// RUN: %target-run-simple-swiftgyb // REQUIRES: executable_test // FIXME(id-as-any): make Swift errors boxed in NSError eagerly bridged. // FIXME(id-as-any): add tests for unboxing. // FIXME(id-as-any): add tests for the _ObjectiveCBridgeable conformance. %{ import re class SwiftClass(object): def __init__(self, full_name): m = re.match(r'([A-Za-z0-9_]+)(<(.+)>)?', full_name) self.type_name = m.group(1) if m.group(3) is not None: self.generic_parameters_list = [m.group(3)] else: self.generic_parameters_list = [] @property def is_generic(self): return len(self.generic_parameters_list) != 0 @property def generic_parameters_decl(self): if not self.is_generic: return '' assert len(self.generic_parameters_list) == 1 return '<%s>' % (self.generic_parameters_list[0]) @property def full_name(self): return '%s%s' % (self.type_name, self.generic_parameters_decl) def specialize_with(self, substitutions): assert len(substitutions) == 1 assert len(self.generic_parameters_list) == 1 return SwiftClassSpecialization( '%s<%s>' % ( self.type_name, substitutions[self.generic_parameters_list[0]])) class SwiftClassSpecialization(object): def __init__(self, full_name): m = re.match(r'(.+)(<(.+)>)?', full_name) self.type_name = m.group(1) self.full_name = full_name }% import StdlibUnittest #if _runtime(_ObjC) import Foundation #endif let AnyHashableTests = TestSuite("AnyHashableTests") AnyHashableTests.test("CustomStringConvertible, CustomDebugStringConvertible, CustomReflectable") { var v = AnyHashable(CustomPrintableValue(1)) expectPrinted("(value: 1).description", v) expectDebugPrinted("AnyHashable((value: 1).debugDescription)", v) expectDumped( "▿ AnyHashable((value: 1).debugDescription)\n" + " ▿ value: (value: 1).debugDescription\n" + " - value: 1\n" + " - identity: 0\n", v) } % for wrapped in ['MinimalHashableValue', 'MinimalHashableClass']: AnyHashableTests.test("AnyHashable(${wrapped})/Hashable") { let xs = (0...5).flatMap { [ ${wrapped}($0, identity: 0), ${wrapped}($0, identity: 1) ] } checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(${wrapped}).base") { let ah = AnyHashable(${wrapped}(42, identity: 0)) expectEqual(${wrapped}.self, type(of: ah.base)) } % end #if _runtime(_ObjC) AnyHashableTests.test("AnyHashable(MinimalHashableValue, SwiftValue(MinimalHashableValue))/Hashable") { let xs = (0...5).flatMap { [ MinimalHashableValue($0, identity: 0), MinimalHashableValue($0, identity: 1) ] } checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) let boxedXs = xs.flatMap { [ AnyHashable($0), AnyHashable(_bridgeAnythingToObjectiveC($0) as! NSObject) ] } for x in boxedXs { expectEqual( "MinimalHashableValue", String(describing: type(of: x.base))) } checkHashable( boxedXs, equalityOracle: { $0 / 4 == $1 / 4 }) } #endif % for wrapped in ['GenericMinimalHashableValue', 'GenericMinimalHashableClass']: % for payload in [ 'OpaqueValue', 'LifetimeTracked' ]: AnyHashableTests.test("AnyHashable(${wrapped}>)/Hashable") { ${wrapped}_equalImpl.value = { ($0 as! ${payload}).value == ($1 as! ${payload}).value } ${wrapped}_hashValueImpl.value = { ($0 as! ${payload}).value } let xs = (0...5).flatMap { [ ${wrapped}(${payload}($0), identity: 0), ${wrapped}(${payload}($0), identity: 1) ] } checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(${wrapped}).base") { let ah = AnyHashable(${wrapped}(${payload}(42), identity: 0)) expectEqual(${wrapped}<${payload}>.self, type(of: ah.base)) } % end % end AnyHashableTests.test("AnyHashable(mixed minimal hashables)/Hashable") { var