or self._returntopad) and value != 0 and self._from_pad_mode(SCENE_MODE_MUTE)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == SCENE_MODE or self._mode == CONTROL_MODE:
if value == 0:
self._scenematrix.set_mode(self._return_mode)
self._pad_mode = PM_OFF
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_MUTE)
self._pad_mode = PM_ON
elif self._mode == CLIP_MODE:
if value > 0:
self._invoke_track_edit(SCENE_MODE_MUTE)
else:
self._back_to_clip_mode()
self._pad_mode = PM_OFF
def _do_pad_solo_multi(self, value):
if not value in range(128):
raise AssertionError
self._modifier_down = value != 0
if self._mode == PAD_MODE or self._returntopad:
value != 0 and self._from_pad_mode(SCENE_MODE_SOLO)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == CLIP_MODE:
if value != 0:
self._invoke_track_edit(SCENE_MODE_SOLO)
else:
self._back_to_clip_mode()
elif self._mode != PAD_MODE:
if value == 0:
self._scenematrix.set_mode(self._return_mode)
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_SOLO)
def _do_xfade_assign(self, value):
if not self.xfade_assign_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
(self._mode == PAD_MODE or self._returntopad) and value != 0 and self._from_pad_mode(SCENE_MODE_XFADE)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == CLIP_MODE:
if value != 0:
self._invoke_track_edit(SCENE_MODE_XFADE)
else:
self._back_to_clip_mode()
elif self._mode == SCENE_MODE or self._mode == CONTROL_MODE:
if value == 0:
self._scenematrix.set_mode(self._return_mode)
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_XFADE)
def _do_pad_note_up(self, value):
if not self._pad_scale_up != None:
raise AssertionError
if not value in range(128):
raise AssertionError
self._pad_scale_up.send_value(value, True)
self._modifier_down = value != 0
(self._mode == PAD_MODE or self._returntopad) and value != 0 and self._from_pad_mode(SCENE_MODE_ARM)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == CLIP_MODE:
self.show_message('Arm tracks with pads')
if value != 0:
self._invoke_track_edit(SCENE_MODE_ARM)
else:
self._back_to_clip_mode()
elif self._mode == SCENE_MODE or self._mode == CONTROL_MODE:
self.show_message('Arm tracks with pads')
if value == 0:
self._scenematrix.set_mode(self._return_mode)
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_ARM)
def _do_pad_note_down(self, value):
if not self._pad_scale_down != None:
raise AssertionError
if not value in range(128):
raise AssertionError
self._pad_scale_down.send_value(value, True)
self._modifier_down = value != 0
(self._mode == PAD_MODE or self._returntopad) and value != 0 and self._from_pad_mode(SCENE_MODE_STOP)
self._returntopad = True
else:
self._returntopad = False
self._enter_pad_mode()
elif self._mode == CLIP_MODE:
self.show_message('Stop tracks with pads')
if value != 0:
self._invoke_track_edit(SCENE_MODE_STOP)
else:
self._back_to_clip_mode()
elif self._mode == SCENE_MODE or self._mode == CONTROL_MODE:
self.show_message('Stop tracks with pads')
if value == 0:
self._scenematrix.set_mode(self._return_mode)
else:
if self._scenematrix.in_main_mode():
self._return_mode = self._scenematrix.mode
self._scenematrix.set_mode(SCENE_MODE_STOP)
def modify_track_offset(self, delta):
self._scenematrix.mod_track_offset(delta)
def modify_scene_offset(self, delta):
self._scenematrix.mod_scene_offset(delta)
def move_view_horizontal(self, delta):
if delta == 1:
self._session.bank_right()
else:
self._session.bank_left()
if self._mode == CONTROL_MODE:
self._scenematrix.update()
def inc_octave(self, inc):
scale = SCALES[self.current_scale_index]
octave = scale.to_octave(self._octave)
newoctave = octave + inc
if newoctave < 0:
newoctave = 0
elif newoctave > scale.octave_range:
newoctave = scale.octave_range
self._octave = scale.to_relative(newoctave, self._octave)
scale = SCALES[self.current_scale_index]
self.show_message(' OCTAVE ' + BASE_NOTE[self._base_note] + str(newoctave - 2) + ' to ' + scale.name)
self.current_scale_to_display()
def inc_base_note(self, inc):
newbase = self._base_note + inc
if newbase < 0:
self._base_note = 0
elif newbase > 11:
self._base_note = 11
else:
self._base_note = newbase
scale = SCALES[self.current_scale_index]
self.show_message(' Base Note ' + BASE_NOTE[self._base_note] + ' to ' + scale.name)
self.current_scale_to_display()
def current_scale_to_display(self):
scale = SCALES[self.current_scale_index]
text = scale.name + ' ' + BASE_NOTE[self._base_note] + str(scale.to_octave(self._octave))
self.send_to_display(text)
def inc_scale(self, inc):
nr_of_scales = len(SCALES)
newindex = self.current_scale_index + inc
if newindex < 0:
newindex = 0
elif newindex >= nr_of_scales:
newindex = nr_of_scales - 1
else:
self.current_scale_index += inc
newscale = SCALES[self.current_scale_index]
self.show_message(' PAD Scale ' + newscale.name + ' ' + BASE_NOTE[self._base_note] + str(newscale.to_octave(self._octave) - 2))
self.current_scale_to_display()
def update_transpose(self):
self.assign_transpose(SCALES[self.current_scale_index])
self._set_suppress_rebuild_requests(True)
self.request_rebuild_midi_map()
self._set_suppress_rebuild_requests(False)
def set_scale(self, scale):
raise isinstance(scale, PadScale) or AssertionError
scale_len = len(scale.notevalues)
octave = scale.to_octave(self._octave)
def assign_transpose(self, scale):
raise isinstance(scale, PadScale) or AssertionError
scale_len = len(scale.notevalues)
octave = scale.to_octave(self._octave)
last_note_val = None
for note_index in range(16):
button = self._button_sequence[note_index]
scale_index = note_index % scale_len
octave_offset = note_index / scale_len
note_value = scale.notevalues[scale_index] + self._base_note + octave * 12 + octave_offset * 12
if note_value < 128:
last_note_val = note_value
elif last_note_val != None:
note_value = last_note_val
button.set_send_note(note_value)
if self._mode == PAD_MODE:
button.send_color_direct(self.get_color_by_note_mode(note_value, False))
def do_reset(self, value):
if value == 0:
return
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
data_byte1 = button._original_identifier
button.send_midi((MIDI_CC_STATUS + 2, data_byte1, 0))
def do_test(self, value):
color = self.togglecolor[self.toggleindex]
self.toggleindex = (self.toggleindex + 1) % len(self.togglecolor)
if value == 0:
return
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
self.schedule_message(1, self.dosend, (color,
127,
127,
row,
column))
def dosend(self, parm = None):
button = self._matrix[parm[3]][parm[4]]
data_byte1 = button._original_identifier
button.send_midi((MIDI_CC_STATUS + 0, data_byte1, parm[0]))
button.send_midi((MIDI_CC_STATUS + 1, data_byte1, parm[1]))
button.send_midi((MIDI_CC_STATUS + 2, data_byte1, parm[2]))
def do_note_repeat(self, value):
nrvalue = 0
if value != 0:
nrvalue = 1
self._c_ref.set_note_repeat_state(nrvalue)
def _do_toggle_send(self, value):
nr_of_tracks = len(self.song().return_tracks)
if value == 0 or nr_of_tracks < 1:
return
prev = self.send_slider_index
self.send_slider_index += 1
if self.send_slider_index >= nr_of_tracks:
self.send_slider_index = 0
self.show_message(' Set Send ' + str(SENDS[self.send_slider_index]))
if prev != self.send_slider_index:
for track in range(8):
strip = self._mixer.channel_strip(track)
slider_list = []
for index in range(self.send_slider_index + 1):
if index < self.send_slider_index - 1:
slider_list.append(None)
else:
slider_list.append(self.send_sliders[track])
strip.set_send_controls(tuple(slider_list))
def _do_armsolo_mode(self, value):
if not self._armsolomode_button != None:
raise AssertionError
raise value in range(128) or AssertionError
value != 0 and self._scenematrix.set_armsolo_exclusive(self._armsolomode_button)
def _do_fire_button(self, value):
if not self._fire_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
clip_slot = (value != 0 or not self._mute_button.is_momentary()) and self.song().view.highlighted_clip_slot
clip_slot and clip_slot.fire()
def _do_undo(self, value):
if not self._undo_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
(value != 0 or not self._undo_button.is_momentary()) and self.song().can_undo == 1 and self.song().undo()
self.show_message(str('UNDO'))
def _do_redo(self, value):
if not self._redo_button != None:
raise AssertionError
if not value in range(128):
raise AssertionError
(value != 0 or not self._redo_button.is_momentary()) and self.song().can_redo == 1 and self.song().redo()
self.show_message(str('REDO'))
def _a_trk_left(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
direction = self.application().view.is_view_visible('Session') and Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Session', True)
def _a_trk_right(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
direction = self.application().view.is_view_visible('Session') and Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Session', True)
def _nav_value_left(self, value):
if not self._device_nav_button_left != None:
raise AssertionError
if not value in range(128):
raise AssertionError
modifier_pressed = True
value > 0 and (not self.application().view.is_view_visible('Detail') or not self.application().view.is_view_visible('Detail/DeviceChain')) and self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Detail/DeviceChain', not modifier_pressed)
def _nav_value_right(self, value):
if not self._device_nav_button_right != None:
raise AssertionError
if not value in range(128):
raise AssertionError
modifier_pressed = value > 0 and True
(not self.application().view.is_view_visible('Detail') or not self.application().view.is_view_visible('Detail/DeviceChain')) and self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Detail/DeviceChain', not modifier_pressed)
def _do_tap_tempo(self, value):
if not value in range(128):
raise AssertionError
value > 0 and self.song().tap_tempo()
def _do_toggle_cue(self, value):
if not value in range(128):
raise AssertionError
value > 0 and self.song().set_or_delete_cue()
def _do_toggle_prev_cue(self, value):
if not value in range(128):
raise AssertionError
value > 0 and self.song().jump_to_prev_cue()
def _do_toggle_next_cue(self, value):
if not value in range(128):
raise AssertionError
value > 0 and self.song().jump_to_next_cue()
def focus_changed(self):
pass
def _handle_device_changed(self, device):
pass
def _hande_device_parm_changed(self):
pass
def _do_focus_navigate(self, value):
if not self._navigate_button != None:
raise AssertionError
raise value in range(128) or AssertionError
self.nav_index = value != 0 and (self.nav_index + 1) % len(VIEWS_ALL)
self.application().view.focus_view(VIEWS_ALL[self.nav_index])
self.show_message('Focus on : ' + str(VIEWS_ALL[self.nav_index]))
def scroll_focus(self, delta):
if delta == 1:
self.nav_index = (self.nav_index + 1) % len(VIEWS_ALL)
elif self.nav_index == 0:
self.nav_index = len(VIEWS_ALL) - 1
else:
self.nav_index -= 1
self.show_message('Focus on : ' + str(VIEWS_ALL[self.nav_index]))
self.application().view.focus_view(VIEWS_ALL[self.nav_index])
def scroll_device(self, delta):
if not (delta == 1 or delta == -1):
raise AssertionError
direction = delta == 1 and Live.Application.Application.View.NavDirection.right
