def test_setup(self): self.add_verb2(2, 'record([],None,role(None,[mass([k])]))', self.__record) self[16] = bundles.Output(4, False, names='test running output') self.toutput = bundles.Splitter(self.domain, self[16]) self.kclone.set_filtered_output(3, self.toutput.cookie(), piw.first_filter(3))
def __init__(self,usbname,ordinal,dom,remove): agent.Agent.__init__(self,names='keyboard pico',ordinal=ordinal,signature=version,subsystem='kbd',volatile=True,container=102,protocols='is_subsys') self.usbname=usbname 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') self[6] = bundles.Output(1,False, names='breath output') self[8] = bundles.Output(2,False, names='absolute strip output') 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[7] = atom.Atom(names='light input',protocols='revconnect',policy=self.led_input.vector_policy(1,False,False,auto_slot=True),domain=domain.Aniso()) 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.soutput = bundles.Splitter(self.domain,self[5],self[8]) self.boutput = bundles.Splitter(self.domain,self[6]) self.kclone=piw.sclone() self.kclone.set_filtered_output(1,self.kpoly.cookie(),piw.first_filter(1)) self.kclone.set_filtered_output(2,self.soutput.cookie(),piw.first_filter(2)) self.kclone.set_filtered_output(3,self.boutput.cookie(),piw.first_filter(3)) self.keyboard=pkbd_native.bundle(usbname,self.kclone.cookie(),utils.notify(self.dead),utils.changify(self.signal)) self[100] = VirtualKey() #self[102] = vc self[251] = atom.Atom(domain=domain.BoundedFloat(0,1), init=self.keyboard.get_threshold1(), protocols='input output', names='soft threshold', policy=atom.default_policy(self.keyboard.set_threshold1)) self[249] = atom.Atom(domain=domain.BoundedFloat(0,1), init=self.keyboard.get_threshold2(), protocols='input output', names='hard threshold', policy=atom.default_policy(self.keyboard.set_threshold2)) self[240] = atom.Atom(domain=domain.BoundedFloat(0,1), init=self.keyboard.get_roll_axis_window(), protocols='input output', names='roll axis window', policy=atom.default_policy(self.keyboard.set_roll_axis_window)) self[241] = atom.Atom(domain=domain.BoundedFloat(0,1), init=self.keyboard.get_yaw_axis_window(), protocols='input output', names='yaw axis window', policy=atom.default_policy(self.keyboard.set_yaw_axis_window)) self[242] = atom.Atom(domain=domain.Bool(), init=False, protocols='input output nostage', names='k logging', policy=atom.default_policy(self.keyboard.enable_key_logging)) f=self.keyboard.led_functor() self.led_backend.set_functor(piw.pathnull(0),f) self[9] = atom.Atom(names='controller output',domain=domain.Aniso(),init=self.__courses())
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,ordinal,dom,remove,usbname=None,usbdev=None): self.type = 1 self.usbname = usbname self.usbdev = usbdev Keyboard.__init__(self,'alpha keyboard',ordinal,dom,remove,132) self[6] = bundles.Output(1,False,names='strip position output',ordinal=2) self[11] = bundles.Output(2,False,names='absolute strip output',ordinal=2) self.s2output = bundles.Splitter(self.domain,self[6],self[11]) self.kclone.set_filtered_output(4,self.s2output.cookie(),piw.first_filter(4)) self.test_setup() self.nativekeyboard_setup() self.set_threshhold() #define in base class self.setup_leds() #define in base class
def __init__(self, address, ordinal): # agent.Agent.__init__(self, signature=version, names='t3d device', ordinal=ordinal) self.domain = piw.clockdomain_ctl() self.domain.set_source(piw.makestring('*', 0)) self[1] = atom.Atom(names='outputs') self[1][1] = bundles.Output(1, False, names='key output') self[1][2] = bundles.Output(2, False, names='pressure output') self[1][3] = bundles.Output(3, False, names='roll output') self[1][4] = bundles.Output(4, False, names='yaw output') self[1][5] = bundles.Output(5, False, names='frequency') self[1][6] = bundles.Output(1, False, names='breath output') self[1][7] = bundles.Output(1, False, names='strip position output', ordinal=1) self[1][8] = bundles.Output(2, False, names='absolute