def makeArps(seg, oct=3, reps=4):
arp_degrees = [1,2,3,5,8,9,10]
if dsp.randint(0,1) == 0:
arp_degrees.reverse()
arp_degrees = dsp.rotate(arp_degrees, vary=True)
arp_notes = tune.fromdegrees(arp_degrees[:reps], oct, 'e')
arps = ''
arp_count = 0
for arp_length in seg:
arp_length /= 2
arp_pair = arp_notes[ arp_count % len(arp_notes) ], arp_notes[ (arp_count + 1) % len(arp_notes) ]
arp_one = dsp.tone(arp_length, wavetype='tri', freq=arp_pair[0], amp=0.075)
arp_one = dsp.env(arp_one, 'random')
arp_two = dsp.tone(arp_length, wavetype='tri', freq=arp_pair[1], amp=0.08)
arp_two = dsp.env(arp_two, 'random')
arps += arp_one + arp_two
arp_count += 2
arps = dsp.env(arps, 'random')
arps = dsp.pan(arps, dsp.rand())
return arps
def makeStab(length, i):
chord = tune.fromdegrees([ dsp.randchoose([1,4,5,8]) for _ in range(dsp.randint(2,4)) ], octave=3, root=key)
stab = rhodesChord(length, chord, dsp.rand(0.5, 0.75))
stab = dsp.taper(stab, 40)
stab = dsp.fill(stab, length, silence=True)
return stab
def play(ctl):
dpc = ctl.get('midi').get('dpc')
lpd = ctl.get('midi').get('lpd')
print lpd.get(1)
dpc.setOffset(111)
pw = dpc.get(1, low=0.01, high=1)
scale = [1, 2, 3, 6, 9]
scale = [1, 4, 6, 8]
scale = [1, 3, 5, 9]
scale = tune.fromdegrees(scale, octave = dpc.geti(4, low=0, high=4))
freq = dsp.randchoose(scale)
length = dsp.stf(dpc.get(2, low=0.1, high=8) * dsp.rand(0.5, 1.5))
wf = dsp.wavetable('sine2pi')
win = dsp.wavetable('sine')
mod = [ dsp.rand(0, 1) for m in range(1000) ]
modr = dpc.get(5, low=0, high=0.3)
modf = dpc.get(6, low=0.001, high=10)
amp = dpc.get(3, low=0, high=1)
out = dsp.pulsar(freq, length, pw, wf, win, mod, modr, modf, amp)
out = dsp.env(out, dsp.randchoose(['sine', 'tri']))
out = dsp.pan(out, dsp.rand())
return out
def makeStab(length, i):
freqs = tune.fromdegrees([ dsp.randchoose([1,2,3,4,5,6,8]) for _ in range(dsp.randint(2,4)) ], octave=3, root=key)
stab = chord(length, freqs, dsp.rand(0.25, 0.75))
stab = dsp.taper(stab, 40)
stab = dsp.fill(stab, length, silence=True)
return stab
def play(ctl):
freqs = tune.fromdegrees([1,3,6,8,9], octave=4, root='a')
freq = dsp.randchoose(freqs)
length = dsp.stf(dsp.rand(3, 5))
out = keys.rhodes(length, freq)
return out
def play(voice_id):
bpm = config('bpm')
beat = dsp.bpm2frames(bpm)
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
bar = beat * dsp.randchoose([8, 16, 32])
groot = tune.ntf('c')
scale = tune.fromdegrees([1,3,5,6,8,9], root=root, octave=2, ratios=ratios)
v = dsp.read('sounds/vibesc1.wav').data
out = ''
# lens = [ bar / 5, bar / 8, bar / 12 ]
lens = [ bar / 6, bar / 8, bar / 16 ]
maxbend = 2
maxbend = 0.02
layers = []
for nlen in lens:
layer = ''
nlen /= 2
note = dsp.transpose(v, (dsp.randchoose(scale) * 2**dsp.randint(0, 3)) / groot)
note = dsp.fill(note, nlen)
note = dsp.env(note, 'phasor')
note = dsp.amp(note, 0.125)
nbeats = bar / nlen
for b in range(nbeats):
b = dsp.pan(note, dsp.rand())
b = dsp.drift(b, dsp.rand(0, dsp.rand(0.01, maxbend)))
if dsp.flen(b) < nlen:
b = dsp.pad(b, 0, nlen - dsp.flen(b))
# if dsp.rand() > 0.5:
# b = dsp.vsplit(b, dsp.flen(b) / 3, dsp.flen(b) / 2)
# b = dsp.randshuffle(b)
# b = [ dsp.amp(bb, dsp.rand(0.5, 2)) for bb in b ]
# b = ''.join(b)
layer += b
# layer = dsp.fill(layer, bar)
layers += [ layer ]
out = dsp.mix(layers)
out = dsp.fill(out, bar)
return out
def play(voice_id):
tel = bot.getTel()
degrees = [ dsp.randchoose([1, 2, 3, 5, 6, 8]) for f in range(dsp.randint(2, 20)) ]
#degrees = [ dsp.randchoose([1, 5, 6, 7, 8]) for f in range(dsp.randint(2, 10)) ]
octave = dsp.randint(1, 4)
freqs = tune.fromdegrees(degrees, root='c', octave=octave, ratios=tune.terry)
out = ''
for r in range(dsp.randint(2, 20)):
freq = dsp.randchoose(freqs)
waveform = dsp.randchoose(['tri', 'sine2pi'])
length = dsp.randint(dsp.mstf(1), dsp.mstf(4000))
#length = dsp.mstf(1500)
#length = dsp.mstf(2500)
pulsewidth = dsp.rand(0.01, 1)
mod = dsp.breakpoint([ dsp.rand() for b in range(int(round(tel['density'])) + 3) ], 512)
