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matching_patterns.swift
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// RUN: %target-typecheck-verify-swift -I %S/Inputs -enable-source-import
import imported_enums
// TODO: Implement tuple equality in the library.
// BLOCKED: <rdar://problem/13822406>
func ~= (x: (Int,Int,Int), y: (Int,Int,Int)) -> Bool {
return true
}
var x:Int
func square(_ x: Int) -> Int { return x*x }
struct A<B> {
struct C<D> { }
}
switch x {
// Expressions as patterns.
case 0:
()
case 1 + 2:
()
case square(9):
()
// 'var' and 'let' patterns.
case var a:
a = 1
case let a:
a = 1 // expected-error {{cannot assign}}
case var var a: // expected-error {{'var' cannot appear nested inside another 'var' or 'let' pattern}}
a += 1
case var let a: // expected-error {{'let' cannot appear nested inside another 'var' or 'let' pattern}}
print(a, terminator: "")
case var (var b): // expected-error {{'var' cannot appear nested inside another 'var'}}
b += 1
// 'Any' pattern.
case _:
()
// patterns are resolved in expression-only positions are errors.
case 1 + (_): // expected-error{{'_' can only appear in a pattern or on the left side of an assignment}}
()
}
switch (x,x) {
case (var a, var a): // expected-error {{definition conflicts with previous value}} expected-note {{previous definition of 'a' is here}} expected-warning {{variable 'a' was never used; consider replacing with '_' or removing it}} expected-warning {{variable 'a' was never used; consider replacing with '_' or removing it}}
fallthrough
case _:
()
}
var e : Any = 0
switch e {
// 'is' pattern.
case is Int,
is A<Int>,
is A<Int>.C<Int>,
is (Int, Int),
is (a: Int, b: Int):
()
}
// Enum patterns.
enum Foo { case A, B, C }
func == <T>(_: Voluntary<T>, _: Voluntary<T>) -> Bool { return true }
enum Voluntary<T> : Equatable {
case Naught
case Mere(T)
case Twain(T, T)
func enumMethod(_ other: Voluntary<T>, foo: Foo) {
switch self {
case other:
()
case .Naught,
.Naught(),
.Naught(_, _): // expected-error{{tuple pattern has the wrong length for tuple type '()'}}
()
case .Mere,
.Mere(), // expected-error{{tuple pattern cannot match values of the non-tuple type 'T'}}
.Mere(_),
.Mere(_, _): // expected-error{{tuple pattern cannot match values of the non-tuple type 'T'}}
()
case .Twain(), // expected-error{{tuple pattern has the wrong length for tuple type '(T, T)'}}
.Twain(_),
.Twain(_, _),
.Twain(_, _, _): // expected-error{{tuple pattern has the wrong length for tuple type '(T, T)'}}
()
}
switch foo {
case .Naught: // expected-error{{pattern cannot match values of type 'Foo'}}
()
case .A, .B, .C:
()
}
}
}
var n : Voluntary<Int> = .Naught
switch n {
case Foo.A: // expected-error{{enum case 'A' is not a member of type 'Voluntary<Int>'}}
()
case Voluntary<Int>.Naught,
Voluntary<Int>.Naught(),
Voluntary<Int>.Naught(_, _), // expected-error{{tuple pattern has the wrong length for tuple type '()'}}
Voluntary.Naught,
.Naught:
()
case Voluntary<Int>.Mere,
Voluntary<Int>.Mere(_),
Voluntary<Int>.Mere(_, _), // expected-error{{tuple pattern cannot match values of the non-tuple type 'Int'}}
Voluntary.Mere,
Voluntary.Mere(_),
.Mere,
.Mere(_):
()
case .Twain,
.Twain(_),
.Twain(_, _),
.Twain(_, _, _): // expected-error{{tuple pattern has the wrong length for tuple type '(Int, Int)'}}
()
}
var notAnEnum = 0
switch notAnEnum {
case .Foo: // expected-error{{pattern cannot match values of type 'Int'}}
()
}
struct ContainsEnum {
enum Possible<T> {
case Naught
case Mere(T)
case Twain(T, T)
}
func member(_ n: Possible<Int>) {
switch n {
case ContainsEnum.Possible<Int>.Naught,
ContainsEnum.Possible.Naught,
Possible<Int>.Naught,
Possible.Naught,
.Naught:
()
}
}
}
func nonmemberAccessesMemberType(_ n: ContainsEnum.Possible<Int>) {
switch n {
case ContainsEnum.Possible<Int>.Naught,
.Naught:
()
}
}
var m : ImportedEnum = .Simple
switch m {
case imported_enums.ImportedEnum.Simple,
ImportedEnum.Simple,
.Simple:
()
case imported_enums.ImportedEnum.Compound,
imported_enums.ImportedEnum.Compound(_),
ImportedEnum.Compound,
ImportedEnum.Compound(_),
.Compound,
.Compound(_):
()
}
// Check that single-element tuple payloads work sensibly in patterns.