strip output', ordinal=1) self[1][9] = bundles.Output(1, False, names='strip position output', ordinal=2) self[1][10] = bundles.Output(2, False, names='absolute strip output', ordinal=2) self[1][11] = bundles.Output(1, False, names='pedal output', ordinal=1) self[1][12] = bundles.Output(1, False, names='pedal output', ordinal=2) self[1][13] = bundles.Output(1, False, names='pedal output', ordinal=3) self[1][14] = bundles.Output(1, False, names='pedal output', ordinal=4) # key outputs self.koutput = bundles.Splitter(self.domain, self[1][1], self[1][2], self[1][3], self[1][4], self[1][5]) self.kpoly = piw.polyctl(10, self.koutput.cookie(), False, 6) # breath self.boutput = bundles.Splitter(self.domain, self[1][6]) # strips self.s1output = bundles.Splitter(self.domain, self[1][7], self[1][8]) self.s2output = bundles.Splitter(self.domain, self[1][9], self[1][10]) # pedals self.poutput1 = bundles.Splitter(self.domain, self[1][11]) self.poutput2 = bundles.Splitter(self.domain, self[1][12]) self.poutput3 = bundles.Splitter(self.domain, self[1][13]) self.poutput4 = bundles.Splitter(self.domain, self[1][14]) # now we need to set of outputs self.output = piw.sclone() self.output.set_filtered_output(OUT_KEY, self.kpoly.cookie(), piw.first_filter(OUT_KEY)) self.output.set_filtered_output(OUT_STRIP_1, self.s1output.cookie(), piw.first_filter(OUT_STRIP_1)) self.output.set_filtered_output(OUT_STRIP_2, self.s2output.cookie(), piw.first_filter(OUT_STRIP_2)) self.output.set_filtered_output(OUT_BREATH, self.boutput.cookie(), piw.first_filter(OUT_BREATH)) self.output.set_filtered_output(OUT_PEDAL_1, self.poutput1.cookie(), piw.first_filter(OUT_PEDAL_1)) self.output.set_filtered_output(OUT_PEDAL_2, self.poutput2.cookie(), piw.first_filter(OUT_PEDAL_2)) self.output.set_filtered_output(OUT_PEDAL_3, self.poutput3.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_PEDAL_4, self.poutput4.cookie(), piw.first_filter(OUT_PEDAL_4)) self.device = t3d_device(self.domain, self.output.cookie()) self[1][15] = atom.Atom(names='controller output', domain=domain.Aniso(), init=self.controllerinit()) self[3] = atom.Atom(domain=domain.BoundedInt(1, 30), init=30, policy=atom.default_policy(self.__row_size), names='row size') self[4] = atom.Atom(domain=domain.BoundedInt(1, 5), init=5, policy=atom.default_policy(self.__col_size), names='col size') self[5] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy(self.__whole_roll), names='whole roll') self[6] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy(self.__whole_yaw), names='whole yaw') self[7] = atom.Atom(domain=domain.BoundedInt(0, 9999), init=3123, policy=atom.default_policy(self.__server_port), names='server port') self.input = bundles.VectorInput(self.device.cookie(), self.domain, signals=(IN_LIGHT, )) self[8] = atom.Atom(domain=domain.BoundedInt(0, 9999), init=0, policy=atom.default_policy(self.__light_port), names='light port') self[9] = atom.Atom(domain=domain.Aniso(), protocols='revconnect', policy=self.input.vector_policy(IN_LIGHT, False, clocked=False), names="light input") self[10] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy(self.__continuous_key), names='continuous key') self[11] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy(self.__touch_mode), names='touch mode') self[12] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy(self.__quantize), names='quantize') print "t3d device connect ", self[7], ",", self[8] self.device.connect(self[7].get_value(), self[8].get_value())
