def __init__(self, address, ordinal):
agent.Agent.__init__(self, signature=version, names='scaler',protocols='bind set',icon='plg_simple/scaler.png',container=5,ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
self.__fixed = False
self.set_private(node.Server(value=piw.makebool(False,0),change=self.__changefix))
self[1] = atom.Atom()
self[1][1] = bundles.Output(1,False,names='activation output', protocols='')
self[1][2] = bundles.Output(2,False,names='pressure output', protocols='')
self[1][3] = bundles.Output(3,False,names='roll output', protocols='')
self[1][4] = bundles.Output(4,False,names='yaw output', protocols='')
self[1][5] = bundles.Output(5,False,names='scale note output', protocols='')
self[1][6] = bundles.Output(6,False,names='frequency output', protocols='')
self.ctl = piw.scaler_controller()
self.ctl_input = bundles.VectorInput(self.ctl.cookie(),self.domain,signals=(1,))
self.output = bundles.Splitter(self.domain,*self[1].values())
self.filter = piw.scaler(self.ctl,self.output.cookie(),cubic())
self.input = bundles.VectorInput(self.filter.cookie(), self.domain,signals=(1,2,3,4,5,6,7,9,10,11,12,13,14,15,16,17))
self.input.correlator.clocksink().add_upstream(self.ctl_input.correlator.clocksink())
self[4]=atom.Atom()
self[4][1]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.input.merge_policy(1,False),names='activation input')
self[4][2]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.input.vector_policy(2,False),names='pressure input')
self[4][3]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.merge_policy(3,False),names='roll input')
self[4][4]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.merge_policy(4,False),names='yaw input')
th=(T('inc',1),T('biginc',1),T('control','updown'))
bh=(T('inc',1),T('biginc',1),T('control','updown'))
sh=(T('choices','[0,2,4,5,7,9,11,12]','[0,1,2,3,4,5,6,7,8,9,10,11,12]','[0,2,4,6,8,10,12]','[0,2,3,5,7,8,10,12]','[0,3,5,6,7,10,12]', '[0,2,3,6,7,8,11,12]','[0,3,5,7,10,12]','[0,2,4,7,9,12]'), T('control','selector'))
self[4][5]=atom.Atom(domain=domain.BoundedFloat(0,12,hints=th),policy=self.input.merge_policy(5,False),names='tonic input',protocols='bind set',container=(None,'tonic',self.verb_container()))
self[4][6]=atom.Atom(domain=domain.BoundedFloat(-20,20,hints=bh),policy=self.input.merge_policy(6,False),names='base note input',protocols='bind')
self[4][7]=atom.Atom(domain=domain.String(hints=sh),init='[0,2,4,5,7,9,11,12]',policy=self.input.merge_policy(7,False),names='scale input',protocols='bind set',container=(None,'scale',self.verb_container()))
self[4][8]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.merge_policy(9,policy.LopassStreamPolicy(200,0.6)),names='k pitch bend input')
self[4][9]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.merge_policy(10,False),names='global pitch bend input')
self[4][10]=atom.Atom(domain=domain.BoundedFloat(0,72),init=1,policy=self.input.merge_policy(11,False),names='k bend range input',protocols='bind')
self[4][11]=atom.Atom(domain=domain.BoundedFloat(0,72),init=12,policy=self.input.merge_policy(12,False),names='global bend range input',protocols='bind')
self[4][12]=atom.Atom(domain=domain.Aniso(),policy=self.ctl_input.vector_policy(1,False),names='controller input')
self[4][13]=atom.Atom(domain=domain.Bool(),policy=self.input.merge_policy(14,False),names='override',protocols='bind')
self[4][14]=atom.Atom(domain=domain.BoundedFloat(-1,9,hints=th),init=3,policy=self.input.merge_policy(15,False),names='octave input',protocols='bind',container=(None,'octave',self.verb_container()))
self[4][15]=atom.Atom(domain=domain.BoundedInt(1,4),init=2,policy=atom.default_policy(self.__set_curve),names='curve',protocols='bind')
self[4][16]=atom.Atom(domain=domain.BoundedFloat(0,1000),policy=self.input.merge_nodefault_policy(16,False),names='key input')
self[4][17]=atom.Atom(domain=domain.BoundedFloat(-10,10,hints=th),init=0,policy=self.input.merge_policy(17,False),names='relative octave input',protocols='bind')
self.add_verb2(3,'choose([],None,role(none,[ideal([None,scale]),singular]))',callback=self.__tune_scale)
self.add_verb2(5,'fix([],None)',callback=self.__fix)
self.add_verb2(6,'fix([un],None)',callback=self.__unfix)
self[4][5].add_verb2(1,'set([],~a,role(None,[instance(~self)]),role(to,[ideal([None,note]),singular]))',callback=self.__tune_tonic)
self[4][7].add_verb2(2,'set([],~a,role(None,[instance(~self)]),role(to,[ideal([None,scale]),singular]))',callback=self.__tune_scale)
def __init__(self, address, ordinal):
agent.Agent.__init__(self,signature=version,names='sampler oscillator',container=8,ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1,True,names="left audio output")
self[1][10] = bundles.Output(2,True,names="right audio output")
self[1][3] = bundles.Output(1,False,names="activation output")
self[1][4] = bundles.Output(2,False,names="delay output")
self[1][5] = bundles.Output(3,False,names="attack output")
self[1][6] = bundles.Output(4,False,names="hold output")
self[1][7] = bundles.Output(5,False,names="decay output")
self[1][8] = bundles.Output(6,False,names="sustain output")
self[1][9] = bundles.Output(7,False,names="release output")
self.audio_output = bundles.Splitter(self.domain, self[1][1], self[1][10])
self.envelope_output = bundles.Splitter(self.domain, self[1][3], self[1][4], self[1][5], self[1][6], self[1][7], self[1][8], self[1][9])
self.synth_player = sampler2_native.player(self.audio_output.cookie(),self.domain)
self.synth_loader = sampler2_native.loader(self.synth_player,self.envelope_output.cookie(),self.domain)
self.vdetector = piw.velocitydetect(self.synth_loader.cookie(),4,3)
vel=(T('stageinc',0.1),T('inc',0.1),T('biginc',1),T('control','updown'))
self[4] = atom.Atom(domain=domain.BoundedInt(1,1000),init=4,names="velocity sample",policy=atom.default_policy(self.__set_samples))
self[5] = atom.Atom(domain=domain.BoundedFloat(0.1,10,hints=vel),init=4,names="velocity curve",policy=atom.default_policy(self.__set_curve))
self[7] = atom.Atom(domain=domain.BoundedFloat(0.1,10,hints=vel),init=4,names="velocity scale",policy=atom.default_policy(self.__set_scale))
