test/attr/attr_specialize.swift - third_party/swift - Git at Google

 // RUN: %target-typecheck-verify-swift
 // RUN: %target-swift-ide-test -print-ast-typechecked -source-filename=%s -disable-objc-attr-requires-foundation-module | %FileCheck %s

 struct S<T> {}

 public protocol P {
 }
 extension Int: P {
 }

 public protocol ProtocolWithDep {
   associatedtype Element
 }

 public class C1 {
 }

 class Base {}
 class Sub : Base {}
 class NonSub {}

 // Specialize freestanding functions with the correct number of concrete types.
 // ----------------------------------------------------------------------------

 // CHECK: @_specialize(exported: false, kind: full, where T == Int)
 @_specialize(where T == Int)
 // CHECK: @_specialize(exported: false, kind: full, where T == S<Int>)
 @_specialize(where T == S<Int>)
 @_specialize(where T == Int, U == Int) // expected-error{{use of undeclared type 'U'}},
 // expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
 @_specialize(where T == T1) // expected-error{{use of undeclared type 'T1'}}
 public func oneGenericParam<T>(_ t: T) -> T {
   return t
 }

 // CHECK: @_specialize(exported: false, kind: full, where T == Int, U == Int)
 @_specialize(where T == Int, U == Int)
 @_specialize(where T == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'U' in '_specialize' attribute}}
 public func twoGenericParams<T, U>(_ t: T, u: U) -> (T, U) {
   return (t, u)
 }

 @_specialize(where T == Int) // expected-error{{trailing 'where' clause in '_specialize' attribute of non-generic function 'nonGenericParam(x:)'}}
 func nonGenericParam(x: Int) {}

 // Specialize contextual types.
 // ----------------------------

 class G<T> {
   // CHECK: @_specialize(exported: false, kind: full, where T == Int)
   @_specialize(where T == Int)
   @_specialize(where T == T) // expected-error{{Only concrete type same-type requirements are supported by '_specialize' attribute}}
   @_specialize(where T == S<T>) // expected-error{{Only concrete type same-type requirements are supported by '_specialize' attribute}}
   @_specialize(where T == Int, U == Int) // expected-error{{use of undeclared type 'U'}}
   // expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
   func noGenericParams() {}

   // CHECK: @_specialize(exported: false, kind: full, where T == Int, U == Float)
   @_specialize(where T == Int, U == Float)
   // CHECK: @_specialize(exported: false, kind: full, where T == Int, U == S<Int>)
   @_specialize(where T == Int, U == S<Int>)
   @_specialize(where T == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error {{Missing constraint for 'U' in '_specialize' attribute}}
   func oneGenericParam<U>(_ t: T, u: U) -> (U, T) {
     return (u, t)
   }
 }

 // Specialize with requirements.
 // -----------------------------

 protocol Thing {}

 struct AThing : Thing {}

 // CHECK: @_specialize(exported: false, kind: full, where T == AThing)
 @_specialize(where T == AThing)
 @_specialize(where T == Int) // expected-error{{same-type constraint type 'Int' does not conform to required protocol 'Thing'}}
 func oneRequirement<T : Thing>(_ t: T) {}

 protocol HasElt {
   associatedtype Element
 }
 struct IntElement : HasElt {
   typealias Element = Int
 }
 struct FloatElement : HasElt {
   typealias Element = Float
 }
 @_specialize(where T == FloatElement)
 @_specialize(where T == IntElement) // expected-error{{'T.Element' cannot be equal to both 'IntElement.Element' (aka 'Int') and 'Float'}}
 func sameTypeRequirement<T : HasElt>(_ t: T) where T.Element == Float {}

 @_specialize(where T == Sub)
 @_specialize(where T == NonSub) // expected-error{{'T' requires that 'NonSub' inherit from 'Base'}}
 func superTypeRequirement<T : Base>(_ t: T) {}

