def __init__(self, buttons, type=BAR, lut=None, lut_high_res=False, on_value=60, off_value=4): assert (buttons != None) assert isinstance(buttons, tuple) SliderElement.__init__(self, MIDI_CC_TYPE, 0, 0) self._buttons = buttons self._last_button_lit = -1 self._control_type = type self._on_value = on_value self._off_value = off_value if lut != None: if lut_high_res: self._lut = lut self._lut.reverse() else: self._lut = [lut[0]] self._lut.extend(lut[2::2]) if (self._lut[-1] != 0.0): self._lut.append(lut[-1]) self._lut.reverse() else: self._lut = None if type == PAN: #calculate the center if (len(self._buttons) % 2) == 0: self._center = ((len(self._buttons) / 2), (len(self._buttons) / 2) - 1) else: self._center = ((len(self._buttons) / 2), ) identify_sender = True if (len(self._buttons) == 1): self._control_type = SING for new_button in self._buttons: assert (new_button != None) assert isinstance(new_button, ButtonElement) new_button.add_value_listener(self._button_value, identify_sender)
def __init__(self, type, ch, msg, report=False): self._report_name_val = report self._last_time = 0 SliderElement.__init__(self, type, ch, msg)
def __init__(self, type, ch, msg, report = False): self._report_name_val = report self._last_time = 0 SliderElement.__init__(self, type, ch, msg)