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// RUN: %target-typecheck-verify-swift
//===----------------------------------------------------------------------===//
// Deduction of generic arguments
//===----------------------------------------------------------------------===//
func identity<T>(_ value: T) -> T { return value }
func identity2<T>(_ value: T) -> T { return value }
// expected-note@-1 {{'identity2' produces 'Y', not the expected contextual result type 'X'}}
func identity2<T>(_ value: T) -> Int { return 0 }
// expected-note@-1 {{'identity2' produces 'Int', not the expected contextual result type 'X'}}
struct X { }
struct Y { }
func useIdentity(_ x: Int, y: Float, i32: Int32) {
var x2 = identity(x)
var y2 = identity(y)
// Deduction that involves the result type
x2 = identity(17)
var i32_2 : Int32 = identity(17)
// Deduction where the result type and input type can get different results
var xx : X, yy : Y
xx = identity(yy) // expected-error{{cannot assign value of type 'Y' to type 'X'}}
xx = identity2(yy) // expected-error{{no 'identity2' candidates produce the expected contextual result type 'X'}}
}
func twoIdentical<T>(_ x: T, _ y: T) -> T {}
func useTwoIdentical(_ xi: Int, yi: Float) {
var x = xi, y = yi
x = twoIdentical(x, x)
y = twoIdentical(y, y)
x = twoIdentical(x, 1)
x = twoIdentical(1, x)
y = twoIdentical(1.0, y)
y = twoIdentical(y, 1.0)
twoIdentical(x, y) // expected-error{{conflicting arguments to generic parameter 'T' ('Int' vs. 'Float')}}
}
func mySwap<T>(_ x: inout T,
_ y: inout T) {
let tmp = x
x = y
y = tmp
}
func useSwap(_ xi: Int, yi: Float) {
var x = xi, y = yi
mySwap(&x, &x)
mySwap(&y, &y)
mySwap(x, x) // expected-error {{passing value of type 'Int' to an inout parameter requires explicit '&'}} {{10-10=&}}
// expected-error @-1 {{passing value of type 'Int' to an inout parameter requires explicit '&'}} {{13-13=&}}
mySwap(&x, &y) // expected-error{{cannot convert value of type 'Float' to expected argument type 'Int'}}
}
func takeTuples<T, U>(_: (T, U), _: (U, T)) {
}
func useTuples(_ x: Int, y: Float, z: (Float, Int)) {
takeTuples((x, y), (y, x))
takeTuples((x, y), (x, y))
// expected-error@-1 {{conflicting arguments to generic parameter 'U' ('Float' vs. 'Int')}}
// expected-error@-2 {{conflicting arguments to generic parameter 'T' ('Int' vs. 'Float')}}
// FIXME: Use 'z', which requires us to fix our tuple-conversion
// representation.
}
func acceptFunction<T, U>(_ f: (T) -> U, _ t: T, _ u: U) {}
func passFunction(_ f: (Int) -> Float, x: Int, y: Float) {
acceptFunction(f, x, y)
acceptFunction(f, y, y) // expected-error{{cannot convert value of type 'Float' to expected argument type 'Int'}}
}
func returnTuple<T, U>(_: T) -> (T, U) { } // expected-note {{in call to function 'returnTuple'}}
func testReturnTuple(_ x: Int, y: Float) {
returnTuple(x) // expected-error{{generic parameter 'U' could not be inferred}}
var _ : (Int, Float) = returnTuple(x)
var _ : (Float, Float) = returnTuple(y)
// <rdar://problem/22333090> QoI: Propagate contextual information in a call to operands
var _ : (Int, Float) = returnTuple(y) // expected-error{{conflicting arguments to generic parameter 'T' ('Float' vs. 'Int')}}
}
func confusingArgAndParam<T, U>(_ f: (T) -> U, _ g: (U) -> T) {
confusingArgAndParam(g, f)
confusingArgAndParam(f, g)
}
func acceptUnaryFn<T, U>(_ f: (T) -> U) { }
func acceptUnaryFnSame<T>(_ f: (T) -> T) { }
func acceptUnaryFnRef<T, U>(_ f: inout (T) -> U) { }
func acceptUnaryFnSameRef<T>(_ f: inout (T) -> T) { }
func unaryFnIntInt(_: Int) -> Int {}
func unaryFnOvl(_: Int) -> Int {} // expected-note{{found this candidate}}
func unaryFnOvl(_: Float) -> Int {} // expected-note{{found this candidate}}
// Variable forms of the above functions
var unaryFnIntIntVar : (Int) -> Int = unaryFnIntInt
func passOverloadSet() {
// Passing a non-generic function to a generic function
acceptUnaryFn(unaryFnIntInt)
acceptUnaryFnSame(unaryFnIntInt)
// Passing an overloaded function set to a generic function
// FIXME: Yet more terrible diagnostics.
