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swift-mirror/test/Constraints/overload.swift
Pavel Yaskevich 84d034c388 [CSOptimizer] Don't reduce the ranking for non-default literal types 
Since each candidate and overload choice are considered independenty
there is no way to judge whether non-default literal type is going
to result in a worse solution than non-default one.
2025-06-27 23:43:10 -07:00

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// RUN: %target-typecheck-verify-swift
func markUsed<T>(_ t: T) {}
func f0(_: Float) -> Float {}
// expected-note@-1 {{candidate expects value of type 'Float' for parameter #1 (got 'X')}}
func f0(_: Int) -> Int {}
// expected-note@-1 {{candidate expects value of type 'Int' for parameter #1 (got 'X')}}
func f1(_: Int) {}
func identity<T>(_: T) -> T {}
func f2<T>(_: T) -> T {}
// FIXME: Fun things happen when we make this T, U!
func f2<T>(_: T, _: T) -> (T, T) { }
struct X {}
var x : X
var i : Int
var f : Float
_ = f0(i)
_ = f0(1.0)
_ = f0(1)
f1(f0(1))
f1(identity(1))
f0(x) // expected-error{{no exact matches in call to global function 'f0'}}
_ = f + 1
_ = f2(i)
_ = f2((i, f))
class A {
init() {}
}
class B : A {
override init() { super.init() }
}
class C : B {
override init() { super.init() }
}
func bar(_ b: B) -> Int {} // #1
func bar(_ a: A) -> Float {} // #2
var barResult = bar(C()) // selects #1, which is more specialized
i = barResult // make sure we got #1
f = bar(C()) // selects #2 because of context
// Overload resolution for constructors
protocol P1 { }
struct X1a : P1 { }
struct X1b {
init(x : X1a) { }
init<T : P1>(x : T) { }
}
X1b(x: X1a()) // expected-warning{{unused}}
// Overload resolution for subscript operators.
class X2a { }
class X2b : X2a { }
class X2c : X2b { }
struct X2d {
subscript (index : X2a) -> Int {
return 5
}
subscript (index : X2b) -> Int {
return 7
}
func foo(_ x : X2c) -> Int {
return self[x]
}
}
// Invalid declarations
// FIXME: Suppress the diagnostic for the call below, because the invalid
// declaration would have matched.
func f3(_ x: Intthingy) -> Int { } // expected-error{{cannot find type 'Intthingy' in scope}}
func f3(_ x: Float) -> Float { }
f3(i) // expected-error{{cannot convert value of type 'Int' to expected argument type 'Float'}}
func f4(_ i: Wonka) { } // expected-error{{cannot find type 'Wonka' in scope}}
func f4(_ j: Wibble) { } // expected-error{{cannot find type 'Wibble' in scope}}
f4(5)
func f1() {
var c : Klass // expected-error{{cannot find type 'Klass' in scope}}
markUsed(c.x) // make sure error does not cascade here
}
// We don't provide return-type sensitivity unless there is context.
func f5(_ i: Int) -> A { return A() } // expected-note{{candidate}}
func f5(_ i: Int) -> B { return B() } // expected-note{{candidate}}
f5(5) // expected-error{{ambiguous use of 'f5'}}
struct HasX1aProperty {
func write(_: X1a) {}
func write(_: P1) {}
var prop = X1a()
func test() {
write(prop) // no error, not ambiguous
}
}
// rdar://problem/16554496
@available(*, unavailable)
func availTest(_ x: Int) {}
func availTest(_ x: Any) { markUsed("this one") }
func doAvailTest(_ x: Int) {
availTest(x)
}
// rdar://problem/20886179
func test20886179(_ handlers: [(Int) -> Void], buttonIndex: Int) {
handlers[buttonIndex](buttonIndex)
}
// The problem here is that the call has a contextual result type incompatible
// with *all* overload set candidates. This is not an ambiguity.