 @_specialize(where X:_Trivial(8), Y == Int) // expected-error{{trailing 'where' clause in '_specialize' attribute of non-generic function 'requirementOnNonGenericFunction(x:y:)'}}
 public func requirementOnNonGenericFunction(x: Int, y: Int) {
 }

 @_specialize(where Y == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
 public func missingRequirement<X:P, Y>(x: X, y: Y) {
 }

 @_specialize(where) // expected-error{{expected type}}
 @_specialize() // expected-error{{expected a parameter label or a where clause in '_specialize' attribute}} expected-error{{expected declaration}}
 public func funcWithEmptySpecializeAttr<X: P, Y>(x: X, y: Y) {
 }


 @_specialize(where X:_Trivial(8), Y:_Trivial(32), Z == Int) // expected-error{{use of undeclared type 'Z'}}
 // expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
 @_specialize(where X:_Trivial(8), Y:_Trivial(32, 4))
 @_specialize(where X == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
 @_specialize(where Y:_Trivial(32)) // expected-error {{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
 @_specialize(where Y: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
 @_specialize(where Y: MyClass) // expected-error{{use of undeclared type 'MyClass'}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
 // expected-error@-1{{Only conformances to protocol types are supported by '_specialize' attribute}}
 @_specialize(where X:_Trivial(8), Y == Int)
 @_specialize(where X == Int, Y == Int)
 @_specialize(where X == Int, X == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
 // expected-warning@-1{{redundant same-type constraint 'X' == 'Int'}}
 // expected-note@-2{{same-type constraint 'X' == 'Int' written here}}
 @_specialize(where Y:_Trivial(32), X == Float)
 @_specialize(where X1 == Int, Y1 == Int) // expected-error{{use of undeclared type 'X1'}} expected-error{{use of undeclared type 'Y1'}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 0, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
 // expected-error@-1 2{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
 public func funcWithTwoGenericParameters<X, Y>(x: X, y: Y) {
 }

 @_specialize(where X == Int, Y == Int)
 @_specialize(exported: true, where X == Int, Y == Int)
 @_specialize(exported: false, where X == Int, Y == Int)
 @_specialize(exported: false where X == Int, Y == Int) // expected-error{{missing ',' in '_specialize' attribute}}
 @_specialize(exported: yes, where X == Int, Y == Int) // expected-error{{expected a boolean true or false value in '_specialize' attribute}}
 @_specialize(exported: , where X == Int, Y == Int) // expected-error{{expected a boolean true or false value in '_specialize' attribute}}

 @_specialize(kind: partial, where X == Int, Y == Int)
 @_specialize(kind: partial, where X == Int)
 @_specialize(kind: full, where X == Int, Y == Int)
 @_specialize(kind: any, where X == Int, Y == Int) // expected-error{{expected 'partial' or 'full' as values of the 'kind' parameter in '_specialize' attribute}}
 @_specialize(kind: false, where X == Int, Y == Int) // expected-error{{expected 'partial' or 'full' as values of the 'kind' parameter in '_specialize' attribute}}
 @_specialize(kind: partial where X == Int, Y == Int) // expected-error{{missing ',' in '_specialize' attribute}}
 @_specialize(kind: partial, where X == Int, Y == Int)
 @_specialize(kind: , where X == Int, Y == Int)

 @_specialize(exported: true, kind: partial, where X == Int, Y == Int)
 @_specialize(exported: true, exported: true, where X == Int, Y == Int) // expected-error{{parameter 'exported' was already defined in '_specialize' attribute}}
 @_specialize(kind: partial, exported: true, where X == Int, Y == Int)
 @_specialize(kind: partial, kind: partial, where X == Int, Y == Int) // expected-error{{parameter 'kind' was already defined in '_specialize' attribute}}