xs: [AnyHashable] = [] % for wrapped in ['MinimalHashableValue', 'MinimalHashableClass']: xs += (0...5).flatMap { [ ${wrapped}($0, identity: 0), ${wrapped}($0, identity: 1) ].map(AnyHashable.init) } % end % for wrapped in ['GenericMinimalHashableValue', 'GenericMinimalHashableClass']: ${wrapped}_equalImpl.value = { (lhs, rhs) in if let lhs = lhs as? OpaqueValue, let rhs = rhs as? OpaqueValue { return lhs.value == rhs.value } return (lhs as! LifetimeTracked) == (rhs as! LifetimeTracked) } ${wrapped}_hashValueImpl.value = { payload in if let x = payload as? OpaqueValue { return x.value } return (payload as! LifetimeTracked).value } % end % for wrapped in ['GenericMinimalHashableValue', 'GenericMinimalHashableClass']: % for payload in [ 'OpaqueValue', 'LifetimeTracked' ]: xs += (0...5).flatMap { [ ${wrapped}(${payload}($0), identity: 0), ${wrapped}(${payload}($0), identity: 1) ].map(AnyHashable.init) } % end % end checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) } % for (kw, name) in [ % ('class', 'Class'), % ('struct', 'PODStruct'), % ('struct', 'RCStruct'), % ]: ${kw} HasCustomRepresentation_${name} : Hashable, _HasCustomAnyHashableRepresentation { % if name == 'RCStruct': var lifetimeTrackedValue: LifetimeTracked var value: Int { return lifetimeTrackedValue.value } % else: var value: Int % end var identity: Int var hasDefaultAnyHashableRepresentation: Bool init(_ value: Int, identity: Int, hasDefaultAnyHashableRepresentation: Bool) { % if name == 'RCStruct': self.lifetimeTrackedValue = LifetimeTracked(value) % else: self.value = value % end self.identity = identity self.hasDefaultAnyHashableRepresentation = hasDefaultAnyHashableRepresentation } var hashValue: Int { return value } func _toCustomAnyHashable() -> AnyHashable? { if hasDefaultAnyHashableRepresentation { return nil } let customRepresentation = MinimalHashableValue(value, identity: identity) return AnyHashable(customRepresentation) } static func == ( lhs: HasCustomRepresentation_${name}, rhs: HasCustomRepresentation_${name} ) -> Bool { return lhs.value == rhs.value } } ${kw} HasCustomRepresentation_Generic${name} : Hashable, _HasCustomAnyHashableRepresentation { var value: Wrapped var identity: Int var hasDefaultAnyHashableRepresentation: Bool init( _ value: Wrapped, identity: Int, hasDefaultAnyHashableRepresentation: Bool ) { self.value = value self.identity = identity self.hasDefaultAnyHashableRepresentation = hasDefaultAnyHashableRepresentation } var hashValue: Int { return asGenericMinimalHashableValue.hashValue } func _toCustomAnyHashable() -> AnyHashable? { if hasDefaultAnyHashableRepresentation { return nil } let customRepresentation = GenericMinimalHashableValue(value, identity: identity) return AnyHashable(customRepresentation) } var asGenericMinimalHashableValue: GenericMinimalHashableValue { return GenericMinimalHashableValue(value, identity: identity) } static func == ( lhs: HasCustomRepresentation_Generic${name}, rhs: HasCustomRepresentation_Generic${name} ) -> Bool { return lhs.asGenericMinimalHashableValue == rhs.asGenericMinimalHashableValue } } % end % for name in [ 'Class', 'PODStruct', 'RCStruct' ]: % wrapped = 'HasCustomRepresentation_%s' % name % genericWrapped = 'HasCustomRepresentation_Generic%s' % name AnyHashableTests.test("AnyHashable(${wrapped})/Hashable") { let xs = (-2...2).flatMap { [ ${wrapped}( $0, identity: 0, hasDefaultAnyHashableRepresentation: $0 < 0), ${wrapped}( $0, identity: 1, hasDefaultAnyHashableRepresentation: $0 < 0) ] } checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(${wrapped}).base") { do { let ah = AnyHashable( ${wrapped}( 42, identity: 1, hasDefaultAnyHashableRepresentation: true)) expectEqual(${wrapped}.self, type(of: ah.base)) } do { let ah = AnyHashable( ${wrapped}( 42, identity: 1, hasDefaultAnyHashableRepresentation: false)) expectEqual(MinimalHashableValue.self, type(of: ah.base)) } } % for payload in [ 'OpaqueValue', 'LifetimeTracked' ]: AnyHashableTests.test("AnyHashable(${genericWrapped}<${payload}>)/Hashable") { GenericMinimalHashableValue_equalImpl.value = { ($0 as! ${payload}).value == ($1 as! ${payload}).value } GenericMinimalHashableValue_hashValueImpl.value = { ($0 as! ${payload}).value } let xs = (-2...2).flatMap { [ ${genericWrapped}( ${payload}($0), identity: 0, hasDefaultAnyHashableRepresentation: $0 < 0), ${genericWrapped}( ${payload}($0), identity: 1, hasDefaultAnyHashableRepresentation: $0 < 0) ] } checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(${genericWrapped}<${payload}>)/Hashable") { do { let ah = AnyHashable( ${genericWrapped}( ${payload}(42), identity: 0, hasDefaultAnyHashableRepresentation: true)) expectEqual(${genericWrapped}<${payload}>.self, type(of: ah.base)) } do { let ah = AnyHashable( ${genericWrapped}( ${payload}(42), identity: 0, hasDefaultAnyHashableRepresentation: false)) expectEqual( GenericMinimalHashableValue<${payload}>.self, type(of: ah.base)) } } % end % end struct HasCustomRepresentationRecursively : Hashable, _HasCustomAnyHashableRepresentation { var value: Int init(_ value: Int) { self.value = value } var hashValue: Int { return value } func _toCustomAnyHashable() -> AnyHashable? { if value == 0 { return AnyHashable(HasCustomRepresentationRecursively(value + 1)) } else { return nil } } static func == ( lhs: HasCustomRepresentationRecursively, rhs: HasCustomRepresentationRecursively ) -> Bool { return lhs.value == rhs.value } } AnyHashableTests.test("AnyHashable containing values with recursive custom representations") { GenericMinimalHashableValue_equalImpl.value = { ($0 as! ${payload}).value == ($1 as! ${payload}).value } GenericMinimalHashableValue_hashValueImpl.value = { ($0 as! ${payload}).value } // If the custom representation has its own custom representation, // we ignore it. let ah = AnyHashable(HasCustomRepresentationRecursively(0)) expectPrinted("HasCustomRepresentationRecursively(value: 1)", ah) expectEqual(HasCustomRepresentationRecursively.self, type(of: ah.base)) } class T2_Base {} class T3_Base {} class T4_Base1 {} class T4_Base : T4_Base1 {} class T5_Base1 {} class T5_Base : T5_Base1 {} class T6_GenericBase {} class T7_GenericBase {} class T8_GenericBase1 {} class T8_GenericBase : T8_GenericBase1 {} class T9_GenericBase1 {} class T9_GenericBase : T9_GenericBase1 {} #if _runtime(_ObjC) class T10_ObjC_Base : NSObject {} class T11_ObjC_GenericBase : NSObject {} #endif % for prefix in [ 'T0', 'T1', 'T2', 'T3', 'T4', 'T5', 'T6', 'T7', 'T8', 'T9', 'T10_ObjC', 'T11_ObjC' ]: % base = None % if prefix in ['T0', 'T1']: % pass % elif prefix in ['T2', 'T3', 'T4', 'T5', 'T10_ObjC']: % base = SwiftClass(prefix + '_Base') % elif prefix in ['T6', 'T7', 'T8', 'T9', 'T11_ObjC']: % base = SwiftClass(prefix + '_GenericBase') % else: % assert False % end % hashable_base = None % if prefix in ['T0', 'T2', 'T4', 'T6', 'T8', 'T10_ObjC']: % hashable_base = SwiftClass(prefix + '_HashableBase') % elif prefix in ['T1', 'T3', 'T5', 'T7', 'T9', 'T11_ObjC']: % hashable_base = SwiftClass(prefix + '_HashableGenericBase') % else: % assert False % end % if base and base.is_generic and not hashable_base.is_generic: % base = base.specialize_with({'T':'Int'}) % end % bases = [] % if base: % bases += [base] % if not 'ObjC' in prefix: % bases += [SwiftClass('Hashable')] % end ${'#if _runtime(_ObjC)' if 'ObjC' in prefix else ''} class ${hashable_base.full_name} : ${', '.join([b.full_name for b in bases])} { var value: Int init(_ value: Int) { self.value = value } ${'override' if 'ObjC' in prefix else ''} var hashValue: Int { return value } % if 'ObjC' in prefix: override func isEqual(_ object: Any?) -> Bool { guard let rhs = object as? ${hashable_base.full_name} else { return false } return self.value == rhs.value } % end % if not 'ObjC' in prefix: static func == ${hashable_base.generic_parameters_decl} ( lhs: ${hashable_base.full_name}, rhs: ${hashable_base.full_name} ) -> Bool { return lhs.value == rhs.value } % end } %{ generic = hashable_base.generic_parameters_decl derivedA = SwiftClass(prefix + '_DerivedA' + generic) derivedB = SwiftClass(prefix + '_DerivedB' + generic) derivedAA = SwiftClass(prefix + '_DerivedAA' + generic) derivedAB = SwiftClass(prefix + '_DerivedAB' + generic) derivedBA = SwiftClass(prefix + '_DerivedBA' + generic) derivedBB = SwiftClass(prefix + '_DerivedBB' + generic) derivedAAA = SwiftClass(prefix + '_DerivedAAA' + generic) derivedAAB = SwiftClass(prefix + '_DerivedAAB' + generic) derivedABA = SwiftClass(prefix + '_DerivedABA' + generic) derivedABB = SwiftClass(prefix + '_DerivedABB' + generic) derivedBAA = SwiftClass(prefix + '_DerivedBAA' + generic) derivedBAB = SwiftClass(prefix + '_DerivedBAB' + generic) derivedBBA = SwiftClass(prefix + '_DerivedBBA' + generic) derivedBBB = SwiftClass(prefix + '_DerivedBBB' + generic) types = [ (hashable_base, base), (derivedA, hashable_base), (derivedB, hashable_base), (derivedAA, derivedA), (derivedAB, derivedA), (derivedBA, derivedB), (derivedBB, derivedB), (derivedAAA, derivedAA), (derivedAAB, derivedAA), (derivedABA, derivedAB), (derivedABB, derivedAB), (derivedBAA, derivedBA), (derivedBAB, derivedBA), (derivedBBA, derivedBB), (derivedBBB, derivedBB), ] }% % for (Self, Super) in types: % if 'Base' not in Self.type_name: class ${Self.full_name} : ${Super.full_name} {} % end % end AnyHashableTests.test("AnyHashable containing classes from the ${prefix} hierarchy") { typealias T = Int let xs = [ % for (i, (Self, _)) in enumerate(types): % ConcreteSelf = Self % if ConcreteSelf.is_generic: % ConcreteSelf = ConcreteSelf.specialize_with({'T':'Int'}) % end ${Self.full_name}(${len(types) + i}), % for j in range(0, len(types)): ${Self.full_name}(${j}), % end % end ] func equalityOracle(_ lhs: Int, rhs: Int) -> Bool { if lhs == rhs { return true } let p = ${len(types) + 1} if lhs % p == 0 || rhs % p == 0 { return false } return lhs % p == rhs % p } checkHashable(xs, equalityOracle: equalityOracle) let anyHashables = xs.map(AnyHashable.init) checkHashable(anyHashables, equalityOracle: equalityOracle) for (x, ah) in zip(xs, anyHashables) { expectEqual(type(of: x), type(of: ah.base)) } } ${'#endif' if 'ObjC' in prefix else ''} % end #if _runtime(_ObjC) // There is no public way to define new CF types, so we are using // CFBitVector and CFMutableBitVector. extension CFBitVector { static func makeImmutable(from values: Array) -> CFBitVector { return CFBitVectorCreate(/*allocator:*/ nil, values, values.count * 8) } var asArray: Array { var result = [UInt8](repeating: 0, count: CFBitVectorGetCount(self) / 8) CFBitVectorGetBits( self, CFRange(location: 0, length: result.count * 8), &result) return result } } extension CFMutableBitVector { static func makeMutable(from values: Array) -> CFMutableBitVector { return CFBitVectorCreateMutableCopy( /*allocator:*/ nil, /*capacity:*/ 0, CFBitVector.makeImmutable(from: values)) } } let interestingBitVectorArrays: [[UInt8]] = [ [], [0x00], [0xaa], [0xff], [0xff, 0x00], [0x00, 0xff], [0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88], ] AnyHashableTests.test("AnyHashable(CFBitVector)/Hashable, .base") { let bitVectors: [CFBitVector] = interestingBitVectorArrays.map(CFBitVector.makeImmutable) let arrays = bitVectors.map { $0.asArray } func isEq(_ lhs: [[UInt8]], _ rhs: [[UInt8]]) -> Bool { return zip(lhs, rhs).map { $0 == $1 }.reduce(true, { $0 && $1 }) } expectEqualTest(interestingBitVectorArrays, arrays, sameValue: isEq) checkHashable(bitVectors, equalityOracle: { $0 == $1 }) do { expectEqual(.foreignClass, SwiftRuntime.metadataKind(of: bitVectors.first!)) let anyHashables = bitVectors.map(AnyHashable.init) checkHashable(anyHashables, equalityOracle: { $0 == $1 }) let v = anyHashables.first!.base expectTrue(type(of: v) is CFBitVector.Type) } do { let bitVectorsAsAnyObjects: [NSObject] = bitVectors.map { ($0 as AnyObject) as! NSObject } expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: bitVectorsAsAnyObjects.first!)) let anyHashables = bitVectorsAsAnyObjects.map(AnyHashable.init) checkHashable(anyHashables, equalityOracle: { $0 == $1 }) let v = anyHashables.first!.base expectTrue(type(of: v) is CFBitVector.Type) } } AnyHashableTests.test("AnyHashable(CFMutableBitVector)/Hashable, .base") { // CFMutableBitVector inherits the Hashable conformance from // CFBitVector. let bitVectors: [CFMutableBitVector] = interestingBitVectorArrays.map(CFMutableBitVector.makeMutable) let arrays = bitVectors.map { $0.asArray } func isEq(_ lhs: [[UInt8]], _ rhs: [[UInt8]]) -> Bool { return zip(lhs, rhs).map { $0 == $1 }.reduce(true, { $0 && $1 }) } expectEqualTest(interestingBitVectorArrays, arrays, sameValue: isEq) checkHashable(bitVectors, equalityOracle: { $0 == $1 }) do { expectEqual( .foreignClass, SwiftRuntime.metadataKind(of: bitVectors.first!)) let anyHashables = bitVectors.map(AnyHashable.init) checkHashable(anyHashables, equalityOracle: { $0 == $1 }) let v = anyHashables.first!.base expectTrue(type(of: v) is CFMutableBitVector.Type) } do { let bitVectorsAsAnyObjects: [NSObject] = bitVectors.map { ($0 as AnyObject) as! NSObject } checkHashable(bitVectorsAsAnyObjects, equalityOracle: { $0 == $1 }) expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: bitVectorsAsAnyObjects.first!)) let anyHashables = bitVectorsAsAnyObjects.map(AnyHashable.init) checkHashable(anyHashables, equalityOracle: { $0 == $1 }) let v = anyHashables.first!.base expectTrue(type(of: v) is CFMutableBitVector.Type) } } #endif enum MinimalHashablePODSwiftError : Error, Hashable { case caseA case caseB case caseC } enum MinimalHashableRCSwiftError : Error, Hashable { case caseA(LifetimeTracked) case caseB(LifetimeTracked) case caseC(LifetimeTracked) var hashValue: Int { switch self { case .caseA: return 10 case .caseB: return 20 case .caseC: return 30 } } static func == ( lhs: MinimalHashableRCSwiftError, rhs: MinimalHashableRCSwiftError ) -> Bool { switch (lhs, rhs) { case (.caseA(let lhs), .caseA(let rhs)): return lhs == rhs case (.caseB(let lhs), .caseB(let rhs)): return lhs == rhs case (.caseC(let