def __init__( self, calculation_rate=None, amp=0.1, buffer_id=0, center_pos=0, channel_count=None, duration=0.1, interpolate=4, pan=0, rate=1, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, amp=amp, buffer_id=buffer_id, center_pos=center_pos, channel_count=channel_count, duration=duration, interpolate=interpolate, pan=pan, rate=rate, trigger=trigger, )
def __init__(self, calculation_rate=None, channel_count=1, default=0): if not isinstance(default, collections.Sequence): default = (default,) default = [float(_) for _ in default] default = sequencetools.repeat_sequence_to_length(default, channel_count) default = default[:channel_count] MultiOutUGen.__init__(self, calculation_rate=calculation_rate, channel_count=channel_count, default=default)
def __init__( self, calculation_rate=None, channel_count=1, duration=1, envbufnum=-1, interpolate=2, max_grains=512, pan=0, pos=0, rate=1, sndbuf=None, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, duration=duration, envbufnum=envbufnum, interpolate=interpolate, max_grains=max_grains, pan=pan, pos=pos, rate=rate, sndbuf=sndbuf, trigger=trigger, )
def __init__( self, calculation_rate=None, buffer_id=0, channel_count=1, envbufnum=-1, frequency_scaling=1, interpolate=1, overlaps=8, pointer=0, window_rand_ratio=0, window_size=0.2, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, buffer_id=buffer_id, channel_count=channel_count, envbufnum=envbufnum, frequency_scaling=frequency_scaling, interpolate=interpolate, overlaps=overlaps, pointer=pointer, window_rand_ratio=window_rand_ratio, window_size=window_size, )
def __init__( self, calculation_rate=None, amp_threshold=0.01, clar=0, down_sample=1, exec_frequency=100, init_frequency=440, max_bins_per_octave=16, max_frequency=4000, median=1, min_frequency=60, peak_threshold=0.5, source=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, amp_threshold=amp_threshold, clar=clar, down_sample=down_sample, exec_frequency=exec_frequency, init_frequency=init_frequency, max_bins_per_octave=max_bins_per_octave, max_frequency=max_frequency, median=median, min_frequency=min_frequency, peak_threshold=peak_threshold, source=source, )
def __init__( self, calculation_rate=None, damping=0.5, drylevel=1, earlyreflevel=0.7, inputbw=0.5, maxroomsize=300, revtime=3, roomsize=10, source=None, spread=15, taillevel=0.5, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, damping=damping, drylevel=drylevel, earlyreflevel=earlyreflevel, inputbw=inputbw, maxroomsize=maxroomsize, revtime=revtime, roomsize=roomsize, source=source, spread=spread, taillevel=taillevel, )
def __init__( self, calculation_rate=None, carfrequency=440, channel_count=1, duration=1, envbufnum=-1, index=1, max_grains=512, modfrequency=200, pan=0, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, carfrequency=carfrequency, channel_count=channel_count, duration=duration, envbufnum=envbufnum, index=index, max_grains=max_grains, modfrequency=modfrequency, pan=pan, trigger=trigger, )
def __init__( self, calculation_rate=None, source=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, source=source, )
def __init__( self, pv_chain=None, channel_count=13, ): MultiOutUGen.__init__( self, calculation_rate=CalculationRate.CONTROL, pv_chain=pv_chain, channel_count=channel_count, )
def __init__( self, bus=0, calculation_rate=None, channel_count=1, ): MultiOutUGen.__init__( self, bus=bus, calculation_rate=calculation_rate, channel_count=channel_count, )
def __init__( self, pv_chain=None, lock=0, ): MultiOutUGen.__init__( self, calculation_rate=CalculationRate.CONTROL, channel_count=4, lock=lock, pv_chain=pv_chain, )
def __init__( self, calculation_rate=None, buffer_id=None, channel_count=None, loop=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, buffer_id=buffer_id, channel_count=channel_count, loop=loop, )
def __init__( self, calculation_rate=None, azimuth=0, gain=1, source=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=3, azimuth=azimuth, gain=gain, source=source, )
def __init__( self, calculation_rate=None, position=0, x=None, y=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=2, position=position, x=x, y=y, )
def __init__( self, level=1., position=0., calculation_rate=None, source=None, ): MultiOutUGen.__init__( self, channel_count=2, level=level, position=position, calculation_rate=calculation_rate, source=source, )
def __init__( self, calculation_rate=None, bufsize=None, chain=None, frombin=0, tobin=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, bufsize=bufsize, chain=chain, frombin=frombin, tobin=tobin, )
def __init__( self, calculation_rate=None, azimuth=None, gain=1, in_a=None, in_b=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=3, azimuth=azimuth, gain=gain, in_a=in_a, in_b=in_b, )
