问题
I'm trying to store a closure as a HashMap value. If I pass the closure arg by value, everything works great:
use std::collections::hash_map::HashMap;
fn main() {
let mut cmds: HashMap<String, Box<FnMut(String)->()>>
= HashMap::new();
cmds.insert("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); }));
match cmds.get_mut("ping") {
Some(f) => f("pong".to_string()),
_ => ()
}
}
(playpen)
But if I want a closure that takes a reference arg, things go south:
use std::collections::hash_map::HashMap;
fn main() {
let mut cmds: HashMap<String, Box<FnMut(&str)->()>>
= HashMap::new();
cmds.insert("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); }));
match cmds.get_mut("ping") {
Some(f) => f("pong"),
_ => ()
}
}
<anon>:8:37: 8:78 error: type mismatch: the type `closure[<anon>:8:46: 8:77]` implements the trait `core::ops::FnMut(_)`, but the trait `for<'r> core::ops::FnMut(&'r str)` is required (expected concrete lifetime, found bound lifetime parameter )
<anon>:8 cmds.insert("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); }));
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
<anon>:8:37: 8:78 note: required for the cast to the object type `for<'r> core::ops::FnMut(&'r str)`
<anon>:8 cmds.insert("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); }));
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
error: aborting due to previous error
(playpen)
I read the answer to How to rewrite code to new unboxed closures, and tried breaking out the map building into its own function in order to have a place to hang the where clause, but no dice:
use std::collections::hash_map::HashMap;
fn mk_map<F>() -> HashMap<String, (String, Box<F>)>
where F: for<'a> FnMut(&'a str) -> ()
{
let mut cmds: HashMap<String, (String, Box<F>)> = HashMap::new();
cmds.insert("ping".to_string(), ("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); })));
cmds
}
fn main() {
let cmds = mk_map();
match cmds.get_mut("ping") {
Some(&mut (_, ref mut f)) => f("pong"),
_ => println!("invalid command")
}
}
<anon>:8:58: 8:99 error: mismatched types: expected `Box<F>`, found `Box<closure[<anon>:8:67: 8:98]>` (expected type parameter, found closure)
<anon>:8 cmds.insert("ping".to_string(), ("ping".to_string(), Box::new(|&mut:s| { println!("{}", s); })));
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
(playpen)
What's the right way to do this?
回答1:
My solution:
#![allow(unstable)]
use std::collections::hash_map::HashMap;
// #1 returning a trait object
fn mk_map<'a>() -> HashMap<String, (String, Box<FnMut(&str) + 'a>)> {
let mut cmds : HashMap<_, (_, Box<FnMut(&str)>)> = HashMap::new();
cmds.insert("ping".to_string(), ("ping".to_string(),
Box::new(|&mut: s: &str| { println!("{}", s); })));
// #2 ^-- give a little help to the compiler here
cmds
}
fn main() {
let mut cmds = mk_map();
// minor change: cmds needs to be mutable
match cmds.get_mut("ping") {
Some(&mut (_, ref mut f)) => f("pong"),
_ => println!("invalid command")
}
}
Ingredients:
- return a trait object
- give some help to the compiler on the type of the closure's parameter:
Box::new(|&mut: s: &str|
To be honest, I'm not 100% sure about the reason for #2 (I mean, at least leaving it out should give a more intelligible error message). Probably an issue with rustc.
On #1, I'm almost sure it's required because you can't name a concrete return type for a closure returned from a function (it's an anonymous type created on the fly by the compiler), so Trait objects for now should be the only way to return a closure.
Appendix responding to comment:
imagine you have a trait Foo {} implemented by a few types:
trait Foo {}
impl Foo for u32 {}
impl Foo for Vec<f32> {}
if you write a function like you did with mk_map (let's call it make_foo) I commented that it's going to be hard to implement it. Let's see:
fn mk_foo<F>() -> Box<F> where F: Foo {
unimplemented!()
}
the signature of mk_foo says that I should be able to call the function with any type that implements Foo. So this should all be valid:
let a: Box<Vec<f32>> = mk_foo::<Vec<f32>>();
let b: Box<u32> = mk_foo::<u32>();
i.e. the function, as written, is not returning a trait object. It's promising to return a Box with any concrete type the caller chooses. That's why it's not easy to actually implement the function. It should know how to create several types from nothing.
来源:https://stackoverflow.com/questions/27906885/storing-an-unboxed-closure-with-a-reference-arg-in-a-hashmap