window = dsp.breakpoint([0] + [ dsp.rand() for b in range(int(round(tel['harmonicity'] * 2)) + 3) ] + [0], 512)
waveform = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for b in range(int(round(tel['roughness'] * dsp.randint(1, 4))) + 3) ] + [0], 512)
modRange = dsp.rand(0.01, 100.08)
modFreq = dsp.rand(0.0001, 5)
volume = dsp.rand(0.2, 0.3) * (tel['density'] / 10.0)
#volume = dsp.rand(0.2, 0.8)
t = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, volume)
#t = dsp.tone(length, freq, waveform)
t = dsp.pan(t, dsp.rand())
t = dsp.alias(t)
t = dsp.amp(t, dsp.rand(0.5, 15.0))
t = dsp.pad(t, 0, dsp.randint(dsp.mstf(1), dsp.mstf(10)))
t = dsp.amp(t, dsp.rand(0.5, 0.95))
t = dsp.env(t, 'sine')
#t = dsp.env(t, 'phasor')
#t = dsp.pine(t, dsp.flen(t) * 4, freq)
out += t
dsp.log('')
dsp.log('boone')
dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
bot.show_telemetry(tel)
return out
def makePulse(length, i):
freqs = tune.fromdegrees([ dsp.randchoose([1,2,3,4,5,6,8]) for _ in range(dsp.randint(2,4)) ], octave=2, root=key)
pulse = chord(length, freqs, dsp.rand(0.5, 0.75))
pulse = dsp.taper(pulse, 40)
pulse = dsp.amp(pulse, dsp.rand(0.5, 1))
pulse = dsp.fill(pulse, length, silence=True)
return pulse
def sequence(tonic='g'):
numdegrees = dsp.randint(2, 8)
degrees = [1,5,8,11,12]
#scale = [ dsp.randchoose(degrees) for i in range(numdegrees) ]
scale = degrees[dsp.randint(0, 3):]
scale = dsp.randshuffle(scale)
scale = tune.fromdegrees(scale, 1, tonic, tune.major, tune.terry)
return scale
def makeLongChord(seg):
degrees = [dsp.randint(1, 9) for _ in range(dsp.randint(2, 4))]
long_chord = chord(sum(seg), [
freq * 2**dsp.randint(0, 5)
for freq in tune.fromdegrees(degrees, octave=1, root=key)
], dsp.rand(0.15, 0.35))
long_chord = dsp.fill(long_chord, sum(seg))
return long_chord
def makePulse(length, i):
chord = tune.fromdegrees([ dsp.randchoose([1,4,5,8]) for _ in range(dsp.randint(2,4)) ], octave=2, root=key)
pulse = rhodesChord(length, chord, dsp.rand(0.5, 0.75))
#pulse = dsp.mix([ pulse, kick ])
pulse = dsp.taper(pulse, 40)
pulse = dsp.amp(pulse, dsp.rand(0.9, 1.5))
pulse = dsp.fill(pulse, length, silence=True)
return pulse
def makeStab(length, i):
freqs = tune.fromdegrees([
dsp.randchoose([1, 2, 3, 4, 5, 6, 8]) for _ in range(dsp.randint(2, 4))
],
octave=3,
root=key)
stab = chord(length, freqs, dsp.rand(0.25, 0.75))
stab = dsp.taper(stab, 40)
stab = dsp.fill(stab, length, silence=True)
return stab
def singit(lyrics, mult):
words = text2wave(lyrics)
pitches = [ dsp.randint(1, 10) for i in range(dsp.randint(2, 4)) ]
pitches = tune.fromdegrees(pitches, octave=dsp.randint(1, 4), root='a')
sings = [ dsp.pine(words, dsp.flen(words) * mult, pitch) for pitch in pitches ]
sings = dsp.mix(sings)
sings = sox("sox %s %s tempo 5.0", sings)
return sings
def makePulse(length, i):
freqs = tune.fromdegrees([
dsp.randchoose([1, 2, 3, 4, 5, 6, 8]) for _ in range(dsp.randint(2, 4))
],
octave=2,
root=key)
pulse = chord(length, freqs, dsp.rand(0.5, 0.75))
pulse = dsp.taper(pulse, 40)
pulse = dsp.amp(pulse, dsp.rand(0.5, 1))
pulse = dsp.fill(pulse, length, silence=True)
return pulse
def make_chords():
roots = []
lastroot = 1
for root in range(6):
roots += [ lastroot ]
nextroot = choose_interval(lastroot)
lastroot = nextroot
print roots
freqs = [ tune.fromdegrees([ cr - 1 for cr in chords[root]], 3, 'c', scale=range(12)) for root in roots ]
return freqs
def play(voice_id):
tel = bot.getTel()
freqs = tune.fromdegrees([ dsp.randchoose([1, 2, 3, 5, 6, 8]) for f in range(dsp.randint(2, 5)) ], root='c', octave=dsp.randint(1, 3), ratios=tune.just)
out = ''
for freq in freqs:
waveform = dsp.randchoose(['tri', 'sine2pi'])
length = dsp.randint(dsp.mstf(10), dsp.mstf(300))
#length = dsp.mstf(150)
pulsewidth = dsp.rand()
mod = dsp.breakpoint([ dsp.rand() for b in range(int(round(tel['density'])) + 3) ], 512)
