nalgebra/nalgebra-glm/src/gtx/vector_query.rs

use na::{Real, DefaultAllocator};

use traits::{Number, Dimension, Alloc};
use aliases::{Vec, TVec2, TVec3};

/// Returns `true` if two vectors are collinear (up to an epsilon).
pub fn are_collinear<N: Number>(v0: &TVec3<N>, v1: &TVec3<N>, epsilon: N) -> bool {
    is_null(&v0.cross(v1), epsilon)
}

/// Returns `true` if two 2D vectors are collinear (up to an epsilon).
pub fn are_collinear2d<N: Number>(v0: &TVec2<N>, v1: &TVec2<N>, epsilon: N) -> bool {
    abs_diff_eq!(v0.perp(v1), N::zero(), epsilon = epsilon)
}

/// Returns `true` if two vectors are orthogonal (up to an epsilon).
pub fn are_orthogonal<N: Number, D: Dimension>(v0: &Vec<N, D>, v1: &Vec<N, D>, epsilon: N) -> bool
    where DefaultAllocator: Alloc<N, D> {
    abs_diff_eq!(v0.dot(v1), N::zero(), epsilon = epsilon)
}

//pub fn are_orthonormal<N: Number, D: Dimension>(v0: &Vec<N, D>, v1: &Vec<N, D>, epsilon: N) -> bool
//    where DefaultAllocator: Alloc<N, D> {
//    unimplemented!()
//}

/// Returns `true` if all the components of `v` are zero (up to an epsilon).
pub fn is_comp_null<N: Number, D: Dimension>(v: &Vec<N, D>, epsilon: N) -> Vec<bool, D>
    where DefaultAllocator: Alloc<N, D> {
    v.map(|x| abs_diff_eq!(x, N::zero(), epsilon = epsilon))
}

/// Returns `true` if `v` has a magnitude of 1 (up to an epsilon).
pub fn is_normalized<N: Real, D: Dimension>(v: &Vec<N, D>, epsilon: N) -> bool
    where DefaultAllocator: Alloc<N, D> {
    abs_diff_eq!(v.norm_squared(), N::one(), epsilon = epsilon * epsilon)
}

/// Returns `true` if `v` is zero (up to an epsilon).
pub fn is_null<N: Number, D: Dimension>(v: &Vec<N, D>, epsilon: N) -> bool
    where DefaultAllocator: Alloc<N, D> {
    abs_diff_eq!(*v, Vec::<N, D>::zeros(), epsilon = epsilon)
}