self.loader_input = bundles.VectorInput(self.vdetector.cookie(), self.domain, signals=(1,4),threshold=5)
self.player_input = bundles.VectorInput(self.synth_player.cookie(), self.domain, signals=(1,2,3),threshold=5)
self[2] = atom.Atom(names='inputs')
self[2][1]=atom.Atom(domain=domain.BoundedFloat(0,96000,rest=440), names='frequency input',ordinal=1,policy=self.player_input.merge_policy(1,False))
self[2][2]=atom.Atom(domain=domain.BoundedFloat(-1200,1200,hints=(T('stageinc',1),T('inc',1),T('biginc',10),T('control','updown'))), names='detune input',policy=self.player_input.merge_policy(2,False))
self[2][3]=atom.Atom(domain=domain.BoundedFloat(0,1), names='activation input',policy=self.player_input.vector_policy(3,False))
self[2][4]=atom.Atom(domain=domain.BoundedFloat(0,1), names='pressure input',policy=self.loader_input.vector_policy(4,False))
self[2][5]=atom.Atom(domain=domain.BoundedFloat(-72,72,hints=(T('stageinc',0.5),T('inc',0.5),T('biginc',12),T('control','updown'))), names='transpose', policy=atom.default_policy(self.__settranspose))
self[2][6]=atom.Atom(domain=domain.BoundedFloat(0,96000,rest=440), names='frequency input',ordinal=2,policy=self.loader_input.merge_policy(1,False))
self.__transpose = 0
self[3] = Sample(self)
self[6] = atom.Atom(domain=domain.Bool(), init=True, names='fade enable', protocols='input explicit', policy=atom.default_policy(self.__set_fade))
self.add_verb2(1,'first([],None)',self.__first)
self.add_verb2(2,'next([],None)',self.__next)
self.add_verb2(3,'name([],None,role(None,[ideal([~server,sample]),singular]),role(to,[abstract]))',self.__name)
self.add_verb2(4,'choose([],None,role(None,[ideal([~server,sample]),singular]))',self.__choose)
self.add_verb2(5,'name([un],None,role(None,[ideal([~server,sample]),singular]))',self.__unname)
self.synth_player.set_fade(True)
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
names='midi output',
signature=version,
container=3)
self.set_property_long('cordinal', ordinal)
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*', 0))
self[1] = OutputMidiPort(self.domain)
# midi input vector, merge down multiple MIDI input streams
self.input = bundles.VectorInput(self[1].cookie(),
self.domain,
signals=(1, ))
self[2] = atom.Atom(domain=domain.Aniso(),
names="midi input",
policy=self.input.vector_policy(1, False))
# self[3] is verb container
# choose verb for choosing an output MIDI port
self.add_verb2(
1,
'choose([],None,role(None,[ideal([~server,midiport]),singular]))',
self.__chooseport)
self.set_ordinal(ordinal)
def __init__(self, address, ordinal):
agent.Agent.__init__(self, signature=version,names='ranger',ordinal=ordinal)
self[2] = atom.Atom()
self[2][1] = bundles.Output(1,False,names='output')
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
self.output = bundles.Splitter(self.domain,*self[2].values())
self.ranger = piw.ranger(self.domain,self.output.cookie())
self.ctl_input = bundles.ScalarInput(self.ranger.ctl_cookie(), self.domain,signals=(1,2,3))
self.data_input = bundles.VectorInput(self.ranger.data_cookie(), self.domain,signals=(1,))
self[1] = atom.Atom()
self[1][1]=atom.Atom(domain=domain.BoundedFloat(-10000000,10000000),init=-1,policy=self.ctl_input.policy(1,False),names='minimum')
self[1][2]=atom.Atom(domain=domain.BoundedFloat(-10000000,10000000),init=1,policy=self.ctl_input.policy(2,False),names='maximum')
self[1][3]=atom.Atom(domain=domain.BoundedFloat(-10000000,10000000),init=0,policy=self.ctl_input.policy(3,False),names='rest')
self[1][4]=atom.Atom(domain=domain.BoundedFloat(-1,1),init=0,policy=self.data_input.vector_policy(1,False),names='input')
self[3]=atom.Atom(domain=domain.Bool(),policy=atom.default_policy(self.__setsticky),names='sticky')
self[4]=atom.Atom(domain=domain.BoundedFloat(-10,10),policy=atom.default_policy(self.__setcurve),names='curve')
self[5]=atom.Atom(domain=domain.Bool(),policy=atom.default_policy(self.__setmono),names='mono')
self[6]=atom.Atom(domain=domain.Bool(),init=True,policy=atom.default_policy(self.__setabsolute),names='absolute')
self.ranger.set_absolute(True)
self.add_verb2(1,'reset([],None)',self.__reset)
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='shaper',
ordinal=ordinal)
self[3] = bundles.Output(1, False, names='output')
self.domain = piw.clockdomain_ctl()
self.output = bundles.Splitter(self.domain, self[3])
Z = piw.makefloat_bounded(1, 0, 0, 0, 0)
self.compress = piw.function1(False, 1, 1, Z, self.output.cookie())
self.compress.set_functor(synth_native.compressor(0))
self.sharpen = piw.function1(False, 1, 1, Z, self.compress.cookie())
self.sharpen.set_functor(synth_native.sharpener(0))
self.input = bundles.VectorInput(self.sharpen.cookie(),
self.domain,
signals=(1, ))
self[2] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(1, False),
names='input')
self[1] = atom.Atom(names='controls')
self[1][1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names="compression",
policy=atom.default_policy(self.__compression))
self[1][2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names="sharpness",
policy=atom.default_policy(self.__sharpness))
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='envelope',
ordinal=ordinal)
self[2] = atom.Atom()
self[2][2] = bundles.Output(2, False, names='pressure output')
self[2][100] = bundles.Output(1, True, names='volume output')
self.domain = piw.clockdomain_ctl()
self.output = bundles.Splitter(self.domain, *self[2].values())
self.adsr = synth_native.adsr(self.output.cookie(), self.domain)
self.vel = piw.velocitydetect(self.adsr.cookie(), 2, 1)
self.input = bundles.VectorInput(self.vel.cookie(),
self.domain,
signals=(1, 2, 8, 9, 10, 11),
threshold=5)
time = (T('inc', 0.01), T('biginc', 0.2), T('control', 'updown'))
self[1] = atom.Atom()
self[1][1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names='activation input',
policy=self.input.merge_policy(1, False))
self[1][2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=0,
policy=self.input.vector_policy(2, False),
names='pressure input')
