test/Constraints/tuple.swift - third_party/swift - Git at Google

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

 // Test various tuple constraints.

 func f0(x: Int, y: Float) {}

 var i : Int
 var j : Int
 var f : Float

 func f1(y: Float, rest: Int...) {}

 func f2(_: (_ x: Int, _ y: Int) -> Int) {}
 func f2xy(x: Int, y: Int) -> Int {}
 func f2ab(a: Int, b: Int) -> Int {}
 func f2yx(y: Int, x: Int) -> Int {}

 func f3(_ x: (_ x: Int, _ y: Int) -> ()) {}
 func f3a(_ x: Int, y: Int) {}
 func f3b(_: Int) {}

 func f4(_ rest: Int...) {}
 func f5(_ x: (Int, Int)) {}

 func f6(_: (i: Int, j: Int), k: Int = 15) {}

 //===----------------------------------------------------------------------===//
 // Conversions and shuffles
 //===----------------------------------------------------------------------===//

 // Variadic functions.
 f4()
 f4(1)
 f4(1, 2, 3)

 f2(f2xy)
 f2(f2ab)
 f2(f2yx)

 f3(f3a)
 f3(f3b) // expected-error{{cannot convert value of type '(Int) -> ()' to expected argument type '(Int, Int) -> ()'}}

 func getIntFloat() -> (int: Int, float: Float) {}
 var values = getIntFloat()
 func wantFloat(_: Float) {}
 wantFloat(values.float)

 var e : (x: Int..., y: Int) // expected-error{{cannot create a variadic tuple}}

 typealias Interval = (a:Int, b:Int)
 func takeInterval(_ x: Interval) {}
 takeInterval(Interval(1, 2))

 f5((1,1))

 // Tuples with existentials
 var any : Any = ()
 any = (1, 2)
 any = (label: 4)

 // Scalars don't have .0/.1/etc
 i = j.0 // expected-error{{value of type 'Int' has no member '0'}}
 any.1 // expected-error{{value of type 'Any' has no member '1'}}

 // Fun with tuples
 protocol PosixErrorReturn {
   static func errorReturnValue() -> Self
 }

 extension Int : PosixErrorReturn {
   static func errorReturnValue() -> Int { return -1 }
 }

 func posixCantFail<A, T : Comparable & PosixErrorReturn>
   (_ f: @escaping (A) -> T) -> (_ args:A) -> T
 {
   return { args in
     let result = f(args)
     assert(result != T.errorReturnValue())
     return result
   }
 }

 func open(_ name: String, oflag: Int) -> Int { }

 var foo: Int = 0

 var fd = posixCantFail(open)(("foo", 0))

 // Tuples and lvalues
 class C {
   init() {}
   func f(_: C) {}
 }

 func testLValue(_ c: C) {
   var c = c
   c.f(c)

   let x = c
   c = x
 }


 // <rdar://problem/21444509> Crash in TypeChecker::coercePatternToType
 func invalidPatternCrash(_ k : Int) {
   switch k {
   case (k, cph_: k) as UInt8:  // expected-error {{tuple pattern cannot match values of the non-tuple type 'UInt8'}} expected-warning {{cast from 'Int' to unrelated type 'UInt8' always fails}}
     break
   }
 }

 // <rdar://problem/21875219> Tuple to tuple conversion with IdentityExpr / AnyTryExpr hang
 class Paws {
   init() throws {}
 }

 func scruff() -> (AnyObject?, Error?) {
   do {
     return try (Paws(), nil)
   } catch {
     return (nil, error)
   }
 }

 // Test variadics with trailing closures.
 func variadicWithTrailingClosure(_ x: Int..., y: Int = 2, fn: (Int, Int) -> Int) {
 }

 variadicWithTrailingClosure(1, 2, 3) { $0 + $1 }
 variadicWithTrailingClosure(1) { $0 + $1 }
 variadicWithTrailingClosure() { $0 + $1 }
 variadicWithTrailingClosure { $0 + $1 }

 variadicWithTrailingClosure(1, 2, 3, y: 0) { $0 + $1 }
 variadicWithTrailingClosure(1, y: 0) { $0 + $1 }
 variadicWithTrailingClosure(y: 0) { $0 + $1 }

 variadicWithTrailingClosure(1, 2, 3, y: 0, fn: +)
 variadicWithTrailingClosure(1, y: 0, fn: +)
 variadicWithTrailingClosure(y: 0, fn: +)

 variadicWithTrailingClosure(1, 2, 3, fn: +)
 variadicWithTrailingClosure(1, fn: +)
 variadicWithTrailingClosure(fn: +)


