nalgebra/nalgebra-glm/src/ext/vector_relational.rs

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use na::{DefaultAllocator};
use traits::{Alloc, Number, Dimension};
use aliases::Vec;
/// Component-wise approximate equality of two vectors, using a scalar epsilon.
pub fn equal_eps<N: Number, D: Dimension>(x: &Vec<N, D>, y: &Vec<N, D>, epsilon: N) -> Vec<bool, D>
where DefaultAllocator: Alloc<N, D> {
x.zip_map(y, |x, y| abs_diff_eq!(x, y, epsilon = epsilon))
}
/// Component-wise approximate equality of two vectors, using a per-component epsilon.
pub fn equal_eps_vec<N: Number, D: Dimension>(x: &Vec<N, D>, y: &Vec<N, D>, epsilon: &Vec<N, D>) -> Vec<bool, D>
where DefaultAllocator: Alloc<N, D> {
x.zip_zip_map(y, epsilon, |x, y, eps| abs_diff_eq!(x, y, epsilon = eps))
}
/// Component-wise approximate non-equality of two vectors, using a scalar epsilon.
pub fn not_equal_eps<N: Number, D: Dimension>(x: &Vec<N, D>, y: &Vec<N, D>, epsilon: N) -> Vec<bool, D>
where DefaultAllocator: Alloc<N, D> {
x.zip_map(y, |x, y| abs_diff_ne!(x, y, epsilon = epsilon))
}
/// Component-wise approximate non-equality of two vectors, using a per-component epsilon.
pub fn not_equal_eps_vec<N: Number, D: Dimension>(x: &Vec<N, D>, y: &Vec<N, D>, epsilon: &Vec<N, D>) -> Vec<bool, D>
where DefaultAllocator: Alloc<N, D> {
x.zip_zip_map(y, epsilon, |x, y, eps| abs_diff_ne!(x, y, epsilon = eps))
}