self[1][8] = atom.Atom(domain=domain.BoundedFloat(0, 60, hints=time),
init=0.01,
names="attack input",
policy=self.input.merge_policy(8, False))
self[1][9] = atom.Atom(domain=domain.BoundedFloat(0, 60, hints=time),
init=0.05,
names="decay input",
policy=self.input.merge_policy(9, False))
self[1][10] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=0,
policy=self.input.merge_policy(
10, policy.IsoStreamPolicy(1, 0, 0)),
names='sustain input',
fuzzy='++++pressure')
self[1][11] = atom.Atom(domain=domain.BoundedFloat(0, 60, hints=time),
init=0.25,
names="release input",
policy=self.input.merge_policy(11, False))
self[3] = atom.Atom(domain=domain.BoundedInt(1, 1000),
init=4,
names="velocity sample",
policy=atom.default_policy(self.__set_samples))
self[4] = atom.Atom(domain=domain.BoundedFloat(0.1, 10),
init=4,
names="velocity curve",
policy=atom.default_policy(self.__set_curve))
self[5] = atom.Atom(domain=domain.BoundedFloat(0.1, 10),
init=4,
names="velocity scale",
policy=atom.default_policy(self.__set_scale))
def __init__(self, address, ordinal):
agent.Agent.__init__(self,signature=version,names='talker',container=5,ordinal=ordinal)
self.add_mode2(4,'mode([],role(when,[singular,numeric]),option(using,[instance(~server)]))', self.__mode, self.__query, self.__cancel_mode, self.__attach_mode)
self.add_mode2(7,'mode([],role(when,[singular,numeric]),role(called,[singular,numeric]),option(using,[instance(~server)]))', self.__cmode, self.__cquery, self.__cancel_mode, self.__attach_mode)
self.add_verb2(1,'cancel([],None,role(None,[ideal([~server,event])]))', self.__cancel_verb)
self.add_verb2(8,'cancel([],None,role(None,[singular,numeric]),role(called,[singular,numeric]))', self.__cancel_verb_called)
self.add_verb2(5,'colour([],None,role(None,[singular,numeric]),role(to,[singular,numeric]))', self.__color_verb)
self.add_verb2(6,'colour([],None,role(None,[singular,numeric]),role(to,[singular,numeric]),role(from,[singular,numeric]))', self.__all_color_verb)
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
self.__size = 0
self[1] = bundles.Output(1,False, names='light output',protocols='revconnect')
self.light_output = bundles.Splitter(self.domain,self[1])
self.light_convertor = piw.lightconvertor(self.light_output.cookie())
self.light_aggregator = piw.aggregator(self.light_convertor.cookie(),self.domain)
self.controller = piw.controller(self.light_aggregator.get_output(1),utils.pack_str(1))
self.activation_input = bundles.VectorInput(self.controller.cookie(), self.domain,signals=(1,))
self[2] = atom.Atom(domain=domain.BoundedFloat(0,1), policy=self.activation_input.local_policy(1,False),names='activation input')
self[3] = atom.Atom(creator=self.__create,wrecker=self.__wreck)
self[4] = PhraseBrowser(self.__eventbykey,self.__keylist)
def __init__(self, agent, index):
atom.Atom.__init__(self, names='audiocube', ordinal=index)
self.__agent = agent
self.__index = index
self[4] = bundles.Output(1, False, names='sensor output 1')
self[5] = bundles.Output(2, False, names='sensor output 2')
self[6] = bundles.Output(3, False, names='sensor output 3')
self[7] = bundles.Output(4, False, names='sensor output 4')
self.__output = bundles.Splitter(self.__agent.domain, self[4], self[5],
self[6], self[7])
self.__inputcookie = self.__agent.audiocubes.create_audiocube(
self.__index, self.__output.cookie())
self.__input = bundles.VectorInput(self.__inputcookie,
self.__agent.domain,
signals=(1, 2, 3))
self[1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=1.0,
names='red input',
policy=self.__input.local_policy(1, False))
self[2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=1.0,
names='green input',
policy=self.__input.local_policy(2, False))
self[3] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=1.0,
names='blue input',
policy=self.__input.local_policy(3, False))
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='labeler',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(
domain=domain.Aniso(hints=(logic.make_term('continuous'), )),
names='controller output',
policy=atom.readonly_policy())
self[2] = atom.Atom(domain=domain.String(),
init='Label',
names='label category',
policy=atom.default_policy(self.__set_category))
self[3] = atom.Atom(domain=domain.String(),
init='',
names='label',
policy=atom.default_policy(self.__set_label))
self.ctl_functor = piw.functor_backend(1, True)
self.ctl_input = bundles.VectorInput(self.ctl_functor.cookie(),
self.domain,
signals=(1, ))
self[4] = atom.Atom(domain=domain.Aniso(),
policy=self.ctl_input.vector_policy(1, False),
names='controller input')
self.ctl_functor.set_functor(
piw.pathnull(0),
utils.make_change_nb(
piw.slowchange(utils.changify(self.__controller_input))))
self.__ctl = []
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='noise oscillator',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
# One Iso output for the noise
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1, True, names='audio output')
self.output = bundles.Splitter(self.domain, self[1][1])
self.osc = synth_noise.noise(self.output.cookie(), self.domain)
# Two Iso inputs, volume, and filter freq
self.input = bundles.VectorInput(self.osc.cookie(),
self.domain,
signals=(1, 2))
self[2] = atom.Atom(names='inputs')
self[2][1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names="volume input",
policy=self.input.local_policy(
1, policy.IsoStreamPolicy(1, 0, 0)))
self[2][2] = atom.Atom(domain=domain.BoundedFloat(0, 20000),
names="filter frequency input",
policy=self.input.merge_policy(2, True))
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='orb',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*', 0))
self[2] = atom.Atom(names="outputs")
self[2][1] = bundles.Output(1, False, names='angle output')
self[2][2] = bundles.Output(2, False, names='radius output')
self.output = bundles.Splitter(self.domain, *self[2].values())
self.native = orb(self.domain, self.output.cookie())
self.key_input = bundles.VectorInput(self.native.cookie(),
self.domain,
signals=(1, 2))
self[1] = atom.Atom(names="inputs")
