def try_zeros(noise=0, reps=1):
npass = 0
for _ in range(reps):
s = sequences.add_noise(np.zeros(1000), noise)
if fit_period(s) == None:
npass += 1
print "try_zeros noise {0} -> {1}%".format(noise, (100 * npass) / reps)
return npass
def try_zeros(noise=0, reps=1):
npass = 0
for _ in range(reps):
s = sequences.add_noise(np.zeros(1000), noise)
if fit_period(s) == None:
npass += 1
print("try_zeros noise {0} -> {1}%".format(noise, (100 * npass) / reps))
return npass
def try_aperiodic(n, noise=0, reps=1):
npass = 0
for _ in range(reps):
s = sequences.aperiodic(1.0, n)
s = sequences.add_noise(s, noise)
s = s - s.mean()
if fit_period(s) == None:
npass += 1
print "try_aperiod noise {0} -> {1}%".format(noise, (100 * npass) / reps)
return npass
def try_aperiodic(n, noise=0, reps=1):
npass = 0
for _ in range(reps):
s = sequences.aperiodic(1.0, n)
s = sequences.add_noise(s, noise)
s = s - s.mean()
if fit_period(s) == None:
npass += 1
print("try_aperiod noise {0} -> {1}%".format(noise, (100 * npass) / reps))
return npass
def try_square_wave(period, noise=0.0, reps=1):
npass = 0
s = sequences.square(1.0, 0.30, period, CYCLES, period / 3)
for _ in range(reps):
ns = sequences.add_noise(sequences.mix(s, 0, noise), noise)
p = fit_period(ns)
if period - EPS <= p and p <= period + EPS:
npass += 1
print "try_square noise {0} period {1} -> {2}%".format(
noise, period, (100 * npass) / reps)
return npass
def try_square_wave(period, noise=0.0, reps=1):
npass = 0
s = sequences.square(1.0, 0.30, period, CYCLES, period // 3)
for _ in range(reps):
ns = sequences.add_noise(sequences.mix(s, 0, noise), noise)
p = fit_period(ns)
if period - EPS <= p and p <= period + EPS:
npass += 1
print("try_square noise {0} period {1} -> {2}%".format(
noise, period, (100 * npass) / reps))
return npass
def try_sine(period, noise=0.0, reps=1):
npass = 0
s = sequences.sine(1.0, period, CYCLES, period // 3)
for _ in range(reps):
ns = sequences.add_noise(sequences.mix(s, 0, noise), noise)
ns = ns - ns.mean()
p = fit_period(ns)
if period - EPS <= p and p <= period + EPS:
npass += 1
print("try_sine noise {0} period {1} -> {2}%".format(
noise, period, (100 * npass) / reps))
return npass
def try_sawtooth(period, noise=0.0, reps=1):
eps = 3 # why is sawtooth so flaky?
npass = 0
s = sequences.sawtooth(1.0, period, CYCLES, period / 3)
for _ in range(reps):
ns = sequences.add_noise(sequences.mix(s, 0, noise), noise)
ns = ns - ns.mean()
p = fit_period(ns)
if period - eps <= p and p <= period + eps:
npass += 1
else:
print "saw {0} got {1}".format(period, p)
print "try_sawtooth noise {0} period {1} -> {2}%".format(
noise, period, (100 * npass) / reps)
return npass
def try_sawtooth(period, noise=0.0, reps=1):
eps = 3 # why is sawtooth so flaky?
npass = 0
s = sequences.sawtooth(1.0, period, CYCLES, period // 3)
for _ in range(reps):
ns = sequences.add_noise(sequences.mix(s, 0, noise), noise)
ns = ns - ns.mean()
p = fit_period(ns)
if period - eps <= p and p <= period + eps:
npass += 1
else:
print("saw {0} got {1}".format(period, p))
print("try_sawtooth noise {0} period {1} -> {2}%".format(
noise, period, (100 * npass) / reps))
return npass
