tests/language/if_null_assignment_static_test.dart - sdk.git - Git at Google

 // Copyright (c) 2015, 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.

 // Verify that the static type of a ??= b is the least upper bound of the
 // static types of a and b.

 import "package:expect/expect.dart";

 // Determine whether the VM is running in checked mode.
 bool get checkedMode {
   try {
     var x = 'foo';
     int y = x;
     return false;
   } catch (_) {
     return true;
   }
 }

 noMethod(e) => e is NoSuchMethodError;

 bad() {
   Expect.fail('Should not be executed');
 }

 class A {
   String a;
 }

 class B extends A {
   String b;
 }

 class C extends A {
   String c;
 }

 A get a => null;

 void set a(A value) {}

 B get b => null;

 void set b(B value) {}

 class ClassWithStaticGetters {
   static A get a => null;

   static void set a(A value) {}

   static B get b => null;

   static void set b(B value) {}
 }

 class ClassWithInstanceGetters {
   A get a => null;

   void set a(A value) {}

   B get b => null;

   void set b(B value) {}
 }

 class DerivedClass extends ClassWithInstanceGetters {
   dynamic get a => bad();

   void set a(dynamic value) { bad(); }

   dynamic get b => bad();

   void set b(dynamic value) { bad(); }

   void derivedTest() {
     // The static type of super.v ??= e is the LUB of the static types of
     // super.v and e.
     (super.a ??= new A()).a; /// 01: ok
     Expect.throws(() => (super.a ??= new A()).b, noMethod); /// 02: static type warning
     (super.a ??= new B()).a; /// 03: ok
     (super.a ??= new B()).b; /// 04: static type warning
     if (!checkedMode) {
       (super.b ??= new A()).a; /// 05: ok
       Expect.throws(() => (super.b ??= new A()).b, noMethod); /// 06: static type warning

       // Exactly the same static warnings that would be caused by super.v = e
       // are also generated in the case of super.v ??= e.
       super.b ??= new C(); /// 07: static type warning
     }
   }
 }

 main() {
   // Make sure the "none" test fails if "??=" is not implemented.  This makes
   // status files easier to maintain.
   var _; _ ??= null;

   new DerivedClass().derivedTest();

   // The static type of v ??= e is the LUB of the static types of v and e.
   (a ??= new A()).a; /// 08: ok
   Expect.throws(() => (a ??= new A()).b, noMethod); /// 09: static type warning
   (a ??= new B()).a; /// 10: ok
   (a ??= new B()).b; /// 11: static type warning
   if (!checkedMode) {
     (b ??= new A()).a; /// 12: ok
     Expect.throws(() => (b ??= new A()).b, noMethod); /// 13: static type warning

     // Exactly the same static warnings that would be caused by v = e are also
     // generated in the case of v ??= e.
     b ??= new C(); /// 14: static type warning
   }

   // The static type of C.v ??= e is the LUB of the static types of C.v and e.
   (ClassWithStaticGetters.a ??= new A()).a; /// 15: ok
   Expect.throws(() => (ClassWithStaticGetters.a ??= new A()).b, noMethod); /// 16: static type warning
   (ClassWithStaticGetters.a ??= new B()).a; /// 17: ok
   (ClassWithStaticGetters.a ??= new B()).b; /// 18: static type warning
   if (!checkedMode) {
     (ClassWithStaticGetters.b ??= new A()).a; /// 19: ok
     Expect.throws(() => (ClassWithStaticGetters.b ??= new A()).b, noMethod); /// 20: static type warning

     // Exactly the same static warnings that would be caused by C.v = e are
     // also generated in the case of C.v ??= e.
     ClassWithStaticGetters.b ??= new C(); /// 21: static type warning
   }

   // The static type of e1.v ??= e2 is the LUB of the static types of e1.v and
   // e2.
   (new ClassWithInstanceGetters().a ??= new A()).a; /// 22: ok
   Expect.throws(() => (new ClassWithInstanceGetters().a ??= new A()).b, noMethod); /// 23: static type warning
   (new ClassWithInstanceGetters().a ??= new B()).a; /// 24: ok
   (new ClassWithInstanceGetters().a ??= new B()).b; /// 25: static type warning
   if (!checkedMode) {
     (new ClassWithInstanceGetters().b ??= new A()).a; /// 26: ok
     Expect.throws(() => (new ClassWithInstanceGetters().b ??= new A()).b, noMethod); /// 27: static type warning