else:
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Detail/DeviceChain', True)
def scroll_scene(self, delta):
if not self.track_left_button != None:
raise AssertionError
raise delta == 1 or delta == -1 or AssertionError
direction = delta == 1 and Live.Application.Application.View.NavDirection.down
else:
direction = Live.Application.Application.View.NavDirection.up
self.application().view.scroll_view(direction, 'Session', True)
def index_in_strip(self, track):
for ind in range(len(self._mixer._channel_strips)):
strack = self._mixer._channel_strips[ind]._track
if strack == track:
return ind
return -1
def notify_track_scroll(self):
self._scenematrix.update_control_selection()
if self._mode == CONTROL_MODE:
self._scenematrix.eval_matrix()
self._scenematrix.fire_values()
def send_to_display(self, text, grid = 0):
if USE_DISPLAY == False:
return
if len(text) > 28:
text = text[:27]
msgsysex = [240,
0,
0,
102,
23,
18,
min(grid, 3) * 28]
filled = text.ljust(28)
for c in filled:
msgsysex.append(ord(c))
msgsysex.append(247)
self._send_midi(tuple(msgsysex))
def send_color(self, button, hue, sat, bright):
raise isinstance(button, ButtonElement) or AssertionError
raise hue in range(128) or AssertionError
raise sat in range(128) or AssertionError
raise bright in range(128) or AssertionError
data_byte1 = button._original_identifier
button.send_midi((MIDI_CC_STATUS + 2, data_byte1, bright))
button.send_midi((MIDI_CC_STATUS + 1, data_byte1, sat))
button.send_midi((MIDI_CC_STATUS + 0, data_byte1, hue))
def turn_off_matrix(self):
for row in range(4):
for column in range(4):
button = self._matrix[row][column]
self.send_color(button, 2, 0, 0)
button.set_to_notemode(False)
def remove_listener(self, control, callback):
if control != None and control.value_has_listener(callback):
control.remove_value_listener(callback)
control.disconnect()
def disconnect(self):
self.turn_off_matrix()
self.scene_mode_button.send_value(0, True)
self.clip_mode_button.send_value(0, True)
self.pad_mode_button.send_value(0, True)
self.control_mode_button.send_value(0, True)
time.sleep(0.2)
self._active = False
self._suppress_send_midi = True
self.remove_listener(self.scene_mode_button, self._a_mode_scene)
self.remove_listener(self.clip_mode_button, self._a_mode_clip)
self.remove_listener(self.pad_mode_button, self._a_mode_pad)
self.remove_listener(self.control_mode_button, self._a_mode_control)
self.remove_listener(self._undo_button, self._do_undo)
self.remove_listener(self._redo_button, self._do_redo)
self.remove_listener(self._armsolomode_button, self._do_armsolo_mode)
self.remove_listener(self.xfade_assign_button, self._do_xfade_assign)
self.remove_listener(self._fire_button, self._do_fire_button)
self._session.remove_offset_listener(self.notify_track_scroll)
self._mixer.disconnect()
ControlSurface.disconnect(self)
def _setup_session_control(self):
is_momentary = True
right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 43)
left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 42)
up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 44)
down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 45)
right_button.name = 'Bank_Select_Right_Button'
left_button.name = 'Bank_Select_Left_Button'
up_button.name = 'Bank_Select_Up_Button'
down_button.name = 'Bank_Select_Down_Button'
global session
session = SessionComponent(4, 4)
session.name = 'Session_Control'
session.set_track_bank_buttons(right_button, left_button)
session.set_scene_bank_buttons(down_button, up_button)
self._session = session
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
scene_launch_notes = [33, 34, 35, 36]
scene_launch_buttons = [
ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN,
scene_launch_notes[index]) for index in range(4)
]
#track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(4) ]
for index in range(len(scene_launch_buttons)):
scene_launch_buttons[index].name = 'Scene_' + str(
index) + '_Launch_Button'
#for index in range(len(track_stop_buttons)):
# track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
#stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
#stop_all_button.name = 'Stop_All_Clips_Button'
#self._session.set_stop_all_clips_button(stop_all_button)
#self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
#self._session.set_stop_clip_value(2)
button_notes = [
1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19,
20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32
]
for scene_index in range(4):
scene = session.scene(scene_index)
scene.name = 'Scene_' + str(scene_index)
button_row = []
scene.set_launch_button(scene_launch_buttons[scene_index])
#scene.set_triggered_value(2)
for track_index in range(4):
button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN,
(track_index * 4) + scene_index + 1)
button.name = str(track_index) + '_Clip_' + str(
scene_index) + '_Button'
button_row.append(button)
clip_slot = scene.clip_slot(track_index)
clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
scene_index)
#clip_slot.set_triggered_to_play_value(2)
#clip_slot.set_triggered_to_record_value(4)
clip_slot.set_stopped_value(0)
clip_slot.set_started_value(64)
#clip_slot.set_recording_value(3)
clip_slot.set_launch_button(button)
matrix.add_row(tuple(button_row))
#self._session.set_slot_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
session.selected_scene().name = 'Selected_Scene'
#session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
#session_zoom = SessionZoomingComponent(session)
#session_zoom.name = 'Session_Overview'
#session_zoom.set_button_matrix(matrix)
#session_zoom.set_zoom_button(self._shift_button)
#session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button)
#session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
#session_zoom.set_stopped_value(0)
#session_zoom.set_selected_value(127)
self.set_highlighting_session_component(session)
session.set_mixer(mixer)
return None #return session
class Codec(ControlSurface):
__module__ = __name__
__doc__ = " MonoCode controller script "
def __init__(self, c_instance, *a, **k):
super(Codec, self).__init__(c_instance, *a, **k)
self._monomod_version = 'b995'
self._version_check = 'b995'
self._host_name = 'Codec'
self._color_type = 'Monochrome'
self._link_mixer = LINK_MIXER
self._hosts = []
self._linked_script = None
self._local_ring_control = True
self._last_device = None
self._device_list = [None, None, None, None]
self._device_select_buttons = None
self._last_device_component = None
self._timer = 0
self._touched = 0
self._locked = False
self.flash_status = 1
self._shift_button = None
self._shift_pressed = 0
self._shift_pressed_timer = 0
self._shift_thresh = SHIFT_THRESH
self._use_device_selector = USE_DEVICE_SELECTOR
self._device_selection_follows_track_selection=FOLLOW
with self.component_guard():
#self.local_ring_control(True)
#self.set_absolute_mode(True)
self._setup_controls()
self._setup_monobridge()
self._setup_device_controls()
self._setup_special_device_control()
self._device.append(self._special_device) #necessary for device browsing to work with special device
self._setup_device_chooser()
self._setup_mixer_controls()
self._setup_monomod()
self._setup_modes()
self._setup_device_selector()
self._setup_send_reset()
self._setup_default_buttons()
self.set_local_ring_control(1)
self.song().view.add_selected_track_listener(self._update_selected_device)
self._initialize_code()
#self._shift_mode.set_mode(0)
#self._monomod_mode.set_mode(0)
self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec ' + str(self._monomod_version) + ' log opened >>>>>>>>>>>>>>>>>>>>>>>>>')
self.show_message('Codec Control Surface Loaded')
self.request_rebuild_midi_map()
"""script initialization methods"""
def _initialize_code(self):
self._send_midi(factoryreset)
self._send_midi(btn_channels)
self._send_midi(enc_channels)
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _setup_controls(self):
is_momentary = True
self._livid = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._dial = [None for index in range(8)]
for column in range(8):
self._dial[column] = [None for index in range(4)]
for row in range(4):
self._dial[column][row] = CodecEncoderElement(MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column], Live.MidiMap.MapMode.absolute, 'Dial_' + str(column) + '_' + str(row), (column + (row*8)), self) #CODE_DIALS[row][column]
self._button = [None for index in range(8)]
for column in range(8):
self._button[column] = [None for index in range(4)]
for row in range(4):
self._button[column][row] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_BUTTONS[row][column], 'Button_' + str(column) + '_' + str(row), self)
self._column_button = [None for index in range(8)]
for index in range(8):
self._column_button[index] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index), self)
self._row_button = [None for index in range(4)]
for index in range(4):
self._row_button[index] = CodecMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index], 'Row_Button_' + str(index), self)
self._dial_matrix = EncoderMatrixElement(self)
self._dial_matrix.name = 'Encoder_Matrix'
for row in range(4):
dial_row = tuple([self._dial[column][row] for column in range(8)])
self._dial_matrix.add_row(dial_row)
self._button_matrix = ButtonMatrixElement()
self._button_matrix.name = 'Button_Matrix'
for row in range(4):
button_row = [self._button[column][row] for column in range(8)]
button_row.append(self._row_button[row])
self._button_matrix.add_row(tuple(button_row))
self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
def _setup_modes(self):
self._monomod_mode = MonomodModeComponent(self._mod_mode_update, self)
self._monomod_mode.name = 'Monomod_Mode'
self.set_shift_button(self._livid)
self._shift_mode = ShiftModeComponent(self._shift_update, self)
self._shift_mode.name = 'Shift_Mode'
self._shift_mode.set_mode_buttons(tuple([self._row_button[0], self._row_button[1], self._row_button[2], self._row_button[3]]))
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_monomod(self):
self._host = CodecMonomodComponent(self)
self._host.name = 'Monomod_Host'
self._host._set_dial_matrix(self._dial_matrix, self._button_matrix)
self.hosts = [self._host]
encs = []
for row in range(4):
for col in range(8):
encs.append(self._dial[col][row])
self._host._set_parameter_controls(encs)
def _setup_mixer_controls(self):
is_momentary = True
self._num_tracks = (8)
self._session = SessionComponent(self._num_tracks, 0)
self._session.name = 'Session'
self._mixer = MixerComponent(self._num_tracks, 0, False, False)
self._mixer.name = 'Mixer'
self._mixer._next_track_value = self._mixer_next_track_value(self._mixer)
self._mixer._prev_track_value = self._mixer_prev_track_value(self._mixer)
self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
#for index in range(8):
#use the bottom row of encoders for volume, so add 24 to offset the index
# self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
for index in range(8):
self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
self._mixer.channel_strip(index)._invert_mute_feedback = True
self._mixer.channel_strip(index)._mute_value = self._channelstrip_mute_value(self._mixer.channel_strip(index))