func overloaded_identity(_ a : Int) -> Int {} // expected-note {{'overloaded_identity' produces 'Int', not the expected contextual result type '()'}} expected-note {{'overloaded_identity' declared her}}
func overloaded_identity(_ b : Float) -> Float {} // expected-note {{'overloaded_identity' produces 'Float', not the expected contextual result type '()'}}
func test_contextual_result_1() {
return overloaded_identity() // expected-error {{missing argument for parameter #1 in call}}
// expected-error@-1 {{no 'overloaded_identity' candidates produce the expected contextual result type '()'}}
}
func test_contextual_result_2() {
return overloaded_identity(1)
// expected-error@-1 {{unexpected non-void return value in void function}}
// expected-note@-2 {{did you mean to add a return type?}}
}
// rdar://problem/24128153
struct X0 {
init(_ i: Any.Type) { }
init?(_ i: Any.Type, _ names: String...) { }
}
let x0 = X0(Int.self)
let x0check: X0 = x0 // okay: chooses first initializer
struct X1 {
init?(_ i: Any.Type) { }
init(_ i: Any.Type, _ names: String...) { }
}
let x1 = X1(Int.self)
let x1check: X1 = x1 // expected-error{{value of optional type 'X1?' must be unwrapped}}
// expected-note@-1{{coalesce}}
// expected-note@-2{{force-unwrap}}
struct X2 {
init?(_ i: Any.Type) { }
init(_ i: Any.Type, a: Int = 0) { }
init(_ i: Any.Type, a: Int = 0, b: Int = 0) { }
init(_ i: Any.Type, a: Int = 0, c: Int = 0) { }
}
let x2 = X2(Int.self)
let x2check: X2 = x2 // expected-error{{value of optional type 'X2?' must be unwrapped}}
// expected-note@-1{{coalesce}}
// expected-note@-2{{force-unwrap}}
// rdar://problem/28051973
struct R_28051973 {
mutating func f(_ i: Int) {}
@available(*, deprecated, message: "deprecated")
func f(_ f: Float) {}
}
let r28051973: Int = 42
R_28051973().f(r28051973) // expected-error {{cannot use mutating member on immutable value: function call returns immutable value}}
// Fix for CSDiag vs CSSolver disagreement on what constitutes a
// valid overload.
func overloadedMethod(n: Int) {}
func overloadedMethod<T>() {} // expected-note {{in call to function 'overloadedMethod()'}}
// expected-error@-1 {{generic parameter 'T' is not used in function signature}}
overloadedMethod()
// expected-error@-1 {{generic parameter 'T' could not be inferred}}
/// https://github.com/apple/swift/issues/46402
/// Ensure we select the overload of `??` returning `T?` rather than `T`.
func f_46402(_ d: [String : Any], _ s: String, _ t: String) -> Any {
if let r = d[s] ?? d[t] {
return r
} else {
return 0
}
}
// Overloading with mismatched labels.
func f6<T>(foo: T) { }
func f6<T: P1>(bar: T) { }
struct X6 {
init<T>(foo: T) { }
init<T: P1>(bar: T) { }
}
func test_f6() {
let _: (X1a) -> Void = f6
let _: (X1a) -> X6 = X6.init
}
func curry<LHS, RHS, R>(_ f: @escaping (LHS, RHS) -> R) -> (LHS) -> (RHS) -> R {
return { lhs in { rhs in f(lhs, rhs) } }
}
// We need to have an alternative version of this to ensure that there's an overload disjunction created.
func curry<F, S, T, R>(_ f: @escaping (F, S, T) -> R) -> (F) -> (S) -> (T) -> R {
return { fst in { snd in { thd in f(fst, snd, thd) } } }
}
// Ensure that we consider these unambiguous
let _ = curry(+)(1)
let _ = [0].reduce(0, +)
let _ = curry(+)("string vs. pointer")
func autoclosure1<T>(_: T, _: @autoclosure () -> X) { }
func autoclosure1<T>(_: [T], _: X) { }
func test_autoclosure1(ia: [Int]) {
autoclosure1(ia, X()) // okay: resolves to the second function
}
// rdar://problem/64368545 - failed to produce diagnostic (hole propagated to func result without recording a fix)
func test_no_hole_propagation() {
func test(withArguments arguments: [String]) -> String {
return arguments.reduce(0, +) // expected-error {{cannot convert value of type 'Int' to expected argument type 'String'}}
}
}
// rdar://79672230 - crash due to unsatisfied `: AnyObject` requirement
func rdar79672230() {
struct MyType {}
func test(_ representation: MyType) -> Bool {} // expected-note {{found candidate with type 'MyType'}}
func test<T>(_ object: inout T) -> Bool where T : AnyObject {} // expected-note {{candidate requires that 'MyType' conform to 'AnyObject' (requirement specified as 'T' : 'AnyObject')}}
var t: MyType = MyType()
test(&t) // expected-error {{no exact matches in call to local function 'test'}}
}
// rdar://97396399 - crash in swift::DiagnosticEngine::formatDiagnosticText
func rdar97396399() {
// Has to be overloaded to make sure that contextual type is not recorded during constraint generation
func test(_: () -> Void) {}
func test(_: (Int) -> Void) {}
// Multiple different overloads, none of which conform to Sequence
func fn(_: Int) -> Int {}
// expected-note@-1 {{found candidate with type '(Int) -> Int'}}
// expected-note@-2 {{result type 'Int' of 'fn' does not conform to 'Sequence'}}
func fn(_: Int) -> Double {}
// expected-note@-1 {{found candidate with type '(Int) -> Double'}}
// expected-note@-2 {{result type 'Double' of 'fn' does not conform to 'Sequence'}}
test {
for x in fn { // expected-error {{no 'fn' overloads produce result type that conforms to 'Sequence'}}
print(x)
}
}
test {
for x in fn(42) { // expected-error {{no 'fn' overloads produce result type that conforms to 'Sequence'}}
print(x)
}
}
}
// https://github.com/apple/swift/issues/63834
func f63834(int: Int, string: String) {} // expected-note 3{{found candidate with type '(Int, String) -> ()'}}
func f63834(int: Int, string: Bool) {} // expected-note 3{{found candidate with type '(Int, Bool) -> ()'}}
func f63834_1(int: Int, string: Bool) {} // expected-note{{candidate '(Int, Bool) -> ()' has 2 parameters, but context '(Int) -> Void' has 1}}
func f63834_1(int: Int, string: String) {} // expected-note{{candidate '(Int, String) -> ()' has 2 parameters, but context '(Int) -> Void' has 1}}
// FIXME: We can mention candidate type.
