update to py tests and scripts due to black 22.1.0

This commit is contained in:
Dan Halbert 2022-01-29 17:14:01 -05:00
parent a88969d306
commit 748834c6ba
21 changed files with 91 additions and 91 deletions

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@ -19,7 +19,7 @@ length = 8000 // 440
# signed 16 bit
s16 = array.array("h", [0] * length)
for i in range(length):
s16[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 15))
s16[i] = int(math.sin(math.pi * 2 * i / length) * (2**15))
print(s16[i])
sample = audiocore.RawSample(s16, sample_rate=8000)

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@ -19,21 +19,21 @@ sample_names = ["unsigned 8 bit", "signed 8 bit", "unsigned 16 bit", "signed 16
# unsigned 8 bit
u8 = array.array("B", [0] * length)
for i in range(length):
u8[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 7) + 2 ** 7)
u8[i] = int(math.sin(math.pi * 2 * i / length) * (2**7) + 2**7)
samples.append(audiocore.RawSample(u8, sample_rate=4000))
# signed 8 bit
s8 = array.array("b", [0] * length)
for i in range(length):
s8[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 7))
s8[i] = int(math.sin(math.pi * 2 * i / length) * (2**7))
samples.append(audiocore.RawSample(s8, sample_rate=16000))
# unsigned 16 bit
u16 = array.array("H", [0] * length)
for i in range(length):
u16[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 15) + 2 ** 15)
u16[i] = int(math.sin(math.pi * 2 * i / length) * (2**15) + 2**15)
samples.append(audiocore.RawSample(u16, sample_rate=8000))
@ -41,7 +41,7 @@ samples.append(audiocore.RawSample(u16, sample_rate=8000))
# signed 16 bit
s16 = array.array("h", [0] * length)
for i in range(length):
s16[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 15))
s16[i] = int(math.sin(math.pi * 2 * i / length) * (2**15))
samples.append(audiocore.RawSample(s16, sample_rate=8000))

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@ -8,5 +8,5 @@ workaround: If you need integers larger than native wordsize use the random modu
import random
x = random.randint(2 ** 128 - 1, 2 ** 128)
x = random.randint(2**128 - 1, 2**128)
print("x={}".format(x))

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@ -22,7 +22,7 @@ print(sha1.digest())
sha1 = hashlib.sha1(b"hello")
try:
sha1.update(u"world")
sha1.update("world")
except TypeError as e:
print("TypeError")
print(sha1.digest())

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@ -28,7 +28,7 @@ print(hashlib.sha256(b"\xff" * 56).digest())
sha256 = hashlib.sha256(b"hello")
try:
sha256.update(u"world")
sha256.update("world")
except TypeError as e:
print("TypeError")
print(sha256.digest())

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@ -27,15 +27,15 @@ print(1j * 2j)
print(1j / 2)
print((1j / 2j).real)
print(1j / (1 + 2j))
ans = 0j ** 0
ans = 0j**0
print("%.5g %.5g" % (ans.real, ans.imag))
ans = 0j ** 1
ans = 0j**1
print("%.5g %.5g" % (ans.real, ans.imag))
ans = 0j ** 0j
ans = 0j**0j
print("%.5g %.5g" % (ans.real, ans.imag))
ans = 1j ** 2.5
ans = 1j**2.5
print("%.5g %.5g" % (ans.real, ans.imag))
ans = 1j ** 2.5j
ans = 1j**2.5j
print("%.5g %.5g" % (ans.real, ans.imag))
# comparison
@ -116,10 +116,10 @@ except ZeroDivisionError:
# zero division via power
try:
0j ** -1
0j**-1
except ZeroDivisionError:
print("ZeroDivisionError")
try:
0j ** 1j
0j**1j
except ZeroDivisionError:
print("ZeroDivisionError")

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@ -88,7 +88,7 @@ except ZeroDivisionError:
print("ZeroDivisionError")
try:
0.0 ** -1
0.0**-1
except ZeroDivisionError:
print("ZeroDivisionError")