self._mixer.channel_strip(index)._solo_value = self._channelstrip_solo_value(self._mixer.channel_strip(index))
#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
self.song().view.selected_track = self._mixer.channel_strip(0)._track #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error
self._session.set_mixer(self._mixer)
def _setup_device_controls(self):
self._device = [None for index in range(4)]
for index in range(4):
self._device[index] = CodecDeviceComponent(self)
self._device[index].name = 'CodecDevice_Component_' + str(index)
device_param_controls = []
for control in range(8):
device_param_controls.append(self._dial[control][index])
self._device[index].set_on_off_button(self._button[1][index])
self._device[index].set_lock_button(self._button[2][index])
self._device[index].set_bank_nav_buttons(self._button[4][index], self._button[5][index])
self._device[index].set_nav_buttons(self._button[6][index], self._button[7][index])
self._device[index].set_parameter_controls(tuple(device_param_controls))
self.set_device_component(self._device[0])
self._last_device_component = self._device[0]
def _setup_special_device_control(self):
self._special_device = SpecialCodecDeviceComponent(self)
self._special_device.name = 'SpecialCodecDeviceComponent'
self._special_device.set_on_off_button(self._button[1][0])
self._special_device.set_lock_button(self._button[2][0])
self._special_device.set_bank_nav_buttons(self._button[4][0], self._button[5][0])
self._special_device.set_nav_buttons(self._button[6][0], self._button[7][0])
device_param_controls = []
for row in range(4):
for column in range(8):
device_param_controls.append(self._dial[column][row])
self._special_device.set_parameter_controls(tuple(device_param_controls))
def _setup_device_chooser(self):
self._selected_device = self._device[0]
self._last_selected_device = self._device[0]
self._device_select_buttons = [self._button[0][index] for index in range(4)]
for button in self._device_select_buttons:
button.add_value_listener(self._device_select_value, True)
def _setup_device_selector(self):
self._device_selector = CodecDeviceSelectorComponent(self, 'c', self._device + [self._special_device])
self._device_selector.name = 'Device_Selector'
self._device_selector.set_mode_buttons(self._column_button)
#self._device_selector.set_mode_toggle(self._livid)
def _setup_send_reset(self):
self._send_reset = CodecResetSendsComponent(self)
self._send_reset.set_buttons(self._button)
def _setup_default_buttons(self):
self._value_default = ParameterDefaultComponent(self)
buttons = []
dials = []
for column in self._button:
for button in column:
buttons.append(button)
for column in self._dial:
for dial in column:
dials.append(dial)
self._value_default.set_buttons(buttons)
self._value_default.set_dials(dials)
"""multiple device support"""
def _device_select_value(self, value, sender):
#self.log_message('device_select_value ' + str(value) + ' ' + str(self._device_select_buttons.index(sender)))
if not self._shift_pressed:
if sender.is_momentary or value > 0:
if self._shift_mode._mode_index == 2:
self.set_device_component(self._device[self._device_select_buttons.index(sender)])
self._last_device_component = self._device_component
if self._device_component != None and isinstance(self._device_component._device, Live.Device.Device):
if self._device_component.find_track(self._device_component._device) == self.song().view.selected_track:
self._device_component.display_device()
"""livid double press mechanism"""
def set_shift_button(self, button):
assert ((button == None) or (isinstance(button, MonoButtonElement)))
if self._shift_button != None:
self._shift_button.remove_value_listener(self._shift_value)
self._shift_button = button
if self._shift_button != None:
self._shift_button.add_value_listener(self._shift_value)
def _shift_value(self, value):
self._shift_pressed = int(value != 0)
if self._shift_pressed > 0:
self._send_midi(SLOWENCODER)
if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
#if(self._host.is_enabled() != True)
self.log_message('mod mode: ' + str(abs(self._monomod_mode._mode_index - 1)))
self._monomod_mode.set_mode(max(0, min(1, abs(self._monomod_mode._mode_index - 1))))
#else:
# self._monomod_mode.set_mode(0)
self._shift_pressed_timer = self._timer % 256
else:
self._send_midi(NORMALENCODER)
def _mod_mode_update(self):
if(self._monomod_mode._mode_index == 0):
self._host._set_shift_button(None)
self._host.set_enabled(False)
self._dial_matrix.reset()
self._shift_mode.set_enabled(True)
self._shift_update()
self.request_rebuild_midi_map()
self._livid.turn_off()
elif(self._monomod_mode._mode_index == 1):
self._shift_mode.set_enabled(False)
self._deassign_all()
self._dial_matrix.reset()
self._button_matrix.reset()
self._livid.turn_on()
if not self._host._active_client == None:
self._host.set_enabled(True)
self._host._set_shift_button(self._livid)
else:
self._assign_alternate_mappings(1)
self.request_rebuild_midi_map()
"""Mode Functions"""
def _shift_update(self):
if(self._shift_mode.is_enabled()):
with self.component_guard():
self.allow_updates(False)
#if(not self._in_build_midi_map):
# self.set_suppress_rebuild_requests(True)
self._deassign_all()
if(self._shift_mode._mode_index is 0):
self._assign_volume()
elif(self._shift_mode._mode_index is 1):
self._assign_sends()
elif(self._shift_mode._mode_index is 2):
self._assign_devices()
elif(self._shift_mode._mode_index is 3):
self._assign_special_device()
for index in range(self._shift_mode.number_of_modes()):
if index == self._shift_mode._mode_index:
self._shift_mode._modes_buttons[index].turn_on()
else:
self._shift_mode._modes_buttons[index].turn_off()
self.allow_updates(True)
#self.set_suppress_rebuild_requests(False)
self.request_rebuild_midi_map()
def _deassign_all(self):
self._assign_alternate_mappings(0)
self._device_selector.set_enabled(False)
for index in range(8):
self._mixer.channel_strip(index).set_volume_control(None)
self._mixer.channel_strip(index).set_pan_control(None)
self._mixer.channel_strip(index).set_send_controls(tuple([None, None, None, None]))
for index in range(4):
self._device[index].set_enabled(False)
self._device[index]._parameter_controls = None
#self._device_navigator[index].set_enabled(False)
self._special_device.set_enabled(False)
self._special_device._parameter_controls = None
self._device_selector.set_enabled(False)
self._deassign_buttons()
for control in self.controls:
control.reset()
self.request_rebuild_midi_map()
def _deassign_buttons(self):
for index in range(8):
self._mixer.channel_strip(index).set_select_button(None)
self._mixer.channel_strip(index).set_solo_button(None)
self._mixer.channel_strip(index).set_mute_button(None)
self._mixer.set_select_buttons(None, None)
self._send_reset.set_enabled(False)
def _assign_volume(self):
for index in range(8):
self._mixer.channel_strip(index).set_volume_control(self._dial[index][3])
self._mixer.channel_strip(index).set_pan_control(self._dial[index][2])
self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1]]))
self._mixer.channel_strip(index).set_select_button(self._column_button[index])
self._mixer.channel_strip(index).set_solo_button(self._button[index][2])
self._mixer.channel_strip(index).set_mute_button(self._button[index][3])
self._mixer.set_select_buttons(self._button[7][0], self._button[6][0])
def _assign_sends(self):
for index in range(8):
self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1], self._dial[index][2], self._dial[index][3]]))
self._mixer.channel_strip(index).set_select_button(self._column_button[index])
self._send_reset.set_enabled(True)
def _assign_devices(self):
self.set_device_component(self._last_device_component)
self._device_select_value(1, self._device_select_buttons[self._device.index(self._device_component)])
for index in range(4):
device_param_controls = []
for control in range(8):
device_param_controls.append(self._dial[control][index])
self._device[index].set_parameter_controls(tuple(device_param_controls))
self._device[index].set_enabled(True)
self._device_selector.set_enabled(self._use_device_selector)
if not self._use_device_selector:
for index in range(8):
self._mixer.channel_strip(index).set_select_button(self._column_button[index])
def _assign_special_device(self):
self.set_device_component(self._special_device)
device_param_controls = []
for row in range(4):
for column in range(8):
device_param_controls.append(self._dial[column][row])
self._special_device.set_parameter_controls(tuple(device_param_controls))
self._special_device.set_enabled(True)
self._device_selector.set_enabled(self._use_device_selector)
if not self._use_device_selector:
for index in range(8):
self._mixer.channel_strip(index).set_select_button(self._column_button[index])
def _assign_alternate_mappings(self, chan):
for column in self._dial:
for control in column:
control.set_channel(chan)
control.set_enabled(chan is 0)
for column in self._button:
for control in column:
control.set_channel(chan)
control.set_enabled(chan is 0)
for control in self._column_button:
control.set_channel(chan)
control.set_enabled(chan is 0)
for control in self._row_button:
control.set_channel(chan)
control.set_enabled(chan is 0)
"""general functionality"""
def disconnect(self):
"""clean things up on disconnect"""
if not self._shift_button is None:
if self._shift_button.value_has_listener(self._shift_value):
self._shift_button.remove_value_listener(self._shift_value)
for button in self._device_select_buttons:
if button.value_has_listener(self._device_select_value):
button.remove_value_listener(self._device_select_value)
if self._session._is_linked():
self._session._unlink()
self.song().view.remove_selected_track_listener(self._update_selected_device)
"""for cs in self._control_surfaces():
for host in self._hosts:
self.log_message('installed: ' + str(cs) + ' vs. ' + str(host))
if str(type(cs)) == str(type(host)):
self.log_message('disconnecting: ' + str(type(cs)))
cs.disconnect(cs)"""
#self._host._set_parameter_controls(None)
self._hosts = []
if self._linked_script != None:
self._linked_script._update_linked_device_selection = None
self._linked_script = None
#self._disconnect_notifier.set_mode(0)
self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec log closed >>>>>>>>>>>>>>>>>>>>>>>>>')
ControlSurface.disconnect(self)
return None
def connect_script_instances(self, instanciated_scripts):
found = False
for s in instanciated_scripts:
if '_codec_version' in dir(s):
if s._codec_version == self._version_check:
if s._host_name == ('MonOhm'):
self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
found = True
self._linked_script = s
self._linked_script._update_linked_device_selection = self._update_linked_device_selection
if not self._session._is_linked() and self._link_mixer is True:
self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
self._session._link()
else:
self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
if found == False:
for s in instanciated_scripts:
if '_codec_version' in dir(s):
if s._codec_version == self._version_check:
if s._host_name == 'BlockMod':
