// RUN: %clang_cc1 -fsyntax-only -verify %s #if !__has_feature(objc_instancetype) # error Missing 'instancetype' feature macro. #endif @interface Root + (instancetype)alloc; // expected-note {{explicitly declared 'instancetype'}} - (instancetype)init; // expected-note{{overridden method is part of the 'init' method family}} - (instancetype)self; // expected-note {{explicitly declared 'instancetype'}} - (Class)class; @property (assign) Root *selfProp; - (instancetype)selfProp; @end @protocol Proto1 @optional - (instancetype)methodInProto1; @end @protocol Proto2 @optional - (instancetype)methodInProto2; // expected-note{{overridden method returns an instance of its class type}} - (instancetype)otherMethodInProto2; // expected-note{{overridden method returns an instance of its class type}} @end @interface Subclass1 : Root // expected-note 4 {{receiver is instance of class declared here}} - (instancetype)initSubclass1; - (void)methodOnSubclass1; + (instancetype)allocSubclass1; @end @interface Subclass2 : Root - (instancetype)initSubclass2; - (void)methodOnSubclass2; @end // Sanity check: the basic initialization pattern. void test_instancetype_alloc_init_simple() { Root *r1 = [[Root alloc] init]; Subclass1 *sc1 = [[Subclass1 alloc] init]; } // Test that message sends to instancetype methods have the right type. void test_instancetype_narrow_method_search() { // instancetype on class methods Subclass1 *sc1 = [[Subclass1 alloc] initSubclass2]; // expected-warning{{'Subclass1' may not respond to 'initSubclass2'}} Subclass2 *sc2 = [[Subclass2 alloc] initSubclass2]; // okay // instancetype on instance methods [[[Subclass1 alloc] init] methodOnSubclass2]; // expected-warning{{'Subclass1' may not respond to 'methodOnSubclass2'}} [[[Subclass2 alloc] init] methodOnSubclass2]; // instancetype on class methods using protocols typedef Subclass1 SC1Proto1; typedef Subclass1 SC1Proto2; [[SC1Proto1 alloc] methodInProto2]; // expected-warning{{method '-methodInProto2' not found (return type defaults to 'id')}} [[SC1Proto2 alloc] methodInProto2]; // instancetype on instance methods Subclass1 *sc1proto1 = 0; [[sc1proto1 self] methodInProto2]; // expected-warning{{method '-methodInProto2' not found (return type defaults to 'id')}} Subclass1 *sc1proto2 = 0; [[sc1proto2 self] methodInProto2]; // Exact type checks typeof([[Subclass1 alloc] init]) *ptr1 = (Subclass1 **)0; typeof([[Subclass2 alloc] init]) *ptr2 = (Subclass2 **)0; // Message sends to Class. Subclass1 *sc1proto1_2 = [[[sc1proto1 class] alloc] init]; // Property access [sc1proto1.self methodInProto2]; // expected-warning{{method '-methodInProto2' not found (return type defaults to 'id')}} [sc1proto2.self methodInProto2]; [Subclass1.alloc initSubclass2]; // expected-warning{{'Subclass1' may not respond to 'initSubclass2'}} [Subclass2.alloc initSubclass2]; [sc1proto1.selfProp methodInProto2]; // expected-warning{{method '-methodInProto2' not found (return type defaults to 'id')}} [sc1proto2.selfProp methodInProto2]; } // Test that message sends to super methods have the right type. @interface Subsubclass1 : Subclass1 - (instancetype)initSubclass1; + (instancetype)allocSubclass1; - (void)onlyInSubsubclass1; @end @implementation Subsubclass1 - (instancetype)initSubclass1 { // Check based on method search. [[super initSubclass1] methodOnSubclass2]; // expected-warning{{'Subsubclass1' may not respond to 'methodOnSubclass2'}} [super.initSubclass1 methodOnSubclass2]; // expected-warning{{'Subsubclass1' may not respond to 'methodOnSubclass2'}} self = [super init]; // common pattern // Exact type check. typeof([super initSubclass1]) *ptr1 = (Subsubclass1**)0; return self; } + (instancetype)allocSubclass1 { // Check based on method search. [[super allocSubclass1] methodOnSubclass2]; // expected-warning{{'Subsubclass1' may not respond to 'methodOnSubclass2'}} // The ASTs don't model