window = dsp.breakpoint([0] + [ dsp.rand() for b in range(int(round(tel['harmonicity'] * 2)) + 3) ] + [0], 512)
waveform = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for b in range(int(round(tel['roughness'] * 3)) + 3) ] + [0], 512)
modRange = 0.005
modFreq = dsp.rand(0.0001, 5)
volume = dsp.rand(0.2, 0.3)
if dsp.rand(0, 100) > 50:
t = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, volume)
else:
t = dsp.tone(length, freq, waveform)
#t = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, volume)
#t = dsp.tone(length, freq, waveform)
t = dsp.pan(t, dsp.rand())
t = dsp.alias(t)
t = dsp.amp(t, dsp.rand(0.5, 5.0))
t = dsp.pad(t, 0, dsp.randint(dsp.mstf(1), dsp.mstf(500)))
#t = dsp.pad(t, 0, dsp.mstf(100))
t = dsp.amp(t, dsp.rand(0.5, 0.75))
#out += dsp.env(t, 'sine')
out += t
#out = dsp.env(t, 'sine')
dsp.log('')
dsp.log('boone')
dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
bot.show_telemetry(tel)
return out
def that(li):
print 'layer', li
freqs = tune.fromdegrees([ dsp.randint(1, 20) for f in range(dsp.randint(3, 6)) ], octave = 3)
length = dsp.stf(dsp.rand(10, 20))
layers = []
for fi, freq in enumerate(freqs):
print ' tone', fi, round(dsp.fts(length), 2)
waveform = dsp.randchoose(['sine2pi', 'tri', 'hann'])
waveform = dsp.wavetable(waveform, 512)
window = dsp.randchoose(['sine', 'tri', 'hann'])
window = dsp.wavetable(window, 512)
pulsewidth = dsp.rand(0.1, 1)
modFreq = dsp.rand(0.1, 10.0) / dsp.fts(length)
numgrains = length / 32
numpoints = dsp.randint(2, 6)
apoints = [0] + [dsp.rand(0, 1) for p in range(numpoints - 2)] + [0]
ppoints = [dsp.rand(0, 1) for p in range(numpoints)]
e = dsp.breakpoint(apoints, numgrains)
p = dsp.breakpoint(ppoints, numgrains)
mod = dsp.wavetable('random', 512)
modRange = dsp.rand(0, 0.001)
print ' ', round(freq, 2), round(modRange, 3), round(modFreq, 3)
layer = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, 0.1)
layer = dsp.split(layer, dsp.flen(layer) / numgrains)
layer = layer[:numgrains]
layer = [ dsp.pan(dsp.amp(layer[i], e[i]), p[i]) for i in range(numgrains) ]
layer = ''.join(layer)
layers += [ layer ]
out = dsp.mix(layers)
return out
def make_pulses(degrees, bpm):
freqs = tune.fromdegrees(degrees, 3, 'c')
layers = []
for freq in freqs:
l = dsp.pine(dsp.amp(thirty, 0.5), int(dsp.flen(thirty) * 20), freq)
l = dsp.pan(l, dsp.rand())
layers += [ l ]
t = dsp.mix(layers)
t = dsp.split(t, dsp.mstf(dsp.bpm2ms(bpm)))
t = dsp.randshuffle(t)
return ''.join(t)
def play(voice_id):
bpm = config('bpm')
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
bendfactor = 0.05
# bendfactor = 0
bdiv = 4
bdiv *= dsp.randchoose([16, 24, 32])
loctave = 1
hoctave = 4
si = 32 * dsp.randint(1, 2)
beat = dsp.bpm2frames(bpm) / bdiv
y = [ easeOutQuad(float(i), 0, 1, si) for i in range(si) ]
z = [ easeOutQuad(float(i), 0, 1, si) for i in reversed(range(si)) ]
freqs = tune.fromdegrees([1,2,3,4,5,6,7,8], root=root, octave=dsp.randint(loctave, hoctave), ratios=ratios, scale=quality)
freqs = freqs[:dsp.randint(1, len(freqs))]
if dsp.rand() > 0.5:
freqs = [ f for f in reversed(freqs) ]
freqs = dsp.rotate(freqs, dsp.randint(0, len(freqs)))
y = y + z
y = [ dsp.mstf(v * beat) + dsp.mstf(2) for v in y ]
x = range(len(y))
def make(length, freq):
freq *= dsp.rand(1 - (bendfactor / 2.0), 1 + (bendfactor / 2.0))
out = keys.chippy(length=int(length*dsp.rand(0.01, 0.4)), freq=freq, amp=0.7)
out = dsp.env(out, 'phasor')
out = dsp.pad(out, 0, length - dsp.flen(out))
return out
out = [ make(v, freqs[i % len(freqs)]) for i,v in enumerate(y) ]
out = ''.join(out)
out = dsp.pan(out, dsp.rand(0,1))
return out
def singit(lyrics, mult):
words = text2wave(lyrics)
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
pitches = [ dsp.randint(1, 9) for i in range(dsp.randint(2, 4)) ]
pitches = tune.fromdegrees(pitches, octave=dsp.randint(1, 4), root=root, ratios=ratios, scale=quality)
return words
sings = [ dsp.pine(words, dsp.flen(words) * mult, pitch) for pitch in pitches ]
sings = dsp.mix(sings)
