I'm a bit stumped on how to get this working, I've cut it down from the real thing. I wrote a trait:

pub trait Renderable<F: Fn(&PropertyTags)> {
    fn set_property_changed_callback(&mut self, callback: Option<F>);

Which the 'child' parameter of add_child is restricted by and PropertyTags is just an enum. I've included mock implementations of the type of child to demonstrate my usage:

pub struct Child<F: Fn(&PropertyTags)> {
    property_changed_callback: Option<F>,

impl<F: Fn(&PropertyTags)> Renderable<F> for Child<F> {
    fn set_property_changed_callback(&mut self, callback: Option<F>) {
        self.property_changed_callback = callback;

Then these would be used as:

pub fn add_child<REND, C>(&mut self, child: &mut REND)
    where C: Fn(&PropertyTags),
        REND: Renderable<C>
    let tc = Some(|property_tag: &PropertyTags|{


I'm getting the error:

   |                                ^^ expected type parameter, found closure
   = note: expected type `std::option::Option<C>`
   = note:    found type `std::option::Option<[closure@src/rendering/mod.rs:74:31: 76:18]>`
   = help: here are some functions which might fulfill your needs:
 - .take()
 - .unwrap()

I've setup a minimal playground example which reproduces the issues here: https://play.rust-lang.org/?gist=bcc8d67f25ac620fe062032d8737954b&version=stable&backtrace=0

  • I'm sorry if this is a duplicate, I've read a bunch of similar questions on SO but none have helped me fix it. Jan 15, 2017 at 17:51
  • You would need to include more code for us to be able to test it. In the meantime, have you seen this question? You probably need to wrap the closure in a Box.
    – ljedrz
    Jan 15, 2017 at 18:15
  • I wasn't sure it was the same issue since they were trying to return a closure. I was hoping to avoid Boxing it, I was under the impressesion this would make it dynamically dispatched? Jan 15, 2017 at 19:30

1 Answer 1


The problem is that add_child claims to accept any Renderable<C>, where C can be any type that implements Fn(&PropertyTags), but then the function tries to give it a specific closure type that might not be the same as C.

In order for this to work, add_child's signature should look like this:

pub fn add_child<REND>(&mut self, child: &mut REND)
    where REND: Renderable<AddChildCallback>

where AddChildCallback is the name of a concrete type (that implements Fn(&PropertyTags)).

The difficulty here is that on one hand, closure types don't have a name you can use in your Rust code, and on the other hand, implementing Fn manually is unstable, so it requires a nightly compiler.

I'll also note that by making the callback type a type parameter, a Renderable cannot be assigned a callback of a different type after a first callback has been set, as the first callback will determine the concrete type for the Renderable. This might be fine for your usage, I just wanted to make sure you're aware of that.

If you want a solution that works on stable compilers (as of Rust 1.14.0), then you'll have to box the callback. add_child's signature would then look like this:

pub fn add_child<REND>(&mut self, child: &mut REND)
    where REND: Renderable<Box<Fn(&PropertyTags)>>

Here is an updated playground link with an example implementation of Fn. Note that the parameters for call, call_mut and call_once are passed as a tuple, as is required by the trait definition. The code is reproduced below for completeness:

struct RenderableCallback {


impl<'a> Fn<(&'a PropertyTags,)> for RenderableCallback {
    extern "rust-call" fn call(&self, args: (&'a PropertyTags,)) -> Self::Output {


impl<'a> FnMut<(&'a PropertyTags,)> for RenderableCallback {
    extern "rust-call" fn call_mut(&mut self, args: (&'a PropertyTags,)) -> Self::Output {


impl<'a> FnOnce<(&'a PropertyTags,)> for RenderableCallback {
    type Output = ();
    extern "rust-call" fn call_once(self, args: (&'a PropertyTags,)) -> Self::Output {
  • 1
    Just to clarify, its possible to assign a different AddChildCallback but not a different concrete implementation of Fn(&PropertyTags)? Jan 17, 2017 at 22:03

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