self[1][1] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.key_input.vector_policy(1, False),
names='roll input')
self[1][2] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.key_input.vector_policy(2, False),
names='yaw input')
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='control voltage calibration',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1, False, names='voltage output')
self[1][2] = bundles.Output(2, False, names='calibration output')
self.output = bundles.Splitter(self.domain, self[1][1], self[1][2])
self.cv_calibration = cv_calibration_native.cv_calibration(
self.output.cookie(), self.domain)
self.input = bundles.VectorInput(self.cv_calibration.cookie(),
self.domain,
signals=(1, ))
self[2] = atom.Atom(names='inputs')
self[2][1] = atom.Atom(domain=domain.BoundedFloat(0, 96000, rest=0),
names="frequency input",
policy=self.input.vector_policy(1, False))
self.add_verb2(1, 'calibrate([],None)', callback=self.__calibrate)
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='frequency detector',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1, False, names='frequency output')
self.output = bundles.Splitter(self.domain, self[1][1])
self.frequency_detector = frequency_detector_native.frequency_detector(
self.output.cookie(), self.domain)
self.input = bundles.VectorInput(self.frequency_detector.cookie(),
self.domain,
signals=(1, ))
self[2] = atom.Atom(names='inputs')
self[2][1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names="audio input",
policy=self.input.vector_policy(1, True))
self[3] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=0.01,
policy=atom.default_policy(self.__threshold),
names='threshold')
self[4] = atom.Atom(domain=domain.BoundedInt(5, 20),
init=10,
policy=atom.default_policy(self.__buffer_count),
names='buffer count')
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='sawtooth oscillator',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = bundles.Output(1, True, names='audio output')
self.output = bundles.Splitter(self.domain, self[1])
self.osc = synth_native.sawtooth(self.output.cookie(), self.domain)
self.input = bundles.VectorInput(self.osc.cookie(),
self.domain,
signals=(1, 2, 4))
self[2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
init=0,
names='volume input',
policy=self.input.local_policy(
1, policy.IsoStreamPolicy(1, 0, 0)))
self[3] = atom.Atom(domain=domain.BoundedFloat(0, 96000, rest=440),
names='frequency input',
policy=self.input.merge_policy(2, False))
self[4] = atom.Atom(init=0.0,
domain=domain.BoundedFloat(-1200, 1200),
names='detune input',
policy=self.input.merge_policy(4, False))
def __init__(self, key, fast, text, index):
self.__key = key
self.__index = index
self.__fastdata = piw.fastdata(0)
piw.tsd_fastdata(self.__fastdata)
self.__fastdata.set_upstream(fast)
atom.Atom.__init__(self,
domain=domain.Aniso(),
policy=policy.FastReadOnlyPolicy(),
names='action',
ordinal=index)
self.get_policy().set_source(self.__fastdata)
self.status_input = bundles.VectorInput(
self.__key.key_aggregator.get_output(self.__index),
self.__key.agent.domain,
signals=(1, ))
self.set_property_string('help', text)
self[1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
policy=self.status_input.vector_policy(
1, False, clocked=False),
names='status input',
protocols='nostage')
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='rectangle oscillator',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = bundles.Output(1, True, names="audio output")
self.output = bundles.Splitter(self.domain, self[1])
self.osc = synth_native.rect(self.output.cookie(), self.domain)
self.input = bundles.VectorInput(self.osc.cookie(),
self.domain,
signals=(1, 2, 3, 4))
self[2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
names="volume input",
policy=self.input.local_policy(
1, policy.IsoStreamPolicy(1, 0, 0)))
self[3] = atom.Atom(domain=domain.BoundedFloat(0, 96000),
names="frequency input",
policy=self.input.merge_policy(2, False))
self[4] = atom.Atom(domain=domain.BoundedFloat(0.1, 0.9, rest=0.5),
names="pulse width input",
policy=self.input.merge_policy(3, False))
self[5] = atom.Atom(domain=domain.BoundedFloat(-1200, 1200),
names='detune input',
policy=self.input.merge_policy(4, False))
def __init__(self, address, ordinal):
agent.Agent.__init__(self, signature=version,names='clarinet oscillator',ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = bundles.Output(1,True,names="audio output")
self.output = bundles.Splitter(self.domain, self[1])
self.inst = stk_native.clarinet(self.output.cookie(),self.domain)
self.input = bundles.VectorInput(self.inst.cookie(), self.domain,signals=(1,2,3,4,5,6,7,8,9))
param=(T('inc',0.02),T('biginc',0.2),T('control','updown'))
self[2] = atom.Atom()
self[2][1] = atom.Atom(names='activation input', domain=domain.BoundedFloat(0,1), policy=self.input.merge_policy(1,False))
self[2][2] = atom.Atom(names='frequency input', domain=domain.BoundedFloat(1,96000), policy=self.input.vector_policy(2,False))
self[2][3] = atom.Atom(names='pressure input', domain=domain.BoundedFloat(0,1), policy=self.input.merge_policy(3,False))
# TODO: remove
#self[2][4] = atom.Atom(names='reed stiffness input', domain=domain.BoundedFloat(0,1,hints=param), init=0.5, policy=self.input.merge_policy(4,False))
self[2][5] = atom.Atom(names='noise gain input', domain=domain.BoundedFloat(0,1,hints=param), init=0.25, policy=self.input.merge_policy(5,False))
# TODO: remove
#self[2][6] = atom.Atom(names='vibrato frequency input', domain=domain.BoundedFloat(0,1,hints=param), init=0.2, policy=self.input.merge_policy(6,False), protocols='explicit')
# TODO: remove
#self[2][7] = atom.Atom(names='vibrato gain input', domain=domain.BoundedFloat(0,1,hints=param), init=0, policy=self.input.merge_policy(7,False))
self[2][8] = atom.Atom(names='pitch time input', domain=domain.BoundedFloat(0,100000,hints=param), init=10, policy=self.input.merge_policy(8,False))
self[2][9] = atom.Atom(names='minimum frequency', domain=domain.BoundedFloat(0.1,20,hints=param), init=20, policy=self.input.merge_policy(9,False))
def __init__(self, address, ordinal):