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@ -35,8 +35,8 @@ if ll_type != 0:
print(int(1418774543.0))
print("%d" % 1418774543.0)
if ll_type == 3:
print(int(2.0 ** 100))
print("%d" % 2.0 ** 100)
print(int(2.0**100))
print("%d" % 2.0**100)
else:
print(int(1073741823.0))
print("%d" % 1073741823.0)
@ -44,7 +44,7 @@ else:
testpass = True
p2_rng = ((30, 63, 1024), (62, 63, 1024))[is_64bit][ll_type]
for i in range(0, p2_rng):
bitcnt = len(bin(int(2.0 ** i))) - 3
bitcnt = len(bin(int(2.0**i))) - 3
if i != bitcnt:
print("fail: 2**%u was %u bits long" % (i, bitcnt))
testpass = False
@ -53,7 +53,7 @@ print("power of 2 test: %s" % (testpass and "passed" or "failed"))
testpass = True
p10_rng = ((9, 18, 23), (18, 18, 23))[is_64bit][ll_type]
for i in range(0, p10_rng):
digcnt = len(str(int(10.0 ** i))) - 1
digcnt = len(str(int(10.0**i))) - 1
if i != digcnt:
print("fail: 10**%u was %u digits long" % (i, digcnt))
testpass = False
@ -72,28 +72,28 @@ def fp2int_test(num, name, should_fail):
if ll_type != 2:
if ll_type == 0:
if is_64bit:
neg_bad_fp = -1.00000005 * 2.0 ** 62.0
pos_bad_fp = 2.0 ** 62.0
neg_good_fp = -(2.0 ** 62.0)
pos_good_fp = 0.99999993 * 2.0 ** 62.0
neg_bad_fp = -1.00000005 * 2.0**62.0
pos_bad_fp = 2.0**62.0
neg_good_fp = -(2.0**62.0)
pos_good_fp = 0.99999993 * 2.0**62.0
else:
neg_bad_fp = -1.00000005 * 2.0 ** 30.0
pos_bad_fp = 2.0 ** 30.0
neg_good_fp = -(2.0 ** 30.0)
pos_good_fp = 0.9999999499 * 2.0 ** 30.0
neg_bad_fp = -1.00000005 * 2.0**30.0
pos_bad_fp = 2.0**30.0
neg_good_fp = -(2.0**30.0)
pos_good_fp = 0.9999999499 * 2.0**30.0
else:
neg_bad_fp = -0.51 * 2.0 ** 64.0
pos_bad_fp = 2.0 ** 63.0
neg_good_fp = -(2.0 ** 63.0)
pos_good_fp = 1.9999998 * 2.0 ** 62.0
neg_bad_fp = -0.51 * 2.0**64.0
pos_bad_fp = 2.0**63.0
neg_good_fp = -(2.0**63.0)
pos_good_fp = 1.9999998 * 2.0**62.0
fp2int_test(neg_bad_fp, "neg bad", True)
fp2int_test(pos_bad_fp, "pos bad", True)
fp2int_test(neg_good_fp, "neg good", False)
fp2int_test(pos_good_fp, "pos good", False)
else:
fp2int_test(-1.9999999999999981 * 2.0 ** 1023.0, "large neg", False)
fp2int_test(1.9999999999999981 * 2.0 ** 1023.0, "large pos", False)
fp2int_test(-1.9999999999999981 * 2.0**1023.0, "large neg", False)
fp2int_test(1.9999999999999981 * 2.0**1023.0, "large pos", False)
fp2int_test(float("inf"), "inf test", True)
fp2int_test(float("-inf"), "inf test", True)