 @_specialize(where X == Int, Y == Int, exported: true, kind: partial) // expected-error{{use of undeclared type 'exported'}} expected-error{{use of undeclared type 'kind'}} expected-error{{use of undeclared type 'partial'}} expected-error{{expected type}}
 // expected-error@-1 2{{Only conformances to protocol types are supported by '_specialize' attribute}}
 public func anotherFuncWithTwoGenericParameters<X: P, Y>(x: X, y: Y) {
 }

 @_specialize(where T: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}}
 @_specialize(where T: Int) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}

 @_specialize(where T: S1) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}
 @_specialize(where T: C1) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}
 @_specialize(where Int: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 0, but expected 1)}} expected-error{{Missing constraint for 'T' in '_specialize' attribute}}
 func funcWithForbiddenSpecializeRequirement<T>(_ t: T) {
 }

 @_specialize(where T: _Trivial(32), T: _Trivial(64), T: _Trivial, T: _RefCountedObject)
 // expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial(64)' and '_Trivial(32)'}}
 // expected-error@-2{{generic parameter 'T' has conflicting constraints '_RefCountedObject' and '_Trivial(32)'}}
 // expected-warning@-3{{redundant constraint 'T' : '_Trivial'}}
 // expected-note@-4 3{{constraint 'T' : '_Trivial(32)' written here}}
 @_specialize(where T: _Trivial, T: _Trivial(64))
 // expected-warning@-1{{redundant constraint 'T' : '_Trivial'}}
 // expected-note@-2 1{{constraint 'T' : '_Trivial(64)' written here}}
 @_specialize(where T: _RefCountedObject, T: _NativeRefCountedObject)
 // expected-warning@-1{{redundant constraint 'T' : '_RefCountedObject'}}
 // expected-note@-2 1{{constraint 'T' : '_NativeRefCountedObject' written here}}
 @_specialize(where Array<T> == Int) // expected-error{{Only requirements on generic parameters are supported by '_specialize' attribute}}
 @_specialize(where T.Element == Int) // expected-error{{Only requirements on generic parameters are supported by '_specialize' attribute}}
 public func funcWithComplexSpecializeRequirements<T: ProtocolWithDep>(t: T) -> Int {
   return 55555
 }

 public protocol Proto: class {
 }

 @_specialize(where T: _RefCountedObject)
 @_specialize(where T: _Trivial)
 // expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial' and '_NativeClass'}}
 @_specialize(where T: _Trivial(64))
 // expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial(64)' and '_NativeClass'}}
 public func funcWithABaseClassRequirement<T>(t: T) -> Int where T: C1 {
   return 44444
 }

 public struct S1 {
 }

 @_specialize(exported: false, where T == Int64)
 public func simpleGeneric<T>(t: T) -> T {
   return t
 }


 @_specialize(exported: true, where S: _Trivial(64))
 // Check that any bitsize size is OK, not only powers of 8.
 @_specialize(where S: _Trivial(60))
 @_specialize(exported: true, where S: _RefCountedObject)
 @inline(never)
 public func copyValue<S>(_ t: S, s: inout S) -> Int64 where S: P{
   return 1
 }

 @_specialize(exported: true, where S: _Trivial)
 @_specialize(exported: true, where S: _Trivial(64))
 @_specialize(exported: true, where S: _Trivial(32))
 @_specialize(exported: true, where S: _RefCountedObject)
 @_specialize(exported: true, where S: _NativeRefCountedObject)
 @_specialize(exported: true, where S: _Class)
 @_specialize(exported: true, where S: _NativeClass)
 @inline(never)
 public func copyValueAndReturn<S>(_ t: S, s: inout S) -> S where S: P{
   return s
 }

 struct OuterStruct<S> {
   struct MyStruct<T> {
     @_specialize(where T == Int, U == Float) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 2, but expected 3)}} expected-error{{Missing constraint for 'S' in '_specialize' attribute}}
     public func foo<U>(u : U) {
     }