enum LabeledScalarPayload {
case Payload(name: Int)
}
var lsp: LabeledScalarPayload = .Payload(name: 0)
func acceptInt(_: Int) {}
func acceptString(_: String) {}
switch lsp {
case .Payload(0):
()
case .Payload(name: 0):
()
case let .Payload(x):
acceptInt(x)
acceptString("\(x)")
case let .Payload(name: x):
acceptInt(x)
acceptString("\(x)")
case let .Payload((name: x)):
acceptInt(x)
acceptString("\(x)")
case .Payload(let (name: x)):
acceptInt(x)
acceptString("\(x)")
case .Payload(let (name: x)):
acceptInt(x)
acceptString("\(x)")
case .Payload(let x):
acceptInt(x)
acceptString("\(x)")
case .Payload((let x)):
acceptInt(x)
acceptString("\(x)")
}
// Property patterns.
struct S {
static var stat: Int = 0
var x, y : Int
var comp : Int {
return x + y
}
func nonProperty() {}
}
// Tuple patterns.
var t = (1, 2, 3)
prefix operator +++
infix operator +++
prefix func +++(x: (Int,Int,Int)) -> (Int,Int,Int) { return x }
func +++(x: (Int,Int,Int), y: (Int,Int,Int)) -> (Int,Int,Int) {
return (x.0+y.0, x.1+y.1, x.2+y.2)
}
switch t {
case (_, var a, 3):
a += 1
case var (_, b, 3):
b += 1
case var (_, var c, 3): // expected-error{{'var' cannot appear nested inside another 'var'}}
c += 1
case (1, 2, 3):
()
// patterns in expression-only positions are errors.
case +++(_, var d, 3):
// expected-error@-1{{'+++' is not a prefix unary operator}}
()
case (_, var e, 3) +++ (1, 2, 3):
// expected-error@-1{{'_' can only appear in a pattern}}
// expected-error@-2{{'var' binding pattern cannot appear in an expression}}
()
}
// FIXME: We don't currently allow subpatterns for "isa" patterns that
// require interesting conditional downcasts.
class Base { }
class Derived : Base { }
switch [Derived(), Derived(), Base()] {
case let ds as [Derived]: // expected-error{{downcast pattern value of type '[Derived]' cannot be used}}
()
default:
()
}
// Optional patterns.
let op1 : Int?
let op2 : Int??
switch op1 {
case nil: break
case 1?: break
case _?: break
}
switch op2 {
case nil: break
case _?: break
case (1?)?: break
case (_?)?: break
}
// <rdar://problem/20365753> Bogus diagnostic "refutable pattern match can fail"
let (responseObject: Int?) = op1
// expected-error @-1 {{expected ',' separator}} {{25-25=,}}
// expected-error @-2 {{expected pattern}}