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
agent.Agent.__init__(self, signature=version, names='stringer',protocols='bind set',container=(5,'stringer',atom.VerbContainer(clock_domain=self.domain)),ordinal=ordinal)
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1,False, names='controller output', continuous=True)
self[1][2] = bundles.Output(2,False,names='pressure output', protocols='')
self[1][3] = bundles.Output(3,False,names='roll output', protocols='')
self[1][4] = bundles.Output(4,False,names='yaw output', protocols='')
self[1][5] = bundles.Output(5,False,names='key output', protocols='')
self.output = bundles.Splitter(self.domain,self[1][2],self[1][3],self[1][4],self[1][5])
self.coutput = bundles.Splitter(self.domain,self[1][1])
# stringer
self.stringer = piw.stringer(self.output.cookie())
# clone controller input to copy it to an output and the stringer
self.cclone = piw.clone(True)
self.cclone.set_output(1,self.coutput.cookie())
self.ctl_input = bundles.VectorInput(self.cclone.cookie(),self.domain,signals=(1,))
self.data_input = bundles.VectorInput(self.stringer.data_cookie(),self.domain,signals=(2,3,4,5))
self[4]=atom.Atom(names='inputs')
self[4][1]=atom.Atom(domain=domain.Aniso(),policy=self.ctl_input.vector_policy(1,False),names='controller input')
self[4][2]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.data_input.merge_policy(2,False),names='pressure input',protocols='nostage')
self[4][3]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.data_input.merge_policy(3,False),names='roll input',protocols='nostage')
self[4][4]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.data_input.merge_policy(4,False),names='yaw input',protocols='nostage')
self[4][5]=atom.Atom(domain=domain.Aniso(),policy=self.data_input.vector_policy(5,False), names='key input')
# self[5] is the verb container
# enable, to deactivate the stringer
self[6] = atom.Atom(domain=domain.Bool(),init=True,names="enable",policy=atom.default_policy(self.__enable))
# status output to drive the talker lights
self[7]=bundles.Output(1,False,names='status output')
self.light_output=bundles.Splitter(self.domain,self[7])
self.lights=piw.lightsource(piw.change_nb(),0,self.light_output.cookie())
self.lights.set_size(1)
self.__set_lights(self[6].get_value())
# toggle enable verb, has status action to ensure the status output will be connected to a talker
self.add_verb2(1,'enable([toggle],None)',callback=self.__toggle_enable,status_action=self.__status)
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='midi program chooser',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(1,
False,
names='light output',
protocols='revconnect')
self[1][2] = bundles.Output(2, False, names='midi output')
self.output = bundles.Splitter(self.domain, self[1][1], self[1][2])
self.chooser = midi_native.midi_pgm_chooser(self.output.cookie(),
self.domain)
self.input = bundles.VectorInput(self.chooser.cookie(),
self.domain,
signals=(
1,
2,
))
self[2] = atom.Atom(names='inputs')
self[2][1] = atom.Atom(domain=domain.Aniso(),
policy=self.input.vector_policy(1, False),
names='key input')
self[2][2] = atom.Atom(domain=domain.Aniso(),
policy=self.input.vector_policy(2, False),
names='controller input')
self[3] = atom.Atom(domain=domain.Bool(),
init=False,
policy=atom.default_policy(self.__bankview),
names='bank view')
self[4] = atom.Atom(domain=domain.BoundedInt(0, 127),
init=0,
policy=atom.default_policy(self.__program),
names='program')
self[5] = atom.Atom(domain=domain.BoundedInt(0, 16),
init=1,
policy=atom.default_policy(self.__channel),
names='midi channel')
self[6] = atom.Atom(domain=domain.BoundedInt(0, 127),
init=0,
policy=atom.default_policy(self.__window),
names='window')
self[7] = atom.Atom(domain=domain.BoundedInt(0, 127),
init=0,
policy=atom.default_policy(self.__bank),
names='bank')
self.add_verb2(1, 'reset([],None)', callback=self.__reset)
self.add_verb2(2, 'up([],None)', callback=self.__up)
self.add_verb2(3, 'down([],None)', callback=self.__down)
def __init__(self,names,ordinal,dom,remove,keys):
self.kbd_keys = keys
agent.Agent.__init__(self,names=names,ordinal=ordinal,signature=version,subsystem='kbd',volatile=True,container=102,protocols='browse is_subsys')
self.remover=remove
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
self[1] = bundles.Output(1,False,names='activation output')
self[2] = bundles.Output(2,False,names='pressure output')
self[3] = bundles.Output(3,False,names='roll output')
self[4] = bundles.Output(4,False,names='yaw output')
self[5] = bundles.Output(1,False,names='strip position output',ordinal=1)
self[7] = bundles.Output(1,False,names='breath output')
self[10] = bundles.Output(2,False,names='absolute strip output',ordinal=1)
self[12] = bundles.Output(1,False,names='pedal output',ordinal=1)
self[13] = bundles.Output(1,False,names='pedal output',ordinal=2)
self[14] = bundles.Output(1,False,names='pedal output',ordinal=3)
self[15] = bundles.Output(1,False,names='pedal output',ordinal=4)
self.led_backend = piw.functor_backend(1,True)
self.status_mixer = piw.statusmixer(self.led_backend.cookie())
self.led_input = bundles.VectorInput(self.status_mixer.cookie(),self.domain,signals=(1,))
self[8] = atom.Atom(names='light input',protocols='revconnect',policy=self.led_input.vector_policy(1,False,False,auto_slot=True),domain=domain.Aniso())
self[100] = VirtualKey(self.kbd_keys)
self.koutput = bundles.Splitter(self.domain,self[1],self[2],self[3],self[4])
self.kpoly = piw.polyctl(10,self.koutput.cookie(),False,5)
self.s1output = bundles.Splitter(self.domain,self[5],self[10])
self.boutput = bundles.Splitter(self.domain,self[7])
self.poutput1 = bundles.Splitter(self.domain,self[12])
self.poutput2 = bundles.Splitter(self.domain,self[13])
self.poutput3 = bundles.Splitter(self.domain,self[14])
self.poutput4 = bundles.Splitter(self.domain,self[15])
self.kclone=piw.sclone()
self.kclone.set_filtered_output(1,self.kpoly.cookie(),piw.first_filter(1))
self.kclone.set_filtered_output(2,self.s1output.cookie(),piw.first_filter(2))