# sings = sox("sox %s %s tempo 1.0", sings)
return sings
def play(ctl):
param = ctl.get('param')
lpd = ctl.get('midi').get('lpd')
pw = lpd.get(7, low=0.001, high=1, default=1)
modr = dsp.rand(0, 0.005)
modf = dsp.rand(0.01, 0.05)
amp = lpd.get(8, low=0, high=2, default=0)
length = dsp.mstf(lpd.get(6, low=40, high=1000, default=100))
divs = [1, 2, 3.0, 4]
div = divs[lpd.geti(5, low=0, high=len(divs) - 1)]
#div = dsp.randchoose(divs)
length = int(length / div)
wf = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for w in range(5) ] + [0], 512)
wf = dsp.wavetable('sine2pi', 512)
win = dsp.wavetable('sine', 512)
mod = dsp.breakpoint([0] + [ dsp.rand(0, 1) for m in range(5) ] + [0], 512)
layers = []
chord = [ dsp.randchoose([1, 3, 5, 6, 8, 16]) for c in range(dsp.randint(2, 4)) ]
notes = tune.fromdegrees(chord, root='d', octave=dsp.randint(1, 2))
for freq in notes:
a = amp * dsp.rand(0.1, 0.75)
layer = dsp.pulsar(freq, length, pw, wf, win, mod, modr, modf, a)
layer = dsp.pan(layer, dsp.rand())
layers += [ layer ]
out = dsp.mix(layers)
out = dsp.taper(out)
out = dsp.env(out, 'phasor')
#out = dsp.pad(out, 0, length)
#out = out * 4
return out
def play(ctl):
lpd = ctl.get('midi').get('lpd')
def rain(snd, freqs):
layers = []
for freq in freqs:
#layer = dsp.pine(snd, dsp.flen(snd) * 16, freq)
layer = dsp.pan(snd, dsp.rand())
layer = dsp.amp(layer, 0.5)
layer = dsp.alias(layer)
layers += [ layer ]
return dsp.mix(layers)
wf = dsp.breakpoint([0] + [ dsp.rand(-1,1) for w in range(lpd.geti(7, low=4, high=200, default=0)) ] + [0], 512)
win = dsp.wavetable('sine', 512)
mod = [ dsp.rand(0, 1) for m in range(512) ]
modr = lpd.get(5, low=0.01, high=1, default=1)
modf = dsp.rand(0.5, 2)
amp = lpd.get(3, low=0, high=0.5, default=0)
length = dsp.mstf(lpd.get(2, low=150, high=500))
pw = lpd.get(1, low=0.1, high=1, default=1)
freqs = tune.fromdegrees([1,3,5], octave=2, root='c')
freq = dsp.randchoose(freqs) / 4.0
#o = dsp.pulsar(freq, length, pw, wf, win, mod, modr, modf, amp)
#o = dsp.read('/home/hecanjog/sounds/guitarpluck.wav').data
o = dsp.read('sounds/rhodes.wav').data
o = dsp.transpose(o, dsp.randchoose([0.5, 1, 2, 1.5, 3]))
o = dsp.fill(o, dsp.stf(dsp.rand(0.1, 2)))
out = rain(o, freqs)
#out = dsp.env(out, 'random')
return out
def play(voice_id):
tel = bot.getTel()
degrees = [ dsp.randchoose([1, 2, 3, 4, 5, 6, 7, 8]) for f in range(dsp.randint(2, 6)) ]
octave = dsp.randint(1, 4)
freqs = tune.fromdegrees(degrees, root='c', octave=octave, ratios=tune.just)
out = ''
freq = dsp.randchoose(freqs)
volume = dsp.rand(0.5, 0.8)
length = dsp.randint(dsp.mstf(20), dsp.mstf(30))
for p in range(dsp.randint(20, 100)):
pulsewidth = dsp.rand(0.5, 1)
mod = dsp.breakpoint([ dsp.rand(0, 1) for b in range(4) ], 512)
window = dsp.breakpoint([0] + [ dsp.rand(0, 1) for b in range(10) ] + [0], 512)
waveform = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for b in range(20) ] + [0], 512)
modRange = 0.01
modFreq = dsp.rand(0.0001, 5)
t = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, volume)
t = dsp.pad(t, 0, length * 3)
t = dsp.env(t, 'sine')
out += t
out = dsp.env(out, 'sine')
out = dsp.pan(out, dsp.rand(0, 1))
dsp.log('')
dsp.log('drone')
dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
bot.show_telemetry(tel)
return out
def play(voice_id):
reload(keys)
bpm = config('bpm')
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
scale = [1,5,8]
if dsp.rand() > 0.5:
scale = reversed(scale)
freqs = tune.fromdegrees(scale, root=root, octave=dsp.randint(1, 3), ratios=ratios, scale=quality)
freqs = dsp.rotate(freqs, dsp.randint(0, len(freqs)))
out = ''
length = int(dsp.bpm2frames(bpm) * dsp.randchoose([0.25, 0.5, 1]) * 0.5)
length = dsp.bpm2frames(bpm) * 4
length = dsp.stf(dsp.rand(1, 8))
for n in range(dsp.randint(1, 3)):
amp = dsp.rand(0.3, 0.65)
freq = dsp.randchoose(freqs)
freq = freqs[n%len(freqs)]
b = keys.chippy(length=length, freq=freq, amp=amp)
b = dsp.split(b, 100)
