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math: correct argument kinds (#3624)

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* math: make positional-only args positional-only

* math: make keyword-only args keyword-only
This commit is contained in:
Shantanu
2020-01-19 14:04:43 -06:00
committed by Sebastian Rittau
parent f077918918
commit 32959dfe6e
1 changed files with 45 additions and 45 deletions
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90
stdlib/2and3/math.pyi
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@@ -13,71 +13,71 @@ if sys.version_info >= (3, 5):
if sys.version_info >= (3, 6):
tau: float
def acos(x: SupportsFloat) -> float: ...
def acosh(x: SupportsFloat) -> float: ...
def asin(x: SupportsFloat) -> float: ...
def asinh(x: SupportsFloat) -> float: ...
def atan(x: SupportsFloat) -> float: ...
def atan2(y: SupportsFloat, x: SupportsFloat) -> float: ...
def atanh(x: SupportsFloat) -> float: ...
def acos(__x: SupportsFloat) -> float: ...
def acosh(__x: SupportsFloat) -> float: ...
def asin(__x: SupportsFloat) -> float: ...
def asinh(__x: SupportsFloat) -> float: ...
def atan(__x: SupportsFloat) -> float: ...
def atan2(__y: SupportsFloat, __x: SupportsFloat) -> float: ...
def atanh(__x: SupportsFloat) -> float: ...
if sys.version_info >= (3,):
def ceil(x: SupportsFloat) -> int: ...
def ceil(__x: SupportsFloat) -> int: ...
else:
def ceil(x: SupportsFloat) -> float: ...
def copysign(x: SupportsFloat, y: SupportsFloat) -> float: ...
def cos(x: SupportsFloat) -> float: ...
def cosh(x: SupportsFloat) -> float: ...
def degrees(x: SupportsFloat) -> float: ...
def ceil(__x: SupportsFloat) -> float: ...
def copysign(__x: SupportsFloat, __y: SupportsFloat) -> float: ...
def cos(__x: SupportsFloat) -> float: ...
def cosh(__x: SupportsFloat) -> float: ...
def degrees(__x: SupportsFloat) -> float: ...
if sys.version_info >= (3, 8):
def dist(__p: Iterable[SupportsFloat], __q: Iterable[SupportsFloat]) -> float: ...
def erf(x: SupportsFloat) -> float: ...
def erfc(x: SupportsFloat) -> float: ...
def exp(x: SupportsFloat) -> float: ...
def expm1(x: SupportsFloat) -> float: ...
def fabs(x: SupportsFloat) -> float: ...
def factorial(x: SupportsInt) -> int: ...
def erf(__x: SupportsFloat) -> float: ...
def erfc(__x: SupportsFloat) -> float: ...
def exp(__x: SupportsFloat) -> float: ...
def expm1(__x: SupportsFloat) -> float: ...
def fabs(__x: SupportsFloat) -> float: ...
def factorial(__x: SupportsInt) -> int: ...
if sys.version_info >= (3,):
def floor(x: SupportsFloat) -> int: ...
def floor(__x: SupportsFloat) -> int: ...
else:
def floor(x: SupportsFloat) -> float: ...
def fmod(x: SupportsFloat, y: SupportsFloat) -> float: ...
def frexp(x: SupportsFloat) -> Tuple[float, int]: ...
def fsum(iterable: Iterable[float]) -> float: ...
def gamma(x: SupportsFloat) -> float: ...
def floor(__x: SupportsFloat) -> float: ...
def fmod(__x: SupportsFloat, __y: SupportsFloat) -> float: ...
def frexp(__x: SupportsFloat) -> Tuple[float, int]: ...
def fsum(__seq: Iterable[float]) -> float: ...
def gamma(__x: SupportsFloat) -> float: ...
if sys.version_info >= (3, 5):
def gcd(a: int, b: int) -> int: ...
def gcd(__x: int, __y: int) -> int: ...
if sys.version_info >= (3, 8):
def hypot(*coordinates: SupportsFloat) -> float: ...
else:
def hypot(__x: SupportsFloat, __y: SupportsFloat) -> float: ...
if sys.version_info >= (3, 5):
def isclose(a: SupportsFloat, b: SupportsFloat, rel_tol: SupportsFloat = ..., abs_tol: SupportsFloat = ...) -> bool: ...
def isinf(x: SupportsFloat) -> bool: ...
def isclose(a: SupportsFloat, b: SupportsFloat, *, rel_tol: SupportsFloat = ..., abs_tol: SupportsFloat = ...) -> bool: ...
def isinf(__x: SupportsFloat) -> bool: ...
if sys.version_info >= (3,):
def isfinite(x: SupportsFloat) -> bool: ...
def isnan(x: SupportsFloat) -> bool: ...
def isfinite(__x: SupportsFloat) -> bool: ...
def isnan(__x: SupportsFloat) -> bool: ...
if sys.version_info >= (3, 8):
def isqrt(__n: int) -> int: ...
def ldexp(x: SupportsFloat, i: int) -> float: ...
def lgamma(x: SupportsFloat) -> float: ...
def ldexp(__x: SupportsFloat, __i: int) -> float: ...
def lgamma(__x: SupportsFloat) -> float: ...
def log(x: SupportsFloat, base: SupportsFloat = ...) -> float: ...
def log10(x: SupportsFloat) -> float: ...
def log1p(x: SupportsFloat) -> float: ...
def log10(__x: SupportsFloat) -> float: ...
def log1p(__x: SupportsFloat) -> float: ...
if sys.version_info >= (3, 3):
def log2(x: SupportsFloat) -> float: ...
def modf(x: SupportsFloat) -> Tuple[float, float]: ...
def pow(x: SupportsFloat, y: SupportsFloat) -> float: ...
def log2(__x: SupportsFloat) -> float: ...
def modf(__x: SupportsFloat) -> Tuple[float, float]: ...
def pow(__x: SupportsFloat, __y: SupportsFloat) -> float: ...
if sys.version_info >= (3, 8):
@overload
def prod(__iterable: Iterable[int], *, start: int = ...) -> int: ... # type: ignore
@overload
def prod(__iterable: Iterable[SupportsFloat], *, start: SupportsFloat = ...) -> float: ...
def radians(x: SupportsFloat) -> float: ...
def radians(__x: SupportsFloat) -> float: ...
if sys.version_info >= (3, 7):
def remainder(x: SupportsFloat, y: SupportsFloat) -> float: ...
def sin(x: SupportsFloat) -> float: ...
def sinh(x: SupportsFloat) -> float: ...
def sqrt(x: SupportsFloat) -> float: ...
def tan(x: SupportsFloat) -> float: ...
def tanh(x: SupportsFloat) -> float: ...
def trunc(x: SupportsFloat) -> int: ...
def remainder(__x: SupportsFloat, __y: SupportsFloat) -> float: ...
def sin(__x: SupportsFloat) -> float: ...
def sinh(__x: SupportsFloat) -> float: ...
def sqrt(__x: SupportsFloat) -> float: ...
def tan(__x: SupportsFloat) -> float: ...
def tanh(__x: SupportsFloat) -> float: ...
def trunc(__x: SupportsFloat) -> int: ...