self.kclone.set_filtered_output(5,self.boutput.cookie(),piw.first_filter(5))
self.kclone.set_filtered_output(6,self.poutput1.cookie(),piw.first_filter(6))
self.kclone.set_filtered_output(7,self.poutput2.cookie(),piw.first_filter(7))
self.kclone.set_filtered_output(8,self.poutput3.cookie(),piw.first_filter(8))
self.kclone.set_filtered_output(9,self.poutput4.cookie(),piw.first_filter(9))
self[9] = atom.Atom(names='controller output',domain=domain.Aniso(),init=self.courses())
self.add_verb2(4,'maximise([],None,role(None,[mass([pedal])]))',self.__maximise)
self.add_verb2(5,'minimise([],none,role(None,[mass([pedal])]))',self.__minimise)
self.__timestamp = piw.tsd_time()
self.update()
def __init__(self, address, ordinal):
agent.Agent.__init__(self, signature=version,names='cycler',container=10,ordinal=ordinal)
self.set_private(node.Server())
self.get_private()[1]=node.Server(change=self.__cycle_set,value=piw.makebool(True,0))
self.get_private()[2]=node.Server(change=self.__invert_set,value=piw.makebool(False,0))
self[2] = atom.Atom(names='outputs')
self[2][2] = bundles.Output(2,False,names='pressure output')
self[2][3] = bundles.Output(3,False,names='roll output')
self[2][4] = bundles.Output(4,False,names='yaw output')
self[2][5] = bundles.Output(5,False,names='scale note output')
self[2][6] = bundles.Output(6,False,names='frequency output')
self[2][7] = bundles.Output(16,False,names='damper output')
self[3] = atom.Atom(names="cycling",domain=domain.Bool(),init=True,policy=atom.default_policy(self.__setcycling))
self.domain = piw.clockdomain_ctl()
self.domain.set_source(piw.makestring('*',0))
self.main_output = bundles.Splitter(self.domain,self[2][2],self[2][3],self[2][4],self[2][5],self[2][6])
self.damp_output = bundles.Splitter(self.domain,self[2][7])
self.cycler = piw.cycler(self.domain,32,self.main_output.cookie(),self.damp_output.cookie(),False)
self.input = bundles.VectorInput(self.cycler.main_cookie(),self.domain,signals=(2,3,4,5,6,16,17),threshold=5)
self.feedback = bundles.VectorInput(self.cycler.feedback_cookie(),self.domain,signals=(1,),threshold=5)
self.cycler.set_cycle(True)
self.cycler.set_maxdamp(1.0)
self.cycler.set_invert(True)
self.cycler.set_curve(1.0)
self[1] = atom.Atom(names='inputs')
self[1][2]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.input.vector_policy(2,False),names='pressure input')
self[1][3]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.vector_policy(3,False),names='roll input')
self[1][4]=atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.input.vector_policy(4,False),names='yaw input')
self[1][5]=atom.Atom(domain=domain.BoundedFloat(0,1000),policy=self.input.vector_policy(5,False),names='scale note input')
self[1][6]=atom.Atom(domain=domain.BoundedFloat(0,96000),policy=self.input.vector_policy(6,False),names='frequency input')
self[1][7]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.feedback.vector_policy(1,False,clocked=False),names='feedback input')
self[1][8]=atom.Atom(domain=domain.BoundedFloat(0,1),init=0.0,policy=self.input.linger_policy(16,False),names='damper pedal input',container=(None,'damper',self.verb_container()))
self[1][10]=atom.Atom(domain=domain.BoundedFloat(0,1,hints=(T('stageinc',0.01),T('inc',0.01),T('biginc',0.1),T('control','updown'))),init=1.0,policy=atom.default_policy(self.__setmaxdamp),names='damper maximum input')
self[1][12]=atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.input.latch_policy(17,False),names='hold pedal input')
self[1][13]=atom.Atom(domain=domain.BoundedFloat(0.1,10,hints=(T('stageinc',0.1),T('inc',0.1),T('biginc',1),T('control','updown'))),init=1,names="damper curve",policy=atom.default_policy(self.__setdcurve))
self[4] = atom.Atom(names="inverted damper",domain=domain.Bool(),init=True,policy=atom.default_policy(self.__setinverted))
def __init__(self, main_agent, chan_num):
atom.Atom.__init__(self, names='mixer channel', ordinal=chan_num)
self.main_agent = main_agent
self.chan_num = chan_num
self.aggregator = piw.aggregator(
main_agent.mixer.create_channel(chan_num - 1), main_agent.clk)
self.control_input = bundles.ScalarInput(self.aggregator.get_output(1),
main_agent.clk,
signals=(1, 2))
self.audio_input = bundles.VectorInput(self.aggregator.get_output(2),
main_agent.clk,
signals=(1, 2))
self[1] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
init=0,
names='left audio input',
policy=self.audio_input.vector_policy(1, True),
protocols='obm')
self[2] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
init=0,
names='right audio input',
policy=self.audio_input.vector_policy(2, True),
protocols='obm')
self[3] = atom.Atom(names='controls')
self[3][1] = atom.Atom(domain=domain.BoundedFloat(
-70,
14,
hints=(T('stageinc', 0.1), T('inc', 1), T('biginc', 10),
T('control', 'updown'), T('distribution', 'tapered'))),
init=0,
names='volume',
policy=self.control_input.notify_policy(
1,
policy.LopassStreamPolicy(1000, 0.97),
notify=main_agent.changes_pending),
protocols='bind input')
self[3][2] = atom.Atom(domain=domain.BoundedFloat(
-1,
1,
hints=(T('stageinc',
0.1), T('inc', 0.02), T('biginc',
0.2), T('control', 'updown'))),
init=0,
names='pan',
policy=self.control_input.notify_policy(
2,
policy.LopassStreamPolicy(1000, 0.97),
notify=main_agent.changes_pending),
protocols='bind input')
# fx send controls
self[4] = FxSendControlsList()
def __init__(self, k, delegate, clockdomain):
self.__delegate = delegate
self.__input = bundles.VectorInput(self.__delegate.parameter_input(k),
clockdomain,
signals=(1, ))
self.__index = k
atom.Atom.__init__(self,
domain=domain.Aniso(),
policy=self.__input.vector_policy(1, False),
names='parameter',
protocols='input explicit',
ordinal=k)
def __init__(self, database, master_agent, ordinal):
agent.Agent.__init__(self,
names='controller',
signature=version,
subsystem='controller',
container=2,
protocols='is_subsys',
ordinal=ordinal)
self.database = database
self.agent = master_agent
self.domain = master_agent.domain
self.add_verb2(1,
'control([],None,role(None,[concrete,singular]))',
callback=self.__control)
self.add_verb2(
2,
