How to convert a closure without a yield to a generator?

Question

I'm writing a library that uses generators to hold continuations. Sometimes I want to pass a closure with no suspension points, or no yields, but the compiler complains that the closure doesn't implement the Generator trait.

I want to compile the following code without adding a yield to the closure; how can I let the compiler treat the closure as a generator?

#![feature(generators, generator_trait)]

use std::ops::Generator;

fn library_func(mut g: Box<dyn Generator<Yield = (), Return = ()>>) {
    let x = unsafe { g.resume() };
    println!("{:?}", x);
}

fn main() {
    // a closure without yield
    let x = Box::new(|| {
        // uncommenting this line makes it compile, but changes the behavior
        // yield ();
    });

    library_func(x);
}

error[E0277]: the trait bound `[closure@src/main.rs:12:22: 15:6]: std::ops::Generator` is not satisfied
  --> src/main.rs:17:18
   |
17 |     library_func(x);
   |                  ^ the trait `std::ops::Generator` is not implemented for `[closure@src/main.rs:12:22: 15:6]`
   |
   = note: required for the cast to the object type `dyn std::ops::Generator<Yield=(), Return=()>`

Answer 1

A closure isn't a generator, so the compiler can't really treat it as one. It is unclear whether the generator you wish to implement is supposed to return or yield the return value of the function; assuming you want the former, you can use a yield statement after a return statement to create a generator that does not yield:

let x = Box::new(|| {
    return;
    yield;
});

If you need this frequently, you can also wrap this in a function:

fn into_generator<F, T>(f: F) -> impl Generator<Yield = (), Return = T>
where
    F: FnOnce() -> T,
{
    #[allow(unreachable_code)]
    || {
        return f();
        yield;
    }
}

(Full code on the playground)