     // Exactly the same static warnings that would be caused by e1.v = e2 are
     // also generated in the case of e1.v ??= e2.
     new ClassWithInstanceGetters().b ??= new C(); /// 28: static type warning
   }

   // The static type of e1[e2] ??= e3 is the LUB of the static types of e1[e2]
   // and e3.
   ((<A>[null])[0] ??= new A()).a; /// 29: ok
   Expect.throws(() => ((<A>[null])[0] ??= new A()).b, noMethod); /// 30: static type warning
   ((<A>[null])[0] ??= new B()).a; /// 31: ok
   ((<A>[null])[0] ??= new B()).b; /// 32: static type warning
   if (!checkedMode) {
     ((<B>[null])[0] ??= new A()).a; /// 33: ok
     Expect.throws(() => ((<B>[null])[0] ??= new A()).b, noMethod); /// 34: static type warning

     // Exactly the same static warnings that would be caused by e1[e2] = e3 are
     // also generated in the case of e1[e2] ??= e3.
     (<B>[null])[0] ??= new C(); /// 35: static type warning
   }

   // The static type of e1?.v op= e2 is the static type of e1.v op e2,
   // therefore the static type of e1?.v ??= e2 is the static type of
   // e1.v ?? e2, which is the LUB of the static types of e1?.v and e2.
   (new ClassWithInstanceGetters()?.a ??= new A()).a; /// 36: ok
   Expect.throws(() => (new ClassWithInstanceGetters()?.a ??= new A()).b, noMethod); /// 37: static type warning
   (new ClassWithInstanceGetters()?.a ??= new B()).a; /// 38: ok
   (new ClassWithInstanceGetters()?.a ??= new B()).b; /// 39: static type warning
   if (!checkedMode) {
     (new ClassWithInstanceGetters()?.b ??= new A()).a; /// 40: ok
     Expect.throws(() => (new ClassWithInstanceGetters()?.b ??= new A()).b, noMethod); /// 41: static type warning

     // Exactly the same static warnings that would be caused by e1.v ??= e2 are
     // also generated in the case of e1?.v ??= e2.
     new ClassWithInstanceGetters()?.b ??= new C(); /// 42: static type warning
   }
 }
	// Copyright (c) 2015, 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.

	// Verify that the static type of a ??= b is the least upper bound of the
	// static types of a and b.

	import "package:expect/expect.dart";

	// Determine whether the VM is running in checked mode.
	bool get checkedMode {
	try {
	var x = 'foo';
	int y = x;
	return false;
	} catch (_) {
	return true;
	}
	}

	noMethod(e) => e is NoSuchMethodError;

	bad() {
	Expect.fail('Should not be executed');
	}

	class A {
	String a;
	}

	class B extends A {
	String b;
	}

	class C extends A {
	String c;
	}

	A get a => null;

	void set a(A value) {}

	B get b => null;

	void set b(B value) {}

	class ClassWithStaticGetters {
	static A get a => null;

	static void set a(A value) {}

	static B get b => null;

	static void set b(B value) {}
	}

	class ClassWithInstanceGetters {
	A get a => null;

	void set a(A value) {}

	B get b => null;

	void set b(B value) {}
	}

	class DerivedClass extends ClassWithInstanceGetters {
	dynamic get a => bad();

	void set a(dynamic value) { bad(); }

	dynamic get b => bad();

	void set b(dynamic value) { bad(); }

	void derivedTest() {
	// The static type of super.v ??= e is the LUB of the static types of
	// super.v and e.
	(super.a ??= new A()).a; /// 01: ok
	Expect.throws(() => (super.a ??= new A()).b, noMethod); /// 02: static type warning
	(super.a ??= new B()).a; /// 03: ok
	(super.a ??= new B()).b; /// 04: static type warning
	if (!checkedMode) {
	(super.b ??= new A()).a; /// 05: ok
	Expect.throws(() => (super.b ??= new A()).b, noMethod); /// 06: static type warning

	// Exactly the same static warnings that would be caused by super.v = e
	// are also generated in the case of super.v ??= e.
	super.b ??= new C(); /// 07: static type warning
	}
	}
	}

	main() {
	// Make sure the "none" test fails if "??=" is not implemented. This makes
	// status files easier to maintain.
	var _; _ ??= null;

	new DerivedClass().derivedTest();

