Trait cgmath::AbsDiffEq

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pub trait AbsDiffEq<Rhs = Self>: PartialEq<Rhs>where
    Rhs: ?Sized,{
    type Epsilon;

    // Required methods
    fn default_epsilon() -> Self::Epsilon;
    fn abs_diff_eq(&self, other: &Rhs, epsilon: Self::Epsilon) -> bool;

    // Provided method
    fn abs_diff_ne(&self, other: &Rhs, epsilon: Self::Epsilon) -> bool { ... }
}
Expand description

Equality that is defined using the absolute difference of two numbers.

Required Associated Types§

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type Epsilon

Used for specifying relative comparisons.

Required Methods§

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fn default_epsilon() -> Self::Epsilon

The default tolerance to use when testing values that are close together.

This is used when no epsilon value is supplied to the abs_diff_eq!, relative_eq!, or ulps_eq! macros.

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fn abs_diff_eq(&self, other: &Rhs, epsilon: Self::Epsilon) -> bool

A test for equality that uses the absolute difference to compute the approximate equality of two numbers.

Provided Methods§

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fn abs_diff_ne(&self, other: &Rhs, epsilon: Self::Epsilon) -> bool

The inverse of ApproxEq::abs_diff_eq.

Implementations on Foreign Types§

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impl<'a, T> AbsDiffEq<&'a mut T> for &'a mut Twhere T: AbsDiffEq<T> + ?Sized,

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type Epsilon = <T as AbsDiffEq<T>>::Epsilon

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fn default_epsilon() -> <T as AbsDiffEq<T>>::Epsilon

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fn abs_diff_eq( &self, other: &&'a mut T, epsilon: <T as AbsDiffEq<T>>::Epsilon ) -> bool

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impl AbsDiffEq<u32> for u32

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type Epsilon = u32

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fn default_epsilon() -> u32

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fn abs_diff_eq(&self, other: &u32, epsilon: u32) -> bool

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impl AbsDiffEq<isize> for isize

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type Epsilon = isize

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fn default_epsilon() -> isize

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fn abs_diff_eq(&self, other: &isize, epsilon: isize) -> bool

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impl AbsDiffEq<u16> for u16

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type Epsilon = u16

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fn default_epsilon() -> u16

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fn abs_diff_eq(&self, other: &u16, epsilon: u16) -> bool

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impl AbsDiffEq<usize> for usize

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type Epsilon = usize

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fn default_epsilon() -> usize

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fn abs_diff_eq(&self, other: &usize, epsilon: usize) -> bool

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impl AbsDiffEq<i64> for i64

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type Epsilon = i64

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fn default_epsilon() -> i64

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fn abs_diff_eq(&self, other: &i64, epsilon: i64) -> bool

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impl AbsDiffEq<u8> for u8

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type Epsilon = u8

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fn default_epsilon() -> u8

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fn abs_diff_eq(&self, other: &u8, epsilon: u8) -> bool

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impl AbsDiffEq<f32> for f32

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type Epsilon = f32

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fn default_epsilon() -> f32

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fn abs_diff_eq(&self, other: &f32, epsilon: f32) -> bool

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impl AbsDiffEq<f64> for f64

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type Epsilon = f64

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fn default_epsilon() -> f64

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fn abs_diff_eq(&self, other: &f64, epsilon: f64) -> bool

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impl AbsDiffEq<i16> for i16

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type Epsilon = i16

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fn default_epsilon() -> i16

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fn abs_diff_eq(&self, other: &i16, epsilon: i16) -> bool

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impl<'a, T> AbsDiffEq<&'a T> for &'a Twhere T: AbsDiffEq<T> + ?Sized,

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type Epsilon = <T as AbsDiffEq<T>>::Epsilon

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fn default_epsilon() -> <T as AbsDiffEq<T>>::Epsilon

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fn abs_diff_eq( &self, other: &&'a T, epsilon: <T as AbsDiffEq<T>>::Epsilon ) -> bool

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impl<A, B> AbsDiffEq<[B]> for [A]where A: AbsDiffEq<B>, <A as AbsDiffEq<B>>::Epsilon: Clone,

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type Epsilon = <A as AbsDiffEq<B>>::Epsilon

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fn default_epsilon() -> <A as AbsDiffEq<B>>::Epsilon

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fn abs_diff_eq( &self, other: &[B], epsilon: <A as AbsDiffEq<B>>::Epsilon ) -> bool

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impl AbsDiffEq<u64> for u64

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type Epsilon = u64

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fn default_epsilon() -> u64

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fn abs_diff_eq(&self, other: &u64, epsilon: u64) -> bool

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impl<T> AbsDiffEq<Cell<T>> for Cell<T>where T: AbsDiffEq<T> + Copy,

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type Epsilon = <T as AbsDiffEq<T>>::Epsilon

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fn default_epsilon() -> <T as AbsDiffEq<T>>::Epsilon

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fn abs_diff_eq( &self, other: &Cell<T>, epsilon: <T as AbsDiffEq<T>>::Epsilon ) -> bool

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impl<T> AbsDiffEq<RefCell<T>> for RefCell<T>where T: AbsDiffEq<T> + ?Sized,

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type Epsilon = <T as AbsDiffEq<T>>::Epsilon

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fn default_epsilon() -> <T as AbsDiffEq<T>>::Epsilon

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fn abs_diff_eq( &self, other: &RefCell<T>, epsilon: <T as AbsDiffEq<T>>::Epsilon ) -> bool

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impl AbsDiffEq<i32> for i32

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type Epsilon = i32

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fn default_epsilon() -> i32

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fn abs_diff_eq(&self, other: &i32, epsilon: i32) -> bool

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impl AbsDiffEq<i8> for i8

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type Epsilon = i8

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fn default_epsilon() -> i8

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fn abs_diff_eq(&self, other: &i8, epsilon: i8) -> bool

Implementors§

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impl<A: Angle> AbsDiffEq<Euler<A>> for Euler<A>

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type Epsilon = <A as AbsDiffEq<A>>::Epsilon

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impl<S, R, E: BaseFloat> AbsDiffEq<Decomposed<S, R>> for Decomposed<S, R>where S: AbsDiffEq<Epsilon = E> + VectorSpace, S::Scalar: AbsDiffEq<Epsilon = E>, R: AbsDiffEq<Epsilon = E>,

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type Epsilon = E

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impl<S: BaseFloat> AbsDiffEq<Basis2<S>> for Basis2<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Basis3<S>> for Basis3<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Deg<S>> for Deg<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Matrix2<S>> for Matrix2<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Matrix3<S>> for Matrix3<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Matrix4<S>> for Matrix4<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Point1<S>> for Point1<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Point2<S>> for Point2<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Point3<S>> for Point3<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Quaternion<S>> for Quaternion<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Rad<S>> for Rad<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Vector1<S>> for Vector1<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Vector2<S>> for Vector2<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Vector3<S>> for Vector3<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon

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impl<S: BaseFloat> AbsDiffEq<Vector4<S>> for Vector4<S>

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type Epsilon = <S as AbsDiffEq<S>>::Epsilon