averello/swift-mirror
1
0
Fork 0
mirror of https://github.com/apple/swift.git synced 2025-12-21 12:14:44 +01:00
Code Issues Packages Projects Releases Wiki Activity
Files
f6c7c0d0bcf901b21b569d80c4e236b70fabe7e8
swift-mirror/test/Sema/availability.swift
Slava Pestov 94e999a1b5 Sema: Pull availability checking out of resolveType() 
We used to diagnose references to unavailable declarations in
two places:

- inside Exprs, right after type checking the expression
- inside TypeReprs, from resolveType()

In broad terms, resolveType() is called with TypeReprs
stored inside both Stmts and Decls.

To handle the first case, I added a new overload of
diagAvailability() that takes a Stmt, to be called from
typeCheckStmt(). This doesn't actually walk into any Exprs
stored inside the statement; this means it only walks
Patterns and such.

For the second case, a new DeclAvailabilityChecker is
now defined in TypeCheckAccess.cpp. It's structure is
analogous to the other three walkers there:

- AccessControlChecker
- UsableFromInlineChecker
- ExportabilityChecker

The new implementation of availability checking for types
introduces a lot more code than the old online logic
it replaces. However, I hope to consolidate some of the
code duplication among the four checkers that are defined
in TypeCheckAccess.cpp, and do some other cleanups that
will make the benefit of the new approach apparent.
2020-10-14 23:42:02 -04:00

