I have a struct Bar that implements the Foo trait.

struct Bar;

trait Foo {
    fn foo(&self) {

impl Foo for Bar {}

I also have Print trait that takes a Kind parameter. Both Foo and Bar implement Print with Bar as its Kind.

trait Print {
    type Kind;
    fn print(_: &Self::Kind);

impl Print for Bar {
    type Kind = Bar;
    fn print(_: &Bar) {

impl Print for Foo {
    type Kind = Bar;
    fn print(bar: &Bar) {

Finally, I want to print Bar using the different implementations.

fn main() {
    let b = Bar;
    Bar::print(&b);          // prints: Bar
    Foo::print(&b);          // prints: FooBar
    <Bar as Foo>::print(&b); // error

The code is also available in the playground

The two first calls to print works fine but the line <Bar as Foo>::print(&b); gives the following compilation error:

error[E0576]: cannot find method or associated constant `print` in trait `Foo`
  --> src/main.rs:35:19
35 |     <Bar as Foo>::print(&b); // error
   |                   ^^^^^ not found in `Foo`

I would have expected the last two lines to print the same thing. Why do I get an error saying that Foo::print is an unresolved name, when the line above works fine? What's the difference between the two lines?

  • 1
    I would have expected Bar::print to error out due to ambiguity... Maybe you found a bug? – oli_obk Mar 27 '15 at 16:41
  • @ker: why? Bar::print is not ambiguous at all. – Chris Morgan Mar 27 '15 at 21:57
  • The associated types part of this question is completely a red herring. – Chris Morgan Mar 27 '15 at 22:01
  • @ChrisMorgan: Removed associated types from question now. Thanks – sondrele Mar 28 '15 at 11:03
  • 1
    @ker: “Print on Foo on Bar” is not a thing. impl Print for Foo is an implementation on the unsized type Foo—that is, &self is of type &Foo, a trait object. If one was to instead want to implement Print for all types that implement Foo, that would be impl<T: Foo> Print for T, and that would fail to compile due to trait coherence rules. – Chris Morgan Mar 28 '15 at 13:45

<A as B> is Fully Qualified Syntax (FQS) meaning “find the implementation of the trait B for the type A”. Your <Bar as Foo>::print, then, is trying to call the print method from the Foo trait with Bar as Self. The Foo trait does not have any such method, and so it quite naturally fails. What you need there for that to work is <Foo as Print>::print.

Bar::print looks first for an intrinsic method on the type Bar and then for any method named print on any trait that Bar implements, and so is resolved as <Bar as Print>::print. The deal is the same for Foo::Print.

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