nalgebra/tests/core/helper.rs

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// This module implement several methods to fill some
// missing features of num-complex when it comes to randomness.
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use na::RealField;
use num_complex::Complex;
use quickcheck::{Arbitrary, Gen};
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use rand::distributions::{Distribution, Standard};
use rand::Rng;
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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pub struct RandComplex<T>(pub Complex<T>);
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impl<T: Arbitrary + RealField> Arbitrary for RandComplex<T> {
#[inline]
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fn arbitrary(rng: &mut Gen) -> Self {
let im = Arbitrary::arbitrary(rng);
let re = Arbitrary::arbitrary(rng);
RandComplex(Complex::new(re, im))
}
}
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impl<T: RealField> Distribution<RandComplex<T>> for Standard
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where
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Standard: Distribution<T>,
{
#[inline]
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fn sample<'a, G: Rng + ?Sized>(&self, rng: &'a mut G) -> RandComplex<T> {
let re = rng.gen();
let im = rng.gen();
RandComplex(Complex::new(re, im))
}
}
// This is a wrapper similar to RandComplex, but for non-complex.
// This exists only to make generic tests easier to write.
//
// Generates variates in the range [0, 1).
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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pub struct RandScalar<T>(pub T);
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impl<T: Arbitrary> Arbitrary for RandScalar<T> {
#[inline]
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fn arbitrary(rng: &mut Gen) -> Self {
RandScalar(Arbitrary::arbitrary(rng))
}
}
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impl<T: RealField> Distribution<RandScalar<T>> for Standard
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where
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Standard: Distribution<T>,
{
#[inline]
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fn sample<'a, G: Rng + ?Sized>(&self, rng: &'a mut G) -> RandScalar<T> {
RandScalar(self.sample(rng))
}
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}