//@ run-pass #![feature(specialization)] //~ WARN the feature `specialization` is incomplete // Tests a variety of basic specialization scenarios and method // dispatch for them. trait Foo { fn foo(&self) -> &'static str; } impl Foo for T { default fn foo(&self) -> &'static str { "generic" } } impl Foo for T { default fn foo(&self) -> &'static str { "generic Clone" } } impl Foo for (T, U) where T: Clone, U: Clone { default fn foo(&self) -> &'static str { "generic pair" } } impl Foo for (T, T) { default fn foo(&self) -> &'static str { "generic uniform pair" } } impl Foo for (u8, u32) { default fn foo(&self) -> &'static str { "(u8, u32)" } } impl Foo for (u8, u8) { default fn foo(&self) -> &'static str { "(u8, u8)" } } impl Foo for Vec { default fn foo(&self) -> &'static str { "generic Vec" } } impl Foo for Vec { fn foo(&self) -> &'static str { "Vec" } } impl Foo for String { fn foo(&self) -> &'static str { "String" } } impl Foo for i32 { fn foo(&self) -> &'static str { "i32" } } struct NotClone; trait MyMarker {} impl Foo for T { default fn foo(&self) -> &'static str { "generic Clone + MyMarker" } } #[derive(Clone)] struct MarkedAndClone; impl MyMarker for MarkedAndClone {} fn main() { assert!(NotClone.foo() == "generic"); assert!(0u8.foo() == "generic Clone"); assert!(vec![NotClone].foo() == "generic"); assert!(vec![0u8].foo() == "generic Vec"); assert!(vec![0i32].foo() == "Vec"); assert!(0i32.foo() == "i32"); assert!(String::new().foo() == "String"); assert!(((), 0).foo() == "generic pair"); assert!(((), ()).foo() == "generic uniform pair"); assert!((0u8, 0u32).foo() == "(u8, u32)"); assert!((0u8, 0u8).foo() == "(u8, u8)"); assert!(MarkedAndClone.foo() == "generic Clone + MyMarker"); }