oenvs = dsp.breakpoint([0,0,0,0] + [ dsp.rand() for i in range(len(b) / 10) ], len(b))
opans = dsp.breakpoint([dsp.rand(0.4, 0.6)] + [ dsp.rand() for i in range(len(b) / 100) ] + [0.5], len(b))
b = [ dsp.amp(b[i], oenvs[i]) for i in range(len(b)) ]
b = [ dsp.pan(b[i], opans[i]) for i in range(len(b)) ]
b = ''.join(b)
#b = dsp.env(b, 'phasor')
b = dsp.env(b, 'sine')
out += b
return out
def play(params):
length = params.get('length', dsp.stf(dsp.rand(0.1, 1)))
volume = params.get('volume', 100.0) / 100.0
speed = params.get('speed', dsp.rand(0.3, 0.5))
octave = params.get('octave', 2)
note = params.get('note', ['c'])[0]
env = params.get('envelope', False)
pad = params.get('padding', False)
bend = params.get('bend', False)
wform = params.get('waveform', False)
instrument = params.get('instrument', 'r')
scale = params.get('scale', [1,6,5,4,8])
shuffle = params.get('shuffle', False) # Reorganize input scale
reps = params.get('repeats', len(scale))
alias = params.get('alias', False)
lyrics = params.get('ww', '1-2-3-4-5-6-7-8-9-10').split('-')
bpm = params.get('bpm', 100)
if shuffle:
lyrics = dsp.randshuffle(lyrics)
lyrics = ' '.join(lyrics)
words = text2wave(lyrics)
words = sox("sox %s %s silence 1 0.1 1%% -1 0.1 1%%", words)
words = dsp.transpose(words, speed)
pitches = tune.fromdegrees(scale, octave=octave, root=note)
length = dsp.flen(words) * dsp.randint(30, 32)
sings = [ dsp.pine(words, length, pitch) for pitch in pitches ]
sings = dsp.mix(sings)
sings = sox("sox %s %s tempo 6.0", sings)
out = dsp.pan(sings, dsp.rand())
return out
def play(voice_id):
bpm = config('bpm')
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
beat = dsp.bpm2frames(bpm)
length = dsp.randint(dsp.stf(1), dsp.stf(3))
wav = dsp.breakpoint([0] + [ dsp.rand(-1,1) for w in range(10) ] + [0], 512)
win = dsp.wavetable('sine', 512)
mod = dsp.wavetable('vary', 512)
root = dsp.randchoose(tune.fromdegrees([1,3,5,8], octave=0, root='a'))
pw = dsp.rand(0.1, 1)
amp = dsp.rand(0.5, 1.2)
mFreq = 0.01 / dsp.fts(length)
out = dsp.pulsar(root, length, pw, wav, win, mod, 0.05, mFreq, amp)
# out = dsp.env(out, 'vary')
out = dsp.vsplit(out, dsp.mstf(1), dsp.mstf(500))
out = dsp.randshuffle(out)
out = [ dsp.pad(o, 0, dsp.randint(0, 4410)) for o in out ]
out = [ dsp.pan(o, dsp.rand()) for o in out ]
out = [ dsp.alias(o) for o in out ]
out = [ o * dsp.randint(1, 30) for o in out ]
out = [ dsp.env(o, 'random') for o in out ]
out = [ dsp.amp(o, dsp.rand(0.9, 1.5)) for o in out ]
out = ''.join(out)
return out
def makeArps(seg, oct=3, reps=4):
arp_degrees = [1, 2, 3, 5, 8, 9, 10]
if dsp.randint(0, 1) == 0:
arp_degrees.reverse()
arp_degrees = dsp.rotate(arp_degrees, vary=True)
arp_notes = tune.fromdegrees(arp_degrees[:reps], oct, 'e')
arps = ''
arp_count = 0
for arp_length in seg:
arp_length /= 2
arp_pair = arp_notes[arp_count %
len(arp_notes)], arp_notes[(arp_count + 1)
%
len(arp_notes)]
arp_one = dsp.tone(arp_length,
wavetype='tri',
freq=arp_pair[0],
amp=0.075)
arp_one = dsp.env(arp_one, 'random')
arp_two = dsp.tone(arp_length,
wavetype='tri',
freq=arp_pair[1],
amp=0.08)
arp_two = dsp.env(arp_two, 'random')
arps += arp_one + arp_two
arp_count += 2
arps = dsp.env(arps, 'random')
arps = dsp.pan(arps, dsp.rand())
return arps
def yourlove(length=22050, i=0, bar=5, amp=0.5, chords=None, root='a', octave=3, maxdiv=4, mindiv=1):
""" Inspired by Terre """
wav = dsp.wavetable('sine2pi', 512)
win = dsp.wavetable('sine', 512)
mod = dsp.wavetable('phasor', 512)
if chords is None:
chords = [
[5, 7, 1],
[5, 4, 1],
[3, 2, 1, 6],
]
pw = dsp.rand(0.1, 1)
notes = chords[i % len(chords)]
notes = tune.fromdegrees(notes, root=root, octave=octave)
klen = length / dsp.randint(mindiv, maxdiv)
amp = dsp.rand(0.3, 0.5)
mFreq = dsp.rand(0.5, 1.0) / dsp.fts(klen)
layers = []
for note in notes:
k = dsp.pulsar(note, klen, pw, wav, win, mod, 0.005, mFreq, amp)
k = dsp.env(k, 'sine')
k = dsp.pan(k, dsp.rand())
k = dsp.pad(k, 0, length - klen)