     @_specialize(where T == Int, U == Float, S == Int)
     public func bar<U>(u : U) {
     }
   }
 }

 // Check _TrivialAtMostN constraints.
 @_specialize(exported: true, where S: _TrivialAtMost(64))
 @inline(never)
 public func copy2<S>(_ t: S, s: inout S) -> S where S: P{
   return s
 }

 // Check missing alignment.
 @_specialize(where S: _Trivial(64, )) // expected-error{{expected non-negative alignment to be specified in layout constraint}}
 // Check non-numeric size.
 @_specialize(where S: _Trivial(Int)) // expected-error{{expected non-negative size to be specified in layout constraint}}
 // Check non-numeric alignment.
 @_specialize(where S: _Trivial(64, X)) // expected-error{{expected non-negative alignment to be specified in layout constraint}}
 @inline(never)
 public func copy3<S>(_ s: S) -> S {
   return s
 }

 public func funcWithWhereClause<T>(t: T) where T:P, T: _Trivial(64) { // expected-error{{layout constraints are only allowed inside '_specialize' attributes}}
 }

 // rdar://problem/29333056
 public protocol P1 {
   associatedtype DP1
   associatedtype DP11
 }

 public protocol P2 {
   associatedtype DP2 : P1
 }

 public struct H<T> {
 }

 public struct MyStruct3 : P1 {
   public typealias DP1 = Int
   public typealias DP11 = H<Int>
 }

 public struct MyStruct4 : P2 {
   public typealias DP2 = MyStruct3
 }

 @_specialize(where T==MyStruct4)
 public func foo<T: P2>(_ t: T) where T.DP2.DP11 == H<T.DP2.DP1> {
 }
	// RUN: %target-typecheck-verify-swift
	// RUN: %target-swift-ide-test -print-ast-typechecked -source-filename=%s -disable-objc-attr-requires-foundation-module \| %FileCheck %s

	struct S<T> {}

	public protocol P {
	}
	extension Int: P {
	}

	public protocol ProtocolWithDep {
	associatedtype Element
	}

	public class C1 {
	}

	class Base {}
	class Sub : Base {}
	class NonSub {}

	// Specialize freestanding functions with the correct number of concrete types.
	// ----------------------------------------------------------------------------

	// CHECK: @_specialize(exported: false, kind: full, where T == Int)
	@_specialize(where T == Int)
	// CHECK: @_specialize(exported: false, kind: full, where T == S<Int>)
	@_specialize(where T == S<Int>)
	@_specialize(where T == Int, U == Int) // expected-error{{use of undeclared type 'U'}},
	// expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
	@_specialize(where T == T1) // expected-error{{use of undeclared type 'T1'}}
	public func oneGenericParam<T>(_ t: T) -> T {
	return t
	}

	// CHECK: @_specialize(exported: false, kind: full, where T == Int, U == Int)
	@_specialize(where T == Int, U == Int)
	@_specialize(where T == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'U' in '_specialize' attribute}}
	public func twoGenericParams<T, U>(_ t: T, u: U) -> (T, U) {
	return (t, u)
	}

	@_specialize(where T == Int) // expected-error{{trailing 'where' clause in '_specialize' attribute of non-generic function 'nonGenericParam(x:)'}}
	func nonGenericParam(x: Int) {}

	// Specialize contextual types.
	// ----------------------------

	class G<T> {
	// CHECK: @_specialize(exported: false, kind: full, where T == Int)
	@_specialize(where T == Int)
	@_specialize(where T == T) // expected-error{{Only concrete type same-type requirements are supported by '_specialize' attribute}}
	@_specialize(where T == S<T>) // expected-error{{Only concrete type same-type requirements are supported by '_specialize' attribute}}
	@_specialize(where T == Int, U == Int) // expected-error{{use of undeclared type 'U'}}
	// expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
	func noGenericParams() {}

