关联函数和方法
某些函数与特定类型相关联。这些函数有两种形式:关联函数和方法。关联函数是在类型上定义的函数,而方法是在特定类型的实例上调用的关联函数。
struct Point { x: f64, y: f64, } // Implementation block, all `Point` associated functions & methods go in here impl Point { // This is an "associated function" because this function is associated with // a particular type, that is, Point. // // Associated functions don't need to be called with an instance. // These functions are generally used like constructors. fn origin() -> Point { Point { x: 0.0, y: 0.0 } } // Another associated function, taking two arguments: fn new(x: f64, y: f64) -> Point { Point { x: x, y: y } } } struct Rectangle { p1: Point, p2: Point, } impl Rectangle { // This is a method // `&self` is sugar for `self: &Self`, where `Self` is the type of the // caller object. In this case `Self` = `Rectangle` fn area(&self) -> f64 { // `self` gives access to the struct fields via the dot operator let Point { x: x1, y: y1 } = self.p1; let Point { x: x2, y: y2 } = self.p2; // `abs` is a `f64` method that returns the absolute value of the // caller ((x1 - x2) * (y1 - y2)).abs() } fn perimeter(&self) -> f64 { let Point { x: x1, y: y1 } = self.p1; let Point { x: x2, y: y2 } = self.p2; 2.0 * ((x1 - x2).abs() + (y1 - y2).abs()) } // This method requires the caller object to be mutable // `&mut self` desugars to `self: &mut Self` fn translate(&mut self, x: f64, y: f64) { self.p1.x += x; self.p2.x += x; self.p1.y += y; self.p2.y += y; } } // `Pair` owns resources: two heap allocated integers struct Pair(Box<i32>, Box<i32>); impl Pair { // This method "consumes" the resources of the caller object // `self` desugars to `self: Self` fn destroy(self) { // Destructure `self` let Pair(first, second) = self; println!("Destroying Pair({}, {})", first, second); // `first` and `second` go out of scope and get freed } } fn main() { let rectangle = Rectangle { // Associated functions are called using double colons p1: Point::origin(), p2: Point::new(3.0, 4.0), }; // Methods are called using the dot operator // Note that the first argument `&self` is implicitly passed, i.e. // `rectangle.perimeter()` === `Rectangle::perimeter(&rectangle)` println!("Rectangle perimeter: {}", rectangle.perimeter()); println!("Rectangle area: {}", rectangle.area()); let mut square = Rectangle { p1: Point::origin(), p2: Point::new(1.0, 1.0), }; // Error! `rectangle` is immutable, but this method requires a mutable // object //rectangle.translate(1.0, 0.0); // TODO ^ Try uncommenting this line // Okay! Mutable objects can call mutable methods square.translate(1.0, 1.0); let pair = Pair(Box::new(1), Box::new(2)); pair.destroy(); // Error! Previous `destroy` call "consumed" `pair` //pair.destroy(); // TODO ^ Try uncommenting this line }