self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
self._linked_script = s
self._linked_script._update_linked_device_selection = self._update_linked_device_selection
if not self._session._is_linked() and self._link_mixer is True:
self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
self._session._link()
else:
self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
#self.log_message('hosts: ' + str(self._hosts))"""
def update_display(self):
ControlSurface.update_display(self) #since we are overriding this from the inherited method, we need to call the original routine as well
self._timer = (self._timer + 1) % 256
if(self._timer == 0):
self._shift_pressed_timer = -12
if(self._local_ring_control is False):
self.send_ring_leds()
self.flash()
def handle_sysex(self, midi_bytes):
#self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
#response = [long(0),long(0)]
#self.log_message(response)
pass
def flash(self):
if(self.flash_status > 0):
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def send_ring_leds(self):
leds = [240, 0, 1, 97, 4, 31]
for column in range(8):
for row in range(4):
wheel = self._dial[column][row]
bytes = wheel._get_ring()
leds.append(bytes[0])
leds.append(int(bytes[1]) + int(bytes[2]))
#if(row == 1 and column == 0):
# self.log_message(str(leds) + ' ' + str(bytes[0]) + ' ' + str(bytes[1]) + ' ' + str(bytes[2]))
leds.append(247)
self._send_midi(tuple(leds))
def set_absolute_mode(self, val = 1):
self._absolute_mode = (val!=0)
if self._absolute_mode is True:
self._send_midi(tuple([240, 0, 1, 97, 4, 17, 0, 0, 0, 0, 0, 0, 0, 0, 247]))
else:
self._send_midi(tuple([240, 0, 1, 97, 4, 17, 127, 127, 127, 127, 127, 127, 127, 127, 247]))
def set_local_ring_control(self, val = 1):
self._local_ring_control = (val!=0)
if(self._local_ring_control is True):
#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 0, 247]))
self._send_midi(tuple([240, 0, 1, 97, 4, 8, 72, 247]))
else:
#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 1, 247]))
self._send_midi(tuple([240, 0, 1, 97, 4, 8, 64, 247]))
def device_follows_track(self, val):
self._device_selection_follows_track_selection = (val == 1)
return self
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 12
if (not display_string):
return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ',
'i',
'o',
'u',
'e',
'a']:
while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
else:
display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return ret
def notification_to_bridge(self, name, value, sender):
if(isinstance(sender, CodecEncoderElement)):
self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value)))
def touched(self):
if not self._host.is_enabled():
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched +=1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip() is True:
clip_names.append(clip_slot._clip_slot)##.clip.name)
return clip_slot._clip_slot
##self.log_message(str(clip_slot._clip_slot.clip.name))
return clip_names
"""overrides"""
def allow_updates(self, allow_updates):
for component in self.components:
component.set_allow_update(int(allow_updates!=0))
def set_device_component(self, device_component):
if self._device_component != None:
self._device_component._lock_callback = None
assert (device_component != None)
assert isinstance(device_component, DeviceComponent)
self._device_component = device_component
self._device_component._lock_callback = self._toggle_lock #old: self._device_component.set_lock_callback(self._toggle_lock)
if self._device_select_buttons != None:
for button in self._device_select_buttons:
button.send_value(self._device_select_buttons.index(button) == self._device.index(self._device_component))
self._update_device_selection()
return None
def _update_selected_device(self):
if self._device_selection_follows_track_selection is True:
self._update_device_selection()
return None
def _update_linked_device_selection(self, device):
#self.log_message('codec received ' + str(device.name))
if self._device_component != None and device != None:
if not self._device_component.is_locked():
self._device_component.set_device(device)
def _get_num_tracks(self):
return self.num_tracks
def _update_device_selection(self):
#self.log_message('_update_device_selection')
if self._device_component != None:
if not self._device_component.is_locked():
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if ((device_to_select == None) and (len(track.devices) > 0)):
device_to_select = track.devices[0]
if (device_to_select != None):
self.song().view.select_device(device_to_select)
self._device_component.set_device(device_to_select)
def _channelstrip_mute_value(self, channelstrip):
def _mute_value(value):
if not self._shift_pressed:
self.log_message('shift not pressed')
ChannelStripComponent._mute_value(channelstrip, value)
return _mute_value
def _channelstrip_solo_value(self, channelstrip):
def _solo_value(value):
if not self._shift_pressed:
ChannelStripComponent._solo_value(channelstrip, value)
return _solo_value
def _mixer_next_track_value(self, mixer):
def _next_track_value(value):
if not self._shift_pressed:
MixerComponent._next_track_value(mixer, value)
return _next_track_value
def _mixer_prev_track_value(self, mixer):
def _prev_track_value(value):
if not self._shift_pressed:
MixerComponent._prev_track_value(mixer, value)
return _prev_track_value
class code(ControlSurface):
__module__ = __name__
__doc__ = " Code controller script "
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= Code opened =--------------") # Writes message into Live's main log file. This is a ControlSurface method.
self._send_midi(factoryreset)
self._send_midi(btn_channels)
self._send_midi(enc_channels)
#self.set_suppress_rebuild_requests(True) # Turn off rebuild MIDI map until after we're done setting up
self._setup_controls()
self._setup_device_controls()
self._setup_mixer_control() # Setup the mixer object
self._setup_transport_control()
self._setup_session_control() # Setup the session object - do this last
self._setup_modes()
self._setup_m4l_interface()
#self.set_suppress_rebuild_requests(False) # Turn rebuild back on, once we're done setting up
##self.assign_page_2()
def handle_sysex(self, midi_bytes):
self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
#response = [long(0),long(0)]
#self.log_message(str(response))
def _setup_m4l_interface(self):
self._m4l_interface = M4LInterfaceComponent(controls=self.controls, component_guard=self.component_guard)
self.get_control_names = self._m4l_interface.get_control_names
self.get_control = self._m4l_interface.get_control
self.grab_control = self._m4l_interface.grab_control
self.release_control = self._m4l_interface.release_control
def _setup_controls(self):
is_momentary = True
self._dial = [None for index in range(DIALCOUNT)]
self._trackbtns = [None for index in range(8)]
self._modebtns = [None for index in range(5)]
for index in range(DIALCOUNT):
self._dial[index] = EncoderElement(MIDI_CC_TYPE, CH, matrix_nums[index], Live.MidiMap.MapMode.absolute)
self._dial[index].name = 'Dial_' + str(index)
self._dial[index].set_feedback_delay(-1)
for index in range(8):
self._trackbtns[index] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index])
self._trackbtns[index].name = 'Button_' + str(index)
for index in range(5):
self._modebtns[index] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, mode_select_notes[index])
self._modebtns[index].name = 'ModeButton_' + str(index)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._grid = [None for index in range(COLS)]
for column in range(COLS):
self._grid[column] = [None for index in range(COLS)]
for row in range(ROWS):
nn = 1+(column * ROWS) + row
self._grid[column][row] = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, nn) #comment out if you don't want clip launch
self._grid[column][row].name = 'Grid_' + str(column) + '_' + str(row)
for row in range(ROWS):
button_row = []
for column in range(COLS):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
""" not sure about this bit, but somehow I'll need to set up the modes here...!"""
def _setup_modes(self):
self._shift_mode = ShiftModeComponent(self, tuple(button for button in self._modebtns))
self._shift_mode.name = 'Mix_Mode' #mode 1
#self._shift_mode.set_mode_buttons(self._modebtns)
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_mixer_control(self):
is_momentary = True
self._num_tracks = (COLS)
global mixer
mixer = MixerComponent(COLS, 0, True, True)
mixer.name = 'Mixer'
self._mixer = mixer
mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
for index in range(COLS):
#use the bottom row of encoders for volume, so add 24 to offset the index
mixer.channel_strip(index).set_volume_control(self._dial[index+24])
for index in range(COLS):
mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
mixer.track_eq(index).name = 'Mixer_EQ_' + str(index)
mixer.track_filter(index).name = 'Mixer_Filter_' + str(index) #added by a
mixer.channel_strip(index)._invert_mute_feedback = True
#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
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
""" Technically, we aren't using the session control, but I'm going to set it up in case inter-script communication needs it"""
def _setup_session_control(self):
is_momentary = True
num_tracks = COLS
num_scenes = ROWS
global session
session = SessionComponent(num_tracks, num_scenes)
session.name = "Session"
session.set_offsets(0, 0)
self._session = session
self._session.set_stop_clip_value(0)
self._scene = [None for index in range(ROWS)]
for row in range(num_scenes):
self._scene[row] = session.scene(row)
self._scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
clip_slot.set_triggered_to_play_value(64)
clip_slot.set_triggered_to_record_value(64)
clip_slot.set_stopped_value(0)
clip_slot.set_started_value(64)
clip_slot.set_recording_value(64)
#clip_slot.set_launch_button(self._grid[column][row]) #comment out if you don't want clip launch
session.set_mixer(mixer)
self._session_zoom = SessionZoomingComponent(session)
self._session_zoom.name = 'Session_Overview'
self._session_zoom.set_stopped_value(0)
self._session_zoom.set_playing_value(64)
self._session_zoom.set_selected_value(64)
if STANDALONE is True:
self.set_highlighting_session_component(self._session)
self._session.set_track_bank_buttons(self._grid[5][3], self._grid[4][3]) #comment out when using with Griid
self._session.set_scene_bank_buttons(self._grid[7][3], self._grid[6][3]) # comment out when using with Griid
"""this is where we take care of setting up the the multiple devices per page, we will need 4"""
def _setup_device_controls(self):
self._device = [None for index in range(4)]
for index in range(ROWS):
self._device[index] = DeviceComponent()
self._device[index].name = 'Device_Component_' + str(index)
#self.set_device_component(self._device) #this doesn't work anymore, because we have multiple devices for the controller....we'll have to get fancy here, but that's for later
#self._device_navigator = DetailViewControllerComponent() #its unclear if we'll need this....how is device navigation (i.e. banking for device parameter banks) going to be handled by the script?