func f63834_2(int: Int, string: Bool) {} // expected-note {{found this candidate}}
func f63834_2(int: Int, string: String) {} // expected-note {{found this candidate}}
// One function argument mismatch
let _ = f63834(int:string:) as (Int, Int) -> Void // expected-error{{no exact matches in reference to global function 'f63834'}}
// Contextual mismatch
let _ = f63834(int:string:) as Int // expected-error{{no exact matches in reference to global function 'f63834'}}
let _ = (f63834(int:string:)) as Int // expected-error{{no exact matches in reference to global function 'f63834'}}
// Missing function argument
let _ = f63834_1(int:string:) as (Int) -> Void // expected-error{{no exact matches in reference to global function 'f63834_1'}}
// None of the function argument types matches
let _ = f63834_2(int:string:) as (Double, Double) -> Void // expected-error{{no exact matches in reference to global function 'f63834_2'}}
let _ = { i, j in } as (Int) -> Void // expected-error{{contextual closure type '(Int) -> Void' expects 1 argument, but 2 were used in closure body}}
struct A63834 {
static func fn(int: Int, string: String) {} // expected-note{{candidate '(Int, String) -> ()' has 2 parameters, but context '(Int) -> Void' has 1}}
static func fn(int: Int, string: Bool) {} // expected-note{{candidate '(Int, Bool) -> ()' has 2 parameters, but context '(Int) -> Void' has 1}}
static func fn1(int: Int, string: String) {} // expected-note{{found candidate with type '(Int, String) -> ()'}}
static func fn1(int: Int, string: Bool) {} // expected-note{{found candidate with type '(Int, Bool) -> ()'}}
}
let _ = A63834.fn1(int:string:) as Int // expected-error {{no exact matches in reference to static method 'fn1'}}
let _ = A63834.fn(int:string:) as (Int) -> Void // expected-error{{no exact matches in reference to static method 'fn'}}
typealias Magic<T> = T
func f63834_D(_ x: Int = 0) {}
func f63834_D(_ x: String) {}
(f63834_D as Magic)() // expected-error{{missing argument for parameter #1 in call}}
func fn63834_3() -> String {} // expected-note {{found candidate with type 'String'}}
func fn63834_3() -> Double {} // expected-note {{found candidate with type 'Double'}}
fn63834_3() as Int // expected-error {{no exact matches in call to global function 'fn63834_3'}}
// Make sure that Copyable and/or Escapable don't change overloading behavior
do {
struct S {
var v: Int
}
func test(data: [S]) {
let transformed = data.flatMap { e in
if true {
return Array<S>()
}
return Array(arrayLiteral: e)
}
_ = transformed.map {
_ = $0.v // Ok
}
}
}
// Make sure that the solver properly handles mix of non-default integer and floating-point literals
do {
func test(
withInitialValue initialValue: Float,
increment: Float,
count: Int) -> [Float] {}
func test(
withInitialValue initialValue: Double,
increment: Double,
count: Int) -> [Double] {}
func testDoubleVsFloat(count: Int) {
let returnedResult = test(withInitialValue: 0,
increment: 0.1,
count: count)
let _: [Double] = returnedResult // Ok
}
}
do {
struct S {
let x: Int
var y: Int
}
func overloaded(_: String) {}
// expected-note@-1 3 {{candidate expects value of type 'String' for parameter #1 (got 'Int')}}
func overloaded(_: inout Int) {}
// expected-note@-1 3 {{candidate expects in-out value for parameter #1 but argument is immutable}}
func testImmutable(s: S) {
overloaded(s.x) // expected-error {{no exact matches in call to local function 'overloaded'}}
}
func testMutable(s: inout S) {
overloaded(s.x) // expected-error {{no exact matches in call to local function 'overloaded'}}
}
func testImmutableBase(s: S) {
overloaded(s.y) // expected-error {{no exact matches in call to local function 'overloaded'}}
}
func testMissingAddressOf(s: inout S) {
overloaded(s.y) // expected-error {{passing value of type 'Int' to an inout parameter requires explicit '&'}}
}
}
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