layers += [ k ]
out = dsp.mix(layers)
return out
def play(ctl):
pianos = ['sawvib', 'piano', 'pianooct1', 'harp', 'saw']
pianos = ['sawvib', 'piano']
piano = snds.load('genie/%s.wav' % dsp.randchoose(pianos))
notes = [1,3,5]
chord = tune.fromdegrees([ dsp.randchoose(notes) + (dsp.randchoose([0, 1]) * 8) for _ in range(dsp.randint(1, 3)) ], octave=0)
length = dsp.stf(dsp.rand(1, 4))
layers = []
for freq in chord:
p = dsp.transpose(piano, freq / 220.0)
p = dsp.amp(p, 0.35)
#p = dsp.pan(p, dsp.rand())
p = dsp.fill(p, length)
if dsp.rand() > 0.25:
p = dsp.vsplit(p, dsp.mstf(100), dsp.mstf(500))
p = [ dsp.pan(pp, dsp.rand()) for pp in p ]
p = [ dsp.amp(pp, dsp.rand(0,2)) for pp in p ]
p = [ dsp.transpose(pp, dsp.randchoose([1,2,4,8])) for pp in p ]
p = [ dsp.taper(pp, 20) for pp in p ]
p = [ dsp.pad(pp, 0, dsp.mstf(dsp.rand(0, 100))) for pp in p ]
p = dsp.randshuffle(p)
p = ''.join(p)
if dsp.rand() > 0.75:
p = dsp.alias(p)
#p = dsp.env(p, 'phasor')
layers += [ p ]
out = dsp.mix(layers)
return out
b = 0
while dsp.flen(out) <= target_length:
print 'Rendering bar %s' % (b + 1)
#bpm = bpm + dsp.randint(-5, 5)
#beat = dsp.bpm2frames(bpm)
if b % 4 == 0:
chord = [dsp.randint(1, 15) for _ in range(4)]
layers = []
#length = beat * dsp.randchoose([2, 3, 4, 6])
length = beat * 4
for freq in tune.fromdegrees(chord, octave=2, root='c'):
amp = dsp.rand(0.25, 0.5)
layer = keys.rhodes(length, freq, amp)
layer = dsp.pan(layer, dsp.rand())
layers += [layer]
layers = dsp.mix(layers)
ctf = tune.fromdegrees([commontone], octave=2, root='c')[0]
drone = dsp.mix([
keys.pulsar(ctf, dsp.flen(layers), amp=dsp.rand(0.01, 0.1))
for _ in range(4)
])
chord = nextChord(chord)
if b % 2 == 0:
dsp.write(out, 'wesley_thirty_01')
## 02
out = ''
t = dsp.split(thirty, dsp.mstf(40))
t = [ dsp.env(tt, 'sine') for tt in t ]
t = [ tt * 4 for tt in t ]
out = ''.join(t)
dsp.write(out, 'wesley_thirty_02')
## 03
out = ''
freqs = tune.fromdegrees([1, 3, 5, 9], 3, 'c')
layers = []
for i in range(30):
l = dsp.pine(dsp.amp(thirty, 0.1), dsp.stf(30), dsp.randchoose(freqs))
l = dsp.pan(l, dsp.rand())
layers += [ l ]
out = dsp.mix(layers)
dsp.write(out, 'wesley_thirty_03')
## 04
out = ''
for count in range(5):
t = dsp.randchoose(snds)
def play(voice_id):
bpm = config('bpm')
root = config('key')
quality = getattr(tune, config('quality'))
ratios = getattr(tune, config('tune'))
beat = dsp.bpm2frames(bpm)
amp = dsp.rand(0.1, 0.65)
nlens = [
beat * 4,
beat * 3,
beat * 2,
beat + (beat / 2),
beat,
beat / 2,
beat / 4,
]
scale = [2,4,6,9]
scale = [1,4,6,8]
# scale = [1,3,4,5,6,8,9]
# scale = [1,2,3,5,6,8,9]
# scale = [1,5,8]
freqs = tune.fromdegrees(scale, root=root, octave=dsp.randint(2,4), ratios=ratios, scale=quality)
# length of pattern (in beats)
elen = 0
tlen = beat * dsp.randint(2, 8)
# beat lengths (from a set of bpm-derived note lengths defined in the nlens list)
blens = []
while elen < tlen:
l = dsp.randchoose(nlens)
blens += [ l ]
elen += l
# beat pulsewidths
bpws = [ dsp.rand(0.1, 1) for pw in range(len(blens)) ]
out = ''
# choose a pitch from the scale
freq = dsp.randchoose(freqs)
# synthesize the tones
for i in range(len(blens)):
# find the length of the pulse
blen = int(round(blens[i] * bpws[i]))
# find the length of the rest
brest = blens[i] - blen
# make a rhodes tone with a random amplitude
#beat = keys.rhodes(length=blen, freq=freq, amp=dsp.rand(0.3, 0.5))
beat = keys.rhodes(length=blen, freq=freq, amp=amp)
# pan the tone to a random position
beat = dsp.pan(beat, dsp.rand())
# bitcrush the tone a random amount
# beat = dsp.alias(beat)
# pad the tone with silence
beat = dsp.pad(beat, 0, brest)
# add it to the output
out += beat
out *= dsp.randint(1, 2)
if dsp.rand() > 0.75:
out = dsp.split(out, dsp.bpm2frames(bpm) / dsp.randchoose([1,2,4]))
out = dsp.randshuffle(out)
out = ''.join(out)
return out