acceptUnaryFn(unaryFnOvl) // expected-error{{ambiguous use of 'unaryFnOvl'}}
acceptUnaryFnSame(unaryFnOvl)
// Passing a variable of function type to a generic function
acceptUnaryFn(unaryFnIntIntVar)
acceptUnaryFnSame(unaryFnIntIntVar)
// Passing a variable of function type to a generic function to an inout parameter
acceptUnaryFnRef(&unaryFnIntIntVar)
acceptUnaryFnSameRef(&unaryFnIntIntVar)
acceptUnaryFnRef(unaryFnIntIntVar) // expected-error{{passing value of type '(Int) -> Int' to an inout parameter requires explicit '&'}} {{20-20=&}}
}
func acceptFnFloatFloat(_ f: (Float) -> Float) {}
func acceptFnDoubleDouble(_ f: (Double) -> Double) {}
func passGeneric() {
acceptFnFloatFloat(identity)
acceptFnFloatFloat(identity2)
}
//===----------------------------------------------------------------------===//
// Simple deduction for generic member functions
//===----------------------------------------------------------------------===//
struct SomeType {
func identity<T>(_ x: T) -> T { return x }
func identity2<T>(_ x: T) -> T { return x } // expected-note 2{{found this candidate}}
func identity2<T>(_ x: T) -> Float { } // expected-note 2{{found this candidate}}
func returnAs<T>() -> T {}
}
func testMemberDeduction(_ sti: SomeType, ii: Int, fi: Float) {
var st = sti, i = ii, f = fi
i = st.identity(i)
f = st.identity(f)
i = st.identity2(i)
f = st.identity2(f) // expected-error{{ambiguous use of 'identity2'}}
i = st.returnAs()
f = st.returnAs()
acceptFnFloatFloat(st.identity)
acceptFnFloatFloat(st.identity2) // expected-error{{ambiguous use of 'identity2'}}
acceptFnDoubleDouble(st.identity2)
}
struct StaticFuncs {
static func chameleon<T>() -> T {}
func chameleon2<T>() -> T {}
}
struct StaticFuncsGeneric<U> {
static func chameleon<T>() -> T {}
}
func chameleon<T>() -> T {}
func testStatic(_ sf: StaticFuncs, sfi: StaticFuncsGeneric<Int>) {
var x: Int16
x = StaticFuncs.chameleon()
x = sf.chameleon2()
x = sfi.chameleon() // expected-error {{static member 'chameleon' cannot be used on instance of type 'StaticFuncsGeneric<Int>'}}
typealias SFI = StaticFuncsGeneric<Int>
x = SFI.chameleon()
_ = x
}
//===----------------------------------------------------------------------===//
// Deduction checking for constraints
//===----------------------------------------------------------------------===//
protocol IsBefore {
func isBefore(_ other: Self) -> Bool
}
func min2<T : IsBefore>(_ x: T, _ y: T) -> T { // expected-note {{where 'T' = 'Float'}}
if y.isBefore(x) { return y }
return x
}
extension Int : IsBefore {
func isBefore(_ other: Int) -> Bool { return self < other }
}
func callMin(_ x: Int, y: Int, a: Float, b: Float) {
_ = min2(x, y)
min2(a, b) // expected-error{{global function 'min2' requires that 'Float' conform to 'IsBefore'}}
}
func rangeOfIsBefore<R : IteratorProtocol>(_ range: R) where R.Element : IsBefore {} // expected-note {{where 'R.Element' = 'IndexingIterator<[Double]>.Element' (aka 'Double')}}
func callRangeOfIsBefore(_ ia: [Int], da: [Double]) {
rangeOfIsBefore(ia.makeIterator())
rangeOfIsBefore(da.makeIterator()) // expected-error{{global function 'rangeOfIsBefore' requires that 'IndexingIterator<[Double]>.Element' (aka 'Double') conform to 'IsBefore'}}
}
func testEqualIterElementTypes<A: IteratorProtocol, B: IteratorProtocol>(_ a: A, _ b: B) where A.Element == B.Element {}
// expected-note@-1 {{where 'A.Element' = 'IndexingIterator<[Int]>.Element' (aka 'Int'), 'B.Element' = 'IndexingIterator<[Double]>.Element' (aka 'Double')}}
func compareIterators() {
var a: [Int] = []
var b: [Double] = []
testEqualIterElementTypes(a.makeIterator(), b.makeIterator())
// expected-error@-1 {{global function 'testEqualIterElementTypes' requires the types 'IndexingIterator<[Int]>.Element' (aka 'Int') and 'IndexingIterator<[Double]>.Element' (aka 'Double') be equivalent}}
}
protocol P_GI {
associatedtype Y
}
class C_GI : P_GI {
typealias Y = Double
}
class GI_Diff {}
func genericInheritsA<T>(_ x: T) where T : P_GI, T.Y : GI_Diff {}
// expected-note@-1 {{where 'T.Y' = 'C_GI.Y' (aka 'Double')}}
genericInheritsA(C_GI())
// expected-error@-1 {{global function 'genericInheritsA' requires that 'C_GI.Y' (aka 'Double') inherit from 'GI_Diff'}}
//===----------------------------------------------------------------------===//
// Deduction for member operators
