test/stmt/foreach.swift - third_party/swift - Git at Google

 // RUN: %target-typecheck-verify-swift

 // Bad containers and ranges
 struct BadContainer1 {
 }

 func bad_containers_1(bc: BadContainer1) {
   for e in bc { } // expected-error{{type 'BadContainer1' does not conform to protocol 'Sequence'}}
 }

 struct BadContainer2 : Sequence { // expected-error{{type 'BadContainer2' does not conform to protocol 'Sequence'}}
   var generate : Int
 }

 func bad_containers_2(bc: BadContainer2) {
   for e in bc { }
 }

 struct BadContainer3 : Sequence { // expected-error{{type 'BadContainer3' does not conform to protocol 'Sequence'}}
   func makeIterator() { } // expected-note{{candidate can not infer 'Iterator' = '()' because '()' is not a nominal type and so can't conform to 'IteratorProtocol'}}
 }

 func bad_containers_3(bc: BadContainer3) {
   for e in bc { }
 }

 struct BadIterator1 {}

 struct BadContainer4 : Sequence { // expected-error{{type 'BadContainer4' does not conform to protocol 'Sequence'}}
   typealias Iterator = BadIterator1 // expected-note{{possibly intended match 'BadContainer4.Iterator' (aka 'BadIterator1') does not conform to 'IteratorProtocol'}}
   func makeIterator() -> BadIterator1 { }
 }

 func bad_containers_4(bc: BadContainer4) {
   for e in bc { }
 }

 // Pattern type-checking

 struct GoodRange<Int> : Sequence, IteratorProtocol {
   typealias Element = Int
   func next() -> Int? {}

   typealias Iterator = GoodRange<Int>
   func makeIterator() -> GoodRange<Int> { return self }
 }

 struct GoodTupleIterator: Sequence, IteratorProtocol {
   typealias Element = (Int, Float)
   func next() -> (Int, Float)? {}

   typealias Iterator = GoodTupleIterator
   func makeIterator() -> GoodTupleIterator {}
 }

 func patterns(gir: GoodRange<Int>, gtr: GoodTupleIterator) {
   var sum : Int
   var sumf : Float
   for i : Int in gir { sum = sum + i }
   for i in gir { sum = sum + i }
   for f : Float in gir { sum = sum + f } // expected-error{{'Int' is not convertible to 'Float'}}

   for (i, f) : (Int, Float) in gtr { sum = sum + i }

   for (i, f) in gtr {
     sum = sum + i
     sumf = sumf + f
     sum = sum + f  // expected-error {{binary operator '+' cannot be applied to operands of type 'Int' and 'Float'}} expected-note {{expected an argument list of type '(Int, Int)'}}
   }

   for (i, _) : (Int, Float) in gtr { sum = sum + i }

   for (i, _) : (Int, Int) in gtr { sum = sum + i } // expected-error{{'GoodTupleIterator.Element' (aka '(Int, Float)') is not convertible to '(Int, Int)'}}

   for (i, f) in gtr {}
 }

 func slices(i_s: [Int], ias: [[Int]]) {
   var sum = 0
   for i in i_s { sum = sum + i }

   for ia in ias {
     for i in ia {
       sum = sum + i
     }
   }
 }

 func discard_binding() {
   for _ in [0] {}
 }

 struct X<T> {
   var value: T
 }

 struct Gen<T> : IteratorProtocol {
   func next() -> T? { return nil }
 }

 struct Seq<T> : Sequence {
   func makeIterator() -> Gen<T> { return Gen() }
 }

 func getIntSeq() -> Seq<Int> { return Seq() }

 func getOvlSeq() -> Seq<Int> { return Seq() } // expected-note{{found this candidate}}
 func getOvlSeq() -> Seq<Double> { return Seq() } // expected-note{{found this candidate}}
 func getOvlSeq() -> Seq<X<Int>> { return Seq() } // expected-note{{found this candidate}}

 func getGenericSeq<T>() -> Seq<T> { return Seq() }

 func getXIntSeq() -> Seq<X<Int>> { return Seq() }

 func getXIntSeqIUO() -> Seq<X<Int>>! { return nil }

 func testForEachInference() {
   for i in getIntSeq() { }

   // Overloaded sequence resolved contextually
   for i: Int in getOvlSeq() { }
   for d: Double in getOvlSeq() { }

   // Overloaded sequence not resolved contextually
   for v in getOvlSeq() { } // expected-error{{ambiguous use of 'getOvlSeq()'}}

   // Generic sequence resolved contextually
   for i: Int in getGenericSeq() { }
   for d: Double in getGenericSeq() { }

