def __init__(self):
self.trig = pyo.Trig()
self.envTableList = [(i*8192/15,1./(i+1)) for i in range(16)]
self.envTableList[0] = (0,0) # finite attack
self.envTable = pyo.CurveTable(self.envTableList)
self.env = pyo.TrigEnv(self.trig, table=self.envTable, dur=0.6, mul=[0.,0.])
self.fm = pyo.FM(carrier=[0.,0.], mul=self.env, ratio=1, index=4).out()
def __init__(self):
self.trig = pyo.Trig()
decaytable = pyo.LinTable(list=[(0, 1.0), (8191, 0.0)])
self.env = pyo.TrigEnv(self.trig, table=decaytable, dur=0.6, mul=.25)
waveform = pyo.SquareTable()
self.osc = pyo.Osc(waveform, freq=[0.,0.], mul=self.env[0])
self.output = self.osc.out()
def __init__(self):
self.trig = pyo.Trig()
decaytable = pyo.LinTable(list=[(0,0), (100, 1.0), (8191, 0.0)])
self.env = pyo.TrigEnv(self.trig, table=decaytable, dur=0.6, mul=[0,0])
self.spectrum = [1.]+[0.]*15 # 16 total
self.waveform = pyo.HarmTable(self.spectrum)
self.osc = pyo.Osc(self.waveform, freq=[0.,0.], mul=self.env)
self.filter = pyo.Biquad(self.osc, freq=[300.,300.], type=2, q=2.)
self.output = self.filter.out()
def __init__(self, freq=500):
self.trig = pyo.Trig()
self.decayTable = pyo.ExpTable([(0,1),(8191,0.001)], exp=5, inverse=False)
self.growthTable = pyo.ExpTable([(0,freq),(8191,2*freq)], exp=5, inverse=True)
self.env = pyo.TrigEnv(self.trig, table=self.decayTable, dur=0.1, mul=0).mix(2)
self.sweep = pyo.TrigEnv(self.trig, table=self.growthTable, dur=0.1)
self.sin = pyo.Sine(freq=self.sweep, mul=self.env)
#self.output = pyo.Delay(self.sin, delay=0.1, feedback=0.5).out()
self.output = pyo.Freeverb(self.sin, size=[.79,.8], damp=.9, bal=.3).out()
def build(self):
self._beat_dur = 60.0 / self.data.bpm
self._ticks_per_beat = self._beat_dur * srate
self._trig = pyo.Trig()
self.pos = pyo.Count(self._trig,
min=0,
max=int(self._ticks_per_beat),
mul=1. / self._ticks_per_beat)
self.trigger = pyo.Thresh(self.pos, 0.7, dir=1)
def __init__(self):
self.fader = pyo.Fader(fadein=0.5, fadeout=0.5)
self.lfoo0 = pyo.LFO(freq=0.01, mul=1, type=3)
self.lfoo1 = pyo.Sine(freq=0.02, mul=1)
self.lfo = pyo.Sine(freq=self.lfoo0 + self.lfoo1, mul=1)
self.generator = pyo.SineLoop(freq=100,
feedback=0.015 +
((1 + self.lfo) * 0.025),
mul=[self.fader, 0, 0])
self.generator.stop()
self.stop()
self._mul = self.max_vol
self._mul_setter = pyo.Trig()
def __init__(self, input, buf_size=SAMPLE_RATE, buffer_count=2, overlap=0):
"""
Parameters
----------
input : PyoObject
Parent PyoObject
length : int
Number of samples per buffer
buffer_count : int
Number of buffers used to record (min 2)
overlap : int
Number of overlapping samples between adjacent buffers
"""
self.buf_size = buf_size
duration = (buf_size - overlap) / SAMPLE_RATE
self.last_thread = None
self.data_ready = pyo.Trig()
self.rec_triggers = []
self.tables = []
self.ends = []
self.overlap = overlap
self.overlap_buffer = np.zeros(self.overlap)
self.buffer_count = buffer_count
self.curr_buf = 0
self.playing = False
self.np_buffer = None
for i in range(buffer_count):
self.rec_triggers.append(pyo.Trig())
