fixed formatting to match project conventions. changed Matrix::zip_map to Vector::zip_map for clarity
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nsmryan
parent
18345bf9a0
commit
e8efebef7c
60
src/lib.rs
60
src/lib.rs
@ -395,69 +395,57 @@ impl Interpolate for Quaternion<f32> {
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}
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#[cfg(feature = "impl-nalgebra")]
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impl<N : Scalar, D : DimName> Interpolate for na::Point<N, D>
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where DefaultAllocator : Allocator<N, D>,
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impl<N: Scalar, D: DimName> Interpolate for na::Point<N, D>
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where DefaultAllocator: Allocator<N, D>,
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<DefaultAllocator as Allocator<N, D>>::Buffer: Copy,
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N : Interpolate,
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{
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N: Interpolate {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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let lerp = |c1 : N, c2 : N| { Interpolate::lerp(c1, c2, t) };
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let coords = na::Matrix::zip_map(&a.coords, &b.coords, lerp);
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// The 'coords' of a point is just a vector, so we can interpolate component-wise
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// over these vectors.
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let coords = na::Vector::zip_map(&a.coords, &b.coords, |c1, c2| Interpolate::lerp(c1, c2, t));
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na::Point::from_coordinates(coords)
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector1<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector1<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector2<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector2<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector3<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector3<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector4<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector4<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector5<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector5<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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#[cfg(feature = "impl-nalgebra")]
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impl Interpolate for na::Vector6<f32>
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{
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fn lerp(a: Self, b: Self, t: f32) -> Self
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{
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na::Matrix::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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impl Interpolate for na::Vector6<f32> {
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fn lerp(a: Self, b: Self, t: f32) -> Self {
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na::Vector::zip_map(&a, &b, |c1, c2| Interpolate::lerp(c1, c2, t))
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}
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}
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16
tests/mod.rs
16
tests/mod.rs
@ -132,24 +132,24 @@ fn several_interpolations_several_keys() {
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assert_eq!(spline.clamped_sample(11.), 4.);
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}
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#[test]
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#[cfg(feature = "impl-nalgebra")]
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#[test]
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fn nalgebra_point_interpolation() {
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let start : na::Point2<f32> = na::Point2::new(0.0, 0.0);
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let mid : na::Point2<f32> = na::Point2::new(0.5, 0.5);
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let end : na::Point2<f32> = na::Point2::new(1.0, 1.0);
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let start = na::Point2::new(0.0, 0.0);
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let mid = na::Point2::new(0.5, 0.5);
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let end = na::Point2::new(1.0, 1.0);
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assert_eq!(Interpolate::lerp(start, end, 0.0), start);
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assert_eq!(Interpolate::lerp(start, end, 1.0), end);
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assert_eq!(Interpolate::lerp(start, end, 0.5), mid);
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}
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#[test]
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#[cfg(feature = "impl-nalgebra")]
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#[test]
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fn nalgebra_vector_interpolation() {
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let start : na::Vector2<f32> = na::Vector2::new(0.0, 0.0);
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let mid : na::Vector2<f32> = na::Vector2::new(0.5, 0.5);
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let end : na::Vector2<f32> = na::Vector2::new(1.0, 1.0);
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let start = na::Vector2::new(0.0, 0.0);
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let mid = na::Vector2::new(0.5, 0.5);
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let end = na::Vector2::new(1.0, 1.0);
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assert_eq!(Interpolate::lerp(start, end, 0.0), start);
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assert_eq!(Interpolate::lerp(start, end, 1.0), end);
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