   // Inference of generic arguments in the element type from the
   // sequence.
   for x: X in getXIntSeq() {
     let z = x.value + 1
   }

   for x: X in getOvlSeq() {
     let z = x.value + 1
   }

   // Inference with implicitly unwrapped optional
   for x: X in getXIntSeqIUO() {
     let z = x.value + 1
   }

   // Range overloading.
   for i: Int8 in 0..<10 { }
   for i: UInt in 0...10 { }
 }

 func testMatchingPatterns() {
   // <rdar://problem/21428712> for case parse failure
   let myArray : [Int?] = []
   for case .some(let x) in myArray {
     _ = x
   }

   // <rdar://problem/21392677> for/case/in patterns aren't parsed properly
   class A {}
   class B : A {}
   class C : A {}
   let array : [A] = [A(), B(), C()]
   for case (let x as B) in array {
     _ = x
   }
 }

 // <rdar://problem/21662365> QoI: diagnostic for for-each over an optional sequence isn't great
 func testOptionalSequence() {
   let array : [Int]?
   for x in array {  // expected-error {{value of optional type '[Int]?' must be unwrapped}}
     // expected-note@-1{{coalesce}}
     // expected-note@-2{{force-unwrap}}
   }
 }

 // Crash with (invalid) for each over an existential
 func testExistentialSequence(s: Sequence) { // expected-error {{protocol 'Sequence' can only be used as a generic constraint because it has Self or associated type requirements}}
   for x in s { // expected-error {{protocol type 'Sequence' cannot conform to 'Sequence' because only concrete types can conform to protocols}}
     _ = x
   }
 }

 // Conditional conformance to Sequence and IteratorProtocol.
 protocol P { }

 struct RepeatedSequence<T> {
   var value: T
   var count: Int
 }

 struct RepeatedIterator<T> {
   var value: T
   var count: Int
 }

 extension RepeatedIterator: IteratorProtocol where T: P {
   typealias Element = T

   mutating func next() -> T? {
     if count == 0 { return nil }
     count = count - 1
     return value
   }
 }

 extension RepeatedSequence: Sequence where T: P {
   typealias Element = T
   typealias Iterator = RepeatedIterator<T>
   typealias SubSequence = AnySequence<T>

   func makeIterator() -> RepeatedIterator<T> {
     return Iterator(value: value, count: count)
   }
 }

 extension Int : P { }

 func testRepeated(ri: RepeatedSequence<Int>) {
   for x in ri { _ = x }
 }
	// RUN: %target-typecheck-verify-swift

	// Bad containers and ranges
	struct BadContainer1 {
	}

	func bad_containers_1(bc: BadContainer1) {
	for e in bc { } // expected-error{{type 'BadContainer1' does not conform to protocol 'Sequence'}}
	}

	struct BadContainer2 : Sequence { // expected-error{{type 'BadContainer2' does not conform to protocol 'Sequence'}}
	var generate : Int
	}

	func bad_containers_2(bc: BadContainer2) {
	for e in bc { }
	}

	struct BadContainer3 : Sequence { // expected-error{{type 'BadContainer3' does not conform to protocol 'Sequence'}}
	func makeIterator() { } // expected-note{{candidate can not infer 'Iterator' = '()' because '()' is not a nominal type and so can't conform to 'IteratorProtocol'}}
	}

	func bad_containers_3(bc: BadContainer3) {
	for e in bc { }
	}

	struct BadIterator1 {}

	struct BadContainer4 : Sequence { // expected-error{{type 'BadContainer4' does not conform to protocol 'Sequence'}}
	typealias Iterator = BadIterator1 // expected-note{{possibly intended match 'BadContainer4.Iterator' (aka 'BadIterator1') does not conform to 'IteratorProtocol'}}
	func makeIterator() -> BadIterator1 { }
	}

	func bad_containers_4(bc: BadContainer4) {
	for e in bc { }
	}

	// Pattern type-checking

	struct GoodRange<Int> : Sequence, IteratorProtocol {
	typealias Element = Int
	func next() -> Int? {}

	typealias Iterator = GoodRange<Int>
	func makeIterator() -> GoodRange<Int> { return self }
	}

	struct GoodTupleIterator: Sequence, IteratorProtocol {
	typealias Element = (Int, Float)
	func next() -> (Int, Float)? {}

	typealias Iterator = GoodTupleIterator
	func makeIterator() -> GoodTupleIterator {}
	}

	func patterns(gir: GoodRange<Int>, gtr: GoodTupleIterator) {
	var sum : Int
	var sumf : Float
	for i : Int in gir { sum = sum + i }
	for i in gir { sum = sum + i }
	for f : Float in gir { sum = sum + f } // expected-error{{'Int' is not convertible to 'Float'}}