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@ -34,13 +34,13 @@ if ll_type is None:
print(int(14187744.0))
print("%d" % 14187744.0)
if ll_type == 2:
print(int(2.0 ** 100))
print("%d" % 2.0 ** 100)
print(int(2.0**100))
print("%d" % 2.0**100)
testpass = True
p2_rng = ((30, 63, 127), (62, 63, 127))[is_64bit][ll_type]
for i in range(0, p2_rng):
bitcnt = len(bin(int(2.0 ** i))) - 3
bitcnt = len(bin(int(2.0**i))) - 3
if i != bitcnt:
print("fail: 2.**%u was %u bits long" % (i, bitcnt))
testpass = False
@ -50,7 +50,7 @@ print("power of 2 test: %s" % (testpass and "passed" or "failed"))
testpass = True
p10_rng = 9
for i in range(0, p10_rng):
digcnt = len(str(int(10.0 ** i))) - 1
digcnt = len(str(int(10.0**i))) - 1
if i != digcnt:
print("fail: 10.**%u was %u digits long" % (i, digcnt))
testpass = False
@ -69,28 +69,28 @@ def fp2int_test(num, name, should_fail):
if ll_type != 2:
if ll_type == 0:
if is_64bit:
neg_bad_fp = -1.00000005 * 2.0 ** 62.0
pos_bad_fp = 2.0 ** 62.0
neg_good_fp = -(2.0 ** 62.0)
pos_good_fp = 0.99999993 * 2.0 ** 62.0
neg_bad_fp = -1.00000005 * 2.0**62.0
pos_bad_fp = 2.0**62.0
neg_good_fp = -(2.0**62.0)
pos_good_fp = 0.99999993 * 2.0**62.0
else:
neg_bad_fp = -1.00000005 * 2.0 ** 30.0
pos_bad_fp = 2.0 ** 30.0
neg_good_fp = -(2.0 ** 30.0)
pos_good_fp = 0.9999999499 * 2.0 ** 30.0
neg_bad_fp = -1.00000005 * 2.0**30.0
pos_bad_fp = 2.0**30.0
neg_good_fp = -(2.0**30.0)
pos_good_fp = 0.9999999499 * 2.0**30.0
else:
neg_bad_fp = -0.51 * 2.0 ** 64.0
pos_bad_fp = 2.0 ** 63.0
neg_good_fp = -(2.0 ** 63.0)
pos_good_fp = 1.9999998 * 2.0 ** 62.0
neg_bad_fp = -0.51 * 2.0**64.0
pos_bad_fp = 2.0**63.0
neg_good_fp = -(2.0**63.0)
pos_good_fp = 1.9999998 * 2.0**62.0
fp2int_test(neg_bad_fp, "neg bad", True)
fp2int_test(pos_bad_fp, "pos bad", True)
fp2int_test(neg_good_fp, "neg good", False)
fp2int_test(pos_good_fp, "pos good", False)
else:
fp2int_test(-1.999999879 * 2.0 ** 126.0, "large neg", False)
fp2int_test(1.999999879 * 2.0 ** 126.0, "large pos", False)
fp2int_test(-1.999999879 * 2.0**126.0, "large neg", False)
fp2int_test(1.999999879 * 2.0**126.0, "large pos", False)
fp2int_test(float("inf"), "inf test", True)
fp2int_test(float("-inf"), "inf test", True)

