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swift-mirror/test/decl/protocol/protocol_with_superclass.swift
Alex Hoppen 66104395d7 [Sema/SourceKit] Emit same diagnostics for missing protocol requirements on the command line and in SourceKit 
Some editors use diagnostics from SourceKit to replace build issues. This causes issues if the diagnostics from SourceKit are formatted differently than the build issues. Make sure they are rendered the same way, removing most uses of `DiagnosticsEditorMode`.

To do so, always emit the `add stubs for conformance` note (which previously was only emitted in editor mode) and remove all `; add <something>` suffixes from notes that state which requirements are missing.

rdar://129283608
2024-08-07 14:01:30 -07:00

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// RUN: %target-typecheck-verify-swift
// Protocols with superclass-constrained Self.
class Concrete {
typealias ConcreteAlias = String
func concreteMethod(_: ConcreteAlias) {}
}
class Generic<T> : Concrete { // expected-note 6 {{arguments to generic parameter 'T' ('Int' and 'String') are expected to be equal}}
typealias GenericAlias = (T, T)
func genericMethod(_: GenericAlias) {}
}
protocol BaseProto {}
protocol ProtoRefinesClass : Generic<Int>, BaseProto {
func requirementUsesClassTypes(_: ConcreteAlias, _: GenericAlias)
// expected-note@-1 {{protocol requires function 'requirementUsesClassTypes' with type '(Generic<Int>.ConcreteAlias, Generic<Int>.GenericAlias) -> ()' (aka '(String, (Int, Int)) -> ()')}}
}
func duplicateOverload<T : ProtoRefinesClass>(_: T) {}
// expected-note@-1 {{'duplicateOverload' previously declared here}}
func duplicateOverload<T : ProtoRefinesClass & Generic<Int>>(_: T) {}
// expected-error@-1 {{invalid redeclaration of 'duplicateOverload'}}
extension ProtoRefinesClass {
func extensionMethodUsesClassTypes(_ x: ConcreteAlias, _ y: GenericAlias) {
_ = ConcreteAlias.self
_ = GenericAlias.self
concreteMethod(x)
genericMethod(y)
let _: Generic<Int> = self
let _: Concrete = self
let _: BaseProto = self
let _: BaseProto & Generic<Int> = self
let _: BaseProto & Concrete = self
let _: Generic<String> = self
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
}
func usesProtoRefinesClass1(_ t: ProtoRefinesClass) {
let x: ProtoRefinesClass.ConcreteAlias = "hi"
_ = ProtoRefinesClass.ConcreteAlias.self
t.concreteMethod(x)
let y: ProtoRefinesClass.GenericAlias = (1, 2)
_ = ProtoRefinesClass.GenericAlias.self
t.genericMethod(y)
t.requirementUsesClassTypes(x, y)
let _: Generic<Int> = t
let _: Concrete = t
let _: BaseProto = t
let _: BaseProto & Generic<Int> = t
let _: BaseProto & Concrete = t
let _: Generic<String> = t
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
func usesProtoRefinesClass2<T : ProtoRefinesClass>(_ t: T) {
let x: T.ConcreteAlias = "hi"
_ = T.ConcreteAlias.self
t.concreteMethod(x)
let y: T.GenericAlias = (1, 2)
_ = T.GenericAlias.self
t.genericMethod(y)
t.requirementUsesClassTypes(x, y)
let _: Generic<Int> = t
let _: Concrete = t
let _: BaseProto = t
let _: BaseProto & Generic<Int> = t
let _: BaseProto & Concrete = t
let _: Generic<String> = t
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
class BadConformingClass1 : ProtoRefinesClass {
// expected-error@-1 {{type 'BadConformingClass1' does not conform to protocol 'ProtoRefinesClass'}}
// expected-error@-2 {{'ProtoRefinesClass' requires that 'BadConformingClass1' inherit from 'Generic<Int>'}}
// expected-note@-3 {{requirement specified as 'Self' : 'Generic<Int>' [with Self = BadConformingClass1]}}
func requirementUsesClassTypes(_: ConcreteAlias, _: GenericAlias) {
// expected-error@-1 {{cannot find type 'ConcreteAlias' in scope}}
// expected-error@-2 {{cannot find type 'GenericAlias' in scope}}