	for (i, f) : (Int, Float) in gtr { sum = sum + i }

	for (i, f) in gtr {
	sum = sum + i
	sumf = sumf + f
	sum = sum + f // expected-error {{binary operator '+' cannot be applied to operands of type 'Int' and 'Float'}} expected-note {{expected an argument list of type '(Int, Int)'}}
	}

	for (i, _) : (Int, Float) in gtr { sum = sum + i }

	for (i, _) : (Int, Int) in gtr { sum = sum + i } // expected-error{{'GoodTupleIterator.Element' (aka '(Int, Float)') is not convertible to '(Int, Int)'}}

	for (i, f) in gtr {}
	}

	func slices(i_s: [Int], ias: [[Int]]) {
	var sum = 0
	for i in i_s { sum = sum + i }

	for ia in ias {
	for i in ia {
	sum = sum + i
	}
	}
	}

	func discard_binding() {
	for _ in [0] {}
	}

	struct X<T> {
	var value: T
	}

	struct Gen<T> : IteratorProtocol {
	func next() -> T? { return nil }
	}

	struct Seq<T> : Sequence {
	func makeIterator() -> Gen<T> { return Gen() }
	}

	func getIntSeq() -> Seq<Int> { return Seq() }

	func getOvlSeq() -> Seq<Int> { return Seq() } // expected-note{{found this candidate}}
	func getOvlSeq() -> Seq<Double> { return Seq() } // expected-note{{found this candidate}}
	func getOvlSeq() -> Seq<X<Int>> { return Seq() } // expected-note{{found this candidate}}

	func getGenericSeq<T>() -> Seq<T> { return Seq() }

	func getXIntSeq() -> Seq<X<Int>> { return Seq() }

	func getXIntSeqIUO() -> Seq<X<Int>>! { return nil }

	func testForEachInference() {
	for i in getIntSeq() { }

	// Overloaded sequence resolved contextually
	for i: Int in getOvlSeq() { }
	for d: Double in getOvlSeq() { }

	// Overloaded sequence not resolved contextually
	for v in getOvlSeq() { } // expected-error{{ambiguous use of 'getOvlSeq()'}}

	// Generic sequence resolved contextually
	for i: Int in getGenericSeq() { }
	for d: Double in getGenericSeq() { }

	// Inference of generic arguments in the element type from the
	// sequence.
	for x: X in getXIntSeq() {
	let z = x.value + 1
	}

	for x: X in getOvlSeq() {
	let z = x.value + 1
	}

	// Inference with implicitly unwrapped optional
	for x: X in getXIntSeqIUO() {
	let z = x.value + 1
	}

	// Range overloading.
	for i: Int8 in 0..<10 { }
	for i: UInt in 0...10 { }
	}

	func testMatchingPatterns() {
	// <rdar://problem/21428712> for case parse failure
	let myArray : [Int?] = []
	for case .some(let x) in myArray {
	_ = x
	}

	// <rdar://problem/21392677> for/case/in patterns aren't parsed properly
	class A {}
	class B : A {}
	class C : A {}
	let array : [A] = [A(), B(), C()]
	for case (let x as B) in array {
	_ = x
	}
	}

	// <rdar://problem/21662365> QoI: diagnostic for for-each over an optional sequence isn't great
	func testOptionalSequence() {
	let array : [Int]?
	for x in array { // expected-error {{value of optional type '[Int]?' must be unwrapped}}
	// expected-note@-1{{coalesce}}
	// expected-note@-2{{force-unwrap}}
	}
	}

	// Crash with (invalid) for each over an existential
	func testExistentialSequence(s: Sequence) { // expected-error {{protocol 'Sequence' can only be used as a generic constraint because it has Self or associated type requirements}}
	for x in s { // expected-error {{protocol type 'Sequence' cannot conform to 'Sequence' because only concrete types can conform to protocols}}
	_ = x
	}
	}

	// Conditional conformance to Sequence and IteratorProtocol.
	protocol P { }

	struct RepeatedSequence<T> {
	var value: T
	var count: Int
	}

	struct RepeatedIterator<T> {
	var value: T
	var count: Int
	}

	extension RepeatedIterator: IteratorProtocol where T: P {
	typealias Element = T

	mutating func next() -> T? {
	if count == 0 { return nil }
	count = count - 1
	return value
	}
	}

	extension RepeatedSequence: Sequence where T: P {
	typealias Element = T
	typealias Iterator = RepeatedIterator<T>
	typealias SubSequence = AnySequence<T>

	func makeIterator() -> RepeatedIterator<T> {
	return Iterator(value: value, count: count)
	}
	}

	extension Int : P { }

	func testRepeated(ri: RepeatedSequence<Int>) {
	for x in ri { _ = x }
	}