泛型可以使用在结构体中
struct Pair<T> { x: T, y: T, }
其中x,y都属于T类型。
实现结构体的方法或者关联函数需要在impl关键字后面指定泛型
impl<T> Pair<T> { fn new(x: T, y: T) -> Self { Self { x, y, } } }
impl<T> Point<T> { fn x(&self) -> &T { &self.x } }
讲到泛型就绕不开trait,trait类似于其他语言中的接口
具体使用方法如下
pub trait Summarizable { fn summary(&self) -> String; }
pub struct NewsArticle { pub headline: String, pub location: String, pub author: String, pub content: String, } impl Summarizable for NewsArticle { fn summary(&self) -> String { format!("{}, by {} ({})", self.headline, self.author, self.location) } }
要希望泛型拥有特定的功能,就必须指定泛型的trait,简称trait bound
impl<T: Display + PartialOrd> Pair<T> { fn cmp_display(&self) { if self.x >= self.y { println!("The largest member is x = {}", self.x); } else { println!("The largest member is y = {}", self.y); } } }
泛型T要有比较和打印功能,就要指定T的trait bound
有一个易于观看的trait bound语法
fn some_function<T, U>(t: T, u: U) -> i32 where T: Display + Clone, U: Clone + Debug { }
也可以这样写
fn some_function<T: Display + Clone, U: Clone + Debug>(t: T, u: U) -> i32 {
}