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@ -37,13 +37,13 @@ print(int(14187745.))
print("%d" % 14187745.)
# fmt: on
if ll_type == 2:
print(int(2.0 ** 100))
print("%d" % 2.0 ** 100)
print(int(2.0**100))
print("%d" % 2.0**100)
testpass = True
p2_rng = ((30, 63, 127), (62, 63, 127))[is_64bit][ll_type]
for i in range(0, p2_rng):
bitcnt = len(bin(int(2.0 ** i))) - 3
bitcnt = len(bin(int(2.0**i))) - 3
if i != bitcnt:
print("fail: 2.**%u was %u bits long" % (i, bitcnt))
testpass = False
@ -53,7 +53,7 @@ print("power of 2 test: %s" % (testpass and "passed" or "failed"))
testpass = True
p10_rng = 9 if (ll_type == 0 and ~is_64bit) else 11
for i in range(0, p10_rng):
digcnt = len(str(int(10.0 ** i))) - 1
digcnt = len(str(int(10.0**i))) - 1
if i != digcnt:
print("fail: 10.**%u was %u digits long" % (i, digcnt))
testpass = False
@ -72,28 +72,28 @@ def fp2int_test(num, name, should_fail):
if ll_type != 2:
if ll_type == 0:
if is_64bit:
neg_bad_fp = -1.00000005 * 2.0 ** 62.0
pos_bad_fp = 2.0 ** 62.0
neg_good_fp = -(2.0 ** 62.0)
pos_good_fp = 0.99999993 * 2.0 ** 62.0
neg_bad_fp = -1.00000005 * 2.0**62.0
pos_bad_fp = 2.0**62.0
neg_good_fp = -(2.0**62.0)
pos_good_fp = 0.99999993 * 2.0**62.0
else:
neg_bad_fp = -1.00000005 * 2.0 ** 30.0
pos_bad_fp = 2.0 ** 30.0
neg_good_fp = -(2.0 ** 30.0)
pos_good_fp = 0.9999999499 * 2.0 ** 30.0
neg_bad_fp = -1.00000005 * 2.0**30.0
pos_bad_fp = 2.0**30.0
neg_good_fp = -(2.0**30.0)
pos_good_fp = 0.9999999499 * 2.0**30.0
else:
neg_bad_fp = -0.51 * 2.0 ** 64.0
pos_bad_fp = 2.0 ** 63.0
neg_good_fp = -(2.0 ** 63.0)
pos_good_fp = 1.9999998 * 2.0 ** 62.0
neg_bad_fp = -0.51 * 2.0**64.0
pos_bad_fp = 2.0**63.0
neg_good_fp = -(2.0**63.0)
pos_good_fp = 1.9999998 * 2.0**62.0
fp2int_test(neg_bad_fp, "neg bad", True)
fp2int_test(pos_bad_fp, "pos bad", True)
fp2int_test(neg_good_fp, "neg good", False)
fp2int_test(pos_good_fp, "pos good", False)
else:
fp2int_test(-1.999999879 * 2.0 ** 127.0, "large neg", False)
fp2int_test(1.999999879 * 2.0 ** 127.0, "large pos", False)
fp2int_test(-1.999999879 * 2.0**127.0, "large neg", False)
fp2int_test(1.999999879 * 2.0**127.0, "large pos", False)
fp2int_test(float("inf"), "inf test", True)
fp2int_test(float("nan"), "NaN test", True)

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@ -14,7 +14,7 @@ for x in values:
except ZeroDivisionError:
print(" / ZeroDivisionError")
try:
print(" ** pow", x ** y, pow(x, y))
print(" ** pow", x**y, pow(x, y))
except ZeroDivisionError:
print(" ** pow ZeroDivisionError")
print(" == != < <= > >=", x == y, x != y, x < y, x <= y, x > y, x >= y)

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@ -19,7 +19,7 @@ print("%.5g" % (i / 1.2))
print("%.5g" % (i * 1.2j).imag)
# negative power should produce float
print("%.5g" % (i ** -1))
print("%.5g" % (i**-1))
print("%.5g" % ((2 + i - i) ** -3))
try:

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@ -4,6 +4,6 @@ except ZeroDivisionError:
print("ZeroDivisionError")
try:
0 ** -1
0**-1
except ZeroDivisionError:
print("ZeroDivisionError")

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@ -1,7 +1,7 @@
# negative power should produce float
x = 2
print(x ** -2)
print(x**-2)
x = 3
x **= -2

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@ -11,7 +11,7 @@ except (ImportError, AttributeError):
print("SKIP")
raise SystemExit
if not (sys.platform == "linux" and sys.maxsize > 2 ** 32):
if not (sys.platform == "linux" and sys.maxsize > 2**32):
print("SKIP")
raise SystemExit

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@ -9,7 +9,7 @@ except (ImportError, AttributeError):
print("SKIP")
raise SystemExit
if not (sys.platform == "linux" and sys.maxsize > 2 ** 32):
if not (sys.platform == "linux" and sys.maxsize > 2**32):
print("SKIP")
raise SystemExit