 // <rdar://problem/23700031> QoI: Terrible diagnostic in tuple assignment
 func gcd_23700031<T>(_ a: T, b: T) {
   var a = a
   var b = b
   (a, b) = (b, a % b)  // expected-error {{binary operator '%' cannot be applied to two 'T' operands}}
   // expected-note @-1 {{overloads for '%' exist with these partially matching parameter lists: (UInt8, UInt8), (Int8, Int8), (UInt16, UInt16), (Int16, Int16), (UInt32, UInt32), (Int32, Int32), (UInt64, UInt64), (Int64, Int64), (UInt, UInt), (Int, Int)}}
 }

 // <rdar://problem/24210190>
 //   Don't ignore tuple labels in same-type constraints or stronger.
 protocol Kingdom {
   associatedtype King
 }
 struct Victory<General> {
   init<K: Kingdom>(_ king: K) where K.King == General {}
 }
 struct MagicKingdom<K> : Kingdom {
   typealias King = K
 }
 func magify<T>(_ t: T) -> MagicKingdom<T> { return MagicKingdom() }
 func foo(_ pair: (Int,Int)) -> Victory<(x:Int, y:Int)> {
   return Victory(magify(pair)) // expected-error {{cannot convert return expression of type 'Victory<(Int, Int)>' to return type 'Victory<(x: Int, y: Int)>'}}
 }


 // https://bugs.swift.org/browse/SR-596
 // Compiler crashes when accessing a non-existent property of a closure parameter
 func call(_ f: (C) -> Void) {}
 func makeRequest() {
   call { obj in
     print(obj.invalidProperty)  // expected-error {{value of type 'C' has no member 'invalidProperty'}}
   }
 }

 // <rdar://problem/25271859> QoI: Misleading error message when expression result can't be inferred from closure
 struct r25271859<T> {
 }

 extension r25271859 {
   func map<U>(f: (T) -> U) -> r25271859<U> {
   }

   func andThen<U>(f: (T)->r25271859<U>) {
   }
 }

 func f(a : r25271859<(Float, Int)>) {
   a.map { $0.0 }
     .andThen { _ in   // expected-error {{unable to infer complex closure return type; add explicit type to disambiguate}} {{18-18=-> r25271859<String> }}
       print("hello") // comment this out and it runs, leave any form of print in and it doesn't
       return r25271859<String>()
   }
 }
	// RUN: %target-parse-verify-swift

	// Test various tuple constraints.

	func f0(x: Int, y: Float) {}

	var i : Int
	var j : Int
	var f : Float

	func f1(y: Float, rest: Int...) {}

	func f2(_: (_ x: Int, _ y: Int) -> Int) {}
	func f2xy(x: Int, y: Int) -> Int {}
	func f2ab(a: Int, b: Int) -> Int {}
	func f2yx(y: Int, x: Int) -> Int {}

	func f3(_ x: (_ x: Int, _ y: Int) -> ()) {}
	func f3a(_ x: Int, y: Int) {}
	func f3b(_: Int) {}

	func f4(_ rest: Int...) {}
	func f5(_ x: (Int, Int)) {}

	func f6(_: (i: Int, j: Int), k: Int = 15) {}

	//===----------------------------------------------------------------------===//
	// Conversions and shuffles
	//===----------------------------------------------------------------------===//

	// Variadic functions.
	f4()
	f4(1)
	f4(1, 2, 3)

	f2(f2xy)
	f2(f2ab)
	f2(f2yx)

	f3(f3a)
	f3(f3b) // expected-error{{cannot convert value of type '(Int) -> ()' to expected argument type '(Int, Int) -> ()'}}

	func getIntFloat() -> (int: Int, float: Float) {}
	var values = getIntFloat()
	func wantFloat(_: Float) {}
	wantFloat(values.float)

	var e : (x: Int..., y: Int) // expected-error{{cannot create a variadic tuple}}

	typealias Interval = (a:Int, b:Int)
	func takeInterval(_ x: Interval) {}
	takeInterval(Interval(1, 2))

	f5((1,1))

	// Tuples with existentials
	var any : Any = ()
	any = (1, 2)
	any = (label: 4)

	// Scalars don't have .0/.1/etc
	i = j.0 // expected-error{{value of type 'Int' has no member '0'}}
	any.1 // expected-error{{value of type 'Any' has no member '1'}}

