//! Rectangles on the 2D character grid. use crate::Vec2; use std::ops::Add; /// A non-empty rectangle on the 2D grid. #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub struct Rect { /// Top-left corner, inclusive top_left: Vec2, /// Bottom-right corner, inclusive bottom_right: Vec2, } impl From for Rect where T: Into, { fn from(other: T) -> Self { // From a point, we can create a 1-by-1 rectangle. Self::from_size(other, (1, 1)) } } impl Add for Rect where T: Into, { type Output = Rect; fn add(mut self, rhs: T) -> Self { self.offset(rhs); self } } impl Rect { /// Creates a new `Rect` with the given position and size. /// /// The minimum size will `(1, 1)`. pub fn from_size(top_left: U, size: V) -> Self where U: Into, V: Into, { let size = size.into(); let top_left = top_left.into(); let bottom_right = top_left + size.saturating_sub((1, 1)); Self::from_corners(top_left, bottom_right) } /// Creates a new `Rect` from two corners. /// /// It can be any two opposite corners. pub fn from_corners(a: U, b: V) -> Self where U: Into, V: Into, { let a = a.into(); let b = b.into(); let top_left = Vec2::min(a, b); let bottom_right = Vec2::max(a, b); Rect { top_left, bottom_right, } } /// Grow this rectangle if necessary to include `other`. pub fn expand_to(&mut self, other: R) where R: Into, { let other = other.into(); self.top_left = self.top_left.or_min(other.top_left); self.bottom_right = self.bottom_right.or_max(other.bottom_right); } /// Returns a new rectangle that includes both `self` and `other`. pub fn expanded_to(mut self, other: R) -> Self where R: Into, { self.expand_to(other); self } /// Adds the given offset to this rectangle. pub fn offset(&mut self, offset: V) where V: Into, { let offset = offset.into(); self.top_left = self.top_left + offset; self.bottom_right = self.bottom_right + offset; } /// Returns the size of the rectangle. pub fn size(self) -> Vec2 { self.bottom_right - self.top_left + (1, 1) } /// Returns the width of the rectangle. pub fn width(self) -> usize { self.size().x } /// Returns the height of the rectangle. pub fn height(self) -> usize { self.size().y } /// Returns the top-left corner. /// /// This is inclusive. pub fn top_left(self) -> Vec2 { self.top_left } /// Returns the bottom-right corner. /// /// This is inclusive. pub fn bottom_right(self) -> Vec2 { self.bottom_right } /// Returns the top-right corner. /// /// This is inclusive. pub fn top_right(self) -> Vec2 { Vec2::new(self.right(), self.top()) } /// Returns the bottom-left corner. /// /// This is inclusive. pub fn bottom_left(self) -> Vec2 { Vec2::new(self.left(), self.bottom()) } /// Returns the Y value of the top edge of the rectangle. /// /// This is inclusive. pub fn top(self) -> usize { self.top_left.y } /// Returns the X value of the left edge of the rectangle. /// /// This is inclusive. pub fn left(self) -> usize { self.top_left.x } /// Returns the X value of the right edge of the rectangle. /// /// This is inclusive. pub fn right(self) -> usize { self.bottom_right.x } /// Returns the Y value of the botton edge of the rectangle. /// /// This is inclusive. pub fn bottom(self) -> usize { self.bottom_right.y } /// Returns the surface (number of cells) covered by the rectangle. pub fn surface(self) -> usize { self.width() * self.height() } /// Checks if a point is in `self`. pub fn contains(self, point: Vec2) -> bool { point.fits(self.top_left) && point.fits_in(self.bottom_right) } }