'control([],None,role(None,[concrete,singular]),role(with,[numeric]))',
callback=self.__controlwith)
self.add_verb2(3, 'control([un],None)', callback=self.__uncontrol)
self[4] = atom.Atom(creator=self.__create, wrecker=self.__wreck)
self[3] = bundles.Output(1,
False,
names='light output',
protocols='revconnect')
self.lights = bundles.Splitter(self.domain, self[3])
self.lightconvertor = piw.lightconvertor(self.lights.cookie())
self.controller = Controller0(self, self.lightconvertor.cookie(),
utils.pack_str(1, 2, 3, 4, 5))
self.clone = piw.clone(True)
self.clone.set_output(1, self.controller.cookie())
self.input = bundles.VectorInput(self.clone.cookie(),
self.domain,
signals=(1, 2, 3, 4, 5))
self[1] = atom.Atom()
self[1][1] = atom.Atom(domain=domain.BoundedFloat(0, 1),
policy=self.input.vector_policy(1, False),
names='activation input')
self[1][2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
policy=self.input.vector_policy(2, False),
names='pressure input')
self[1][3] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(3, False),
names='roll input')
self[1][4] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(4, False),
names='yaw input')
self[1][5] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(5, False),
names='strip position input')
def __init__(self, address, ordinal):
agent.Agent.__init__(self,names='midi converter',signature=version,container=100,ordinal=ordinal)
self.__domain = piw.clockdomain_ctl()
self.__state = AgentState(self.__agent_state_loaded)
self.set_private(self.__state)
# the MIDI stream output
self[1]=bundles.Output(1,False,names="midi output")
self.__output = bundles.Splitter(self.__domain, self[1])
self.__observer = MappingObserver(self.__state,self)
self.__channel_delegate = MidiChannelDelegate(self)
self.__midi_from_belcanto = piw.midi_from_belcanto(self.__output.cookie(), self.__domain)
self.__midi_converter = piw.midi_converter(self.__observer, self.__channel_delegate, self.__domain, self.__midi_from_belcanto, self.__get_title())
self.parameter_list = inputparameter.List(self.__midi_converter,self.__midi_converter.clock_domain(),self.verb_container())
# velocity detector, reads pressure input (signal 1) and generates a note on velocity (signal 4), passes thru all other signals in bundle
self.__kvelo = piw.velocitydetect(self.__midi_from_belcanto.cookie(),1,4)
# Inputs for generating keyboard driven MIDI signals
# MIDI controllers are merged down with signals from keys (driven by pressure)
self.__kinpt = bundles.VectorInput(self.__kvelo.cookie(),self.__domain,signals=(1,2,3,5,6,7,8,9,10,11,12,13))
self[2] = atom.Atom()
self[2][1] = atom.Atom(domain=domain.Aniso(),policy=self.__kinpt.vector_policy(1,False),names='pressure input')
self[2][2] = atom.Atom(domain=domain.Aniso(),policy=self.__kinpt.merge_nodefault_policy(2,False),names='frequency input')
# input to set the MIDI channel
self[3] = atom.Atom(domain=domain.BoundedInt(0,16),init=0,names="midi channel",policy=atom.default_policy(self.set_midi_channel))
# inputs to control the velocity curve
self[4] = atom.Atom()
self[4][1] = atom.Atom(domain=domain.BoundedInt(1,1000),init=4,names="velocity sample",policy=atom.default_policy(self.__set_samples))
self[4][2] = atom.Atom(domain=domain.BoundedFloat(0.1,10),init=4,names="velocity curve",policy=atom.default_policy(self.__set_curve))
self[4][3] = atom.Atom(domain=domain.BoundedFloat(0.1,10),init=4,names="velocity scale",policy=atom.default_policy(self.__set_scale))
# bank change
self[5]=atom.Atom(domain=domain.BoundedFloat(1,128),init=1,names="midi bank", policy=atom.default_policy(self.__set_bank_change))
# program change
self[6]=atom.Atom(domain=domain.BoundedFloat(1,128),init=1,names="midi program", policy=atom.default_policy(self.__set_program_change))
# inputs to set the minimum and maximum MIDI channel when in poly mode
self[7] = atom.Atom(domain=domain.BoundedInt(1,16),init=1,names="minimum channel",policy=atom.default_policy(self.set_min_channel))
self[8] = atom.Atom(domain=domain.BoundedInt(1,16),init=16,names="maximum channel",policy=atom.default_policy(self.set_max_channel))
# parameter mapping
self[12] = self.parameter_list
self.set_midi_channel(0)
def __init__(self,address,ordinal):
self.domain = piw.clockdomain_ctl()
vc = atom.VerbContainer(clock_domain=self.domain)
self.finder = talker.TalkerFinder()
agent.Agent.__init__(self,signature=version,names='arranger', protocols='bind', container=(9,'agent',vc), ordinal=ordinal)
self[1] = self.verb_container()
self.model = arranger_native.model(self.domain)
self.light_output = bundles.Output(1,False,names='light output',protocols='revconnect')
self.light_splitter = bundles.Splitter(self.domain, self.light_output)
self.light_convertor = piw.lightconvertor(True,self.light_splitter.cookie())
self.view = arranger_native.view(self.model,self.light_convertor.cookie())
self.ctlr_fb = piw.functor_backend(1,True)
self.ctlr_fb.set_functor(piw.pathnull(0),self.view.control())
self.ctlr_input = bundles.ScalarInput(self.ctlr_fb.cookie(),self.domain,signals=(1,))
self[2] = atom.Atom(domain=domain.Aniso(),policy=self.ctlr_input.policy(1,False),names='controller input')
self.kinput = bundles.VectorInput(self.view.cookie(),self.domain,signals=(1,2,3,5))
self[3] = atom.Atom(names='key inputs')
self[3][1] = atom.Atom(domain=domain.BoundedFloat(0,1),policy=self.kinput.vector_policy(1,False),names='pressure input',protocols='nostage')
self[3][2] = atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.kinput.merge_policy(2,False),names='roll input',protocols='nostage')
self[3][3] = atom.Atom(domain=domain.BoundedFloat(-1,1),policy=self.kinput.merge_policy(3,False),names='yaw input',protocols='nostage')
self[3][5] = atom.Atom(domain=domain.Aniso(), policy=self.kinput.vector_policy(5,False),names='key input')
self[3][4] = self.light_output
self.cinput = bundles.ScalarInput(self.model.cookie(),self.domain,signals=(1,2))
self.cinput.add_upstream(self.verb_container().clock)
self[4] = atom.Atom(names='metronome inputs')
self[4][1] = atom.Atom(domain=domain.Aniso(), policy=self.cinput.nodefault_policy(1,False),names='song beat input')