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@ -52,12 +52,12 @@ class RungeKutta(object):
# couplings are: g1, g2, g3 of U(1), SU(2), SU(3); yt (top Yukawa), lambda (Higgs quartic)
# see arxiv.org/abs/0812.4950, eqs 10-15
sysSM = (
lambda *a: 41.0 / 96.0 / math.pi ** 2 * a[1] ** 3, # g1
lambda *a: -19.0 / 96.0 / math.pi ** 2 * a[2] ** 3, # g2
lambda *a: -42.0 / 96.0 / math.pi ** 2 * a[3] ** 3, # g3
lambda *a: 41.0 / 96.0 / math.pi**2 * a[1] ** 3, # g1
lambda *a: -19.0 / 96.0 / math.pi**2 * a[2] ** 3, # g2
lambda *a: -42.0 / 96.0 / math.pi**2 * a[3] ** 3, # g3
lambda *a: 1.0
/ 16.0
/ math.pi ** 2
/ math.pi**2
* (
9.0 / 2.0 * a[4] ** 3
- 8.0 * a[3] ** 2 * a[4]
@ -66,7 +66,7 @@ sysSM = (
), # yt
lambda *a: 1.0
/ 16.0
/ math.pi ** 2
/ math.pi**2
* (
24.0 * a[5] ** 2
+ 12.0 * a[4] ** 2 * a[5]
@ -137,5 +137,5 @@ def singleTraj(system, trajStart, h=0.02, tend=1.0):
# initial conditions at M_Z
singleTraj(
sysSM, [0.354, 0.654, 1.278, 0.983, 0.131], h=0.5, tend=math.log(10 ** 17)
sysSM, [0.354, 0.654, 1.278, 0.983, 0.131], h=0.5, tend=math.log(10**17)
) # true values

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@ -15,7 +15,7 @@ class GVector(object):
self.z = z
def Mag(self):
return math.sqrt(self.x ** 2 + self.y ** 2 + self.z ** 2)
return math.sqrt(self.x**2 + self.y**2 + self.z**2)
def dist(self, other):
return math.sqrt(

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@ -22,7 +22,7 @@ class Vec:
return Vec(self.x * rhs, self.y * rhs, self.z * rhs)
def length(self):
return (self.x ** 2 + self.y ** 2 + self.z ** 2) ** 0.5
return (self.x**2 + self.y**2 + self.z**2) ** 0.5
def normalise(self):
l = self.length()
@ -87,12 +87,12 @@ class Sphere:
def __init__(self, surface, centre, radius):
self.surface = surface
self.centre = centre
self.radsq = radius ** 2
self.radsq = radius**2
def intersect(self, ray):
v = self.centre - ray.p
b = v.dot(ray.d)
det = b ** 2 - v.dot(v) + self.radsq
det = b**2 - v.dot(v) + self.radsq
if det > 0:
det **= 0.5
t1 = b - det
@ -180,7 +180,7 @@ def trace_ray(scene, ray, depth):
if ndotl > 0:
col += light_col * surf.diffuse * ndotl
if ldotv > 0:
col += light_col * surf.specular * ldotv ** surf.spec_idx
col += light_col * surf.specular * ldotv**surf.spec_idx
# Reflections
if depth > 0 and surf.reflect > 0:

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@ -33,8 +33,8 @@ def compute_stats(lst):
avg += x
var += x * x
avg /= len(lst)
var = max(0, var / len(lst) - avg ** 2)
return avg, var ** 0.5
var = max(0, var / len(lst) - avg**2)
return avg, var**0.5
def run_script_on_target(target, script):
@ -201,7 +201,7 @@ def compute_diff(file1, file2, diff_score):
sd1 *= av1 / 100 # convert from percent sd to absolute sd
sd2 *= av2 / 100 # convert from percent sd to absolute sd
av_diff = av2 - av1
sd_diff = (sd1 ** 2 + sd2 ** 2) ** 0.5
sd_diff = (sd1**2 + sd2**2) ** 0.5
percent = 100 * av_diff / av1
percent_sd = 100 * sd_diff / av1
print(

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@ -446,7 +446,7 @@ def do_all_the_things(elf_filename):
if "size" not in symbol:
print(symbol)
size = symbol["size"] / 8
square_size = size ** 0.5
square_size = size**0.5
if text_width_ish > square_size:
w = text_width_ish
h = size / text_width_ish