from pippi import dsp from pippi import tune import glob import drums import rhodes speeds = [ 1.0, 1.5, 2.0 ] scale = tune.fromdegrees([1, 4, 5, 3, 6, 8, 9], octave=2, root='e') envs = ['line', 'tri', 'hann', 'phasor', 'impulse'] wforms = ['tri', 'saw', 'impulse', 'square'] notes = [ rhodes.rhodes(dsp.stf(dsp.rand(4, 7)), freq, 0.3) for freq in scale ] layer = [ dsp.randchoose(notes) for i in range(40) ] layer = [ dsp.pan(note, dsp.rand()) for note in layer ] layer = [ dsp.amp(note, dsp.rand(0.1, 0.7)) for note in layer ] layer = [ dsp.transpose(note, dsp.randchoose(speeds)) for note in layer ] layer = [ dsp.pad(note, 0, dsp.mstf(dsp.rand(500, 2000))) for note in layer ] layer = ''.join(layer) out = '' themes = [ [ dsp.transpose(note, dsp.randchoose(speeds)) for note in notes * 2 ] for theme in range(8) ] arpsPlay, leadPlay, hatsPlay, blipsPlay, foldsPlay, kicksPlay, clapsPlay, bassPlay, themePlay = 0,0,0, 0,0,0, 0,0,0 intro_drone_pad_length, intro_drone_length, outro_drone_pad_length, outro_drone_length = 0,0,0,0 vary_sections = [ dsp.randint(7, 12) for vs in range(2) ]
def play(params):
""" Usage:
shine.py [length] [volume]
"""
length = params.get('length', dsp.stf(dsp.rand(0.1, 1)))
volume = params.get('volume', 100.0)
volume = volume / 100.0 # TODO: move into param filter
octave = params.get('octave', 2) + 1 # Add one to compensate for an old error for now
note = params.get('note', ['c'])
note = note[0]
quality = params.get('quality', tune.major)
glitch = params.get('glitch', False)
superglitch = params.get('superglitch', False)
pinecone = params.get('pinecone', False)
glitchpad = params.get('glitch-padding', 0)
glitchenv = params.get('glitch-envelope', False)
env = params.get('envelope', False)
ratios = params.get('ratios', tune.terry)
pad = params.get('padding', False)
bend = params.get('bend', False)
bpm = params.get('bpm', 75.0)
width = params.get('width', False)
wform = params.get('waveform', False)
instrument = params.get('instrument', 'r')
scale = params.get('scale', [1,6,5,4,8])
shuffle = params.get('shuffle', False) # Reorganize input scale
reps = params.get('repeats', len(scale))
alias = params.get('alias', False)
phase = params.get('phase', False)
pi = params.get('pi', False)
wild = params.get('wii', False)
root = params.get('root', 27.5)
trigger_id = params.get('trigger_id', 0)
tune.a0 = float(root)
try:
# Available input samples
if instrument == 'r':
instrument = 'rhodes'
tone = dsp.read('sounds/synthrhodes.wav').data
elif instrument == 's':
instrument = 'synthrhodes'
tone = dsp.read('sounds/220rhodes.wav').data
elif instrument == 'c':
instrument = 'clarinet'
tone = dsp.read('sounds/clarinet.wav').data
elif instrument == 'v':
instrument = 'vibes'
tone = dsp.read('sounds/glock220.wav').data
elif instrument == 't':
instrument = 'tape triangle'
tone = dsp.read('sounds/tape220.wav').data
elif instrument == 'g':
instrument = 'glade'
tone = dsp.read('sounds/glade.wav').data
elif instrument == 'p':
instrument = 'paperclips'
tone = dsp.read('sounds/paperclips.wav').data
elif instrument == 'i':
instrument = 'input'
tone = dsp.capture(dsp.stf(1))
except:
instrument = None
tone = None
out = ''
# Shuffle the order of pitches
if shuffle is not False:
scale = dsp.randshuffle(scale)
# Translate the list of scale degrees into a list of frequencies
freqs = tune.fromdegrees(scale, octave, note, quality, ratios)
freqs = [ freq / 4.0 for freq in freqs ]
# Format is: [ [ path, offset, id, value ] ]
# Offset for video
osc_messages = [ ['/dac', float(dsp.fts(length)), 1, tune.fts(osc_freq)] for osc_freq in freqs ]
# Phase randomly chooses note lengths from a
# set of ratios derived from the current bpm
if phase is not False:
ldivs = [0.5, 0.75, 2, 3, 4]
ldiv = dsp.randchoose(ldivs)
length = dsp.bpm2ms(bpm) / ldiv
length = dsp.mstf(length)
reps = ldiv if ldiv > 1 else 4
# Construct a sequence of notes
for i in range(reps):
# Get the freqency
freq = freqs[i % len(freqs)]
# Transpose the input sample or
# synthesize tone
if wform is False and tone is not None:
# Determine the pitch shift required
# to arrive at target frequency based on
# the pitch of the original samples.
if instrument == 'clarinet':
diff = freq / 293.7
elif instrument == 'vibes':
diff = freq / 740.0
else:
diff = freq / 440.0
clang = dsp.transpose(tone, diff)
elif wform == 'super':
clang = dsp.tone(length, freq, 'phasor', 0.5)
clang = [ dsp.drift(clang, dsp.rand(0, 0.02)) for s in range(7) ]
clang = dsp.mix(clang)
elif wform is False and tone is None:
clang = dsp.tone(length, freq, 'sine2pi', 0.75)
clang = dsp.amp(clang, 0.6)
else:
clang = dsp.tone(length, freq, wform, 0.75)
clang = dsp.amp(clang, 0.6)
# Stupidly copy the note enough or
# trim it to meet the target length
clang = dsp.fill(clang, length)
# Give synth tones simple env (can override)
if wform is not False and env is False:
clang = dsp.env(clang, 'phasor')
# Apply an optional amplitude envelope
if env is not False:
clang = dsp.env(clang, env)
# Add optional padding between notes
if pad != False:
clang = dsp.pad(clang, 0, pad)
# Add to the final note sequence
out += clang
# Add optional aliasing (crude bitcrushing)
if alias is not False:
out = dsp.alias(out)
# Cut sound into chunks of variable length (between 5 & 300 ms)
# Pan each chunk to a random position
# Apply a sine amplitude envelope to each chunk
# Finally, add variable silence between each chunk and shuffle the
# order of the chunks before joining.
if glitch is not False:
out = dsp.vsplit(out, dsp.mstf(5), dsp.mstf(300))
out = [dsp.pan(o, dsp.rand()) for o in out]
out = [dsp.env(o, 'sine') for o in out]
out = [dsp.pad(o, 0, dsp.mstf(dsp.rand(0, glitchpad))) for o in out]
out = ''.join(dsp.randshuffle(out))
# Detune between 1.01 and 0.99 times original speed
# as a sine curve whose length equals the total output length
if bend is not False:
out = dsp.split(out, 441)
freqs = dsp.wavetable('sine', len(out), 1.01, 0.99)
out = [ dsp.transpose(out[i], freqs[i]) for i in range(len(out)) ]
out = ''.join(out)
if wild is not False:
#out = dsp.vsplit(out, 400, 10000)
out = dsp.split(out, 3000)
out = [ dsp.amp(dsp.amp(o, dsp.rand(10, 50)), 0.5) for o in out ]
#out = [ o * dsp.randint(1, 5) for o in out ]
for index, o in enumerate(out):
if dsp.randint(0, 1) == 0:
out[index] = dsp.env(dsp.cut(o, 0, dsp.flen(o) / 4), 'gauss') * 4
if dsp.randint(0, 6) == 0:
out[index] = dsp.transpose(o, 8)
out = [ dsp.env(o, 'gauss') for o in out ]
freqs = dsp.wavetable('sine', len(out), 1.02, 0.98)
out = [ dsp.transpose(out[i], freqs[i]) for i in range(len(out)) ]
out = ''.join(out)
if pinecone == True:
out = dsp.pine(out, int(length * dsp.rand(0.5, 8.0)), dsp.randchoose(freqs) * dsp.rand(0.5, 4.0))
# Adjust output amplitude as needed and return audio + OSC
if pi:
return (dsp.amp(out, volume), {'osc': osc_messages})
else:
return dsp.amp(out, volume)
from pippi import dsp
from pippi import tune
import glob
import drums
import rhodes
speeds = [1.0, 1.5, 2.0]
scale = tune.fromdegrees([1, 4, 5, 3, 6, 8, 9], octave=2, root='e')
envs = ['line', 'tri', 'hann', 'phasor', 'impulse']
wforms = ['tri', 'saw', 'impulse', 'square']
notes = [rhodes.rhodes(dsp.stf(dsp.rand(4, 7)), freq, 0.3) for freq in scale]
layer = [dsp.randchoose(notes) for i in range(40)]
layer = [dsp.pan(note, dsp.rand()) for note in layer]
layer = [dsp.amp(note, dsp.rand(0.1, 0.7)) for note in layer]
layer = [dsp.transpose(note, dsp.randchoose(speeds)) for note in layer]
layer = [dsp.pad(note, 0, dsp.mstf(dsp.rand(500, 2000))) for note in layer]
layer = ''.join(layer)
out = ''
themes = [[dsp.transpose(note, dsp.randchoose(speeds)) for note in notes * 2]
for theme in range(8)]
arpsPlay, leadPlay, hatsPlay, blipsPlay, foldsPlay, kicksPlay, clapsPlay, bassPlay, themePlay = 0, 0, 0, 0, 0, 0, 0, 0, 0
intro_drone_pad_length, intro_drone_length, outro_drone_pad_length, outro_drone_length = 0, 0, 0, 0
vary_sections = [dsp.randint(7, 12) for vs in range(2)]
bar_length = dsp.randint(4, 13)
num_pulses = dsp.randint(1, bar_length)
pattern = dsp.eu(bar_length, num_pulses)
pattern = dsp.rotate(pattern, vary=True)
subseg = splitSeg(seg, 3)
stabs = makeBeat(pattern, subseg, makeStab)
# pulses
pattern = parseBeat(pulsep)
pulses = makeBeat(pattern, seg, makePulse)
section = dsp.mix([ kicks, snares, stabs, hats, pulses ])
chord = [ dsp.randint(1, 9) for _ in range(dsp.randint(2,4)) ]
long_chord = rhodesChord(sum(seg), tune.fromdegrees(chord, octave=dsp.randint(2,4), root=key), dsp.rand(0.6, 0.75))
long_chord = dsp.fill(long_chord, sum(seg))
def makeGlitch(length, i):
g = dsp.cut(long_chord, dsp.randint(0, dsp.flen(long_chord) - length), length)
g = dsp.alias(g)
g = dsp.fill(g, length)
return g
subseg = splitSeg(seg, 2)
glitches = makeBeat([1,1], subseg, makeGlitch)
changeindex = changeindex + 1
section = dsp.mix([ section, long_chord, glitches ])
