[−][src]Trait bestagon::lerp::LinearInterpolation
Required methods
Loading content...Implementations on Foreign Types
impl LinearInterpolation for f32
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Loading content...Implementors
impl LinearInterpolation for Axial
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fn lerp(&self, to: &Axial, t: f32) -> Axial
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use bestagon::{coords::Axial, lerp::LinearInterpolation}; assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 0.00), Axial(0, 0)); assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 0.25), Axial(1, -1)); assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 0.49), Axial(2, -2)); assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 0.51), Axial(3, -2)); assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 0.75), Axial(4, -3)); assert_eq!(Axial(0, 0).lerp(&Axial(5, -4), 1.00), Axial(5, -4));
impl LinearInterpolation for Cube
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fn lerp(&self, to: &Cube, t: f32) -> Cube
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use bestagon::{coords::Cube, lerp::LinearInterpolation}; assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 0.00), Cube(0, 0, 0)); assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 0.25), Cube(1, -1, 0)); assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 0.49), Cube(2, -2, 0)); assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 0.51), Cube(3, -2, -1)); assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 0.75), Cube(4, -3, -1)); assert_eq!(Cube(0, 0, 0).lerp(&Cube(5, -4, -1), 1.00), Cube(5, -4, -1));