def __init__(self, address, ordinal): # agent.Agent.__init__(self, signature=version, names='ableton push', ordinal=ordinal) self.domain = piw.clockdomain_ctl() self.domain.set_source(piw.makestring('*', 0)) self[1] = atom.Atom(names='outputs') self[1][1] = bundles.Output(1, False, names='key output') self[1][2] = bundles.Output(2, False, names='pressure output') self[1][3] = bundles.Output(3, False, names='roll output') self[1][4] = bundles.Output(4, False, names='yaw output') self[1][5] = bundles.Output(1, False, names='breath output') self[1][6] = bundles.Output(1, False, names='strip position output', ordinal=1) self[1][7] = bundles.Output(2, False, names='absolute strip output', ordinal=1) self[1][8] = bundles.Output(1, False, names='strip position output', ordinal=2) self[1][9] = bundles.Output(2, False, names='absolute strip output', ordinal=2) self[1][10] = bundles.Output(1, False, names='pedal output', ordinal=1) self[1][11] = bundles.Output(1, False, names='pedal output', ordinal=2) self[1][12] = bundles.Output(1, False, names='pedal output', ordinal=3) self[1][13] = bundles.Output(1, False, names='pedal output', ordinal=4) # key outputs self.koutput = bundles.Splitter(self.domain, self[1][1], self[1][2], self[1][3], self[1][4]) self.kpoly = piw.polyctl(10, self.koutput.cookie(), False, 5) # breath self.boutput = bundles.Splitter(self.domain, self[1][5]) # strips self.s1output = bundles.Splitter(self.domain, self[1][6], self[1][7]) self.s2output = bundles.Splitter(self.domain, self[1][8], self[1][9]) # pedals self.poutput1 = bundles.Splitter(self.domain, self[1][10]) self.poutput2 = bundles.Splitter(self.domain, self[1][11]) self.poutput3 = bundles.Splitter(self.domain, self[1][12]) self.poutput4 = bundles.Splitter(self.domain, self[1][13]) self[5] = bundles.Output(OUT_MIDI, False, names="midi output") self.midi_output = bundles.Splitter(self.domain, self[5]) # now we need to set of outputs self.output = piw.sclone() self.output.set_filtered_output(OUT_KEY, self.kpoly.cookie(), piw.first_filter(OUT_KEY)) self.output.set_filtered_output(OUT_STRIP_1, self.s1output.cookie(), piw.first_filter(OUT_STRIP_1)) self.output.set_filtered_output(OUT_STRIP_2, self.s2output.cookie(), piw.first_filter(OUT_STRIP_2)) self.output.set_filtered_output(OUT_BREATH, self.boutput.cookie(), piw.first_filter(OUT_BREATH)) self.output.set_filtered_output(OUT_PEDAL_1, self.poutput1.cookie(), piw.first_filter(OUT_PEDAL_1)) self.output.set_filtered_output(OUT_PEDAL_2, self.poutput2.cookie(), piw.first_filter(OUT_PEDAL_2)) self.output.set_filtered_output(OUT_PEDAL_3, self.poutput3.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_PEDAL_4, self.poutput4.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_MIDI, self.midi_output.cookie(), piw.first_filter(OUT_MIDI)) self.device = midi_device(self.domain, self.output.cookie()) self[1][14] = atom.Atom(names='controller output', domain=domain.Aniso(), init=self.controllerinit()) self.input = bundles.VectorInput(self.device.cookie(), self.domain, signals=( IN_MIDI, IN_LIGHT, )) self[2] = atom.Atom(domain=domain.Aniso(), policy=self.input.vector_policy(IN_MIDI, False), names="midi input") self[4] = atom.Atom(domain=domain.Aniso(), protocols='revconnect', policy=self.input.vector_policy(IN_LIGHT, False, clocked=False), names="light input") #values required for push self.device.channel(1) self.device.velocity_sample(4) self.device.enable_notes(True) self.device.enable_velocity(True) self.device.enable_poly_at(PRESSURE, True) self.device.set_data_freq(0) self.device.enable_control_notes(True) self.device.set_colour(1, 87) # green self.device.set_colour(2, 4) # red self.device.set_colour(3, 124) #orange self.device.set_pb_map(STRIP_1, True)
def __init__(self, address, ordinal): # agent.Agent.__init__(self, signature=version, names='continuum', ordinal=ordinal) self.domain = piw.clockdomain_ctl() self.domain.set_source(piw.makestring('*', 0)) self[1] = atom.Atom(names='outputs') self[1][1] = bundles.Output(1, False, names='key output') self[1][2] = bundles.Output(2, False, names='pressure output') self[1][3] = bundles.Output(3, False, names='roll output') self[1][4] = bundles.Output(4, False, names='yaw output') self[1][5] = bundles.Output(1, False, names='breath output') self[1][6] = bundles.Output(1, False, names='strip position output', ordinal=1) self[1][7] = bundles.Output(2, False, names='absolute strip