lhs), .caseC(let rhs)): return lhs == rhs default: return false } } } AnyHashableTests.test("AnyHashable(MinimalHashablePODSwiftError)/Hashable") { let xs: [MinimalHashablePODSwiftError] = [ .caseA, .caseA, .caseB, .caseB, .caseC, .caseC, ] expectEqual(.enum, SwiftRuntime.metadataKind(of: xs.first!)) checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(MinimalHashablePODSwiftError).base") { let ah = AnyHashable(MinimalHashablePODSwiftError.caseA) expectEqual(MinimalHashablePODSwiftError.self, type(of: ah.base)) } AnyHashableTests.test("AnyHashable(MinimalHashableRCSwiftError)/Hashable") { let xs: [MinimalHashableRCSwiftError] = [ .caseA(LifetimeTracked(1)), .caseA(LifetimeTracked(1)), .caseA(LifetimeTracked(2)), .caseA(LifetimeTracked(2)), .caseB(LifetimeTracked(1)), .caseB(LifetimeTracked(1)), .caseB(LifetimeTracked(2)), .caseB(LifetimeTracked(2)), .caseC(LifetimeTracked(1)), .caseC(LifetimeTracked(1)), .caseC(LifetimeTracked(2)), .caseC(LifetimeTracked(2)), ] expectEqual(.enum, SwiftRuntime.metadataKind(of: xs.first!)) checkHashable(xs, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( xs.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(MinimalHashableRCSwiftError).base") { let ah = AnyHashable(MinimalHashableRCSwiftError.caseA(LifetimeTracked(1))) expectEqual(MinimalHashableRCSwiftError.self, type(of: ah.base)) } #if _runtime(_ObjC) // A wrapper type around a String that bridges to NSString. struct StringWrapper1 : _SwiftNewtypeWrapper, Hashable, _ObjectiveCBridgeable { let rawValue: String } // A wrapper type around a String that bridges to NSString. struct StringWrapper2 : _SwiftNewtypeWrapper, Hashable, _ObjectiveCBridgeable { let rawValue: String } AnyHashableTests.test("AnyHashable(Wrappers)/Hashable") { let values: [AnyHashable] = [ StringWrapper1(rawValue: "hello"), StringWrapper2(rawValue: "hello"), "hello" as String, "hello" as NSString, StringWrapper1(rawValue: "world"), StringWrapper2(rawValue: "world"), "world" as String, "world" as NSString, ] func equalityOracle(_ lhs: Int, _ rhs: Int) -> Bool { // Elements in [0, 3] match 3. if lhs == 3 { return rhs >= 0 && rhs <= 3 } if rhs == 3 { return lhs >= 0 && lhs <= 3 } // Elements in [4, 7] match 7. if lhs == 7 { return rhs >= 4 && rhs <= 7 } if rhs == 7 { return lhs >= 4 && lhs <= 7 } return lhs == rhs } checkHashable(values, equalityOracle: equalityOracle, allowBrokenTransitivity: true) } AnyHashableTests.test("AnyHashable(_SwiftNativeNSError(MinimalHashablePODSwiftError))/Hashable") { let swiftErrors: [MinimalHashablePODSwiftError] = [ .caseA, .caseA, .caseB, .caseB, .caseC, .caseC, ] let nsErrors: [NSError] = swiftErrors.flatMap { swiftError -> [NSError] in let bridgedNSError = swiftError as NSError return [ bridgedNSError, NSError(domain: bridgedNSError.domain, code: bridgedNSError.code) ] } expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: nsErrors[0])) expectEqual("_SwiftNativeNSError", String(describing: type(of: nsErrors[0]))) func equalityOracle(_ lhs: Int, _ rhs: Int) -> Bool { // Swift errors compare equal to the `NSError`s that have the same domain // and code. return lhs / 4 == rhs / 4 } checkHashable(nsErrors, equalityOracle: equalityOracle) checkHashable( nsErrors.map(AnyHashable.init), equalityOracle: equalityOracle) // FIXME(id-as-any): run `checkHashable` on an array of mixed // `AnyHashable(MinimalHashablePODSwiftError)` and // `AnyHashable(_SwiftNativeNSError(MinimalHashablePODSwiftError))`. For // this to succeed, we need to eagerly