slice[:-1]
slice[1:]
slice[::-1]
-slice[d::d + 1]
+slice[d :: d + 1]
slice[:c, c - 1]
numpy[:, 0:1]
numpy[:, :-1]
numpy[:, (0, 1, 2, 5)]
numpy[0, [0]]
numpy[:, [i]]
-numpy[1:c + 1, c]
-numpy[-(c + 1):, d]
+numpy[1 : c + 1, c]
+numpy[-(c + 1) :, d]
numpy[:, l[-2]]
numpy[:, ::-1]
numpy[np.newaxis, :]
print(* [] or [1])
print(**{1: 3} if False else {x: x for x in range(3)})
print(* lambda x: x)
+assert(not Test),("Short message")
+assert this is ComplexTest and not requirements.fit_in_a_single_line(force=False), "Short message"
+assert(((parens is TooMany)))
for x, in (1,), (2,), (3,): ...
for y in (): ...
for z in (i for i in (1, 2, 3)): ...
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
):
return True
+if (
+ ~ aaaa.a + aaaa.b - aaaa.c * aaaa.d / aaaa.e | aaaa.f & aaaa.g % aaaa.h ^ aaaa.i << aaaa.k >> aaaa.l ** aaaa.m // aaaa.n
+):
+ return True
+if (
+ ~ aaaaaaaa.a + aaaaaaaa.b - aaaaaaaa.c @ aaaaaaaa.d / aaaaaaaa.e | aaaaaaaa.f & aaaaaaaa.g % aaaaaaaa.h ^ aaaaaaaa.i << aaaaaaaa.k >> aaaaaaaa.l ** aaaaaaaa.m // aaaaaaaa.n
+):
+ return True
+if (
+ ~ aaaaaaaaaaaaaaaa.a + aaaaaaaaaaaaaaaa.b - aaaaaaaaaaaaaaaa.c * aaaaaaaaaaaaaaaa.d @ aaaaaaaaaaaaaaaa.e | aaaaaaaaaaaaaaaa.f & aaaaaaaaaaaaaaaa.g % aaaaaaaaaaaaaaaa.h ^ aaaaaaaaaaaaaaaa.i << aaaaaaaaaaaaaaaa.k >> aaaaaaaaaaaaaaaa.l ** aaaaaaaaaaaaaaaa.m // aaaaaaaaaaaaaaaa.n
+):
+ return True
last_call()
# standalone comment at ENDMARKER
lambda a, b, c=True: a
lambda a, b, c=True, *, d=(1 << v2), e="str": a
lambda a, b, c=True, *vararg, d=(v1 << 2), e="str", **kwargs: a + b
-foo = (
- lambda port_id, ignore_missing: {"port1": port1_resource, "port2": port2_resource}[
- port_id
- ]
-)
+foo = lambda port_id, ignore_missing: {
+ "port1": port1_resource, "port2": port2_resource
+}[
+ port_id
+]
1 if True else 2
str or None if True else str or bytes or None
(str or None) if True else (str or bytes or None)
slice[:-1]
slice[1:]
slice[::-1]
-slice[d::d + 1]
+slice[d :: d + 1]
slice[:c, c - 1]
numpy[:, 0:1]
numpy[:, :-1]
numpy[:, (0, 1, 2, 5)]
numpy[0, [0]]
numpy[:, [i]]
-numpy[1:c + 1, c]
-numpy[-(c + 1):, d]
+numpy[1 : c + 1, c]
+numpy[-(c + 1) :, d]
numpy[:, l[-2]]
numpy[:, ::-1]
numpy[np.newaxis, :]
**kwargs,
}
a = (1,)
-b = 1,
+b = (1,)
c = 1
d = (1,) + a + (2,)
e = (1,).count(1)
-what_is_up_with_those_new_coord_names = (coord_names + set(vars_to_create)) + set(
- vars_to_remove
+what_is_up_with_those_new_coord_names = (
+ (coord_names + set(vars_to_create)) + set(vars_to_remove)
)
-what_is_up_with_those_new_coord_names = (coord_names | set(vars_to_create)) - set(
- vars_to_remove
+what_is_up_with_those_new_coord_names = (
+ (coord_names | set(vars_to_create)) - set(vars_to_remove)
)
result = session.query(models.Customer.id).filter(
models.Customer.account_id == account_id, models.Customer.email == email_address
def gen():
yield from outside_of_generator
- a = (yield)
+ a = yield
async def f():
print(*[] or [1])
print(**{1: 3} if False else {x: x for x in range(3)})
print(*lambda x: x)
+assert not Test, "Short message"
+assert (
+ this is ComplexTest and not requirements.fit_in_a_single_line(force=False)
+), "Short message"
+assert parens is TooMany
for (x,) in (1,), (2,), (3,):
...
for y in ():
/ aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
):
return True
+if (
+ ~aaaa.a + aaaa.b - aaaa.c * aaaa.d / aaaa.e
+ | aaaa.f & aaaa.g % aaaa.h ^ aaaa.i << aaaa.k >> aaaa.l ** aaaa.m // aaaa.n
+):
+ return True
+if (
+ ~aaaaaaaa.a + aaaaaaaa.b - aaaaaaaa.c @ aaaaaaaa.d / aaaaaaaa.e
+ | aaaaaaaa.f & aaaaaaaa.g % aaaaaaaa.h
+ ^ aaaaaaaa.i << aaaaaaaa.k >> aaaaaaaa.l ** aaaaaaaa.m // aaaaaaaa.n
+):
+ return True
+if (
+ ~aaaaaaaaaaaaaaaa.a
+ + aaaaaaaaaaaaaaaa.b
+ - aaaaaaaaaaaaaaaa.c * aaaaaaaaaaaaaaaa.d @ aaaaaaaaaaaaaaaa.e
+ | aaaaaaaaaaaaaaaa.f & aaaaaaaaaaaaaaaa.g % aaaaaaaaaaaaaaaa.h
+ ^ aaaaaaaaaaaaaaaa.i
+ << aaaaaaaaaaaaaaaa.k
+ >> aaaaaaaaaaaaaaaa.l ** aaaaaaaaaaaaaaaa.m // aaaaaaaaaaaaaaaa.n
+):
+ return True
last_call()
# standalone comment at ENDMARKER