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use crate::math::Point;
pub trait Lerp {
fn lerp(self, end: Self, percent: f32) -> Self;
}
pub fn flerp(start: f32, end: f32, percent: f32) -> f32 {
start + ((end - start) * percent)
}
impl Lerp for isize {
#[inline]
fn lerp(self, end: isize, percent: f32) -> isize {
let start = self as f32;
let end = end as f32;
(start + ((end - start) * percent)).round() as isize
}
}
impl Lerp for usize {
#[inline]
fn lerp(self, end: usize, percent: f32) -> usize {
let start = self as f32;
let end = end as f32;
(start + ((end - start) * percent)).round() as usize
}
}
impl Lerp for Point {
#[inline]
fn lerp(self, end: Point, percent: f32) -> Point {
Point::new(self.x.lerp(end.x, percent), self.y.lerp(end.y, percent))
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn isize_simple() {
assert_eq!(0_isize.lerp(10, 0.), 0);
assert_eq!(0_isize.lerp(10, 0.5), 5);
assert_eq!(0_isize.lerp(10, 1.), 10);
assert_eq!(0_isize.lerp(10, 0.2), 2);
assert_eq!(5_isize.lerp(10, 0.), 5);
assert_eq!(5_isize.lerp(10, 1.), 10);
assert_eq!(785_isize.lerp(787, 0.), 785);
assert_eq!(785_isize.lerp(787, 0.5), 786);
assert_eq!(785_isize.lerp(787, 1.), 787);
assert_eq!(21_isize.lerp(21, 0.), 21);
assert_eq!(21_isize.lerp(21, 0.5), 21);
assert_eq!(21_isize.lerp(21, 1.), 21);
assert_eq!(10_isize.lerp(1, 1.), 1);
assert_eq!(10_isize.lerp(1, 0.5), 6);
assert_eq!(10_isize.lerp(1, 0.), 10);
assert_eq!((-5_isize).lerp(5, 1.), 5);
assert_eq!((-5_isize).lerp(5, 0.5), 0);
assert_eq!((-5_isize).lerp(5, 0.), -5);
assert_eq!(5_isize.lerp(-5, 1.), -5);
assert_eq!(5_isize.lerp(-5, 0.5), 0);
assert_eq!(5_isize.lerp(-5, 0.), 5);
}
#[test]
fn point_simple() {
let start1 = Point::new(0, 0);
let end1 = Point::new(10, 10);
let start2 = Point::new(-1, -1);
let end2 = Point::new(1, 1);
let start3 = Point::new(1, -1);
let end3 = Point::new(-1, 1);
assert_eq!(start1.lerp(end1, 0.), Point::new(0, 0));
assert_eq!(start1.lerp(end1, 0.5), Point::new(5, 5));
assert_eq!(start1.lerp(end1, 1.), Point::new(10, 10));
assert_eq!(end1.lerp(start1, 0.), Point::new(10, 10));
assert_eq!(end1.lerp(start1, 0.5), Point::new(5, 5));
assert_eq!(end1.lerp(start1, 1.), Point::new(0, 0));
assert_eq!(start2.lerp(end2, 0.), Point::new(-1, -1));
assert_eq!(start2.lerp(end2, 0.5), Point::new(0, 0));
assert_eq!(start2.lerp(end2, 1.), Point::new(1, 1));
assert_eq!(end2.lerp(start2, 0.), Point::new(1, 1));
assert_eq!(end2.lerp(start2, 0.5), Point::new(0, 0));
assert_eq!(end2.lerp(start2, 1.), Point::new(-1, -1));
assert_eq!(start3.lerp(end3, 0.), Point::new(1, -1));
assert_eq!(start3.lerp(end3, 0.5), Point::new(0, 0));
assert_eq!(start3.lerp(end3, 1.), Point::new(-1, 1));
assert_eq!(end3.lerp(start3, 0.), Point::new(-1, 1));
assert_eq!(end3.lerp(start3, 0.5), Point::new(0, 0));
assert_eq!(end3.lerp(start3, 1.), Point::new(1, -1));
assert_eq!(start1.lerp(end1, 2.), Point::new(20, 20));
assert_eq!(start1.lerp(end1, -1.), Point::new(-10, -10));
}
}