output', ordinal=1) self[1][8] = bundles.Output(1, False, names='strip position output', ordinal=2) self[1][9] = bundles.Output(2, False, names='absolute strip output', ordinal=2) self[1][10] = bundles.Output(1, False, names='pedal output', ordinal=1) self[1][11] = bundles.Output(1, False, names='pedal output', ordinal=2) self[1][12] = bundles.Output(1, False, names='pedal output', ordinal=3) self[1][13] = bundles.Output(1, False, names='pedal output', ordinal=4) # key outputs self.koutput = bundles.Splitter(self.domain, self[1][1], self[1][2], self[1][3], self[1][4]) self.kpoly = piw.polyctl(10, self.koutput.cookie(), False, 5) # breath self.boutput = bundles.Splitter(self.domain, self[1][5]) # strips self.s1output = bundles.Splitter(self.domain, self[1][6], self[1][7]) self.s2output = bundles.Splitter(self.domain, self[1][8], self[1][9]) # pedals self.poutput1 = bundles.Splitter(self.domain, self[1][10]) self.poutput2 = bundles.Splitter(self.domain, self[1][11]) self.poutput3 = bundles.Splitter(self.domain, self[1][12]) self.poutput4 = bundles.Splitter(self.domain, self[1][13]) self[5] = bundles.Output(OUT_MIDI, False, names="midi output") self.midi_output = bundles.Splitter(self.domain, self[5]) # now we need to set of outputs self.output = piw.sclone() self.output.set_filtered_output(OUT_KEY, self.kpoly.cookie(), piw.first_filter(OUT_KEY)) self.output.set_filtered_output(OUT_STRIP_1, self.s1output.cookie(), piw.first_filter(OUT_STRIP_1)) self.output.set_filtered_output(OUT_STRIP_2, self.s2output.cookie(), piw.first_filter(OUT_STRIP_2)) self.output.set_filtered_output(OUT_BREATH, self.boutput.cookie(), piw.first_filter(OUT_BREATH)) self.output.set_filtered_output(OUT_PEDAL_1, self.poutput1.cookie(), piw.first_filter(OUT_PEDAL_1)) self.output.set_filtered_output(OUT_PEDAL_2, self.poutput2.cookie(), piw.first_filter(OUT_PEDAL_2)) self.output.set_filtered_output(OUT_PEDAL_3, self.poutput3.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_PEDAL_4, self.poutput4.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_MIDI, self.midi_output.cookie(), piw.first_filter(OUT_MIDI)) self.device = midi_device(self.domain, self.output.cookie()) self[1][14] = atom.Atom(names='controller output', domain=domain.Aniso(), init=self.controllerinit()) self.input = bundles.VectorInput(self.device.cookie(), self.domain, signals=(IN_MIDI, )) self[2] = atom.Atom(domain=domain.Aniso(), policy=self.input.vector_policy(IN_MIDI, False), names="midi input") self[3] = atom.Atom(names="inputs") self[3][1] = atom.Atom(domain=domain.BoundedInt(0, 16), init=0, policy=atom.default_policy(self.__channel), names='midi channel') self.device.set_data_freq(500) self.device.enable_notes(True) self.device.enable_velocity(True) self.device.velocity_sample( 0 ) #? Id have thought this should be >1, but perhaps we were using pressure only self.device.set_pb_map(ROLL, True) self.device.set_hires_pb_map(ROLL, 85) self.device.enable_hires_cc(True) self.device.enable_chan_at(PRESSURE, False) self.device.enable_poly_at(PRESSURE, False) self.device.set_cc_map(PRESSURE, 11) self.device.set_hires_cc_map(PRESSURE, 86) self.device.set_cc_map(ROLL, -1) self.device.set_hires_cc_map(ROLL, -1) self.device.set_cc_map(YAW, 74) self.device.set_hires_cc_map(YAW, 87) self.device.set_cc_map(STRIP_1, 1) self.device.set_cc_map(STRIP_2, 6) self.device.set_cc_map(PEDAL_1, -1) self.device.set_cc_map(PEDAL_2, -1) self.device.set_cc_map(PEDAL_3, -1) self.device.set_cc_map(PEDAL_4, -1)
