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I'm having difficulty passing around and evaluating lists of closures. Massively simplified, this program exhibits the same errors as the program I'm trying to write:

use std::vec::flat_map;

#[main]
fn main() {
  let list:~[~fn()->~[~str]] = get_list();
  //let res:~[~str] = flat_map(list, |&f|{f()});
  let res:~[~str] = flat_map(list, apply);
  println(res.to_str());
}

fn apply<T>(f:&fn()->T) -> T {
  f()
}

fn get_list() -> ~[~fn()->~[~str]] {
  ~[
    ~||{~[~"foo"]},
    ~||{~[~"bar"]},
    ]
}

This is basically trying to to take a list of functions returning lists and transform it into a flat list of results from running the functions. I get two compiler errors though:

temp.rs:7:35: 7:40 error: mismatched types: expected `&fn<no-bounds>(&~fn:Send() -> ~[~str]) -> ~[<V3>]` but found `extern "Rust" fn(&fn<no-bounds>() -> <V4>) -> <V4>` (expected &-ptr but found fn)
temp.rs:7   let res:~[~str] = flat_map(list, apply);
                                             ^~~~~
temp.rs:16:2: 19:5 error: mismatched types: expected `~[~fn:Send() -> ~[~str]]` but found `~[~&fn<no-bounds>() -> ~[~str]]` (expected fn but found ~-ptr)
temp.rs:16   ~[
temp.rs:17     ~||{~[~"foo"]},
temp.rs:18     ~||{~[~"bar"]},
temp.rs:19     ]
error: aborting due to 2 previous errors

Firstly, neither the function apply nor the lambda that I've got commented out allow me to map across the list of functions. Secondly, in the function get_list() I'm unable to generate an acceptable vector.

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1 Answer 1

up vote 6 down vote accepted

There are two problems: one is a bug in Rust, the other is actually a problem with your code.

  • The bug in Rust is inference with closures is (currently) horrible, one has to give them explicit types when one wants anything other than &fn. (One filing of this is #2190.)
  • The bug in your code is due to the type of flat_map

    pub fn flat_map<T, U>(v: &[T], f: &fn(t: &T) -> ~[U]) -> ~[U]
    

    The point is it passes &T to the closure, thus, since we have a ~[~fn() -> ~str], the closure receives a &(~fn() -> ~str). To call such a beast, we need to dereference it, which |&f| f() does, but in an illegal way. The legal method is |f| (*f)().

    The incorrect method will make f have type ~fn() -> ~str which means that f has ownership of the closure (since ~ has a destructor, and so moves ownership when passed around), but one cannot take ownership of a value that's contained in a borrowed pointer (that would be impolite). The legal one doesn't ever attempt to take ownership, (*f)() is (effectively) coercing the ~fn() -> ~str to &fn() -> ~str before it is called. (This is explicit if one uses apply correctly too: list.flat_map(|f| apply(*f))).)

fn main() {
  let list = get_list();
  let res = list.flat_map(|f| (*f)());
  println(res.to_str());
}

fn get_list() -> ~[~fn() -> ~[~str]] {
    let f1: ~fn() -> ~[~str] = || ~[~"foo"];
    let f2: ~fn() -> ~[~str] = || ~[~"bar"];

    ~[f1, f2]
}

(Note I removed the unnecessary type annotations, and used the flat_map method rather than the function, since this is the Rust style.)

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Thanks, that's very useful. You can probably tell I'm still wrapping my head around the type system :). –  Andrew Aylett Oct 13 '13 at 13:10

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