tests/language/nnbd/mixed_inheritance/legacy_resolves_conflict_3_lib2.dart - sdk.git - Git at Google

 // Copyright (c) 2020, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // Each class defined here has a legacy superinterface as well as a null-safe
 // superinterface, thus bringing together legacy and null-safe member
 // signatures. Some classes also contain overriding member declarations.
 // Each class has a comment indicating the expected member signatures.
 // We use this to test whether the resulting member signature is computed
 // correctly, cf. 'legacy_resolves_conflict_3{,_error}_test.dart'.

 import 'legacy_resolves_conflict_3_legacy_lib.dart';
 import 'legacy_resolves_conflict_3_lib.dart';

 // Naming conventions: Every class in this library has a name starting with
 // `D`, to identify it as belonging to this group: Opted-in, subtype of a
 // legacy class.
 //
 // Every class name ends in a digit, that we designate as `#`. A class whose
 // name ends in `#` extends or implements the legacy class `C#`.
 //
 // The class `DiX#` implements `X` (`i` refers to `implements`). The class
 // `DwX#` applies `X` as a mixin (`w` refers to `with`). The class `DiXO#`
 // implements `X` and declares overriding members using non-nullable
 // types. Class `DiXOq#` implements `X` and declares overriding members using
 // nullable types.

 // When `C#` is considered to implement `A<int*>` it becomes possible for a
 // subtype of `C#` to have a superinterface with members that are compatible
 // with the members of `A<int*>`, even in the case where they conflict with
 // members of `A<int>`/`A<int?>`, which is actually found in the superinterface
 // graph of `C#`. That kind of relationship is created by this library.

 // Member signatures: B.
 class DiB0 extends C0 implements B {}

 // Member signatures: Bq.
 class DiBq0 extends C0 implements Bq {}

 // Member signatures: B.
 class DwB0 extends C0 with B {}

 // Member signatures: Bq.
 class DwBq0 extends C0 with Bq {}

 // Member signatures: B.
 class DiBO0 implements C0, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq0 implements C0, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }

 // Member signatures: B.
 class DiB1 extends C1 implements B {}

 // Member signatures: Bq.
 class DiBq1 extends C1 implements Bq {}

 // Member signatures: B.
 class DwB1 extends C1 with B {}

 // Member signatures: Bq.
 class DwBq1 extends C1 with Bq {}

 // Member signatures: B.
 class DiBO1 implements C1, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq1 implements C1, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }

 // Member signatures: B.
 abstract class DiB2 extends C2 implements B {}

 // Member signatures: Bq.
 abstract class DiBq2 extends C2 implements Bq {}

 // Member signatures: B.
 class DwB2 extends C2 with B {}

 // Member signatures: Bq.
 class DwBq2 extends C2 with Bq {}

 // Member signatures: B.
 class DiBO2 implements C2, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq2 implements C2, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }

 // Member signatures: B.
 class DiB3 extends C3 implements B {}

 // Member signatures: Bq.
 class DiBq3 extends C3 implements Bq {}

 // Member signatures: B.
 class DwB3 extends C3 with B {}

 // Member signatures: Bq.
 class DwBq3 extends C3 with Bq {}

 // Member signatures: B.
 class DiBO3 implements C3, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq3 implements C3, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }

 // Member signatures: B.
 class DiB4 extends C4 implements B {}

 // Member signatures: Bq.
 class DiBq4 extends C4 implements Bq {}

 // Member signatures: B.
 class DwB4 extends C4 with B {}

 // Member signatures: Bq.
 class DwBq4 extends C4 with Bq {}

 // Member signatures: B.
 class DiBO4 implements C4, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq4 implements C4, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }

 // Member signatures: B.
 abstract class DiB5 extends C5 implements B {}

 // Member signatures: Bq.
 abstract class DiBq5 extends C5 implements Bq {}

 // Member signatures: B.
 class DwB5 extends C5 with B {}

 // Member signatures: Bq.
 class DwBq5 extends C5 with Bq {}

 // Member signatures: B.
 class DiBO5 implements C5, B {
   List<int Function(int)> get a => [];
   set a(List<int Function(int)> _) {}
   int Function(int) m(int Function(int) x) => x;
 }