self.tables.append(pyo.NewTable(duration))
table_rec = pyo.TrigTableRec(input, self.rec_triggers[i],
self.tables[i])
self.ends.append(pyo.TrigFunc(table_rec['trig'], self._table_full))
self._base_objs = self.data_ready.getBaseObjects()
self._trig_objs = self._base_objs
def __init__(
self,
modules: tuple,
):
# init private attributes
self._cues = []
self._modules = tuple(modules)
self._current_active_cue = None
self._current_potential_cue = 0
# init trigger
self._new_cue_trigger = pyo.Trig()
self._stop_cue_trigger = pyo.Trig()
self._changed_potential_cue_trigger = pyo.Trig()
# add korg nano control support
self._add_thresh_button("previous", self.previous_cue)
self._add_thresh_button("next", self.next_cue)
self._add_thresh_button("play", self.play)
self._add_thresh_button("stop", self.stop)
# init logger
self._active_module_logger = loclog.ModuleLogger(self)
self._cue_logger = loclog.CueLogger(self)
def __init__(self) -> None:
self.fader = pyo.Fader(fadein=0.005, fadeout=self._fadeout_time)
self.trigger1 = pyo.Trig()
self._mul = self.max_vol
self.spatialisation = [[pyo.Sig(0) for _ in range(4)]
for _ in range(2)]
self.table_reads = [
pyo.TableRead(
table,
freq=table.getRate(),
) for table in self.snd_tables[0]
]
self.processed_tables = [
pyo.ButLP(table_read, freq=6000) for table_read in self.table_reads
]
self.spatialised_tables = [
pyo.Mix(signal,
voices=4,
mul=[self.fader * spat_value for spat_value in spat])
for signal, spat in zip(self.processed_tables, self.spatialisation)
]
self.generator = self.spatialised_tables[0] + self.spatialised_tables[1]
def __init__(self):
self.trig = pyo.Trig()
decaytable = pyo.LinTable(list=[(0,0), (100, 1.0), (8191, 0.0)])
self.env = pyo.TrigEnv(self.trig, table=decaytable, dur=0.3, mul=.25)
self.osc = pyo.Sine(freq=[0.,0.], mul=self.env[0])
self.output = self.osc.out()
def __init__(self, freq):
self.trig = pyo.Trig()
decaytable = pyo.LinTable(list=[(0, 1.0), (8191, 0.0)])
self.env = pyo.TrigEnv(self.trig, table=decaytable, dur=0.6, mul=0.2)
self.osc = pyo.Sine(freq=freq, mul=self.env).mix(2)
self.output = self.osc.out()
def __init__(self, server: pyo.Server, midi_data_logger):
self.midi_data_logger = midi_data_logger
self.server = server
self.previous_hauptstimme_instrument = set([])
self.instrument_change_trigger = pyo.Trig()
self.pianoteq_trigger = pyo.Trig()
self.sine_mixer = pyo.Mixer(outs=3, chnls=1, mul=0.3)
self.sine_radio_mixer = pyo.Mixer(outs=4, chnls=1, mul=0.3)
self.gong_mixer = pyo.Mixer(outs=4, chnls=1, time=0.05, mul=1)
self.transducer_synth = TransducerSynth(
self._n_voices_for_transducer_synth)
self.gong_synth = GongSynth(self._n_voices_for_gong_synth)
self.kenong_synth = KenongSynth(self._n_voices_for_kenong_synth)
self.pitch_stack = PitchStack()
# sending transducer outputs to sine mixer & sine radio mixer
for n in range(3):
signal = self.transducer_synth.mixer[0][n]
self.sine_mixer.addInput(n, signal)
self.sine_mixer.setAmp(n, n, 1)
self.sine_radio_mixer.addInput(n, signal)
for m in range(4):