	// The static type of v ??= e is the LUB of the static types of v and e.
	(a ??= new A()).a; /// 08: ok
	Expect.throws(() => (a ??= new A()).b, noMethod); /// 09: static type warning
	(a ??= new B()).a; /// 10: ok
	(a ??= new B()).b; /// 11: static type warning
	if (!checkedMode) {
	(b ??= new A()).a; /// 12: ok
	Expect.throws(() => (b ??= new A()).b, noMethod); /// 13: static type warning

	// Exactly the same static warnings that would be caused by v = e are also
	// generated in the case of v ??= e.
	b ??= new C(); /// 14: static type warning
	}

	// The static type of C.v ??= e is the LUB of the static types of C.v and e.
	(ClassWithStaticGetters.a ??= new A()).a; /// 15: ok
	Expect.throws(() => (ClassWithStaticGetters.a ??= new A()).b, noMethod); /// 16: static type warning
	(ClassWithStaticGetters.a ??= new B()).a; /// 17: ok
	(ClassWithStaticGetters.a ??= new B()).b; /// 18: static type warning
	if (!checkedMode) {
	(ClassWithStaticGetters.b ??= new A()).a; /// 19: ok
	Expect.throws(() => (ClassWithStaticGetters.b ??= new A()).b, noMethod); /// 20: static type warning

	// Exactly the same static warnings that would be caused by C.v = e are
	// also generated in the case of C.v ??= e.
	ClassWithStaticGetters.b ??= new C(); /// 21: static type warning
	}

	// The static type of e1.v ??= e2 is the LUB of the static types of e1.v and
	// e2.
	(new ClassWithInstanceGetters().a ??= new A()).a; /// 22: ok
	Expect.throws(() => (new ClassWithInstanceGetters().a ??= new A()).b, noMethod); /// 23: static type warning
	(new ClassWithInstanceGetters().a ??= new B()).a; /// 24: ok
	(new ClassWithInstanceGetters().a ??= new B()).b; /// 25: static type warning
	if (!checkedMode) {
	(new ClassWithInstanceGetters().b ??= new A()).a; /// 26: ok
	Expect.throws(() => (new ClassWithInstanceGetters().b ??= new A()).b, noMethod); /// 27: static type warning

	// Exactly the same static warnings that would be caused by e1.v = e2 are
	// also generated in the case of e1.v ??= e2.
	new ClassWithInstanceGetters().b ??= new C(); /// 28: static type warning
	}

	// The static type of e1[e2] ??= e3 is the LUB of the static types of e1[e2]
	// and e3.
	((<A>[null])[0] ??= new A()).a; /// 29: ok
	Expect.throws(() => ((<A>[null])[0] ??= new A()).b, noMethod); /// 30: static type warning
	((<A>[null])[0] ??= new B()).a; /// 31: ok
	((<A>[null])[0] ??= new B()).b; /// 32: static type warning
	if (!checkedMode) {
	((<B>[null])[0] ??= new A()).a; /// 33: ok
	Expect.throws(() => ((<B>[null])[0] ??= new A()).b, noMethod); /// 34: static type warning

	// Exactly the same static warnings that would be caused by e1[e2] = e3 are
	// also generated in the case of e1[e2] ??= e3.
	(<B>[null])[0] ??= new C(); /// 35: static type warning
	}

	// The static type of e1?.v op= e2 is the static type of e1.v op e2,
	// therefore the static type of e1?.v ??= e2 is the static type of
	// e1.v ?? e2, which is the LUB of the static types of e1?.v and e2.
	(new ClassWithInstanceGetters()?.a ??= new A()).a; /// 36: ok
	Expect.throws(() => (new ClassWithInstanceGetters()?.a ??= new A()).b, noMethod); /// 37: static type warning
	(new ClassWithInstanceGetters()?.a ??= new B()).a; /// 38: ok
	(new ClassWithInstanceGetters()?.a ??= new B()).b; /// 39: static type warning
	if (!checkedMode) {
	(new ClassWithInstanceGetters()?.b ??= new A()).a; /// 40: ok
	Expect.throws(() => (new ClassWithInstanceGetters()?.b ??= new A()).b, noMethod); /// 41: static type warning

	// Exactly the same static warnings that would be caused by e1.v ??= e2 are
	// also generated in the case of e1?.v ??= e2.
	new ClassWithInstanceGetters()?.b ??= new C(); /// 42: static type warning
	}
	}