pkg/front_end/testcases/override_check_accessor_after_inference.dart.strong.expect - sdk - Git at Google

 library;
 //
 // Problems in library:
 //
 // pkg/front_end/testcases/override_check_accessor_after_inference.dart:26:9: Error: The return type of the method 'F.y' is 'A', which does not match the return type, 'B', of the overridden method, 'D.y'.
 //  - 'A' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
 //  - 'B' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
 // Change to a subtype of 'B'.
 //   A get y => null;
 //         ^
 // pkg/front_end/testcases/override_check_accessor_after_inference.dart:16:7: Context: This is the overridden method ('y').
 //   get y => null; // Inferred type: B
 //       ^
 //
 // pkg/front_end/testcases/override_check_accessor_after_inference.dart:25:16: Error: The parameter 'value' of the method 'F.x' has type 'B', which does not match the corresponding type, 'A', in the overridden method, 'D.x'.
 //  - 'B' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
 //  - 'A' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
 // Change to a supertype of 'A', or, for a covariant parameter, a subtype.
 //   void set x(B value) {}
 //                ^
 // pkg/front_end/testcases/override_check_accessor_after_inference.dart:15:12: Context: This is the overridden method ('x').
 //   void set x(value) {} // Inferred type: A
 //            ^
 //
 import self as self;
 import "dart:core" as core;

 class A extends core::Object {
   synthetic constructor •() → self::A
     : super core::Object::•()
     ;
 }
 class B extends self::A {
   synthetic constructor •() → self::B
     : super self::A::•()
     ;
 }
 class C extends core::Object {
   synthetic constructor •() → self::C
     : super core::Object::•()
     ;
   set x(self::A value) → void {}
   get y() → self::B
     return null;
 }
 class D extends self::C {
   synthetic constructor •() → self::D
     : super self::C::•()
     ;
   set x(self::A value) → void {}
   get y() → self::B
     return null;
 }
 class E extends self::D {
   synthetic constructor •() → self::E
     : super self::D::•()
     ;
   set x(self::A value) → void {}
   get y() → self::B
     return null;
 }
 class F extends self::D {
   synthetic constructor •() → self::F
     : super self::D::•()
     ;
   set x(self::B value) → void {}
   get y() → self::A
     return null;
 }
 static method main() → dynamic {}
	library;
	//
	// Problems in library:
	//
	// pkg/front_end/testcases/override_check_accessor_after_inference.dart:26:9: Error: The return type of the method 'F.y' is 'A', which does not match the return type, 'B', of the overridden method, 'D.y'.
	// - 'A' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
	// - 'B' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
	// Change to a subtype of 'B'.
	// A get y => null;
	// ^
	// pkg/front_end/testcases/override_check_accessor_after_inference.dart:16:7: Context: This is the overridden method ('y').
	// get y => null; // Inferred type: B
	// ^
	//
	// pkg/front_end/testcases/override_check_accessor_after_inference.dart:25:16: Error: The parameter 'value' of the method 'F.x' has type 'B', which does not match the corresponding type, 'A', in the overridden method, 'D.x'.
	// - 'B' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
	// - 'A' is from 'pkg/front_end/testcases/override_check_accessor_after_inference.dart'.
	// Change to a supertype of 'A', or, for a covariant parameter, a subtype.
	// void set x(B value) {}
	// ^
	// pkg/front_end/testcases/override_check_accessor_after_inference.dart:15:12: Context: This is the overridden method ('x').
	// void set x(value) {} // Inferred type: A
	// ^
	//
	import self as self;
	import "dart:core" as core;

	class A extends core::Object {
	synthetic constructor •() → self::A
	: super core::Object::•()
	;
	}
	class B extends self::A {
	synthetic constructor •() → self::B
	: super self::A::•()
	;
	}
	class C extends core::Object {
	synthetic constructor •() → self::C
	: super core::Object::•()
	;
	set x(self::A value) → void {}
	get y() → self::B
	return null;
	}
	class D extends self::C {
	synthetic constructor •() → self::D
	: super self::C::•()
	;
	set x(self::A value) → void {}
	get y() → self::B
	return null;
	}
	class E extends self::D {
	synthetic constructor •() → self::E
	: super self::D::•()
	;
	set x(self::A value) → void {}
	get y() → self::B
	return null;
	}
	class F extends self::D {
	synthetic constructor •() → self::F
	: super self::D::•()
	;
	set x(self::B value) → void {}
	get y() → self::A
	return null;
	}
	static method main() → dynamic {}