# TODO(which amp?)
self.sine_mixer.setAmp(n, m, 1)
self.sine_radio_mixer.setAmp(n, m, 1)
# sending gong outputs and kenong outputs to gong mixer
for n, mixer in enumerate(
(self.kenong_synth.mixer, self.gong_synth.mixer)):
added = 4 * n
for n in range(4):
signal = mixer[0][n]
self.gong_mixer.addInput(n + added, signal)
self.gong_mixer.setAmp(n + added, n, 1)
# sending all transducer and gong inputs out
for mixer, mixer2channel_mapping in (
(self.sine_mixer, settings.SINE_MIXER_INSTRUMENT2CHANNEL_MAPPING),
(
self.sine_radio_mixer,
settings.SINE_TO_RADIO_MIXER_INSTRUMENT2CHANNEL_MAPPING,
),
(self.gong_mixer, settings.GONG_MIXER2CHANNEL_MAPPING),
):
[mixer[i][0].play() for i in mixer2channel_mapping.values()]
self.notes = pyo.Notein(
poly=self._n_voices,
last=self._last_midi_note,
channel=0,
)
self.trigger_on = pyo.TrigFunc(
self.notes["trigon"],
self._trigger_on_function,
arg=list(range(self._n_voices)),
)
self.trigger_off = pyo.TrigFunc(
self.notes["trigoff"],
self._trigger_off_function,
arg=list(range(self._n_voices)),
)
self.sustain_pedal = pyo.Midictl(
settings.KEYBOARD_PEDAL_CTRL_NUMBER,
0,
1,
init=0,
channel=settings.KEYBOARD_CHANNEL,
)
def __init__(self, master=None, experiment=[], logger=None):
###########################
# INIT EXPERIMENT
###########################
self.experiment=experiment
###########################
# INIT LOGGING
###########################
self.logger=logger
self.currentTrial = 0
self.currentBlock = 0
self.blockType = 0
self.mouse = 0
###########################
# INIT TIMING
###########################
#self.t = timr(1, self.runexperiment) #placeholder to make sure the variable exists
self.timers = []
###########################
# INIT VISUAL
###########################
self.waitForRatingAnswer = False
self.waitForRatingAnswer2 = False
self.numRects = 4
self.rects=range(self.numRects)
self.screenWidth = 640
self.screenHeight = 480
Frame.__init__(self,master)
self.grid()
self.userPrompt = StringVar()
# moved these up here so they only happen once
pianoimage = Image.open(KEYBOARD_IMAGE)
self.pianoImage = ImageTk.PhotoImage(pianoimage)
sliderimage = Image.open(SLIDER_IMAGE)
self.sliderImage = ImageTk.PhotoImage(sliderimage)
self.fingerString = StringVar()
self.qString = StringVar()
self.countString = StringVar()
self.create_GUI()
###########################
# INIT AUDI
###########################
self.s = pyo.Server(buffersize = 8, nchnls = 1)
