| // RUN: %target-parse-verify-swift |
| |
| protocol Fooable { |
| associatedtype Foo |
| |
| var foo: Foo { get } |
| } |
| |
| protocol Barrable { |
| associatedtype Bar: Fooable |
| var bar: Bar { get } |
| } |
| |
| struct X {} |
| struct Y: Fooable { |
| typealias Foo = X |
| var foo: X { return X() } |
| } |
| struct Z: Barrable { |
| typealias Bar = Y |
| var bar: Y { return Y() } |
| } |
| |
| protocol TestSameTypeRequirement { |
| func foo<F1: Fooable>(_ f: F1) where F1.Foo == X |
| } |
| struct SatisfySameTypeRequirement : TestSameTypeRequirement { |
| func foo<F2: Fooable>(_ f: F2) where F2.Foo == X {} |
| } |
| |
| func test1<T: Fooable>(_ fooable: T) -> X where T.Foo == X { |
| return fooable.foo |
| } |
| |
| struct NestedConstraint<T> { |
| func tFoo<U: Fooable>(_ fooable: U) -> T where U.Foo == T { |
| return fooable.foo |
| } |
| } |
| |
| func test2<T: Fooable, U: Fooable>(_ t: T, u: U) -> (X, X) |
| where T.Foo == X, U.Foo == T.Foo { |
| return (t.foo, u.foo) |
| } |
| |
| func test2a<T: Fooable, U: Fooable>(_ t: T, u: U) -> (X, X) |
| where T.Foo == X, T.Foo == U.Foo { |
| return (t.foo, u.foo) |
| } |
| |
| func test3<T: Fooable, U: Fooable>(_ t: T, u: U) -> (X, X) |
| where T.Foo == X, U.Foo == X, T.Foo == U.Foo { |
| return (t.foo, u.foo) |
| } |
| |
| func fail1< |
| T: Fooable, U: Fooable |
| >(_ t: T, u: U) -> (X, Y) |
| where T.Foo == X, U.Foo == Y, T.Foo == U.Foo { // expected-error{{generic parameter 'Foo' cannot be equal to both 'X' and 'Y'}} |
| return (t.foo, u.foo) |
| } |
| |
| func fail2< |
| T: Fooable, U: Fooable |
| >(_ t: T, u: U) -> (X, Y) |
| where T.Foo == U.Foo, T.Foo == X, U.Foo == Y { // expected-error{{generic parameter 'Foo' cannot be equal to both 'X' and 'Y'}} |
| return (t.foo, u.foo) // expected-error{{cannot convert return expression of type 'X' to return type 'Y'}} |
| } |
| |
| func test4<T: Barrable>(_ t: T) -> Y where T.Bar == Y { |
| return t.bar |
| } |
| |
| func fail3<T: Barrable>(_ t: T) -> X |
| where T.Bar == X { // expected-error{{'X' does not conform to required protocol 'Fooable'}} |
| return t.bar // expected-error{{cannot convert return expression of type 'T.Bar' to return type 'X'}} |
| } |
| |
| func test5<T: Barrable>(_ t: T) -> X where T.Bar.Foo == X { |
| return t.bar.foo |
| } |
| |
| func test6<T: Barrable>(_ t: T) -> (Y, X) where T.Bar == Y { |
| return (t.bar, t.bar.foo) |
| } |
| |
| func test7<T: Barrable>(_ t: T) -> (Y, X) where T.Bar == Y, T.Bar.Foo == X { |
| return (t.bar, t.bar.foo) |
| } |
| |
| func fail4<T: Barrable>(_ t: T) -> (Y, Z) |
| where |
| T.Bar == Y, |
| T.Bar.Foo == Z { // expected-error{{generic parameter 'Foo' cannot be equal to both 'Y.Foo' (aka 'X') and 'Z'}} |
| return (t.bar, t.bar.foo) // expected-error{{cannot convert return expression of type 'X' to return type 'Z'}} |
| } |
| |
| // TODO: repeat diagnostic |
| func fail5<T: Barrable>(_ t: T) -> (Y, Z) |