#self._device_navigator.name = 'Device_Navigator'
device_param_controls = []
for control in range(COLS):
"""this setups up 8 device parameters per row"""
#dial_index = control + (index*COLS)
"""alternatively, this setus up device controls in 4 4x2 groups"""
dial_index = device_encoders[control + (index*COLS)]
device_param_controls.append(self._dial[dial_index])
self._device[index].set_parameter_controls(tuple(device_param_controls))
"""this is where we deassign every control that will be changing function when we switch modes...best to just deassign them all, and reassign them on update"""
def deassign_matrix(self):
for index in range(DIALCOUNT): #this should totally work!!! I'm over appealing to Python's sadistic mannerisms right now....
self._dial[index].send_value(0, True) ##this is kind of a hack, and should be unnecessary; the bool at the end tells the send_value method to force the value out to the controller
for index in range(COLS):
self._mixer.track_eq(index).set_enabled(False) ##set_gain_controls(tuple([None for index in range(3)]))
self._mixer.channel_strip(index).set_volume_control(None)
self._mixer.track_filter(index).set_enabled(False) ##set_filter_controls(tuple([None, None]))
self._mixer.channel_strip(index).set_pan_control(None)
self._mixer.channel_strip(index).set_select_button(None)
self._mixer.channel_strip(index).set_send_controls(tuple([None for index in range(4)]))
for device in range(4):
self._device[device].set_bank_nav_buttons(None, None)
self._device[device].set_enabled(False) ##set_parameter_controls(tuple([None for index in range(8)]))
for track in range(8):
self._mixer.channel_strip(track).set_select_button(None)
for scene in range(4):
self._scene[scene].clip_slot(track).set_launch_button(None)
#self.request_rebuild_midi_map() # I think this is causing problems updating the leds when in build?
"""EQ Hi/Mid/Low and volume"""
def assign_page_0(self):
"""for each column"""
is_momentary = True
for index in range(COLS):
self._mixer.track_eq(index).set_gain_controls((self._dial[index+16],self._dial[index+8],self._dial[index]))
self._mixer.track_eq(index).set_enabled(True)
self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])#use the bottom row of encoders for volume, so add 24 to offset the index
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self.assign_cliplaunch()
self._mixer.update()
"""sends 1-4"""
def assign_page_1(self):
is_momentary = True
for index in range(COLS):
send_controllers = [self._dial[index],self._dial[index+8],self._dial[index+16],self._dial[index+24]]
self._mixer.channel_strip(index).set_send_controls(tuple(send_controllers))
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self._mixer.update()
"""devices 1-8"""
def assign_pages_2_3(self): ##these need to be here anyway, whether or not there is a device present to control
for index in range(4):
self._device[index].set_enabled(True)
#device_param_controls = [] ###no need to reassign it, since we are turning it off and on
#for control in range(COLS): ###in fact, I think we can assign all this stuff in the header except for things directly connected to the mixer module
# device_param_controls.append(self._dial[control + (index*COLS)])
#self._device[index].set_parameter_controls(tuple(device_param_controls))
self._reassign_devices(self._shift_mode._mode_index)
""" filter res,filter q, pan, volume"""
def assign_page_4(self):
is_momentary = True
for index in range(COLS):
self._mixer.track_filter(index).set_filter_controls(self._dial[index], self._dial[index + 8]) #set_filter_controls(self, freq, reso)
self._mixer.track_filter(index).set_enabled(True)
#self._mixer.track_eq(index).set_gain_controls((self._dial[index],self._dial[index+8],self._dial[index+16]))
self._mixer.channel_strip(index).set_pan_control(self._dial[index+16])
self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
self._mixer.channel_strip(index).set_select_button(self._trackbtns[index])
self._mixer.update()
def assign_cliplaunch(self):
if STANDALONE is True:
for column in range(COLS):
for row in range(ROWS-1):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
def _reassign_devices(self, mode_index):
if self._shift_mode._mode_index in range(2, 4): ##both of these lines would be better handled by a property
offset = (mode_index - 2) * 4 ## set up in an override module of the device_component....bleh
track = self.song().view.selected_track
for index in range(4):
if index + offset < len(track.devices):
#self.log_message('assigning device')
self._device[index].set_device(track.devices[index + offset])
else:
#self.log_message('assigning device to None')
self._device[index].set_device(None)
self._device[index].set_bank_nav_buttons(self._trackbtns[(index * 2)], self._trackbtns[(index * 2) + 1])
self._device[index].update()
def disconnect(self):
"""clean things up on disconnect"""
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= Code log closed =--------------") #Create entry in log file
ControlSurface.disconnect(self)
return None
def init(self):
#skip init if already done.
if self._init_done:
return
self._init_done = True
# second part of the __init__ after model has been identified using its challenge response
if self._mk2_rgb:
from SkinMK2 import make_skin
self._skin = make_skin()
self._side_notes = (89, 79, 69, 59, 49, 39, 29, 19)
#self._drum_notes = (20, 30, 31, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
self._drum_notes = (20, 30, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126)
else:
from SkinMK1 import make_skin
self._skin = make_skin()
self._side_notes = (8, 24, 40, 56, 72, 88, 104, 120)
self._drum_notes = (41, 42, 43, 44, 45, 46, 47, 57, 58, 59, 60, 61, 62, 63, 73, 74, 75, 76, 77, 78, 79, 89, 90, 91, 92, 93, 94, 95, 105, 106, 107)
with self.component_guard():
is_momentary = True
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = 'User_Byte_Button'
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
matrix = ButtonMatrixElement()
matrix.name = 'Button_Matrix'
for row in range(8):
button_row = []
for column in range(8):
if self._mk2_rgb:
# for mk2 buttons are assigned "top to bottom"
midi_note = (81 - (10 * row)) + column
else:
midi_note = row * 16 + column
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, midi_note, skin = self._skin, control_surface = self)
button.name = str(column) + '_Clip_' + str(row) + '_Button'
button_row.append(button)
matrix.add_row(tuple(button_row))
top_buttons = [ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, 104 + index, skin = self._skin) for index in range(8)]
side_buttons = [ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, self._side_notes[index], skin = self._skin) for index in range(8)]
top_buttons[0].name = 'Bank_Select_Up_Button'
top_buttons[1].name = 'Bank_Select_Down_Button'
top_buttons[2].name = 'Bank_Select_Left_Button'
top_buttons[3].name = 'Bank_Select_Right_Button'
top_buttons[4].name = 'Session_Button'
top_buttons[5].name = 'User1_Button'
top_buttons[6].name = 'User2_Button'
top_buttons[7].name = 'Mixer_Button'
side_buttons[0].name = 'Vol_Button'
side_buttons[1].name = 'Pan_Button'
side_buttons[2].name = 'SndA_Button'
side_buttons[3].name = 'SndB_Button'
side_buttons[4].name = 'Stop_Button'
side_buttons[5].name = 'Trk_On_Button'
side_buttons[6].name = 'Solo_Button'
side_buttons[7].name = 'Arm_Button'
self._osd = M4LInterface()
self._osd.name = "OSD"
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, self._osd, self)
self._selector.name = 'Main_Modes'
self._do_combine()
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self.set_highlighting_session_component(self._selector.session_component())
self._suppress_session_highlight = False
# due to our 2 stage init, we need to rebuild midi map
self.request_rebuild_midi_map()
# and request update
self._selector.update()
if self._mk2_rgb:
self.log_message("LaunchPad95 (mk2) Loaded !")
else:
self.log_message("LaunchPad95 Loaded !")
class Lemur256(ControlSurface):
__module__ = __name__
__doc__ = " Lemur Monomodular 256cell controller script "
def __init__(self, *a, **k):
self._timer_callbacks = [
] #Used for _monobridge, which uses L8 method for registering timer callbacks. deprecated, needs to be replaced by new L9 Task class.
