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use nalgebra::{Scalar, Vector, Vector1, Vector2, Vector3, Vector4, Vector5, Vector6};
use num_traits as nt;
use simba::scalar::{ClosedAdd, ClosedDiv, ClosedMul, ClosedSub};
use std::ops::Mul;
use crate::interpolate::{
cubic_bezier_def, cubic_hermite_def, quadratic_bezier_def, Additive, Interpolate, Linear, One,
};
macro_rules! impl_interpolate_vector {
($($t:tt)*) => {
impl<T> Linear<T> for $($t)*<T>
where T: Scalar +
Copy +
ClosedAdd +
ClosedSub +
ClosedMul +
ClosedDiv {
#[inline(always)]
fn outer_mul(self, t: T) -> Self {
self * t
}
#[inline(always)]
fn outer_div(self, t: T) -> Self {
self / t
}
}
impl<T, V> Interpolate<T> for $($t)*<V>
where Self: Linear<T>,
T: Additive + One + Mul<T, Output = T>,
V: nt::One +
nt::Zero +
Additive +
Scalar +
ClosedAdd +
ClosedMul +
ClosedSub +
Interpolate<T> {
#[inline(always)]
fn lerp(a: Self, b: Self, t: T) -> Self {
Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
}
#[inline(always)]
fn cubic_hermite(x: (Self, T), a: (Self, T), b: (Self, T), y: (Self, T), t: T) -> Self {
cubic_hermite_def(x, a, b, y, t)
}
#[inline(always)]
fn quadratic_bezier(a: Self, u: Self, b: Self, t: T) -> Self {
quadratic_bezier_def(a, u, b, t)
}
#[inline(always)]
fn cubic_bezier(a: Self, u: Self, v: Self, b: Self, t: T) -> Self {
cubic_bezier_def(a, u, v, b, t)
}
}
}
}
impl_interpolate_vector!(Vector1);
impl_interpolate_vector!(Vector2);
impl_interpolate_vector!(Vector3);
impl_interpolate_vector!(Vector4);
impl_interpolate_vector!(Vector5);
impl_interpolate_vector!(Vector6);