use crate::{Number, Float}; use super::vector2::Vector2; use crate::core; #[derive(Clone)] pub struct Bound2 { pub min: Vector2, pub max: Vector2 } pub type Bound2i = Bound2; pub type Bound2f = Bound2; fn min (a: T, b: T) -> T { if b < a { return b; } a } fn max (a: T, b: T) -> T { if b > a { return b; } a } impl Bound2 { pub fn new(p0: &Vector2, p1: &Vector2) -> Self { let min = Vector2::new_xy(min(p0.x, p1.x), min(p0.y, p1.y)); let max = Vector2::new_xy(max(p0.x, p1.x), max(p0.y, p1.y)); Self { min, max } } pub fn new_xyxy(x1: T, y1: T, x2: T, y2: T) -> Self { Self::new( &Vector2::new_xy(x1, y1), &Vector2::new_xy(x2, y2), ) } pub fn diagonal(&self) -> Vector2 { self.max - self.min } pub fn area(&self) -> T { let diag = self.diagonal(); return diag.x * diag.y; } pub fn width(&self) -> T { self.diagonal().x } } impl From<&Bound2i> for Bound2f { fn from(b: &Bound2i) -> Self { Self { min: core::Vector2f::from(b.min), max: core::Vector2f::from(b.max), } } } impl From<&Bound2f> for Bound2i { fn from(b: &Bound2f) -> Self { Self { min: core::Vector2i::from(b.min), max: core::Vector2i::from(b.max), } } } pub fn intersect(a: &Bound2, b: &Bound2) -> Bound2 { Bound2::new( &Vector2::new_xy(max(a.min.x, b.min.x), max(a.min.y, b.min.y)), &Vector2::new_xy(min(a.max.x, b.max.x), min(a.max.y, b.max.y)), ) } #[cfg(test)] mod tests { use super::*; fn create_test() -> Bound2 { Bound2::new( &Vector2::new_xy(1, 2), &Vector2::new_xy(10, 3) ) } #[test] fn area() { let b = create_test(); assert!(b.area() == 9); } #[test] fn intersect_test() { let b1 = Bound2i::new_xyxy(10, 10, 20, 20); let b2 = Bound2i::new_xyxy(2, 11, 22, 17); let b = intersect(&b1, &b2); assert!( b.min.x == 10 && b.min.y == 11 && b.max.x == 20 && b.max.y == 17 ) } }