super(Lemur256, self).__init__(*a, **k)
self._host_name = "Lemur256"
self._color_type = 'AumPad'
self.connected = 0
self._suggested_input_port = 'None'
self._suggested_output_port = 'None'
self._monomod_version = 'b995'
self.hosts = []
self._bright = True
self._rgb = 0
self._timer = 0
self.flash_status = 1
self._osc_registry = {}
with self.component_guard():
self._setup_monobridge()
self._setup_controls()
self._setup_monomod()
self._setup_touchosc()
self._assign_host2()
self.reset()
self.refresh_state()
self.show_message(str(self._host_name) + ' Control Surface Loaded')
self.log_message("<<<<<<<<<<<<<<<<<<<< " + str(self._host_name) +
" " + str(self._monomod_version) +
" log opened >>>>>>>>>>>>>>>>>>>>")
def _setup_controls(self):
is_momentary = True
self._monomod256 = ButtonMatrixElement()
self._monomod256.name = 'Monomod256'
self._square = [None for index in range(16)]
for column in range(16):
self._square[column] = [None for index in range(16)]
for row in range(16):
self._square[column][row] = OSCMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE,
int(column / 8) + 1, row + ((column % 8) * 16),
'256Grid_' + str(column) + '_' + str(row),
'/Grid_' + str(column) + '_' + str(row),
'/Grid/set ' + str(column) + ' ' + str(row), None, self)
for row in range(16):
button_row = []
for column in range(16):
button_row.append(self._square[column][row])
self._monomod256.add_row(tuple(button_row))
self._key_buttons = ButtonMatrixElement()
self._bank_button = [None for index in range(2)]
for index in range(2):
self._bank_button[index] = OSCMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, 15, index,
'256Grid_Bank_' + str(index), '/Shift_' + str(index),
'/Shift/set ' + str(index), None, self)
button_row = []
self._key_button = [None for index in range(8)]
for index in range(8):
self._key_button[index] = OSCMonoButtonElement(
is_momentary, MIDI_NOTE_TYPE, 15, index + 8,
'256Grid_Key_' + str(index), '/Keys_' + str(index),
'/Keys/set ' + str(index), None, self)
for index in range(8):
button_row.append(self._key_button[index])
self._key_buttons.add_row(tuple(button_row))
def _setup_monomod(self):
self._host2 = SpecialMonomodComponent(self)
self._host2.name = '256_Monomod_Host'
self.hosts = [self._host2]
"""script initialization methods"""
def _setup_monobridge(self):
self._monobridge = OSCMonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def _assign_host2(self):
self._host2._set_shift_button(self._bank_button[0])
self._host2._set_alt_button(self._bank_button[1])
self._host2._set_button_matrix(self._monomod256)
self._host2._set_key_buttons(self._key_button)
self._host2.set_enabled(True)
def _setup_touchosc(self):
self._osc_registry = {}
self._osc_registry['/ping'] = self._monobridge.ping
self._osc_registry['/1'] = self._monobridge.page1
for control in self.controls:
if hasattr(control, 'osc'):
self._osc_registry[control.osc] = control.set_value
#if hasattr(control, 'osc_alt'):
# self._osc_registry[control.osc_alt] = control.set_value
#self.log_message('create dict key: ' + str(control.osc) + str(control.name))
"""m4l bridge"""
def generate_strip_string(self, display_string):
NUM_CHARS_PER_DISPLAY_STRIP = 9
if (not display_string):
return ('`_')
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.endswith('dB') and
(display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ', 'i', 'o', 'u', 'e', 'a']:
while ((len(display_string) >
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] +
display_string[(um_pos + 1):])
else:
display_string = display_string.center(
(NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127)
or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return '`' + ret.replace(' ', '_')
def notification_to_bridge(self, name, value, sender):
if (isinstance(sender, MonoEncoderElement2)):
#self.log_message(str(name) + str(value) + str(sender.num))
self._monobridge._send('lcd_name', sender.name,
self.generate_strip_string(str(name)))
self._monobridge._send('lcd_value', sender.name,
self.generate_strip_string(str(value)))
def clip_name(self, sender, name):
#self.log_message('clip name ' + str(sender.osc_name) + ' ' + str(self.generate_strip_string(str(name))))
self._monobridge._send_osc(sender.osc_name,
self.generate_strip_string(str(name)))
"""def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip():
clip_names.append(clip_slot._clip_slot)##.clip.name)
#return clip_slot._clip_slot
#self.log_message('clip name' + str(clip_slot._clip_slot.clip.name))
return clip_names"""
"""called on timer"""
def update_display(self):
super(Lemur256, self).update_display()
for callback in self._timer_callbacks:
callback()
def flash(self):
if (self.flash_status > 0):
for control in self.controls:
if isinstance(control, MonoButtonElement):
control.flash(self._timer)
def strobe(self):
pass
"""general functionality"""
def disconnect(self):
self.log_message("<<<<<<<<<<<<<<<<<<<< " + str(self._host_name) +
" log closed >>>>>>>>>>>>>>>>>>>>")
super(ControlSurface, self).disconnect()
def clear_grid_names(self):
#self.log_message('clear grid names' + str(self))
for column in range(8):
for row in range(8):
self._monobridge._send_osc(self._grid[column][row].osc_name,
'`_')
def _register_timer_callback(self, callback):
""" Registers a callback that is triggerd on every call of update_display """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 0)
self._timer_callbacks.append(callback)
return None
def _unregister_timer_callback(self, callback):
""" Unregisters a timer callback """
assert (callback != None)
assert (dir(callback).count('im_func') is 1)
assert (self._timer_callbacks.count(callback) == 1)
self._timer_callbacks.remove(callback)
return None
def _set_brightness(self, value):
pass
def reset(self):
#self._monobridge._send_osc('/reset')
for control in self.controls:
control.reset()
def assign_lower_grid_names(self, mode):
if self._display_button_names is True:
for column in range(8):
for row in range(3):
self._monobridge._send_osc(
self._grid[column][row + 5].osc_name,
self.generate_strip_string(
str(GRID_NAMES[mode][row][column])))
def reset_and_refresh_state(self, *a, **k):
self.schedule_message(1, self.reset)
self.schedule_message(2, self.refresh_state)
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
#self.set_suppress_rebuild_requests(True)
self._suppress_send_midi = True
self._suppress_session_highlight = True
is_momentary = True
self._suggested_input_port = "Launchpad"
self._suggested_output_port = "Launchpad"
self._control_is_with_automap = False
self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
self._user_byte_write_button.name = "User_Byte_Button"
self._user_byte_write_button.send_value(1)
self._user_byte_write_button.add_value_listener(self._user_byte_value)
self._wrote_user_byte = False
self._challenge = (Live.Application.get_random_int(0, 400000000) & 2139062143)
matrix = ButtonMatrixElement()
matrix.name = "Button_Matrix"
""" TRACKFINDER TEST
track_index = 0
for track in self.song().tracks:
if track_index < 8:
button_row = []
if track.is_foldable:
for column in range(8):
log("right one: " + str(track_index))
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((track_index * 16) + column)) #@UndefinedVariable
button.name = (((str(column) + "_Clip_") + str(track_index)) + "_Button")
button_row.append(button)
track_index = track_index + 1
else:
for column in range(8):
log("wrong one: " + str(track_index))
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99, True) #@UndefinedVariable
button.name = (str(column) + "_Clip_Button-DUMMY")
button_row.append(button)
matrix.add_row(tuple(button_row))
log("done")"""
""" ORIGINAL CODE """
for row in range(8):
button_row = []
for column in range(8):
button = ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column))
button.name = (((str(column) + "_Clip_") + str(row)) + "_Button")
button_row.append(button)
matrix.add_row(tuple(button_row))
self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0, optimized_send_midi=False)
self._config_button.add_value_listener(self._config_value)
top_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_CC_TYPE, 0, (104 + index)) for index in range(8) ]
side_buttons = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index]) for index in range(8) ]
top_buttons[0].name = "Bank_Select_Up_Button"
top_buttons[1].name = "Bank_Select_Down_Button"
top_buttons[2].name = "Bank_Select_Left_Button"
top_buttons[3].name = "Bank_Select_Right_Button"
top_buttons[4].name = "Session_Button"
top_buttons[5].name = "User1_Button"
top_buttons[6].name = "User2_Button"
top_buttons[7].name = "Mixer_Button"
side_buttons[0].name = "Vol_Button"
side_buttons[1].name = "Pan_Button"
side_buttons[2].name = "SndA_Button"
side_buttons[3].name = "SndB_Button"
side_buttons[4].name = "Stop_Button"
side_buttons[5].name = "Trk_On_Button"
side_buttons[6].name = "Solo_Button"
side_buttons[7].name = "Arm_Button"
self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button)
self._selector.name = "Main_Modes"
for control in self.controls:
if isinstance(control, ConfigurableButtonElement):
control.add_value_listener(self._button_value)
self.set_highlighting_session_component(self._selector.session_component())
self._suppress_session_highlight = False
class Maschine(ControlSurface):
__module__ = __name__
__doc__ = 'Basic Control Script for All Maschine Modell Mikro, Mikro Mk2, Mk1, Mk2, Studio'
def __init__(self, c_instance):
super(Maschine, self).__init__(c_instance)
with self.component_guard():
register_sender(self)
self._diplay_cache = ['',
'',
'',
'']
self._suppress_send_midi = True
is_momentary = True
self._c_ref = c_instance
self.display_task = DisplayTask()
self._challenge = Live.Application.get_random_int(0, 400000000) & 2139062143
self._active = False
self._midi_pause_count = 0
self.blink_state = 0
self.send_slider_index = 0
self.nav_index = 0
self.arm_selected_track = False
self.undo_state = 0
self.redo_state = 0
self._set_suppress_rebuild_requests(True)
self._modeselect = ModeSelector(self.is_monochrome())
self._device = self._set_up_device_control()
self._set_up_session(self._modeselect)
self._set_up_mixer()
self._setup_transport()
self._set_global_buttons()
self._editsection = EditSection()
self._editsection.connect_session(self._session)
self._editsection.set_mode_selector(self._modeselect)
self._session.set_mode(self._modeselect._clip_mode)
self._audio_clip_editor = AudioClipEditComponent()
self._note_repeater = NoteRepeatComponent(c_instance.note_repeat)
self._midi_edit = MidiEditSection()
self._init_settings()
self._init_maschine()
self.set_highlighting_session_component(self._session)
self.set_pad_translations(PAD_TRANSLATIONS)
self._on_selected_track_changed()
self.set_up_function_buttons()
self.show_message(str(''))
self.request_rebuild_midi_map()
self._set_suppress_rebuild_requests(False)
self._active = True
self._display_device_param = False
self.set_feedback_channels(FEEDBACK_CHANNELS)
self._final_init()
self._suppress_send_midi = False
self.apply_preferences()
