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tiijay
2025-10-19 18:29:10 +02:00
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"""
Mathematical functions.
MicroPython module: https://docs.micropython.org/en/v1.26.0/library/math.html
CPython module: :mod:`python:math` https://docs.python.org/3/library/math.html .
The ``math`` module provides some basic mathematical functions for
working with floating-point numbers.
*Note:* On the pyboard, floating-point numbers have 32-bit precision.
Availability: not available on WiPy. Floating point support required
for this module.
---
Module: 'math' on micropython-v1.26.0-rp2-RPI_PICO
"""
# MCU: {'mpy': 'v6.3', 'build': '', 'ver': '1.26.0', 'arch': 'armv6m', 'version': '1.26.0', 'port': 'rp2', 'board': 'RPI_PICO', 'family': 'micropython', 'board_id': 'RPI_PICO', 'variant': '', 'cpu': 'RP2040'}
# Stubber: v1.26.0
from __future__ import annotations
from _typeshed import Incomplete
from typing import SupportsFloat, Tuple
from typing_extensions import Awaitable, TypeAlias, TypeVar
inf: float = inf
nan: float = nan
pi: float = 3.1415928
e: float = 2.7182818
tau: float = 6.2831856
def ldexp(x: SupportsFloat, exp: int, /) -> float:
"""
Return ``x * (2**exp)``.
"""
...
def lgamma(x: SupportsFloat, /) -> float:
"""
Return the natural logarithm of the gamma function of ``x``.
"""
...
def trunc(x: SupportsFloat, /) -> int:
"""
Return an integer, being ``x`` rounded towards 0.
"""
...
def isclose(*args, **kwargs) -> Incomplete: ...
def gamma(x: SupportsFloat, /) -> float:
"""
Return the gamma function of ``x``.
"""
...
def isnan(x: SupportsFloat, /) -> bool:
"""
Return ``True`` if ``x`` is not-a-number
"""
...
def isfinite(x: SupportsFloat, /) -> bool:
"""
Return ``True`` if ``x`` is finite.
"""
...
def isinf(x: SupportsFloat, /) -> bool:
"""
Return ``True`` if ``x`` is infinite.
"""
...
def sqrt(x: SupportsFloat, /) -> float:
"""
Return the square root of ``x``.
"""
...
def sinh(x: SupportsFloat, /) -> float:
"""
Return the hyperbolic sine of ``x``.
"""
...
def log(x: SupportsFloat, /) -> float:
"""
With one argument, return the natural logarithm of *x*.
With two arguments, return the logarithm of *x* to the given *base*.
"""
...
def tan(x: SupportsFloat, /) -> float:
"""
Return the tangent of ``x``.
"""
...
def tanh(x: SupportsFloat, /) -> float:
"""
Return the hyperbolic tangent of ``x``.
"""
...
def log2(x: SupportsFloat, /) -> float:
"""
Return the base-2 logarithm of ``x``.
"""
...
def log10(x: SupportsFloat, /) -> float:
"""
Return the base-10 logarithm of ``x``.
"""
...
def sin(x: SupportsFloat, /) -> float:
"""
Return the sine of ``x``.
"""
...
def modf(x: SupportsFloat, /) -> Tuple:
"""
Return a tuple of two floats, being the fractional and integral parts of
``x``. Both return values have the same sign as ``x``.
"""
...
def radians(x: SupportsFloat, /) -> float:
"""
Return degrees ``x`` converted to radians.
"""
...
def atanh(x: SupportsFloat, /) -> float:
"""
Return the inverse hyperbolic tangent of ``x``.
"""
...
def atan2(y: SupportsFloat, x: SupportsFloat, /) -> float:
"""
Return the principal value of the inverse tangent of ``y/x``.
"""
...
def atan(x: SupportsFloat, /) -> float:
"""
Return the inverse tangent of ``x``.
"""
...
def ceil(x: SupportsFloat, /) -> int:
"""
Return an integer, being ``x`` rounded towards positive infinity.
"""
...
def copysign(x: SupportsFloat, y: SupportsFloat, /) -> float:
"""
Return ``x`` with the sign of ``y``.
"""
...
def frexp(x: SupportsFloat, /) -> tuple[float, int]:
"""
Decomposes a floating-point number into its mantissa and exponent.
The returned value is the tuple ``(m, e)`` such that ``x == m * 2**e``
exactly. If ``x == 0`` then the function returns ``(0.0, 0)``, otherwise
the relation ``0.5 <= abs(m) < 1`` holds.
"""
...
def acos(x: SupportsFloat, /) -> float:
"""
Return the inverse cosine of ``x``.
"""
...
def pow(x: SupportsFloat, y: SupportsFloat, /) -> float:
"""
Returns ``x`` to the power of ``y``.
"""
...
def asinh(x: SupportsFloat, /) -> float:
"""
Return the inverse hyperbolic sine of ``x``.
"""
...
def acosh(x: SupportsFloat, /) -> float:
"""
Return the inverse hyperbolic cosine of ``x``.
"""
...
def asin(x: SupportsFloat, /) -> float:
"""
Return the inverse sine of ``x``.
"""
...
def factorial(*args, **kwargs) -> Incomplete: ...
def fabs(x: SupportsFloat, /) -> float:
"""
Return the absolute value of ``x``.
"""
...
def expm1(x: SupportsFloat, /) -> float:
"""
Return ``exp(x) - 1``.
"""
...
def floor(x: SupportsFloat, /) -> int:
"""
Return an integer, being ``x`` rounded towards negative infinity.
"""
...
def fmod(x: SupportsFloat, y: SupportsFloat, /) -> float:
"""
Return the remainder of ``x/y``.
"""
...
def cos(x: SupportsFloat, /) -> float:
"""
Return the cosine of ``x``.
"""
...
def degrees(x: SupportsFloat, /) -> float:
"""
Return radians ``x`` converted to degrees.
"""
...
def cosh(x: SupportsFloat, /) -> float:
"""
Return the hyperbolic cosine of ``x``.
"""
...
def exp(x: SupportsFloat, /) -> float:
"""
Return the exponential of ``x``.
"""
...
def erf(x: SupportsFloat, /) -> float:
"""
Return the error function of ``x``.
"""
...
def erfc(x: SupportsFloat, /) -> float:
"""
Return the complementary error function of ``x``.
"""
...