bridge Swift errors into the Swift // representation when wrapped in `AnyHashable`. } AnyHashableTests.test("AnyHashable(_SwiftNativeNSError(MinimalHashablePODSwiftError)).base") { let ah = AnyHashable(MinimalHashablePODSwiftError.caseA as NSError) expectTrue(type(of: ah.base) is NSError.Type) } AnyHashableTests.test("AnyHashable(_SwiftNativeNSError(MinimalHashableRCSwiftError))/Hashable") { let swiftErrors: [MinimalHashableRCSwiftError] = [ .caseA(LifetimeTracked(1)), .caseA(LifetimeTracked(1)), .caseA(LifetimeTracked(2)), .caseA(LifetimeTracked(2)), .caseB(LifetimeTracked(1)), .caseB(LifetimeTracked(1)), .caseB(LifetimeTracked(2)), .caseB(LifetimeTracked(2)), .caseC(LifetimeTracked(1)), .caseC(LifetimeTracked(1)), .caseC(LifetimeTracked(2)), .caseC(LifetimeTracked(2)), ] let nsErrors: [NSError] = swiftErrors.flatMap { swiftError -> [NSError] in let bridgedNSError = swiftError as NSError return [ bridgedNSError, NSError(domain: bridgedNSError.domain, code: bridgedNSError.code) ] } expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: nsErrors[0])) expectEqual("_SwiftNativeNSError", String(describing: type(of: nsErrors[0]))) expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: nsErrors[1])) expectEqual("NSError", String(describing: type(of: nsErrors[1]))) func equalityOracle(_ lhs: Int, _ rhs: Int) -> Bool { // Equality of bridged Swift errors takes the payload into account, so for // a fixed X, Y, all `.caseX(LifetimeTracked(Y))` compare equal. // They also compare equal to the `NSError`s that have the same domain // and code. if lhs / 4 == rhs / 4 { return true } // `NSError`s that have the same domain and code as a bridged Swift // error compare equal to all Swift errors with the same domain and code // regardless of the payload. if (lhs % 2 == 1 || rhs % 2 == 1) && (lhs / 8 == rhs / 8) { return true } return false } // FIXME: transitivity is broken because pure `NSError`s can compare equal to // Swift errors with payloads just based on the domain and code, and Swift // errors with payloads don't compare equal when payloads differ. checkHashable( nsErrors, equalityOracle: equalityOracle, allowBrokenTransitivity: true) checkHashable( nsErrors.map(AnyHashable.init), equalityOracle: equalityOracle, allowBrokenTransitivity: true) // FIXME(id-as-any): run `checkHashable` on an array of mixed // `AnyHashable(MinimalHashableRCSwiftError)` and // `AnyHashable(_SwiftNativeNSError(MinimalHashableRCSwiftError))`. For // this to succeed, we need to eagerly bridge Swift errors into the Swift // representation when wrapped in `AnyHashable`. } AnyHashableTests.test("AnyHashable(_SwiftNativeNSError(MinimalHashableRCSwiftError)).base") { let ah = AnyHashable( MinimalHashableRCSwiftError.caseA(LifetimeTracked(1)) as NSError) expectTrue(type(of: ah.base) is NSError.Type) } AnyHashableTests.test("AnyHashable(NSError)/Hashable") { let nsErrors: [NSError] = [ NSError(domain: "Foo", code: 0), NSError(domain: "Foo", code: 0), NSError(domain: "Foo", code: 1), NSError(domain: "Foo", code: 1), NSError(domain: "Foo", code: 2), NSError(domain: "Foo", code: 2), ] expectEqual( .objCClassWrapper, SwiftRuntime.metadataKind(of: nsErrors.first!)) checkHashable(nsErrors, equalityOracle: { $0 / 2 == $1 / 2 }) checkHashable( nsErrors.map(AnyHashable.init), equalityOracle: { $0 / 2 == $1 / 2 }) } AnyHashableTests.test("AnyHashable(NSError).base") { let ah = AnyHashable(NSError(domain: "Foo", code: 0)) expectTrue(type(of: ah.base) is NSError.Type) } #endif runAllTests()