def __init__(self, address, ordinal): # agent.Agent.__init__(self, signature=version, names='midi device', ordinal=ordinal) self.domain = piw.clockdomain_ctl() self.domain.set_source(piw.makestring('*', 0)) self[1] = atom.Atom(names='outputs') self[1][1] = bundles.Output(1, False, names='key output') self[1][2] = bundles.Output(2, False, names='pressure output') self[1][3] = bundles.Output(3, False, names='roll output') self[1][4] = bundles.Output(4, False, names='yaw output') self[1][5] = bundles.Output(1, False, names='breath output') self[1][6] = bundles.Output(1, False, names='strip position output', ordinal=1) self[1][7] = bundles.Output(2, False, names='absolute strip output', ordinal=1) self[1][8] = bundles.Output(1, False, names='strip position output', ordinal=2) self[1][9] = bundles.Output(2, False, names='absolute strip output', ordinal=2) self[1][10] = bundles.Output(1, False, names='pedal output', ordinal=1) self[1][11] = bundles.Output(1, False, names='pedal output', ordinal=2) self[1][12] = bundles.Output(1, False, names='pedal output', ordinal=3) self[1][13] = bundles.Output(1, False, names='pedal output', ordinal=4) # key outputs self.koutput = bundles.Splitter(self.domain, self[1][1], self[1][2], self[1][3], self[1][4]) self.kpoly = piw.polyctl(10, self.koutput.cookie(), False, 5) # breath self.boutput = bundles.Splitter(self.domain, self[1][5]) # strips self.s1output = bundles.Splitter(self.domain, self[1][6], self[1][7]) self.s2output = bundles.Splitter(self.domain, self[1][8], self[1][9]) # pedals self.poutput1 = bundles.Splitter(self.domain, self[1][10]) self.poutput2 = bundles.Splitter(self.domain, self[1][11]) self.poutput3 = bundles.Splitter(self.domain, self[1][12]) self.poutput4 = bundles.Splitter(self.domain, self[1][13]) self[5] = bundles.Output(OUT_MIDI, False, names="midi output") self.midi_output = bundles.Splitter(self.domain, self[5]) # now we need to set of outputs self.output = piw.sclone() self.output.set_filtered_output(OUT_KEY, self.kpoly.cookie(), piw.first_filter(OUT_KEY)) self.output.set_filtered_output(OUT_STRIP_1, self.s1output.cookie(), piw.first_filter(OUT_STRIP_1)) self.output.set_filtered_output(OUT_STRIP_2, self.s2output.cookie(), piw.first_filter(OUT_STRIP_2)) self.output.set_filtered_output(OUT_BREATH, self.boutput.cookie(), piw.first_filter(OUT_BREATH)) self.output.set_filtered_output(OUT_PEDAL_1, self.poutput1.cookie(), piw.first_filter(OUT_PEDAL_1)) self.output.set_filtered_output(OUT_PEDAL_2, self.poutput2.cookie(), piw.first_filter(OUT_PEDAL_2)) self.output.set_filtered_output(OUT_PEDAL_3, self.poutput3.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_PEDAL_4, self.poutput4.cookie(), piw.first_filter(OUT_PEDAL_4)) self.output.set_filtered_output(OUT_MIDI, self.midi_output.cookie(), piw.first_filter(OUT_MIDI)) self.device = midi_device(self.domain, self.output.cookie()) self[1][14] = atom.Atom(names='controller output', domain=domain.Aniso(), init=self.controllerinit()) self.input = bundles.VectorInput(self.device.cookie(), self.domain, signals=( IN_MIDI, IN_LIGHT, )) self[2] = atom.Atom(domain=domain.Aniso(), policy=self.input.vector_policy(IN_MIDI, False), names="midi input") self[4] = atom.Atom(domain=domain.Aniso(), protocols='revconnect', policy=self.input.vector_policy(IN_LIGHT, False, clocked=False), names="light input") self[3] = atom.Atom(names="inputs") self[3][1] = atom.Atom(domain=domain.BoundedInt(0, 16), init=0, policy=atom.default_policy(self.__channel), names='midi channel') self[3][2] = atom.Atom(domain=domain.BoundedInt(0, 64), init=4, policy=atom.default_policy( self.__velocity_sample), names='velocity sample') self[3][3] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy(self.__enable_notes), names='notes enable') self[3][4] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__enable_velocity), names='notes velocity enable') self[3][5] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy(self.__set_note_cc), names='note control') self[3][6] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_note_cc_pressure), names='note pressure control') # here we are just setting up some common ones to start with, and reasonable defaults self[3][7] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__enable_pb_roll), names='pitch bend roll enable') self[3][8] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_yaw_control), names='yaw control') self[3][9] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__set_chan_at_cc), names='channel pressure') self[3][10] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__set_poly_at_cc), names='polyphonic pressure') self[3][11] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__set_hires_cc), names='high resolution control') self[3][12] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=2, policy=atom.default_policy( self.