# before booting the server, I'll prompt the user to choose an input device
# NOTE: This can be hard-coded later if you always want it to choose a specific MIDI input device
# pyo.pm_list_devices()
# self.choice = input("Which device will you choose?")
# self.s.setMidiInputDevice(int(self.choice))
self.s.setMidiInputDevice(int(3))
self.s.boot()
self.s.start()
# test = pyo.LFO(freq=440.0).out()
time.sleep(1) # settling time
# test.stop()
# MIDI Stuff
self.refnote = 72
self.polynum = 4
self.pianosound = range(self.polynum)
self.notes = pyo.Notein(poly=self.polynum, scale=0, mul=0.5)
self.enablePlayback = False
self.enableNoteLogging = False
self.noteTrig = pyo.TrigFunc(self.notes['trigon'],self.onNoteon,range(self.polynum))
#for p in range(polynum):
# note trigger mixer
self.trigmix = pyo.Mixer(1,self.polynum)
for p in range(self.polynum):
self.trigmix.addInput(p,self.notes['trigon'][p])
self.trigmix.setAmp(p,0,1.0)
self.polyNoteTrig = self.trigmix[0]
global midikeymapping # needs to be visible everywhere
midikeymapping = 1 # set mapping to 1 to start with
# preload sound files
self.melodies = []
self.extract = []
for i in range(self.polynum):
self.pianosound[i] = pyo.SfPlayer(EXTRACT_DIR + PIANO_FILE[0], speed=1, loop=False, offset=0, interp=2, mul=1, add=0)
for fname in STIM_FILES:
self.melodies.append(pyo.SfPlayer(STIM_DIR + fname, mul=0.5))
for fname in EXTRACT_FILES:
self.extract.append(pyo.SfPlayer(EXTRACT_DIR + fname, mul=0.5))
self.metronome = pyo.SfPlayer(EXTRACT_DIR + METRO_FILE[0], mul=0.5)
# prepare sequence and timing triggers
# metroSeq launches the metronome
self.trialMetroSeq = pyo.Seq(time=NOTEDUR/1000.0, seq=[3,3,3,1], poly=1, onlyonce=True, speed=1)
self.expectedKeySeq = pyo.Seq(time=NOTEDUR/1000.0, seq=[9,1,1,1,1], poly=1, onlyonce=True, speed=1)
# trialStartTrigger will be manually launched when we want to start a trial
self.trialStartTrigger = pyo.Trig().stop()
self.warmuptrialStartTrigger = pyo.Trig().stop()
self.dummyTrigger = pyo.Trig().stop()
self.timerLogsEnabled = False
# eventTimer will measure the time between trial events
# eventTimer is initially triggered by the trial start, but will later be switched to measure between note events
self.trialEventTimer = pyo.Timer(self.polyNoteTrig,self.trialStartTrigger)
self.expectedEventTimer = pyo.Timer(self.expectedKeySeq,self.expectedKeySeq)
self.timerMeasurement = pyo.DataTable(1)
self.lastTimerMeasurement = 0.0
self.expectedMeasurement = pyo.DataTable(1)
self.lastExpectedMeasurement = 0.0
self.measurementRecorder = pyo.TablePut(self.trialEventTimer, self.timerMeasurement).play()
self.expectedRecorder = pyo.TablePut(self.expectedEventTimer, self.expectedMeasurement).play()
self.resetAtStim = False
# triggers for the optimized stim delivery
self.t1 = pyo.TrigFunc(self.trialStartTrigger,self.playAudioExtract)
self.t2 = pyo.TrigFunc(self.trialStartTrigger,self.trialMetroSeq.out)
self.t2b = pyo.TrigFunc(self.trialStartTrigger,self.expectedKeySeq.out)
self.t3 = pyo.TrigFunc(self.trialMetroSeq,self.playMetronome)
# self.t3 = pyo.TrigFunc(self.trialMetroSeq,self.metronome.out)
self.t4 = pyo.TrigFunc(self.polyNoteTrig,self.noteTiming)
self.t5 = pyo.TrigFunc(self.expectedKeySeq,self.expectedTiming)
# triggers for the optimized stim delivery in training
#self.t1 = pyo.TrigFunc(self.warmuptrialStartTrigger,self.playAudioExtract)
self.t6 = pyo.TrigFunc(self.warmuptrialStartTrigger,self.trialMetroSeq.out)
self.t7 = pyo.TrigFunc(self.warmuptrialStartTrigger,self.expectedKeySeq.out)
# self.t3 = pyo.TrigFunc(self.trialMetroSeq,self.playMetronome)
# self.t3 = pyo.TrigFunc(self.trialMetroSeq,self.metronome.out)
# self.t4 = pyo.TrigFunc(self.notes['trigon'],self.noteTiming)
# self.t5 = pyo.TrigFunc(self.expectedKeySeq,self.expectedTiming)
###########################
# INIT INPUT DEVICES
###########################
self.set_keybinds()
self.waitForSpacebar = True
############################
self.enableAudioFeedback = False
self.QUIT = False
self.pause = False