 // Member signatures: Bq.
 class DiBqOq5 implements C5, Bq {
   List<int? Function(int?)> get a => [];
   set a(List<int? Function(int?)> _) {}
   int? Function(int?) m(int? Function(int?) x) => x;
 }
	// Copyright (c) 2020, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// Each class defined here has a legacy superinterface as well as a null-safe
	// superinterface, thus bringing together legacy and null-safe member
	// signatures. Some classes also contain overriding member declarations.
	// Each class has a comment indicating the expected member signatures.
	// We use this to test whether the resulting member signature is computed
	// correctly, cf. 'legacy_resolves_conflict_3{,_error}_test.dart'.

	import 'legacy_resolves_conflict_3_legacy_lib.dart';
	import 'legacy_resolves_conflict_3_lib.dart';

	// Naming conventions: Every class in this library has a name starting with
	// `D`, to identify it as belonging to this group: Opted-in, subtype of a
	// legacy class.
	//
	// Every class name ends in a digit, that we designate as `#`. A class whose
	// name ends in `#` extends or implements the legacy class `C#`.
	//
	// The class `DiX#` implements `X` (`i` refers to `implements`). The class
	// `DwX#` applies `X` as a mixin (`w` refers to `with`). The class `DiXO#`
	// implements `X` and declares overriding members using non-nullable
	// types. Class `DiXOq#` implements `X` and declares overriding members using
	// nullable types.

	// When `C#` is considered to implement `A<int*>` it becomes possible for a
	// subtype of `C#` to have a superinterface with members that are compatible
	// with the members of `A<int*>`, even in the case where they conflict with
	// members of `A<int>`/`A<int?>`, which is actually found in the superinterface
	// graph of `C#`. That kind of relationship is created by this library.

	// Member signatures: B.
	class DiB0 extends C0 implements B {}

	// Member signatures: Bq.
	class DiBq0 extends C0 implements Bq {}

	// Member signatures: B.
	class DwB0 extends C0 with B {}

	// Member signatures: Bq.
	class DwBq0 extends C0 with Bq {}

	// Member signatures: B.
	class DiBO0 implements C0, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq0 implements C0, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}

	// Member signatures: B.
	class DiB1 extends C1 implements B {}

	// Member signatures: Bq.
	class DiBq1 extends C1 implements Bq {}

	// Member signatures: B.
	class DwB1 extends C1 with B {}

	// Member signatures: Bq.
	class DwBq1 extends C1 with Bq {}

	// Member signatures: B.
	class DiBO1 implements C1, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq1 implements C1, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}

	// Member signatures: B.
	abstract class DiB2 extends C2 implements B {}

	// Member signatures: Bq.
	abstract class DiBq2 extends C2 implements Bq {}

	// Member signatures: B.
	class DwB2 extends C2 with B {}

	// Member signatures: Bq.
	class DwBq2 extends C2 with Bq {}

	// Member signatures: B.
	class DiBO2 implements C2, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq2 implements C2, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}

	// Member signatures: B.
	class DiB3 extends C3 implements B {}

	// Member signatures: Bq.
	class DiBq3 extends C3 implements Bq {}

	// Member signatures: B.
	class DwB3 extends C3 with B {}

	// Member signatures: Bq.
	class DwBq3 extends C3 with Bq {}

	// Member signatures: B.
	class DiBO3 implements C3, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq3 implements C3, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}

	// Member signatures: B.
	class DiB4 extends C4 implements B {}

	// Member signatures: Bq.
	class DiBq4 extends C4 implements Bq {}

	// Member signatures: B.
	class DwB4 extends C4 with B {}

	// Member signatures: Bq.
	class DwBq4 extends C4 with Bq {}

	// Member signatures: B.
	class DiBO4 implements C4, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq4 implements C4, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}

	// Member signatures: B.
	abstract class DiB5 extends C5 implements B {}

	// Member signatures: Bq.
	abstract class DiBq5 extends C5 implements Bq {}

	// Member signatures: B.
	class DwB5 extends C5 with B {}

	// Member signatures: Bq.
	class DwBq5 extends C5 with Bq {}

	// Member signatures: B.
	class DiBO5 implements C5, B {
	List<int Function(int)> get a => [];
	set a(List<int Function(int)> _) {}
	int Function(int) m(int Function(int) x) => x;
	}

	// Member signatures: Bq.
	class DiBqOq5 implements C5, Bq {
	List<int? Function(int?)> get a => [];
	set a(List<int? Function(int?)> _) {}
	int? Function(int?) m(int? Function(int?) x) => x;
	}