self[4][2] = atom.Atom(domain=domain.Aniso(), policy=self.cinput.nodefault_policy(2,False),names='running input')
self[5] = collection.Collection(creator=self.__createtarget,wrecker=self.__wrecktarget,names="row",inst_creator=self.__createtarget_inst,inst_wrecker=self.__wrecktarget_inst,protocols='hidden-connection explicit')
self[7] = Parameters(self)
self.__eventlist = EventList(self)
self.__playstop = node.Server(change=self.__play_change)
self.__playstop[1] = self.__eventlist
self.set_private(self.__playstop)
self.add_verb2(1,'play([],None)',create_action=self.__play,clock=True)
self.add_verb2(2,'play([un],None)',create_action=self.__unplay,clock=True)
self.add_verb2(3,'cancel([],None,role(None,[numeric]),option(called,[numeric]))',self.__cancel_verb)
self.add_verb2(4,'clear([],None)',self.__clear_verb)
self.add_verb2(5,'do([],None,role(None,[abstract]),role(when,[numeric]),option(called,[numeric]))', self.__do_verb)
self.model.playstop_set(piw.make_change_nb(utils.slowchange(self.__play_set)))
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
signature=version,
names='vu meter',
ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self[1] = atom.Atom(names='outputs')
self[1][1] = bundles.Output(OUT_LIGHT,
True,
names='light output',
protocols='revconnect')
self.output = bundles.Splitter(self.domain, self[1][1])
self.native = vu_meter_native.vu_meter(self.output.cookie(),
self.domain)
self.input = bundles.VectorInput(self.native.cookie(),
self.domain,
signals=(IN_AUDIO, ))
self[2] = atom.Atom(names='inputs')
self[2][1] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
names="audio input",
policy=self.input.vector_policy(
IN_AUDIO, policy.IsoStreamPolicy(1, -1, 0)))
self[3] = atom.Atom(names='thresholds')
self[3][1] = atom.Atom(domain=domain.BoundedFloat(-90, 0),
init=-40.0,
policy=atom.default_policy(self.__signal_level),
names='signal threshold')
self[3][2] = atom.Atom(domain=domain.BoundedFloat(-90, 0),
init=-6.0,
policy=atom.default_policy(self.__high_level),
names='high threshold')
self[3][3] = atom.Atom(domain=domain.BoundedFloat(-90, 0),
init=-1,
policy=atom.default_policy(self.__clip_level),
names='clip threshold')
self[4] = atom.Atom(domain=domain.BoundedInt(1, 100),
init=5,
policy=atom.default_policy(self.__size),
names='size')
self[5] = atom.Atom(domain=domain.BoundedFloat(0.0, 30),
init=5,
policy=atom.default_policy(self.__clip_hold),
names='clip hold')
self.__send_parameters()
def __init__(self, address, ordinal):
agent.Agent.__init__(self,
names='controller',
signature=version,
ordinal=ordinal,
protocols='controller')
self.domain = piw.clockdomain_ctl()
self[4] = ConnectorList(self)
self[3] = bundles.Output(1,
False,
names='light output',
protocols='revconnect')
self.lights = bundles.Splitter(self.domain, self[3])
self.lightconvertor = piw.lightconvertor(False, self.lights.cookie())
self.controller = Controller0(self, self.lightconvertor.cookie(),
utils.pack_str(1, 2, 3, 4, 5, 6))
self.clone = piw.clone(True)
self.clone.set_output(1, self.controller.event_cookie())
self.input = bundles.VectorInput(self.clone.cookie(),
self.domain,
signals=(1, 2, 3, 4, 5, 6))
self[1] = atom.Atom(names='inputs')
self[1][2] = atom.Atom(domain=domain.BoundedFloat(0, 1),
policy=self.input.vector_policy(3, False),
names='pressure input')
self[1][3] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(4, False),
names='roll input')
self[1][4] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(5, False),
names='yaw input')
self[1][5] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
policy=self.input.vector_policy(6, False),
names='strip position input')
self[1][6] = atom.Atom(domain=domain.Aniso(),
policy=self.input.vector_policy(1, False),
names='key input')
self[1][7] = atom.Atom(domain=domain.Aniso(),
policy=self.input.merge_nodefault_policy(
2, False),
names='controller input')
self.add_verb2(1, 'create([],None,role(None,[mass([connector])]))',
self.__create_connector)
self.add_verb2(2, 'create([un],None,role(None,[mass([connector])]))',
self.__uncreate_connector)
def __init__(self, index, vol, pan, clk, cookie, sig):
agent.Agent.__init__(self,
names='mixer channel',
ordinal=index,
protocols='bind is_subsys notagent',
subsystem='channel',
signature=version)
self.channel_mixer = piw.stereomixer(vol, pan, clk, cookie)
self.aggregator = piw.aggregator(self.channel_mixer.cookie(), clk)
self.ctl_input = bundles.ScalarInput(self.aggregator.get_output(1),
clk,
signals=(1, 2))
self.audio_input = bundles.VectorInput(self.aggregator.get_output(2),
clk,
signals=(1, 2))
self[1] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
init=0,
names='left audio input',
policy=self.audio_input.vector_policy(1, True),
protocols='obm')
self[2] = atom.Atom(domain=domain.BoundedFloat(-1, 1),
init=0,
names='right audio input',
policy=self.audio_input.vector_policy(2, True),
protocols='obm')
self[3] = atom.Atom(
domain=domain.BoundedFloat(0,
120,
hints=(T('inc', 1), T('biginc', 10),
T('control', 'updown'))),
init=50,
names='volume',
policy=self.ctl_input.policy(1,
policy.LopassStreamPolicy(1000,
0.97)),
protocols='bind input')
self[4] = atom.Atom(
domain=domain.BoundedFloat(-1,
1,
hints=(T('inc', 0.02), T('biginc', 0.2),
T('control', 'updown'))),
init=0,
names='pan',
policy=self.ctl_input.policy(2,
policy.LopassStreamPolicy(1000,
0.97)),
protocols='bind input')
def __init__(self,address, ordinal):
agent.Agent.__init__(self,signature=version,names='polyphonic summer',ordinal=ordinal)
self.domain = piw.clockdomain_ctl()
self.__timestamp = 0
self[2] = bundles.Output(1, True, names='audio output')
self.output = bundles.Splitter(self.domain, self[2])
self.summer = synth_native.polysummer(self.output.cookie(), self.domain)
self.input = bundles.VectorInput(self.summer.cookie(), self.domain, signals=(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24))
self[1] = AudioInputList(self)
self.add_verb2(1,'create([],None,role(None,[matches([channel])]))', self.__create)
self.add_verb2(2,'create([un],None,role(None,[numeric]))', self.__uncreate)
