我写了一个程序,它具有特征Animal和结构Dog来实现特征。它还有一个结构AnimalHouse,将动物存储为特征对象Box<Animal>。
trait Animal {
fn speak(&self);
}
struct Dog {
name: String,
}
impl Dog {
fn new(name: &str) -> Dog {
return Dog {
name: name.to_string(),
};
}
}
impl Animal for Dog {
fn speak(&self) {
println!{"{}: ruff, ruff!", self.name};
}
}
struct AnimalHouse {
animal: Box<Animal>,
}
fn main() {
let house = AnimalHouse {
animal: Box::new(Dog::new("Bobby")),
};
house.animal.speak();
}
它返回&#34; Bobby:ruff,ruff!&#34;正如所料,但如果我尝试克隆house,编译器将返回错误:
fn main() {
let house = AnimalHouse {
animal: Box::new(Dog::new("Bobby")),
};
let house2 = house.clone();
house2.animal.speak();
}
error[E0599]: no method named `clone` found for type `AnimalHouse` in the current scope
--> src/main.rs:31:24
|
23 | struct AnimalHouse {
| ------------------ method `clone` not found for this
...
31 | let house2 = house.clone();
| ^^^^^
|
= help: items from traits can only be used if the trait is implemented and in scope
= note: the following trait defines an item `clone`, perhaps you need to implement it:
candidate #1: `std::clone::Clone`
我尝试在#[derive(Clone)]之前添加struct AnimalHouse并收到另一个错误:
error[E0277]: the trait bound `Animal: std::clone::Clone` is not satisfied
--> src/main.rs:25:5
|
25 | animal: Box<Animal>,
| ^^^^^^^^^^^^^^^^^^^ the trait `std::clone::Clone` is not implemented for `Animal`
|
= note: required because of the requirements on the impl of `std::clone::Clone` for `std::boxed::Box<Animal>`
= note: required by `std::clone::Clone::clone`
如何使结构AnimalHouse可克隆?一般来说,主动使用特征对象是不是习惯性的?
答案 0 :(得分:20)
有一些问题。首先,没有任何要求Animal也实现Clone。您可以通过更改特征定义来解决此问题:
trait Animal: Clone {
/* ... */
}
这会导致Animal不再是对象安全的,这意味着Box<Animal>将无效,因此不是很好。
可以做的是插入一个额外的步骤。要白衣(添加@ChrisMorgan's comment)。
trait Animal: AnimalClone {
fn speak(&self);
}
// Splitting AnimalClone into its own trait allows us to provide a blanket
// implementation for all compatible types, without having to implement the
// rest of Animal. In this case, we implement it for all types that have
// 'static lifetime (*i.e.* they don't contain non-'static pointers), and
// implement both Animal and Clone. Don't ask me how the compiler resolves
// implementing AnimalClone for Animal when Animal requires AnimalClone; I
// have *no* idea why this works.
trait AnimalClone {
fn clone_box(&self) -> Box<Animal>;
}
impl<T> AnimalClone for T
where
T: 'static + Animal + Clone,
{
fn clone_box(&self) -> Box<Animal> {
Box::new(self.clone())
}
}
// We can now implement Clone manually by forwarding to clone_box.
impl Clone for Box<Animal> {
fn clone(&self) -> Box<Animal> {
self.clone_box()
}
}
#[derive(Clone)]
struct Dog {
name: String,
}
impl Dog {
fn new(name: &str) -> Dog {
Dog {
name: name.to_string(),
}
}
}
impl Animal for Dog {
fn speak(&self) {
println!("{}: ruff, ruff!", self.name);
}
}
#[derive(Clone)]
struct AnimalHouse {
animal: Box<Animal>,
}
fn main() {
let house = AnimalHouse {
animal: Box::new(Dog::new("Bobby")),
};
let house2 = house.clone();
house2.animal.speak();
}
通过引入clone_box,我们可以解决尝试克隆特征对象的问题。
答案 1 :(得分:4)
我的objekt crate实现了DK.'s answer的可重用版本。有了它,您可以使您的原始代码在最少的更改下工作。
objekt::Clone添加为Animal的超级行的一行,要求每个动物实施都可以克隆。Clone生成标准库Box<Animal>的实现的一行。#[macro_use] extern crate objekt;
trait Animal: objekt::Clone {
fn speak(&self);
}
clone_trait_object!(Animal);
#[derive(Clone)]
struct Dog {
name: String,
}
impl Dog {
fn new(name: &str) -> Dog {
Dog { name: name.to_owned() }
}
}
impl Animal for Dog {
fn speak(&self) {
println!{"{}: ruff, ruff!", self.name};
}
}
#[derive(Clone)]
struct AnimalHouse {
animal: Box<Animal>,
}
fn main() {
let house = AnimalHouse {
animal: Box::new(Dog::new("Bobby")),
};
let house2 = house.clone();
house2.animal.speak();
}
答案 2 :(得分:3)
previous answer正确回答了有关存储盒装特征对象的问题。
关于标题的主题,但不是关于使用特征对象的惯用方法,替代解决方案可以使用Rc智能指针而不是Box:这可以避免解决方法绕过物体安全:
#[derive(Clone)]
struct AnimalHouse {
animal: Rc<Animal>,
}
fn main() {
let house = AnimalHouse { animal: Rc::new(Dog::new("Bobby")) };
let house2 = house.clone();
house2.animal.speak();
}
注意:Rc<T>仅用于单线程场景;还有Arc<T>。
答案 3 :(得分:0)
我尝试使用来自 Dk 和 dtolnay 的解决方案,在这种情况下,我需要一个结构体,该结构体在生成的任务(通过 tokio)中包含一个带框的成员。在那里我收到结构未发送和同步的错误。为了避免这种情况,可以在 Dk 克隆特征中添加发送和同步。也许这也可以添加到 dyn_clone。