//===----------------------------------------------------------------------===//
protocol Addable {
static func +(x: Self, y: Self) -> Self
}
func addAddables<T : Addable, U>(_ x: T, y: T, u: U) -> T {
u + u // expected-error{{binary operator '+' cannot be applied to two 'U' operands}}
return x+y
}
//===----------------------------------------------------------------------===//
// Deduction for bound generic types
//===----------------------------------------------------------------------===//
struct MyVector<T> { func size() -> Int {} }
func getVectorSize<T>(_ v: MyVector<T>) -> Int { // expected-note {{in call to function 'getVectorSize'}}
return v.size()
}
func ovlVector<T>(_ v: MyVector<T>) -> X {}
func ovlVector<T>(_ v: MyVector<MyVector<T>>) -> Y {}
func testGetVectorSize(_ vi: MyVector<Int>, vf: MyVector<Float>) {
var i : Int
i = getVectorSize(vi)
i = getVectorSize(vf)
getVectorSize(i) // expected-error{{cannot convert value of type 'Int' to expected argument type 'MyVector<T>'}}
// expected-error@-1 {{generic parameter 'T' could not be inferred}}
var x : X, y : Y
x = ovlVector(vi)
x = ovlVector(vf)
var vvi : MyVector<MyVector<Int>>
y = ovlVector(vvi)
var yy = ovlVector(vvi)
yy = y
y = yy
}
// <rdar://problem/15104554>
postfix operator <*>
protocol MetaFunction {
associatedtype Result
static postfix func <*> (_: Self) -> Result?
}
protocol Bool_ {}
struct False : Bool_ {}
struct True : Bool_ {}
postfix func <*> <B>(_: Test<B>) -> Int? { return .none }
postfix func <*> (_: Test<True>) -> String? { return .none }
class Test<C: Bool_> : MetaFunction {
typealias Result = Int
} // picks first <*>
typealias Inty = Test<True>.Result
var iy : Inty = 5 // okay, because we picked the first <*>
var iy2 : Inty = "hello" // expected-error{{cannot convert value of type 'String' to specified type 'Inty' (aka 'Int')}}
// rdar://problem/20577950
class DeducePropertyParams {
let badSet: Set = ["Hello"]
}
// https://github.com/apple/swift/issues/42691
do {
struct A {}
for i in min(1,2) { // expected-error{{for-in loop requires 'Int' to conform to 'Sequence'}}
}
let j = min(Int(3), Float(2.5)) // expected-error{{conflicting arguments to generic parameter 'T' ('Int' vs. 'Float')}}
let k = min(A(), A()) // expected-error{{global function 'min' requires that 'A' conform to 'Comparable'}}
let oi : Int? = 5
let l = min(3, oi) // expected-error {{value of optional type 'Int?' must be unwrapped to a value of type 'Int'}}
// expected-note@-1 {{coalesce using '??' to provide a default when the optional value contains 'nil'}}
// expected-note@-2 {{force-unwrap using '!' to abort execution if the optional value contains 'nil'}}
}
infix operator +&
func +&<R, S>(lhs: inout R, rhs: S) where R : RangeReplaceableCollection, S : Sequence, R.Element == S.Element {}
// expected-note@-1 {{where 'R.Element' = 'String', 'S.Element' = 'String.Element' (aka 'Character')}}
func rdar33477726_1() {
var arr: [String] = []
arr +& "hello"
// expected-error@-1 {{operator function '+&' requires the types 'String' and 'String.Element' (aka 'Character') be equivalent}}
}
func rdar33477726_2<R, S>(_: R, _: S) where R: Sequence, S == R.Element {}
rdar33477726_2("answer", 42)
// expected-error@-1 {{cannot convert value of type 'Int' to expected argument type 'String.Element' (aka 'Character')}}
prefix operator +-
prefix func +-<T>(_: T) where T: Sequence, T.Element == Int {}
// expected-note@-1 {{where 'T.Element' = 'String.Element' (aka 'Character')}}
+-"hello"
// expected-error@-1 {{operator function '+-' requires the types 'String.Element' (aka 'Character') and 'Int' be equivalent}}
func test_transitive_subtype_deduction_for_generic_params() {
class A {}
func foo<T: A>(_: [(String, (T) -> Void)]) {}
func bar<U>(_: @escaping (U) -> Void) -> (U) -> Void {
return { _ in }
}
// Here we have:
// - `W subtype of A`
// - `W subtype of U`
//
// Type variable associated with `U` has to be attempted
// first because solver can't infer bindings for `W` transitively
// through `U`.
func baz<W: A>(_ arr: [(String, (W) -> Void)]) {
foo(arr.map { ($0.0, bar($0.1)) }) // Ok
}
func fiz<T>(_ a: T, _ op: (T, T) -> Bool, _ b: T) {}
func biz(_ v: Int32) {
fiz(v, !=, -1) // Ok because -1 literal should be inferred as Int32
}
}
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