super property accesses well enough to get this right [super.allocSubclass1 methodOnSubclass2]; // expected-warning{{'Subsubclass1' may not respond to 'methodOnSubclass2'}} // Exact type check. typeof([super allocSubclass1]) *ptr1 = (Subsubclass1**)0; return [super allocSubclass1]; } - (void)onlyInSubsubclass1 {} @end // Check compatibility rules for inheritance of related return types. @class Subclass4; @interface Subclass3 - (Subclass3 *)methodInProto1; - (Subclass4 *)methodInProto2; // expected-warning{{method is expected to return an instance of its class type 'Subclass3', but is declared to return 'Subclass4 *'}} @end @interface Subclass4 : Root + (Subclass4 *)alloc; // okay - (Subclass3 *)init; // expected-warning{{method is expected to return an instance of its class type 'Subclass4', but is declared to return 'Subclass3 *'}} - (id)self; // expected-note{{overridden method is part of the 'self' method family}} - (instancetype)initOther; @end @protocol Proto3 @optional - (id)methodInProto1; - (Subclass1 *)methodInProto2; - (int)otherMethodInProto2; // expected-warning{{protocol method is expected to return an instance of the implementing class, but is declared to return 'int'}} @end @implementation Subclass4 + (id)alloc { return self; // expected-warning{{incompatible pointer types returning 'Class' from a function with result type 'Subclass4 *'}} } - (Subclass3 *)init { return 0; } // don't complain: we lost the related return type - (Subclass3 *)self { return 0; } // expected-warning{{method is expected to return an instance of its class type 'Subclass4', but is declared to return 'Subclass3 *'}} - (Subclass4 *)initOther { return 0; } @end // Check that inherited related return types influence the types of // message sends. void test_instancetype_inherited() { [[Subclass4 alloc] initSubclass1]; // expected-warning{{'Subclass4' may not respond to 'initSubclass1'}} [[Subclass4 alloc] initOther]; } // Check that related return types tighten up the semantics of // Objective-C method implementations. @implementation Subclass2 - (instancetype)initSubclass2 { // expected-note {{explicitly declared 'instancetype'}} Subclass1 *sc1 = [[Subclass1 alloc] init]; return sc1; // expected-warning{{incompatible pointer types returning 'Subclass1 *' from a function with result type 'Subclass2 *'}} } - (void)methodOnSubclass2 {} - (id)self { Subclass1 *sc1 = [[Subclass1 alloc] init]; return sc1; // expected-warning{{incompatible pointer types returning 'Subclass1 *' from a function with result type 'Subclass2 *'}} } @end @interface MyClass : Root + (int)myClassMethod; @end @implementation MyClass + (int)myClassMethod { return 0; } - (void)blah { int i = [[MyClass self] myClassMethod]; } @end // rdar://12493140 @protocol P4 - (instancetype) foo; // expected-note {{current method is explicitly declared 'instancetype' and is expected to return an instance of its class type}} @end @interface A4 : Root - (instancetype) bar; // expected-note {{current method is explicitly declared 'instancetype' and is expected to return an instance of its class type}} - (instancetype) baz; // expected-note {{overridden method returns an instance of its class type}} expected-note {{previous definition is here}} @end @interface B4 : Root @end @implementation A4 { B4 *_b; } - (id) foo { return _b; // expected-warning {{incompatible pointer types returning 'B4 *' from a function with result type 'A4 *'}} } - (id) bar { return _b; // expected-warning {{incompatible pointer types returning 'B4 *' from a function with result type 'A4 *'}} } // This is really just to ensure that we don't crash. // FIXME: only one diagnostic, please - (float) baz { // expected-warning {{method is expected to return an instance of its class type 'A4', but is declared to return 'float'}} expected-warning {{conflicting return type in implementation}} return 0; } @end