	// CHECK: @_specialize(exported: false, kind: full, where T == Int, U == Float)
	@_specialize(where T == Int, U == Float)
	// CHECK: @_specialize(exported: false, kind: full, where T == Int, U == S<Int>)
	@_specialize(where T == Int, U == S<Int>)
	@_specialize(where T == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error {{Missing constraint for 'U' in '_specialize' attribute}}
	func oneGenericParam<U>(_ t: T, u: U) -> (U, T) {
	return (u, t)
	}
	}

	// Specialize with requirements.
	// -----------------------------

	protocol Thing {}

	struct AThing : Thing {}

	// CHECK: @_specialize(exported: false, kind: full, where T == AThing)
	@_specialize(where T == AThing)
	@_specialize(where T == Int) // expected-error{{same-type constraint type 'Int' does not conform to required protocol 'Thing'}}
	func oneRequirement<T : Thing>(_ t: T) {}

	protocol HasElt {
	associatedtype Element
	}
	struct IntElement : HasElt {
	typealias Element = Int
	}
	struct FloatElement : HasElt {
	typealias Element = Float
	}
	@_specialize(where T == FloatElement)
	@_specialize(where T == IntElement) // expected-error{{'T.Element' cannot be equal to both 'IntElement.Element' (aka 'Int') and 'Float'}}
	func sameTypeRequirement<T : HasElt>(_ t: T) where T.Element == Float {}

	@_specialize(where T == Sub)
	@_specialize(where T == NonSub) // expected-error{{'T' requires that 'NonSub' inherit from 'Base'}}
	func superTypeRequirement<T : Base>(_ t: T) {}

	@_specialize(where X:_Trivial(8), Y == Int) // expected-error{{trailing 'where' clause in '_specialize' attribute of non-generic function 'requirementOnNonGenericFunction(x:y:)'}}
	public func requirementOnNonGenericFunction(x: Int, y: Int) {
	}

	@_specialize(where Y == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
	public func missingRequirement<X:P, Y>(x: X, y: Y) {
	}

	@_specialize(where) // expected-error{{expected type}}
	@_specialize() // expected-error{{expected a parameter label or a where clause in '_specialize' attribute}} expected-error{{expected declaration}}
	public func funcWithEmptySpecializeAttr<X: P, Y>(x: X, y: Y) {
	}


	@_specialize(where X:_Trivial(8), Y:_Trivial(32), Z == Int) // expected-error{{use of undeclared type 'Z'}}
	// expected-error@-1{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
	@_specialize(where X:_Trivial(8), Y:_Trivial(32, 4))
	@_specialize(where X == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
	@_specialize(where Y:_Trivial(32)) // expected-error {{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
	@_specialize(where Y: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
	@_specialize(where Y: MyClass) // expected-error{{use of undeclared type 'MyClass'}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}}
	// expected-error@-1{{Only conformances to protocol types are supported by '_specialize' attribute}}
	@_specialize(where X:_Trivial(8), Y == Int)
	@_specialize(where X == Int, Y == Int)
	@_specialize(where X == Int, X == Int) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 1, but expected 2)}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
	// expected-warning@-1{{redundant same-type constraint 'X' == 'Int'}}
	// expected-note@-2{{same-type constraint 'X' == 'Int' written here}}
	@_specialize(where Y:_Trivial(32), X == Float)
	@_specialize(where X1 == Int, Y1 == Int) // expected-error{{use of undeclared type 'X1'}} expected-error{{use of undeclared type 'Y1'}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 0, but expected 2)}} expected-error{{Missing constraint for 'X' in '_specialize' attribute}} expected-error{{Missing constraint for 'Y' in '_specialize' attribute}}
	// expected-error@-1 2{{Only one concrete type should be used in the same-type requirement in '_specialize' attribute}}
	public func funcWithTwoGenericParameters<X, Y>(x: X, y: Y) {
	}