_ = ConcreteAlias.self
// expected-error@-1 {{cannot find 'ConcreteAlias' in scope}}
_ = GenericAlias.self
// expected-error@-1 {{cannot find 'GenericAlias' in scope}}
}
}
class BadConformingClass2 : Generic<String>, ProtoRefinesClass {
// expected-error@-1 {{'ProtoRefinesClass' requires that 'BadConformingClass2' inherit from 'Generic<Int>'}}
// expected-note@-2 {{requirement specified as 'Self' : 'Generic<Int>' [with Self = BadConformingClass2]}}
// expected-error@-3 {{type 'BadConformingClass2' does not conform to protocol 'ProtoRefinesClass'}}
// expected-note@-4 {{add stubs for conformance}}
// expected-note@+1 {{candidate has non-matching type '(BadConformingClass2.ConcreteAlias, BadConformingClass2.GenericAlias) -> ()' (aka '(String, (String, String)) -> ()')}}
func requirementUsesClassTypes(_: ConcreteAlias, _: GenericAlias) {
_ = ConcreteAlias.self
_ = GenericAlias.self
}
}
class GoodConformingClass : Generic<Int>, ProtoRefinesClass {
func requirementUsesClassTypes(_ x: ConcreteAlias, _ y: GenericAlias) {
_ = ConcreteAlias.self
_ = GenericAlias.self
concreteMethod(x)
genericMethod(y)
}
}
protocol ProtoRefinesProtoWithClass : ProtoRefinesClass {}
extension ProtoRefinesProtoWithClass {
func anotherExtensionMethodUsesClassTypes(_ x: ConcreteAlias, _ y: GenericAlias) {
_ = ConcreteAlias.self
_ = GenericAlias.self
concreteMethod(x)
genericMethod(y)
let _: Generic<Int> = self
let _: Concrete = self
let _: BaseProto = self
let _: BaseProto & Generic<Int> = self
let _: BaseProto & Concrete = self
let _: Generic<String> = self
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
}
func usesProtoRefinesProtoWithClass1(_ t: ProtoRefinesProtoWithClass) {
let x: ProtoRefinesProtoWithClass.ConcreteAlias = "hi"
_ = ProtoRefinesProtoWithClass.ConcreteAlias.self
t.concreteMethod(x)
let y: ProtoRefinesProtoWithClass.GenericAlias = (1, 2)
_ = ProtoRefinesProtoWithClass.GenericAlias.self
t.genericMethod(y)
t.requirementUsesClassTypes(x, y)
let _: Generic<Int> = t
let _: Concrete = t
let _: BaseProto = t
let _: BaseProto & Generic<Int> = t
let _: BaseProto & Concrete = t
let _: Generic<String> = t
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
func usesProtoRefinesProtoWithClass2<T : ProtoRefinesProtoWithClass>(_ t: T) {
let x: T.ConcreteAlias = "hi"
_ = T.ConcreteAlias.self
t.concreteMethod(x)
let y: T.GenericAlias = (1, 2)
_ = T.GenericAlias.self
t.genericMethod(y)
t.requirementUsesClassTypes(x, y)
let _: Generic<Int> = t
let _: Concrete = t
let _: BaseProto = t
let _: BaseProto & Generic<Int> = t
let _: BaseProto & Concrete = t
let _: Generic<String> = t
// expected-error@-1 {{cannot assign value of type 'Generic<Int>' to type 'Generic<String>'}}
}
class ClassWithInits<T> {
init(notRequiredInit: ()) {}
// expected-note@-1 6{{selected non-required initializer 'init(notRequiredInit:)'}}
required init(requiredInit: ()) {}
}
protocol ProtocolWithClassInits : ClassWithInits<Int> {}
func useProtocolWithClassInits1() {
_ = ProtocolWithClassInits(notRequiredInit: ())
// expected-error@-1 {{type 'any ProtocolWithClassInits' cannot be instantiated}}
_ = ProtocolWithClassInits(requiredInit: ())
// expected-error@-1 {{type 'any ProtocolWithClassInits' cannot be instantiated}}
}
func useProtocolWithClassInits2(_ t: ProtocolWithClassInits.Type) {
_ = t.init(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'any ProtocolWithClassInits' with a metatype value must use a 'required' initializer}}
let _: ProtocolWithClassInits = t.init(requiredInit: ())
}
func useProtocolWithClassInits3<T : ProtocolWithClassInits>(_ t: T.Type) {
_ = T(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'T' with a metatype value must use a 'required' initializer}}
let _: T = T(requiredInit: ())
