import{_ as s,c as i,o as a,a2 as n}from"./chunks/framework.BV61Qrc0.js";const E=JSON.parse('{"title":"mbcp.mp_math.utils","description":"","frontmatter":{"title":"mbcp.mp_math.utils"},"headers":[],"relativePath":"api/mp_math/utils.md","filePath":"api/mp_math/utils.md"}'),l={name:"api/mp_math/utils.md"},t=n(`

func `clamp() -> float`

说明: 区间限定函数

参数:

x: 待限定的值
min_: 最小值
max_: 最大值

返回: 限制后的值

源代码

python

def clamp(x: float, min_: float, max_: float) -> float:
    """
    区间限定函数
    Args:
        x: 待限定的值
        min_: 最小值
        max_: 最大值

    Returns:
        限制后的值
    """
    return max(min(x, max_), min_)

func `approx(x: float = 0.0, y: float = APPROX) -> bool`

说明: 判断两个数是否近似相等。或包装一个实数，用于判断是否近似于0。

参数:

x: 数1
y: 数2
epsilon: 误差

返回: 是否近似相等

源代码

python

def approx(x: float, y: float=0.0, epsilon: float=APPROX) -> bool:
    """
    判断两个数是否近似相等。或包装一个实数，用于判断是否近似于0。
    Args:
        x: 数1
        y: 数2
        epsilon: 误差
    Returns:
        是否近似相等
    """
    return abs(x - y) < epsilon

func `sign(x: float = False) -> str`

说明: 获取数的符号。

参数:

x: 数
only_neg: 是否只返回负数的符号

返回: 符号 + - ""

源代码

python

def sign(x: float, only_neg: bool=False) -> str:
    """获取数的符号。
    Args:
        x: 数
        only_neg: 是否只返回负数的符号
    Returns:
        符号 + - ""
    """
    if x > 0:
        return '+' if not only_neg else ''
    elif x < 0:
        return '-'
    else:
        return ''

func `sign_format(x: float = False) -> str`

说明: 格式化符号数 -1 -> -1 1 -> +1 0 -> ""

参数:

x: 数
only_neg: 是否只返回负数的符号

返回: 符号 + - ""

源代码

python

def sign_format(x: float, only_neg: bool=False) -> str:
    """格式化符号数
    -1 -> -1
    1 -> +1
    0 -> ""
    Args:
        x: 数
        only_neg: 是否只返回负数的符号
    Returns:
        符号 + - ""
    """
    if x > 0:
        return f'+{x}' if not only_neg else f'{x}'
    elif x < 0:
        return f'-{abs(x)}'
    else:
        return ''

class `Approx`

method `init(self, value: RealNumber)`

源代码

python

def __init__(self, value: RealNumber):
    self.value = value

method `eq(self, other)`

源代码

python

def __eq__(self, other):
    if isinstance(self.value, (float, int)):
        if isinstance(other, (float, int)):
            return abs(self.value - other) < APPROX
        else:
            self.raise_type_error(other)
    elif isinstance(self.value, Vector3):
        if isinstance(other, (Vector3, Point3, Plane3, Line3)):
            return all([approx(self.value.x, other.x), approx(self.value.y, other.y), approx(self.value.z, other.z)])
        else:
            self.raise_type_error(other)

method `raise_type_error(self, other)`

源代码

python

def raise_type_error(self, other):
    raise TypeError(f'Unsupported type: {type(self.value)} and {type(other)}')

method `ne(self, other)`

源代码

python

def __ne__(self, other):
    return not self.__eq__(other)

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func clamp() -> float ​

func approx(x: float = 0.0, y: float = APPROX) -> bool ​

func sign(x: float = False) -> str ​

func sign_format(x: float = False) -> str ​

class Approx ​

method __init__(self, value: RealNumber) ​

method __eq__(self, other) ​

method raise_type_error(self, other) ​

method __ne__(self, other) ​

func `clamp() -> float`

func `approx(x: float = 0.0, y: float = APPROX) -> bool`

func `sign(x: float = False) -> str`

func `sign_format(x: float = False) -> str`

class `Approx`

method `init(self, value: RealNumber)`

method `eq(self, other)`

method `raise_type_error(self, other)`

method `ne(self, other)`