| where |
| T.Bar.Foo == Z, |
| T.Bar == Y { // expected-error 2{{generic parameter 'Foo' cannot be equal to both 'Z' and 'Y.Foo'}} |
| return (t.bar, t.bar.foo) // expected-error{{cannot convert return expression of type 'X' to return type 'Z'}} |
| } |
| |
| func test8<T: Fooable>(_ t: T) where T.Foo == X, T.Foo == Y {} // expected-error{{generic parameter 'Foo' cannot be equal to both 'X' and 'Y'}} |
| |
| func testAssocTypeEquivalence<T: Fooable>(_ fooable: T) -> X.Type |
| where T.Foo == X { |
| return T.Foo.self |
| } |
| |
| func fail6<T>(_ t: T) -> Int where T == Int { // expected-error{{same-type requirement makes generic parameter 'T' non-generic}} |
| return t |
| } |
| |
| func test8<T: Barrable, U: Barrable>(_ t: T, u: U) -> (Y, Y, X, X) |
| where T.Bar == Y, U.Bar.Foo == X, T.Bar == U.Bar { |
| return (t.bar, u.bar, t.bar.foo, u.bar.foo) |
| } |
| |
| func test8a<T: Barrable, U: Barrable>(_ t: T, u: U) -> (Y, Y, X, X) |
| where |
| T.Bar == Y, U.Bar.Foo == X, U.Bar == T.Bar { |
| return (t.bar, u.bar, t.bar.foo, u.bar.foo) |
| } |
| |
| // rdar://problem/19137463 |
| func rdar19137463<T>(_ t: T) where T.a == T {} // expected-error{{'a' is not a member type of 'T'}} |
| rdar19137463(1) |
| |
| |
| struct Brunch<U : Fooable> where U.Foo == X {} |
| |
| struct BadFooable : Fooable { |
| typealias Foo = DoesNotExist // expected-error{{use of undeclared type 'DoesNotExist'}} |
| var foo: Foo { while true {} } |
| } |
| |
| func bogusInOutError(d: inout Brunch<BadFooable>) {} |
| |
| // Some interesting invalid cases that used to crash |
| protocol P { |
| associatedtype A |
| associatedtype B |
| } |
| |
| struct Q : P { |
| typealias A = Int |
| typealias B = Int |
| } |
| |
| struct S1<T : P> { |
| func foo<X, Y>(x: X, y: Y) where X == T.A, Y == T.B { |
| print(X.self) |
| print(Y.self) |
| print(x) |
| print(y) |
| } |
| } |
| S1<Q>().foo(x: 1, y: 2) |
| |
| struct S2<T : P> where T.A == T.B { |
| // expected-error@+1 {{same-type requirement makes generic parameters 'X' and 'Y' equivalent}} |
| func foo<X, Y>(x: X, y: Y) where X == T.A, Y == T.B { |
| print(X.self) |
| print(Y.self) |
| print(x) |
| print(y) |
| } |
| } |
| S2<Q>().foo(x: 1, y: 2) |
| |
| struct S3<T : P> { |
| // expected-error@+1 {{same-type requirement makes generic parameters 'X' and 'Y' equivalent}} |
| func foo<X, Y>(x: X, y: Y) where X == T.A, Y == T.A {} |
| } |
| S3<Q>().foo(x: 1, y: 2) |
| |
| // Secondaries can be equated OK, even if we're imposing |
| // new conformances onto an outer secondary |
| |
| protocol PPP {} |
| |
| protocol PP { |
| associatedtype A : PPP |
| } |
| |
| struct SSS : PPP {} |
| struct SS : PP { typealias A = SSS } |
| |
| struct QQ : P { |
| typealias A = SSS |
| typealias B = Int |
| } |
| |
| struct S4<T : P> { |
| func foo<X : PP>(x: X) where X.A == T.A { |
| print(x) |
| print(X.self) |
| } |
| } |
| |
| S4<QQ>().foo(x: SS()) |