self.init_text_display()
self._on_appointed_device_changed.subject = self.song()
def _init_maschine(self):
pass
def _final_init(self):
pass
def create_pad_button(self, scene_index, track_index, color_source):
pass
def create_gated_button(self, identifier, hue):
pass
def apply_preferences(self):
pref_dict = self._pref_dict
if 'step_advance' in pref_dict:
self._session.set_step_advance(pref_dict['step_advance'])
if 'solo_exclusive' in pref_dict:
self._modeselect.set_solo_exclusive(pref_dict['solo_exclusive'])
else:
self._modeselect.set_solo_exclusive(True)
if 'arm_exclusive' in pref_dict:
self._modeselect.set_arm_exclusive(pref_dict['arm_exclusive'])
else:
self._modeselect.set_arm_exclusive(True)
if 'quantize_val' in pref_dict:
self._editsection.quantize = pref_dict['quantize_val']
else:
self._editsection.quantize = 5
if 'initial_cliplen' in pref_dict:
self._editsection.initial_clip_len = pref_dict['initial_cliplen']
else:
self._editsection.initial_clip_len = 4.0
if 'auto_arm_sel_track' in pref_dict:
self.arm_selected_track = pref_dict['auto_arm_sel_track']
else:
self.arm_selected_track = False
if 'note_color_mode' in pref_dict:
self._modeselect._pad_mode._note_display_mode = pref_dict['note_color_mode']
else:
self._modeselect._pad_mode._note_display_mode = ND_KEYBOARD1
self._pref_dict['note_color_mode'] = self._modeselect._pad_mode._note_display_mode
self.set_sel_arm_button.send_value(self.arm_selected_track and 127 or 0, True)
self._note_repeater.recall_values(self._pref_dict)
def store_preferences(self):
self._pref_dict['step_advance'] = self._session.get_step_advance()
self._pref_dict['solo_exclusive'] = self._modeselect.is_solo_exclusive()
self._pref_dict['arm_exclusive'] = self._modeselect.is_arm_exclusive()
self._pref_dict['quantize_val'] = self._editsection.quantize
self._pref_dict['initial_cliplen'] = self._editsection.initial_clip_len
self._pref_dict['auto_arm_sel_track'] = self.arm_selected_track
self._pref_dict['note_color_mode'] = self._modeselect._pad_mode._note_display_mode
self._note_repeater.store_values(self._pref_dict)
def _init_settings(self):
from pickle import loads, dumps
from encodings import ascii
nop(ascii)
preferences = self._c_instance.preferences(self.preferences_name())
self._pref_dict = {}
try:
self._pref_dict = loads(str(preferences))
except Exception:
pass
pref_dict = self._pref_dict
preferences.set_serializer(lambda : dumps(pref_dict))
def preferences_name(self):
return 'Maschine'
def _pre_serialize(self):
from pickle import dumps
from encodings import ascii
nop(ascii)
preferences = self._c_instance.preferences('Maschine')
self.store_preferences()
dump = dumps(self._pref_dict)
preferences.set_serializer(lambda : dump)
def toggle_nav_mode(self):
self._session.switch_step_advance()
self.show_message(' View Navigation in steps of ' + str(self._session.get_step_advance()))
def _set_up_session(self, mode_selector):
is_momentary = True
self._session = MaschineSessionComponent()
self._session.set_color_manager(mode_selector.get_color_manager())
self.nav_buttons = (self.create_gated_button(92, COLOR_HUE_NAV),
self.create_gated_button(81, COLOR_HUE_NAV),
self.create_gated_button(93, COLOR_HUE_NAV),
self.create_gated_button(91, COLOR_HUE_NAV))
self._session.set_scene_bank_buttons(self.nav_buttons[0], self.nav_buttons[1])
self._session.set_track_bank_buttons(self.nav_buttons[2], self.nav_buttons[3])
track_stop_buttons = [ StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, index + STOP_CC_OFF) for index in range(4) ]
self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
self._matrix = []
self._bmatrix = ButtonMatrixElement()
for scene_index in range(4):
button_row = []
for track_index in range(4):
button = self.create_pad_button(scene_index, track_index, mode_selector)
button_row.append(button)
self._matrix.append(tuple(button_row))
self._bmatrix.add_row(tuple(button_row))
self._session.set_matrix(self._matrix)
for button, (track_index, scene_index) in self._bmatrix.iterbuttons():
if button:
scene = self._session.scene(scene_index)
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(button)
clip_slot.set_triggered_to_play_value(1)
clip_slot.set_triggered_to_record_value(1)
clip_slot.set_started_value(1)
clip_slot.set_recording_value(1)
clip_slot.set_stopped_value(1)
self._session._link()
def _set_up_mixer(self):
is_momentary = True
self._mixer = MaschineMixerComponent(8)
self.send_sliders = []
for track in range(8):
self.send_sliders.append(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, SEND_CC_OFF + track))
for track in range(8):
strip = self._mixer.channel_strip(track)
strip.set_arm_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, ARM_CC_OFF + track))
strip.set_solo_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, SOLO_CC_OFF + track))
strip.set_mute_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, MUTE_CC_OFF + track))
strip.set_volume_control(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, LEVEL_CC_OFF + track))
strip.set_pan_control(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, PAN_CC_OFF + track))
strip.set_select_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, SELECT_CC_OFF + track))
st = tuple([self.send_sliders[track]])
strip.set_send_controls(st)
self.send_slider_toggle_button = StateButton(False, MIDI_CC_TYPE, 0, 90)
self._do_toggle_send.subject = self.send_slider_toggle_button
self._session.set_mixer(self._mixer)
def _set_global_buttons(self):
is_momentary = True
self._undo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 85)
self._do_undo.subject = self._undo_button
self._redo_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 87)
self._do_redo.subject = self._redo_button
self._stop_all_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 111)
self._do_stop_all.subject = self._stop_all_button
self._toggle_detail_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1, 121)
self._action_toogle_detail_view.subject = self._toggle_detail_button
self._fire_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 9)
self._do_fire_button.subject = self._fire_button
self._g_clear_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1, 106)
self._hold_clear_action.subject = self._g_clear_button
self._g_duplicate_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1, 107)
self._hold_duplicate_action.subject = self._g_duplicate_button
self.track_left_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 120)
self.track_right_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 121)
self.set_sel_arm_button = StateButton(is_momentary, MIDI_CC_TYPE, 2, 56)
self._reenable_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 1, 120)
self._do_auto_reenable.subject = self._reenable_button
self._on_change_reenabled.subject = self.song()
self._on_change_reenabled()
self._a_trk_left.subject = self.track_left_button
self._a_trk_right.subject = self.track_right_button
self._a_sel_arm.subject = self.set_sel_arm_button
def _set_up_device_control(self):
is_momentary = True
device = MaschineDeviceComponent()
param_controls = []
for index in range(8):
param_controls.append(SliderElement(MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_CC_OFF + index))
device.set_parameter_controls(tuple(param_controls))
self.device_control = param_controls
device.set_on_off_button(StateButton(is_momentary, MIDI_CC_TYPE, BASIC_CHANNEL, DEVICE_BUTTON_CC_OFF))
device.set_bank_nav_buttons(StateButton(is_momentary, MIDI_CC_TYPE, 3, 104), ButtonElement(is_momentary, MIDI_CC_TYPE, 3, 105))
self._device_nav_button_left = StateButton(is_momentary, MIDI_CC_TYPE, 3, 106)
self._device_nav_button_right = StateButton(is_momentary, MIDI_CC_TYPE, 3, 107)
self._navigate_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 127)
self._nav_value_left.subject = self._device_nav_button_left
self._nav_value_right.subject = self._device_nav_button_right
self._do_focus_navigate.subject = self._navigate_button
self.set_device_component(device)
return device
def _setup_transport(self):
is_momentary = True
transport = TransportComponent()
studiotransport = MaschineTransport()
playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
eventRecButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 98)
playButton.name = 'Play'
stopButton.name = 'Stop'
recordButton.name = 'Record'
overdubButton.name = 'Overdub'
metrononmeButton.name = 'Metronome'
transport.set_play_button(playButton)
transport.set_stop_button(stopButton)
transport.set_record_button(recordButton)
transport.set_overdub_button(overdubButton)
transport.set_metronome_button(metrononmeButton)
studiotransport.set_session_auto_button(eventRecButton)
studiotransport.set_arrangement_overdub_button(StateButton(is_momentary, MIDI_CC_TYPE, 0, 106))
studiotransport.set_back_arrange_button(StateButton(is_momentary, MIDI_CC_TYPE, 0, 105))
transport.set_nudge_buttons(StateButton(is_momentary, MIDI_CC_TYPE, 1, 51), StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
punchinbutton.name = 'Punch In'
punchoutbutton.name = 'Punch Out'
transport.set_punch_buttons(punchinbutton, punchoutbutton)
transport.set_loop_button(StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
self.song_follow_button = ButtonElement(True, MIDI_CC_TYPE, 2, 98)
self._do_song_follow.subject = self.song_follow_button
self._song_follow_changed.subject = self.song().view
self._song_follow_changed()
self.prehear_knob = SliderElement(MIDI_CC_TYPE, 0, 41)
self.prehear_knob.connect_to(self.song().master_track.mixer_device.cue_volume)
self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
transport.set_seek_buttons(self.transp_ff_button, self.transp_rw_button)
self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 105)
self.xfadeKnob.connect_to(self.song().master_track.mixer_device.crossfader)
self.master_knob = SliderElement(MIDI_CC_TYPE, 0, 99)
self.master_knob.connect_to(self.song().master_track.mixer_device.volume)
self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
self._do_tap_tempo.subject = self.tap_button
self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 55)
self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
self._do_toggle_cue.subject = self.cue_add_delete_button
self._do_toggle_prev_cue.subject = self.cue_prev_button
self._do_toggle_next_cue.subject = self.cue_next_button
def set_up_function_buttons(self):
is_momentary = True
self.keycolor_mod_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 73)
self._do_key_color.subject = self.keycolor_mod_button
self._update_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 86)
self._do_update_display.subject = self._update_button
@subject_slot('appointed_device')
def _on_appointed_device_changed(self):
self._modeselect._device_changed()
def _update_hardware(self):
self._session.update()
self._modeselect.refresh()
self.update_undo_redo(True)
def refresh_state(self):
ControlSurface.refresh_state(self)
self._update_hardware()
def _send_midi(self, midi_bytes, **keys):
self._c_ref.send_midi(midi_bytes)