_ = t.init(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'T' with a metatype value must use a 'required' initializer}}
let _: T = t.init(requiredInit: ())
}
protocol ProtocolRefinesClassInits : ProtocolWithClassInits {}
func useProtocolRefinesClassInits1() {
_ = ProtocolRefinesClassInits(notRequiredInit: ())
// expected-error@-1 {{type 'any ProtocolRefinesClassInits' cannot be instantiated}}
_ = ProtocolRefinesClassInits(requiredInit: ())
// expected-error@-1 {{type 'any ProtocolRefinesClassInits' cannot be instantiated}}
}
func useProtocolRefinesClassInits2(_ t: ProtocolRefinesClassInits.Type) {
_ = t.init(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'any ProtocolRefinesClassInits' with a metatype value must use a 'required' initializer}}
let _: ProtocolRefinesClassInits = t.init(requiredInit: ())
}
func useProtocolRefinesClassInits3<T : ProtocolRefinesClassInits>(_ t: T.Type) {
_ = T(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'T' with a metatype value must use a 'required' initializer}}
let _: T = T(requiredInit: ())
_ = t.init(notRequiredInit: ())
// expected-error@-1 {{constructing an object of class type 'T' with a metatype value must use a 'required' initializer}}
let _: T = t.init(requiredInit: ())
}
// Make sure that we don't require 'mutating' when the protocol has a superclass
// constraint.
protocol HasMutableProperty : Concrete {
var mutableThingy: Any? { get set }
}
extension HasMutableProperty {
func mutateThingy() {
mutableThingy = nil
}
}
// Some pathological examples -- just make sure they don't crash.
protocol RecursiveSelf : Generic<Self> {}
protocol RecursiveAssociatedType : Generic<Self.X> {
associatedtype X
}
protocol BaseProtocol {
typealias T = Int
}
class BaseClass : BaseProtocol {}
protocol RefinedProtocol : BaseClass {
func takesT(_: T)
}
func takesBaseProtocol(_: BaseProtocol) {}
func passesRefinedProtocol(_ r: RefinedProtocol) {
takesBaseProtocol(r)
}
class RefinedClass : BaseClass, RefinedProtocol {
func takesT(_: T) {
_ = T.self
}
}
class LoopClass : LoopProto {}
protocol LoopProto : LoopClass {}
class FirstClass {}
protocol FirstProtocol : FirstClass {}
class SecondClass : FirstClass {}
protocol SecondProtocol : SecondClass, FirstProtocol {}
class FirstConformer : FirstClass, SecondProtocol {}
// expected-error@-1 {{type 'FirstConformer' does not conform to protocol 'SecondProtocol'}}
// expected-error@-2 {{'SecondProtocol' requires that 'FirstConformer' inherit from 'SecondClass'}}
// expected-note@-3 {{requirement specified as 'Self' : 'SecondClass' [with Self = FirstConformer]}}
class SecondConformer : SecondClass, SecondProtocol {}
// Duplicate superclass
protocol DuplicateSuper : Concrete, Concrete {}
// expected-error@-1 {{duplicate inheritance from 'Concrete'}}
// Ambiguous name lookup situation
protocol Amb : Concrete {}
// expected-note@-1 {{'Amb' previously declared here}}
// expected-note@-2 {{found this candidate}}
protocol Amb : Concrete {}
// expected-error@-1 {{invalid redeclaration of 'Amb'}}
// expected-note@-2 {{found this candidate}}
extension Amb { // expected-error {{'Amb' is ambiguous for type lookup in this context}}
func extensionMethodUsesClassTypes() {
_ = ConcreteAlias.self
}
}
protocol ProtoRefinesClassComposition : Generic<Int> & BaseProto {}
func usesProtoRefinesClass1(_ t: ProtoRefinesClassComposition) {
t.genericMethod((1, 2))
let _: BaseProto = t
}
func usesProtoRefinesClass2<T : ProtoRefinesClassComposition>(_ t: T) {
t.genericMethod((1, 2))
let _: BaseProto = t
}
// https://github.com/apple/swift/issues/52883
class issue52883_C: issue52883_P {}
protocol issue52883_P: issue52883_C {
func foo()
}
extension issue52883_P {
func foo() {}
}
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