	@_specialize(where X == Int, Y == Int)
	@_specialize(exported: true, where X == Int, Y == Int)
	@_specialize(exported: false, where X == Int, Y == Int)
	@_specialize(exported: false where X == Int, Y == Int) // expected-error{{missing ',' in '_specialize' attribute}}
	@_specialize(exported: yes, where X == Int, Y == Int) // expected-error{{expected a boolean true or false value in '_specialize' attribute}}
	@_specialize(exported: , where X == Int, Y == Int) // expected-error{{expected a boolean true or false value in '_specialize' attribute}}

	@_specialize(kind: partial, where X == Int, Y == Int)
	@_specialize(kind: partial, where X == Int)
	@_specialize(kind: full, where X == Int, Y == Int)
	@_specialize(kind: any, where X == Int, Y == Int) // expected-error{{expected 'partial' or 'full' as values of the 'kind' parameter in '_specialize' attribute}}
	@_specialize(kind: false, where X == Int, Y == Int) // expected-error{{expected 'partial' or 'full' as values of the 'kind' parameter in '_specialize' attribute}}
	@_specialize(kind: partial where X == Int, Y == Int) // expected-error{{missing ',' in '_specialize' attribute}}
	@_specialize(kind: partial, where X == Int, Y == Int)
	@_specialize(kind: , where X == Int, Y == Int)

	@_specialize(exported: true, kind: partial, where X == Int, Y == Int)
	@_specialize(exported: true, exported: true, where X == Int, Y == Int) // expected-error{{parameter 'exported' was already defined in '_specialize' attribute}}
	@_specialize(kind: partial, exported: true, where X == Int, Y == Int)
	@_specialize(kind: partial, kind: partial, where X == Int, Y == Int) // expected-error{{parameter 'kind' was already defined in '_specialize' attribute}}

	@_specialize(where X == Int, Y == Int, exported: true, kind: partial) // expected-error{{use of undeclared type 'exported'}} expected-error{{use of undeclared type 'kind'}} expected-error{{use of undeclared type 'partial'}} expected-error{{expected type}}
	// expected-error@-1 2{{Only conformances to protocol types are supported by '_specialize' attribute}}
	public func anotherFuncWithTwoGenericParameters<X: P, Y>(x: X, y: Y) {
	}

	@_specialize(where T: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}}
	@_specialize(where T: Int) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}

	@_specialize(where T: S1) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}
	@_specialize(where T: C1) // expected-error{{Only conformances to protocol types are supported by '_specialize' attribute}}
	@_specialize(where Int: P) // expected-error{{Only same-type and layout requirements are supported by '_specialize' attribute}} expected-error{{too few type parameters are specified in '_specialize' attribute (got 0, but expected 1)}} expected-error{{Missing constraint for 'T' in '_specialize' attribute}}
	func funcWithForbiddenSpecializeRequirement<T>(_ t: T) {
	}

	@_specialize(where T: _Trivial(32), T: _Trivial(64), T: _Trivial, T: _RefCountedObject)
	// expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial(64)' and '_Trivial(32)'}}
	// expected-error@-2{{generic parameter 'T' has conflicting constraints '_RefCountedObject' and '_Trivial(32)'}}
	// expected-warning@-3{{redundant constraint 'T' : '_Trivial'}}
	// expected-note@-4 3{{constraint 'T' : '_Trivial(32)' written here}}
	@_specialize(where T: _Trivial, T: _Trivial(64))
	// expected-warning@-1{{redundant constraint 'T' : '_Trivial'}}
	// expected-note@-2 1{{constraint 'T' : '_Trivial(64)' written here}}
	@_specialize(where T: _RefCountedObject, T: _NativeRefCountedObject)
	// expected-warning@-1{{redundant constraint 'T' : '_RefCountedObject'}}
	// expected-note@-2 1{{constraint 'T' : '_NativeRefCountedObject' written here}}
	@_specialize(where Array<T> == Int) // expected-error{{Only requirements on generic parameters are supported by '_specialize' attribute}}
	@_specialize(where T.Element == Int) // expected-error{{Only requirements on generic parameters are supported by '_specialize' attribute}}
	public func funcWithComplexSpecializeRequirements<T: ProtocolWithDep>(t: T) -> Int {
	return 55555
	}