198 lines
7.6 KiB
Swift
Raw Blame History

// RUN: %target-typecheck-verify-swift -module-name MyModule
// REQUIRES: OS=macosx
@available(*, unavailable)
func unavailable_foo() {} // expected-note {{'unavailable_foo()' has been explicitly marked unavailable here}}
func test() {
unavailable_foo() // expected-error {{'unavailable_foo()' is unavailable}}
}
@available(*,unavailable,message: "use 'Int' instead")
struct NSUInteger {} // expected-note 3 {{explicitly marked unavailable here}}
struct Outer {
@available(*,unavailable,message: "use 'UInt' instead")
struct NSUInteger {} // expected-note 2 {{explicitly marked unavailable here}}
}
func foo(x : NSUInteger) { // expected-error {{'NSUInteger' is unavailable: use 'Int' instead}}
let y : NSUInteger = 42 // expected-error {{'NSUInteger' is unavailable: use 'Int' instead}}
// expected-error@-1 {{cannot convert value of type 'Int' to specified type 'NSUInteger'}}
let z : MyModule.NSUInteger = 42 // expected-error {{'NSUInteger' is unavailable: use 'Int' instead}}
// expected-error@-1 {{cannot convert value of type 'Int' to specified type 'NSUInteger'}}
let z2 : Outer.NSUInteger = 42 // expected-error {{'NSUInteger' is unavailable: use 'UInt' instead}}
// expected-error@-1 {{cannot convert value of type 'Int' to specified type 'Outer.NSUInteger'}}
let z3 : MyModule.Outer.NSUInteger = 42 // expected-error {{'NSUInteger' is unavailable: use 'UInt' instead}}
// expected-error@-1 {{cannot convert value of type 'Int' to specified type 'Outer.NSUInteger'}}
}
// Test preventing overrides (but allowing shadowing) of unavailable methods.
class ClassWithUnavailable {
@available(*, unavailable)
func doNotOverride() {} // expected-note {{'doNotOverride()' has been explicitly marked unavailable here}}
// FIXME: extraneous diagnostic here
@available(*, unavailable)
init(int _: Int) {} // expected-note 3 {{'init(int:)' has been explicitly marked unavailable here}}
@available(*, unavailable)
convenience init(otherInt: Int) {
self.init(int: otherInt) // expected-error {{'init(int:)' is unavailable}}
}
@available(*, unavailable)
required init(necessaryInt: Int) {}
@available(*, unavailable)
subscript (i: Int) -> Int { // expected-note 2 {{'subscript(_:)' has been explicitly marked unavailable here}}
return i
}
}
class ClassWithOverride : ClassWithUnavailable {
override func doNotOverride() {}
// expected-error@-1 {{cannot override 'doNotOverride' which has been marked unavailable}}
// expected-note@-2 {{remove 'override' modifier to declare a new 'doNotOverride'}} {{3-12=}}
override init(int: Int) {}
// expected-error@-1 {{cannot override 'init' which has been marked unavailable}}
// expected-note@-2 {{remove 'override' modifier to declare a new 'init'}} {{3-12=}}
// can't override convenience inits
// can't override required inits
override subscript (i: Int) -> Int { return i }
// expected-error@-1 {{cannot override 'subscript' which has been marked unavailable}}
// expected-note@-2 {{remove 'override' modifier to declare a new 'subscript'}} {{3-12=}}
}
class ClassWithShadowing : ClassWithUnavailable {
func doNotOverride() {} // no-error
init(int: Int) {} // no-error
convenience init(otherInt: Int) { self.init(int: otherInt) } // no-error
required init(necessaryInt: Int) {} // no-error
subscript (i: Int) -> Int { return i } // no-error
}
func testInit() {
ClassWithUnavailable(int: 0) // expected-error {{'init(int:)' is unavailable}} // expected-warning{{unused}}
ClassWithShadowing(int: 0) // expected-warning {{unused}}
}
func testSubscript(cwu: ClassWithUnavailable, cws: ClassWithShadowing) {
_ = cwu[5] // expected-error{{'subscript(_:)' is unavailable}}
_ = cws[5] // no-error
}
/* FIXME 'nil == a' fails to type-check with a bogus error message
* <rdar://problem/17540796>
func markUsed<T>(t: T) {}
func testString() {
let a : String = "Hey"
if a == nil {
markUsed("nil")
} else if nil == a {
markUsed("nil")
}
else {
markUsed("not nil")
}
}
*/
// Test preventing protocol witnesses for unavailable requirements
@objc
protocol ProtocolWithRenamedRequirement {
@available(*, unavailable, renamed: "new(bar:)")
@objc optional func old(foo: Int) // expected-note{{'old(foo:)' has been explicitly marked unavailable here}}
func new(bar: Int)
}
class ClassWithGoodWitness : ProtocolWithRenamedRequirement {
@objc func new(bar: Int) {}
}
class ClassWithBadWitness : ProtocolWithRenamedRequirement {
@objc func old(foo: Int) {} // expected-error{{'old(foo:)' has been renamed to 'new(bar:)'}}
@objc func new(bar: Int) {}
}
@available(OSX, unavailable)
let unavailableOnOSX: Int = 0 // expected-note{{explicitly marked unavailable here}}
@available(iOS, unavailable)
let unavailableOniOS: Int = 0
@available(iOS, unavailable) @available(OSX, unavailable)
let unavailableOnBothA: Int = 0 // expected-note{{explicitly marked unavailable here}}
@available(OSX, unavailable) @available(iOS, unavailable)
let unavailableOnBothB: Int = 0 // expected-note{{explicitly marked unavailable here}}
@available(OSX, unavailable)
typealias UnavailableOnOSX = Int // expected-note{{explicitly marked unavailable here}}
@available(iOS, unavailable)
typealias UnavailableOniOS = Int
@available(iOS, unavailable) @available(OSX, unavailable)
typealias UnavailableOnBothA = Int // expected-note{{explicitly marked unavailable here}}
@available(OSX, unavailable) @available(iOS, unavailable)
typealias UnavailableOnBothB = Int // expected-note{{explicitly marked unavailable here}}
@available(macOS, unavailable)
let unavailableOnMacOS: Int = 0 // expected-note{{explicitly marked unavailable here}}
@available(macOS, unavailable)
typealias UnavailableOnMacOS = Int // expected-note{{explicitly marked unavailable here}}
@available(OSXApplicationExtension, unavailable)
let unavailableOnOSXAppExt: Int = 0
@available(macOSApplicationExtension, unavailable)
let unavailableOnMacOSAppExt: Int = 0
@available(OSXApplicationExtension, unavailable)
typealias UnavailableOnOSXAppExt = Int
@available(macOSApplicationExtension, unavailable)
typealias UnavailableOnMacOSAppExt = Int
func testPlatforms() {
_ = unavailableOnOSX // expected-error{{unavailable}}
_ = unavailableOniOS
_ = unavailableOnBothA // expected-error{{unavailable}}
_ = unavailableOnBothB // expected-error{{unavailable}}
_ = unavailableOnMacOS // expected-error{{unavailable}}
_ = unavailableOnOSXAppExt
_ = unavailableOnMacOSAppExt
let _: UnavailableOnOSX = 0 // expected-error{{unavailable}}
let _: UnavailableOniOS = 0
let _: UnavailableOnBothA = 0 // expected-error{{unavailable}}
let _: UnavailableOnBothB = 0 // expected-error{{unavailable}}
let _: UnavailableOnMacOS = 0 // expected-error{{unavailable}}
let _: UnavailableOnOSXAppExt = 0
let _: UnavailableOnMacOSAppExt = 0
}
struct VarToFunc {
@available(*, unavailable, renamed: "function()")
var variable: Int // expected-note 2 {{explicitly marked unavailable here}}
@available(*, unavailable, renamed: "function()")
func oldFunction() -> Int { return 42 } // expected-note 2 {{explicitly marked unavailable here}}
func function() -> Int {
_ = variable // expected-error{{'variable' has been renamed to 'function()'}}{{9-17=function()}}
_ = oldFunction() //expected-error{{'oldFunction()' has been renamed to 'function()'}}{{9-20=function}}
_ = oldFunction // expected-error{{'oldFunction()' has been renamed to 'function()'}} {{9-20=function}}
return 42
}
mutating func testAssignment() {
// This is nonsense, but someone shouldn't be using 'renamed' for this
// anyway. Just make sure we don't crash or anything.
variable = 2 // expected-error {{'variable' has been renamed to 'function()'}} {{5-13=function()}}
}
}
Reference in New Issue View Git Blame Copy Permalink