__set_breath_control), names='breath control') self[3][13] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__set_breath_release), names='breath release') self[3][14] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__set_breath_bipolar), names='breath bipolar') self[3][15] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__set_breath_relative), names='breath relative') self[3][16] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=1, policy=atom.default_policy( self.__set_strip_1_control), names='strip 1 control') self[3][17] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__set_strip_1_release), names='strip 1 release') self[3][18] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__set_strip_1_bipolar), names='strip 1 bipolar') # self[3][19] = atom.Atom(domain=domain.Bool(),init=False,policy=atom.default_policy(self.__set_strip_1_relative),names='strip 1 relative') self[3][20] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_strip_2_control), names='strip 2 control') self[3][21] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__set_strip_2_release), names='strip 2 release') self[3][22] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__set_strip_2_bipolar), names='strip 2 bipolar') # self[3][23] = atom.Atom(domain=domain.Bool(),init=True,policy=atom.default_policy(self.__set_strip_2_relative),names='strip 1 relative') self[3][24] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_roll_control), names='roll control') self[3][25] = atom.Atom(domain=domain.BoundedInt(0, 5000), init=0, policy=atom.default_policy( self.__set_data_freq), names='data frequency') self[3][26] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_pressure_control), names='pressure control') self[3][27] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_hires_pressure_control), names='pressure high control') self[3][28] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_hires_roll_control), names='roll high control') self[3][29] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_hires_yaw_control), names='yaw high control') self[3][30] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_hires_pb_control), names='pitch bend high control') self[3][31] = atom.Atom(domain=domain.Bool(), init=False, policy=atom.default_policy( self.__enable_control_notes), names='notes control enable') self[3][32] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_pedal_1_control), names='pedal 1 control') self[3][33] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_pedal_2_control), names='pedal 2 control') self[3][34] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_pedal_3_control), names='pedal 3 control') self[3][35] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=-1, policy=atom.default_policy( self.__set_pedal_4_control), names='pedal 4 control') self[3][36] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=0, policy=atom.default_policy( self.__set_off_colour), names='off colour') self[3][37] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=4, policy=atom.default_policy( self.__set_red_colour), names='red colour') self[3][38] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=124, policy=atom.default_policy( self.__set_orange_colour), names='orange colour') self[3][39] = atom.Atom(domain=domain.BoundedInt(-1, 127), init=87, policy=atom.default_policy( self.__set_green_colour), names='green colour') self[3][40] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__enable_pb_strip_1), names='pitch bend strip 1 enable') self[3][41] = atom.Atom(domain=domain.Bool(), init=True, policy=atom.default_policy( self.__enable_pb_strip_2), names='pitch bend strip 2 enable')