	public protocol Proto: class {
	}

	@_specialize(where T: _RefCountedObject)
	@_specialize(where T: _Trivial)
	// expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial' and '_NativeClass'}}
	@_specialize(where T: _Trivial(64))
	// expected-error@-1{{generic parameter 'T' has conflicting constraints '_Trivial(64)' and '_NativeClass'}}
	public func funcWithABaseClassRequirement<T>(t: T) -> Int where T: C1 {
	return 44444
	}

	public struct S1 {
	}

	@_specialize(exported: false, where T == Int64)
	public func simpleGeneric<T>(t: T) -> T {
	return t
	}


	@_specialize(exported: true, where S: _Trivial(64))
	// Check that any bitsize size is OK, not only powers of 8.
	@_specialize(where S: _Trivial(60))
	@_specialize(exported: true, where S: _RefCountedObject)
	@inline(never)
	public func copyValue<S>(_ t: S, s: inout S) -> Int64 where S: P{
	return 1
	}

	@_specialize(exported: true, where S: _Trivial)
	@_specialize(exported: true, where S: _Trivial(64))
	@_specialize(exported: true, where S: _Trivial(32))
	@_specialize(exported: true, where S: _RefCountedObject)
	@_specialize(exported: true, where S: _NativeRefCountedObject)
	@_specialize(exported: true, where S: _Class)
	@_specialize(exported: true, where S: _NativeClass)
	@inline(never)
	public func copyValueAndReturn<S>(_ t: S, s: inout S) -> S where S: P{
	return s
	}

	struct OuterStruct<S> {
	struct MyStruct<T> {
	@_specialize(where T == Int, U == Float) // expected-error{{too few type parameters are specified in '_specialize' attribute (got 2, but expected 3)}} expected-error{{Missing constraint for 'S' in '_specialize' attribute}}
	public func foo<U>(u : U) {
	}

	@_specialize(where T == Int, U == Float, S == Int)
	public func bar<U>(u : U) {
	}
	}
	}

	// Check _TrivialAtMostN constraints.
	@_specialize(exported: true, where S: _TrivialAtMost(64))
	@inline(never)
	public func copy2<S>(_ t: S, s: inout S) -> S where S: P{
	return s
	}

	// Check missing alignment.
	@_specialize(where S: _Trivial(64, )) // expected-error{{expected non-negative alignment to be specified in layout constraint}}
	// Check non-numeric size.
	@_specialize(where S: _Trivial(Int)) // expected-error{{expected non-negative size to be specified in layout constraint}}
	// Check non-numeric alignment.
	@_specialize(where S: _Trivial(64, X)) // expected-error{{expected non-negative alignment to be specified in layout constraint}}
	@inline(never)
	public func copy3<S>(_ s: S) -> S {
	return s
	}

	public func funcWithWhereClause<T>(t: T) where T:P, T: _Trivial(64) { // expected-error{{layout constraints are only allowed inside '_specialize' attributes}}
	}

	// rdar://problem/29333056
	public protocol P1 {
	associatedtype DP1
	associatedtype DP11
	}

	public protocol P2 {
	associatedtype DP2 : P1
	}

	public struct H<T> {
	}

	public struct MyStruct3 : P1 {
	public typealias DP1 = Int
	public typealias DP11 = H<Int>
	}

	public struct MyStruct4 : P2 {
	public typealias DP2 = MyStruct3
	}

	@_specialize(where T==MyStruct4)
	public func foo<T: P2>(_ t: T) where T.DP2.DP11 == H<T.DP2.DP1> {
	}