def __init__( self, calculation_rate=None, gain=1, source=None, x_position=0, y_position=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=4, gain=gain, source=source, x_position=x_position, y_position=y_position, )
def __init__( self, calculation_rate=None, left=None, level=1, position=0, right=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=2, left=left, level=level, position=position, right=right, )
def __init__( self, calculation_rate=None, reset=None, source=None, trigger=None, ): if not isinstance(source, collections.Sequence): source = (source,) channel_count = len(source) MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, reset=reset, source=source, trigger=trigger, )
def __init__( self, calculation_rate=None, reset=None, source=None, trigger=None, ): if not isinstance(source, collections.Sequence): source = (source, ) channel_count = len(source) MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, reset=reset, source=source, trigger=trigger, )
def __init__( self, calculation_rate=None, damping=0.5, in_2=None, mix=0.33, room=0.5, source=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, damping=damping, in_2=in_2, mix=mix, room=room, source=source, )
def __init__( self, calculation_rate=None, buffer_id=None, channel_count=None, interpolation=2, loop=1, phase=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, buffer_id=buffer_id, channel_count=channel_count, interpolation=interpolation, loop=loop, phase=phase, )
def __init__( self, calculation_rate=None, channel_count=None, orientation=0.5, w=None, x=None, y=None, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, orientation=orientation, w=w, x=x, y=y, )
def __init__( self, calculation_rate=None, center=0, source=None, level=1, level_comp=True, spread=1, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, center=center, channel_count=2, source=source, level=level, level_comp=level_comp, spread=spread, )
def __init__( self, parameters, calculation_rate=None, starting_control_index=0, ): from supriya.tools import synthdeftools coerced_parameters = [] for parameter in parameters: if not isinstance(parameter, synthdeftools.Parameter): parameter = synthdeftools.Parameter(name=parameter, value=0) coerced_parameters.append(parameter) #coerced_parameters.sort(key=lambda parameter: parameter.name) self._parameters = tuple(coerced_parameters) MultiOutUGen.__init__( self, channel_count=len(self), calculation_rate=calculation_rate, special_index=starting_control_index, )
def __init__( self, calculation_rate=None, channel_count=8, gain=1, orientation=0.5, position=0, source=None, width=2, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, gain=gain, orientation=orientation, position=position, source=source, width=width, )
def __init__( self, calculation_rate=None, channel_count=1, default=0, ): if not isinstance(default, collections.Sequence): default = (default, ) default = [float(_) for _ in default] default = sequencetools.repeat_sequence_to_length( default, channel_count, ) default = default[:channel_count] MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, default=default, )
def __init__( self, calculation_rate=None, crossfade=1, framesize=2048, kernel_l=None, kernel_r=None, source=None, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, crossfade=crossfade, framesize=framesize, kernel_l=kernel_l, kernel_r=kernel_r, source=source, trigger=trigger, )
def __init__( self, calculation_rate=None, bus_index=None, lock=0, feature_count=None, phase_accuracy=0.02, weighting_scheme=-2.1, window_size=2, ): MultiOutUGen.__init__( self, bus_index=bus_index, calculation_rate=calculation_rate, channel_count=6, feature_count=feature_count, lock=lock, phase_accuracy=phase_accuracy, weighting_scheme=weighting_scheme, window_size=window_size, )
def __init__( self, calculation_rate=None, channel_count=1, duration=1, envbufnum=-1, max_grains=512, pan=0, source=None, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, duration=duration, envbufnum=envbufnum, max_grains=max_grains, pan=pan, source=source, trigger=trigger, )
def __init__( self, calculation_rate=None, channel_count=1, duration=1, envbufnum=-1, frequency=440, max_grains=512, pan=0, trigger=0, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, channel_count=channel_count, duration=duration, envbufnum=envbufnum, frequency=frequency, max_grains=max_grains, pan=pan, trigger=trigger, )
def __init__( self, calculation_rate=None, buffer_id=None, channel_count=None, done_action=0, loop=0, rate=1, start_position=0, trigger=1, ): MultiOutUGen.__init__( self, calculation_rate=calculation_rate, buffer_id=buffer_id, channel_count=channel_count, done_action=done_action, loop=loop, rate=rate, start_position=start_position, trigger=trigger, )