src/test/ui/generic/generic-type-params-name-repr.rs - third_party/rust - Git at Google

 use std::marker;

 struct A;
 struct B;
 struct C;
 struct Foo<T = A, U = B, V = C>(marker::PhantomData<(T,U,V)>);

 struct Hash<T>(marker::PhantomData<T>);
 struct HashMap<K, V, H = Hash<K>>(marker::PhantomData<(K,V,H)>);

 fn main() {
     // Ensure that the printed type doesn't include the default type params...
     let _: Foo<isize> = ();
     //~^ ERROR mismatched types
     //~| expected struct `Foo`, found `()`
     //~| expected struct `Foo<isize>`
     //~| found unit type `()`

     // ...even when they're present, but the same types as the defaults.
     let _: Foo<isize, B, C> = ();
     //~^ ERROR mismatched types
     //~| expected struct `Foo`, found `()`
     //~| expected struct `Foo<isize>`
     //~| found unit type `()`

     // Including cases where the default is using previous type params.
     let _: HashMap<String, isize> = ();
     //~^ ERROR mismatched types
     //~| expected struct `HashMap`, found `()`
     //~| expected struct `HashMap<String, isize>`
     //~| found unit type `()`
     let _: HashMap<String, isize, Hash<String>> = ();
     //~^ ERROR mismatched types
     //~| expected struct `HashMap`, found `()`
     //~| expected struct `HashMap<String, isize>`
     //~| found unit type `()`

     // But not when there's a different type in between.
     let _: Foo<A, isize, C> = ();
     //~^ ERROR mismatched types
     //~| expected struct `Foo`, found `()`
     //~| expected struct `Foo<A, isize>`
     //~| found unit type `()`

     // And don't print <> at all when there's just defaults.
     let _: Foo<A, B, C> = ();
     //~^ ERROR mismatched types
     //~| expected struct `Foo`, found `()`
     //~| expected struct `Foo`
     //~| found unit type `()`
 }
	use std::marker;

	struct A;
	struct B;
	struct C;
	struct Foo<T = A, U = B, V = C>(marker::PhantomData<(T,U,V)>);

	struct Hash<T>(marker::PhantomData<T>);
	struct HashMap<K, V, H = Hash<K>>(marker::PhantomData<(K,V,H)>);

	fn main() {
	// Ensure that the printed type doesn't include the default type params...
	let _: Foo<isize> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `Foo`, found `()`
	//~\| expected struct `Foo<isize>`
	//~\| found unit type `()`

	// ...even when they're present, but the same types as the defaults.
	let _: Foo<isize, B, C> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `Foo`, found `()`
	//~\| expected struct `Foo<isize>`
	//~\| found unit type `()`

	// Including cases where the default is using previous type params.
	let _: HashMap<String, isize> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `HashMap`, found `()`
	//~\| expected struct `HashMap<String, isize>`
	//~\| found unit type `()`
	let _: HashMap<String, isize, Hash<String>> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `HashMap`, found `()`
	//~\| expected struct `HashMap<String, isize>`
	//~\| found unit type `()`

	// But not when there's a different type in between.
	let _: Foo<A, isize, C> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `Foo`, found `()`
	//~\| expected struct `Foo<A, isize>`
	//~\| found unit type `()`

	// And don't print <> at all when there's just defaults.
	let _: Foo<A, B, C> = ();
	//~^ ERROR mismatched types
	//~\| expected struct `Foo`, found `()`
	//~\| expected struct `Foo`
	//~\| found unit type `()`
	}