	// Fun with tuples
	protocol PosixErrorReturn {
	static func errorReturnValue() -> Self
	}

	extension Int : PosixErrorReturn {
	static func errorReturnValue() -> Int { return -1 }
	}

	func posixCantFail<A, T : Comparable & PosixErrorReturn>
	(_ f: @escaping (A) -> T) -> (_ args:A) -> T
	{
	return { args in
	let result = f(args)
	assert(result != T.errorReturnValue())
	return result
	}
	}

	func open(_ name: String, oflag: Int) -> Int { }

	var foo: Int = 0

	var fd = posixCantFail(open)(("foo", 0))

	// Tuples and lvalues
	class C {
	init() {}
	func f(_: C) {}
	}

	func testLValue(_ c: C) {
	var c = c
	c.f(c)

	let x = c
	c = x
	}


	// <rdar://problem/21444509> Crash in TypeChecker::coercePatternToType
	func invalidPatternCrash(_ k : Int) {
	switch k {
	case (k, cph_: k) as UInt8: // expected-error {{tuple pattern cannot match values of the non-tuple type 'UInt8'}} expected-warning {{cast from 'Int' to unrelated type 'UInt8' always fails}}
	break
	}
	}

	// <rdar://problem/21875219> Tuple to tuple conversion with IdentityExpr / AnyTryExpr hang
	class Paws {
	init() throws {}
	}

	func scruff() -> (AnyObject?, Error?) {
	do {
	return try (Paws(), nil)
	} catch {
	return (nil, error)
	}
	}

	// Test variadics with trailing closures.
	func variadicWithTrailingClosure(_ x: Int..., y: Int = 2, fn: (Int, Int) -> Int) {
	}

	variadicWithTrailingClosure(1, 2, 3) { $0 + $1 }
	variadicWithTrailingClosure(1) { $0 + $1 }
	variadicWithTrailingClosure() { $0 + $1 }
	variadicWithTrailingClosure { $0 + $1 }

	variadicWithTrailingClosure(1, 2, 3, y: 0) { $0 + $1 }
	variadicWithTrailingClosure(1, y: 0) { $0 + $1 }
	variadicWithTrailingClosure(y: 0) { $0 + $1 }

	variadicWithTrailingClosure(1, 2, 3, y: 0, fn: +)
	variadicWithTrailingClosure(1, y: 0, fn: +)
	variadicWithTrailingClosure(y: 0, fn: +)

	variadicWithTrailingClosure(1, 2, 3, fn: +)
	variadicWithTrailingClosure(1, fn: +)
	variadicWithTrailingClosure(fn: +)


	// <rdar://problem/23700031> QoI: Terrible diagnostic in tuple assignment
	func gcd_23700031<T>(_ a: T, b: T) {
	var a = a
	var b = b
	(a, b) = (b, a % b) // expected-error {{binary operator '%' cannot be applied to two 'T' operands}}
	// expected-note @-1 {{overloads for '%' exist with these partially matching parameter lists: (UInt8, UInt8), (Int8, Int8), (UInt16, UInt16), (Int16, Int16), (UInt32, UInt32), (Int32, Int32), (UInt64, UInt64), (Int64, Int64), (UInt, UInt), (Int, Int)}}
	}

	// <rdar://problem/24210190>
	// Don't ignore tuple labels in same-type constraints or stronger.
	protocol Kingdom {
	associatedtype King
	}
	struct Victory<General> {
	init<K: Kingdom>(_ king: K) where K.King == General {}
	}
	struct MagicKingdom<K> : Kingdom {
	typealias King = K
	}
	func magify<T>(_ t: T) -> MagicKingdom<T> { return MagicKingdom() }
	func foo(_ pair: (Int,Int)) -> Victory<(x:Int, y:Int)> {
	return Victory(magify(pair)) // expected-error {{cannot convert return expression of type 'Victory<(Int, Int)>' to return type 'Victory<(x: Int, y: Int)>'}}
	}


	// https://bugs.swift.org/browse/SR-596
	// Compiler crashes when accessing a non-existent property of a closure parameter
	func call(_ f: (C) -> Void) {}
	func makeRequest() {
	call { obj in
	print(obj.invalidProperty) // expected-error {{value of type 'C' has no member 'invalidProperty'}}
	}
	}

	// <rdar://problem/25271859> QoI: Misleading error message when expression result can't be inferred from closure
	struct r25271859<T> {
	}

	extension r25271859 {
	func map<U>(f: (T) -> U) -> r25271859<U> {
	}

	func andThen<U>(f: (T)->r25271859<U>) {
	}
	}

	func f(a : r25271859<(Float, Int)>) {
	a.map { $0.0 }
	.andThen { _ in // expected-error {{unable to infer complex closure return type; add explicit type to disambiguate}} {{18-18=-> r25271859<String> }}
	print("hello") // comment this out and it runs, leave any form of print in and it doesn't
	return r25271859<String>()
	}
	}