return True
def init_text_display(self):
if USE_DISPLAY:
self._modeselect._pad_mode.update_text_display()
def _on_selected_track_changed(self):
super(Maschine, self)._on_selected_track_changed()
self.set_controlled_track(self.song().view.selected_track)
self._on_devices_changed.subject = self.song().view.selected_track
@subject_slot('devices')
def _on_devices_changed(self):
pass
def update(self):
self.set_feedback_channels(FEEDBACK_CHANNELS)
super(Maschine, self).update()
def is_monochrome(self):
return False
def _deassign_matrix(self):
for scene_index in range(4):
scene = self._session.scene(scene_index)
for track_index in range(4):
clip_slot = scene.clip_slot(track_index)
clip_slot.set_launch_button(None)
def update_display(self):
with self.component_guard():
with self._is_sending_scheduled_messages():
self._task_group.update(0.1)
self._modeselect.notify(self.blink_state)
self.blink_state = (self.blink_state + 1) % 4
self.display_task.tick()
self.update_undo_redo(False)
def update_undo_redo(self, force = False):
if force:
self.undo_state = self.song().can_undo
self.redo_state = self.song().can_redo
if self.song().can_undo != self.undo_state:
self.undo_state = self.song().can_undo
self._undo_button.send_value(self.undo_state == 1 and 127 or 0)
if self.song().can_redo != self.redo_state:
self.redo_state = self.song().can_redo
self._redo_button.send_value(self.redo_state == 1 and 127 or 0)
def adjust_loop_start(self, delta):
loopval = self.song().loop_start
self.song().loop_start = min(self.song().song_length, max(0, loopval + delta))
def adjust_loop_length(self, delta):
loopval = self.song().loop_length
self.song().loop_length = min(self.song().song_length, max(abs(delta), loopval + delta))
def _do_armsolo_mode(self, value):
pass
@subject_slot('value')
def _do_fire_button(self, value):
raise self._fire_button != None or AssertionError
raise value in range(128) or AssertionError
if value != 0:
if self.isShiftDown():
self.song().tap_tempo()
else:
clip_slot = self.song().view.highlighted_clip_slot
if clip_slot:
clip_slot.fire()
@subject_slot('value')
def _do_undo(self, value):
if value != 0:
if self.use_layered_buttons() and self.isShiftDown():
if self.song().can_redo == 1:
self.song().redo()
self.show_message(str('REDO'))
elif self.song().can_undo == 1:
self.song().undo()
self.show_message(str('UNDO'))
@subject_slot('value')
def _do_redo(self, value):
if value != 0:
if self.song().can_redo == 1:
self.song().redo()
self.show_message(str('REDO'))
@subject_slot('value')
def _do_stop_all(self, value):
if value != 0:
if self.use_layered_buttons() and self.isShiftDown():
self.song().stop_all_clips(0)
else:
self.song().stop_all_clips(1)
def isShiftDown(self):
return self._editsection.isShiftdown()
def modifiers(self):
return self._editsection.modifiers()
def use_layered_buttons(self):
return False
def _handle_base_note(self, diff):
self._modeselect._pad_mode.inc_base_note(diff)
def _handle_octave(self, diff):
self._modeselect._pad_mode.inc_octave(diff)
octave_val = self._modeselect._pad_mode
def _handle_scale(self, diff):
self._modeselect._pad_mode.inc_scale(diff)
@subject_slot('value')
def _do_update_display(self, value):
if value != 0:
self.refresh_state()
@subject_slot('value')
def _do_key_color(self, value):
if not value in range(128):
raise AssertionError
value != 0 and self._modeselect._pad_mode.step_key_color_mode()
@subject_slot('value')
def _do_tap_tempo(self, value):
if not value in range(128):
raise AssertionError
value != 0 and self.song().tap_tempo()
@subject_slot('value')
def _do_toggle_cue(self, value):
if not value in range(128):
raise AssertionError
value != 0 and self.song().set_or_delete_cue()
@subject_slot('value')
def _do_toggle_prev_cue(self, value):
if not value in range(128):
raise AssertionError
value != 0 and self.song().jump_to_prev_cue()
@subject_slot('value')
def _do_toggle_next_cue(self, value):
if not value in range(128):
raise AssertionError
value != 0 and self.song().jump_to_next_cue()
@subject_slot('value')
def _do_toggle_send(self, value):
if not value in range(128):
raise AssertionError
if self.isShiftDown():
value != 0 and self.refresh_state()
self.show_message('Refresh Display')
else:
nr_of_tracks = len(self.song().return_tracks)
if value == 0 or nr_of_tracks < 1:
return
prev = self.send_slider_index
self.send_slider_index += 1
if self.send_slider_index >= nr_of_tracks:
self.send_slider_index = 0
self.show_message(' Set Send ' + str(SENDS[self.send_slider_index]))
self.timed_message(2, ' Set Send ' + str(SENDS[self.send_slider_index]))
if prev != self.send_slider_index:
for track in range(8):
strip = self._mixer.channel_strip(track)
slider_list = []
for index in range(self.send_slider_index + 1):
if index < self.send_slider_index - 1:
slider_list.append(None)
else:
slider_list.append(self.send_sliders[track])
strip.set_send_controls(tuple(slider_list))
@subject_slot('value')
def _a_trk_left(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
if self.application().view.is_view_visible('Session'):
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Session', True)
track = self.song().view.selected_track
self.timed_message(2, 'T:' + track.name, False)
self.arm_selected_track and track.can_be_armed and arm_exclusive(self.song(), track)
@subject_slot('value')
def _a_trk_right(self, value):
if not value in range(128):
raise AssertionError
if value != 0:
if self.application().view.is_view_visible('Session'):
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Session', True)
track = self.song().view.selected_track
self.timed_message(2, 'T:' + track.name, False)
self.arm_selected_track and track.can_be_armed and arm_exclusive(self.song(), track)
@subject_slot('value')
def _a_sel_arm(self, value):
if value != 0:
if self.arm_selected_track:
self.arm_selected_track = False
self.set_sel_arm_button.send_value(0, True)
else:
self.arm_selected_track = True
self.set_sel_arm_button.send_value(127, True)
@subject_slot('value')
def _nav_value_left(self, value):
if not self._device_nav_button_left != None:
raise AssertionError
if not value in range(128):
raise AssertionError
modifier_pressed = True
value != 0 and (not self.application().view.is_view_visible('Detail') or not self.application().view.is_view_visible('Detail/DeviceChain')) and self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.left
self.application().view.scroll_view(direction, 'Detail/DeviceChain', not modifier_pressed)
@subject_slot('value')
def _nav_value_right(self, value):
if not self._device_nav_button_right != None:
raise AssertionError
if not value in range(128):
raise AssertionError
modifier_pressed = value != 0 and True
(not self.application().view.is_view_visible('Detail') or not self.application().view.is_view_visible('Detail/DeviceChain')) and self.application().view.show_view('Detail')
self.application().view.show_view('Detail/DeviceChain')
else:
direction = Live.Application.Application.View.NavDirection.right
self.application().view.scroll_view(direction, 'Detail/DeviceChain', not modifier_pressed)
@subject_slot('value')
def _do_focus_navigate(self, value):
if not self._navigate_button != None:
raise AssertionError
raise value in range(128) or AssertionError
self.nav_index = value != 0 and (self.nav_index + 1) % len(VIEWS_ALL)
self.application().view.focus_view(VIEWS_ALL[self.nav_index])
self.show_message('Focus on : ' + str(VIEWS_ALL[self.nav_index]))
def focus_clip_detail(self):
self.application().view.focus_view('Detail/Clip')
@subject_slot('follow_song')
def _song_follow_changed(self):
view = self.song().view
if view.follow_song:
self.song_follow_button.send_value(1, True)
else:
self.song_follow_button.send_value(0, True)
@subject_slot('value')
def _do_song_follow(self, value):
if value != 0:
view = self.song().view
if view.follow_song:
view.follow_song = False
self.song_follow_button.send_value(0, True)
else:
view.follow_song = True
self.song_follow_button.send_value(1, True)
@subject_slot('value')
def _hold_duplicate_action(self, value):
if value != 0:
pass
@subject_slot('value')
def _hold_clear_action(self, value):
if value != 0:
self._mixer.enter_clear_mode()
self._device_component.enter_clear_mode()
else:
self._mixer.exit_clear_mode()
self._device_component.exit_clear_mode()
@subject_slot('value')
def _action_toogle_main_view(self, value):
if value != 0:
appv = self.application().view
if appv.is_view_visible('Arranger'):
appv.show_view('Session')
else:
appv.show_view('Arranger')
@subject_slot('value')
def _action_toogle_detail_view(self, value):
if value != 0:
appv = self.application().view
if self.isShiftDown():
if appv.is_view_visible('Arranger'):
appv.show_view('Session')
else:
appv.show_view('Arranger')
elif appv.is_view_visible('Detail/Clip'):
appv.show_view('Detail/DeviceChain')
else:
appv.show_view('Detail/Clip')
@subject_slot('re_enable_automation_enabled')
def _on_change_reenabled(self):
if self.song().re_enable_automation_enabled:
self._reenable_button.turn_on()
else:
self._reenable_button.turn_off()
@subject_slot('value')
def _do_auto_reenable(self, value):
if value != 0:
self.song().re_enable_automation()
def to_color_edit_mode(self, active):
pass
def clear_display_all(self):
self.send_to_display('', 0)
self.send_to_display('', 1)
self.send_to_display('', 2)
self.send_to_display('', 3)
def clear_display(self, grid):
self.send_to_display('', grid)
def timed_message(self, grid, text, hold = False):
if USE_DISPLAY == False:
self.show_message(text)
else:
self.display_task.set_func(self.clear_display, grid)
self.send_to_display(text, grid)
if hold:
self.display_task.hold()
self.display_task.start()
def timed_message_release(self):
self.display_task.release()
def update_bank_display(self):
if USE_DISPLAY:
name, bank = self._device._current_bank_details()
if self._display_device_param:
prms = len(bank)
d1 = ''
for i in range(4):
parm = bank[i]
if parm:
name = parm.name
d1 += name[:6] + (i < 3 and '|' or '')
else:
d1 += ' ' + (i < 3 and '|' or '')
self.send_to_display(d1, 2)
d1 = ''
for i in range(4):
parm = bank[i + 4]
if parm:
name = parm.name
d1 += name[:6] + (i < 3 and '|' or '')
else:
d1 += ' ' + (i < 3 and '|' or '')
self.send_to_display(d1, 4)
else:
self.timed_message(2, 'Bank: ' + name)
def display_parameters(self, paramlist):
if USE_DISPLAY == False:
return
def send_to_display(self, text, grid = 0):
if USE_DISPLAY == False:
return
if self._diplay_cache[grid] == text:
return
self._diplay_cache[grid] = text
if len(text) > 28:
text = text[:27]
msgsysex = [240,
0,
0,
102,
23,
18,
min(grid, 3) * 28]
filled = text.ljust(28)
for c in filled:
msgsysex.append(ord(c))
msgsysex.append(247)
self._send_midi(tuple(msgsysex))
def cleanup(self):
pass
def disconnect(self):
self._pre_serialize()
self.clear_display_all()
for button, (track_index, scene_index) in self._bmatrix.iterbuttons():
if button:
button.send_color_direct(PColor.OFF[0])
time.sleep(0.2)
self._active = False
self._suppress_send_midi = True
super(Maschine, self).disconnect()
