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Uses old Rust 2015

0.5.1 Jan 23, 2022
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0.4.0 Oct 25, 2020
0.3.2 Mar 17, 2019
0.1.0 Nov 30, 2015

#25 in Rust patterns

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approx

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Approximate floating point equality comparisons and assertions for the Rust Programming Language.


lib.rs:

A crate that provides facilities for testing the approximate equality of floating-point based types, using either relative difference, or units in the last place (ULPs) comparisons.

You can also use the *_{eq, ne}! and assert_*_{eq, ne}! macros to test for equality using a more positional style:

#[macro_use]
extern crate approx;

use std::f64;

abs_diff_eq!(1.0, 1.0);
abs_diff_eq!(1.0, 1.0, epsilon = f64::EPSILON);

relative_eq!(1.0, 1.0);
relative_eq!(1.0, 1.0, epsilon = f64::EPSILON);
relative_eq!(1.0, 1.0, max_relative = 1.0);
relative_eq!(1.0, 1.0, epsilon = f64::EPSILON, max_relative = 1.0);
relative_eq!(1.0, 1.0, max_relative = 1.0, epsilon = f64::EPSILON);

ulps_eq!(1.0, 1.0);
ulps_eq!(1.0, 1.0, epsilon = f64::EPSILON);
ulps_eq!(1.0, 1.0, max_ulps = 4);
ulps_eq!(1.0, 1.0, epsilon = f64::EPSILON, max_ulps = 4);
ulps_eq!(1.0, 1.0, max_ulps = 4, epsilon = f64::EPSILON);

Implementing approximate equality for custom types

The *Eq traits allow approximate equalities to be implemented on types, based on the fundamental floating point implementations.

For example, we might want to be able to do approximate assertions on a complex number type:

#[macro_use]
extern crate approx;

#[derive(Debug, PartialEq)]
struct Complex<T> {
    x: T,
    i: T,
}

let x = Complex { x: 1.2, i: 2.3 };

assert_relative_eq!(x, x);
assert_ulps_eq!(x, x, max_ulps = 4);

To do this we can implement AbsDiffEq, RelativeEq and UlpsEq generically in terms of a type parameter that also implements AbsDiffEq, RelativeEq and UlpsEq respectively. This means that we can make comparisons for either Complex<f32> or Complex<f64>:

#
impl<T: AbsDiffEq> AbsDiffEq for Complex<T> where
    T::Epsilon: Copy,
{
    type Epsilon = T::Epsilon;

    fn default_epsilon() -> T::Epsilon {
        T::default_epsilon()
    }

    fn abs_diff_eq(&self, other: &Self, epsilon: T::Epsilon) -> bool {
        T::abs_diff_eq(&self.x, &other.x, epsilon) &&
        T::abs_diff_eq(&self.i, &other.i, epsilon)
    }
}

impl<T: RelativeEq> RelativeEq for Complex<T> where
    T::Epsilon: Copy,
{
    fn default_max_relative() -> T::Epsilon {
        T::default_max_relative()
    }

    fn relative_eq(&self, other: &Self, epsilon: T::Epsilon, max_relative: T::Epsilon) -> bool {
        T::relative_eq(&self.x, &other.x, epsilon, max_relative) &&
        T::relative_eq(&self.i, &other.i, epsilon, max_relative)
    }
}

impl<T: UlpsEq> UlpsEq for Complex<T> where
    T::Epsilon: Copy,
{
    fn default_max_ulps() -> u32 {
        T::default_max_ulps()
    }

    fn ulps_eq(&self, other: &Self, epsilon: T::Epsilon, max_ulps: u32) -> bool {
        T::ulps_eq(&self.x, &other.x, epsilon, max_ulps) &&
        T::ulps_eq(&self.i, &other.i, epsilon, max_ulps)
    }
}

References

Floating point is hard! Thanks goes to these links for helping to make things a little easier to understand:

Dependencies

~180KB