A simplistic program to demonstrate this behavior:

use std::boxed::Box;

struct Cow;

trait CanSpeak {
    fn speak(&self);

impl CanSpeak for Cow {
    fn speak(&self) {

impl<F: Fn()> CanSpeak for F {
    fn speak(&self) {

impl<T: CanSpeak> CanSpeak for Box<T> {
    fn speak(&self) {

fn lol_speak() {

fn lets_speak<T: CanSpeak>(t: & T) {

fn main() {
    let cow = Cow;
    lets_speak( &cow );

    lets_speak( &lol_speak );

    let boxed_cow = Box::new(Cow);
    lets_speak( &boxed_cow );

Compilation fails with:

test.rs:15:1: 19:2 error: conflicting implementations for trait `CanSpeak` [E0119]
test.rs:15 impl<F: Fn()> CanSpeak for F {
test.rs:16     fn speak(&self) {
test.rs:17         self();
test.rs:18     }
test.rs:19 }
test.rs:15:1: 19:2 help: run `rustc --explain E0119` to see a detailed explanation
test.rs:21:1: 25:2 note: note conflicting implementation here
test.rs:21 impl<T: CanSpeak> CanSpeak for Box<T> {
test.rs:22     fn speak(&self) {
test.rs:23         (**self).speak()
test.rs:24     }
test.rs:25 }
error: aborting due to previous error

My questions are:

  1. As far as I can tell Box<T> does not implement Fn() trait. Then why does above example fail?
  2. What is the correct implementation for what I'm trying to do?

I've just started learning Rust. Thanks for your help.


The two do conflict, because it is possible for a type Box<T> to have T implementing CanSpeak and Box<T> implementing Fn(). Rust coherence rules aren’t about what is but what can be.

Here’s an example of implementing Fn() for Box<Cow>, which would clearly explode things if it allowed your two generic trait implementations:

// (This attribute on the crate.)
#![feature(unboxed_closures, core)]

impl Fn<()> for Box<Cow> {
    extern "rust-call" fn call(&self, _: ()) { }

impl FnMut<()> for Box<Cow> {
    extern "rust-call" fn call_mut(&mut self, _: ()) { }

impl FnOnce<()> for Box<Cow> {
    type Output = ();
    extern "rust-call" fn call_once(self, _: ()) { }
  • 2
    Thanks Chris for your reply, but I'm afraid I still did not get it. Can you explain what makes Box special in this case that Rust thinks it can conflict? For example If, I understand your explanation correctly, any container, lets say Arc<T> should also conflict because T can implement CanSpeak and Arc<T> can implement Fn(). But Replacing Box in my example with Arc works just fine. – Vikas Oct 17 '15 at 4:52
  • 3
    There is nothing special about it. It’s just that you’ve provided two generic implementations for a trait which can overlap. – Chris Morgan Oct 17 '15 at 8:13
  • Then why does Arc work? In my example if I replace Box with Arc it compiles without any errors. – Vikas Oct 17 '15 at 9:18
  • Box is special, it's marked #[fundamental] (and Arc is not). What the exact rules are, I don't know off hand. – bluss Oct 17 '15 at 11:14
  • 1
    Oh no, the next piece of the puzzle: the Fn trait is marked #[fundamental] too, it's special too! A right thicket! Use a different bound, and it will conflict. – bluss Oct 17 '15 at 15:01

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