tests/language/conditional_method_invocation_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 semantics of the ?. operator when it is used to invoke a method.

 import "package:expect/expect.dart";
 import "conditional_access_helper.dart" as h;

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

 noMethod(e) => e is NoSuchMethodError;

 class B {}

 class C extends B {
   f(callback()) => callback();
   int g(int callback()) => callback();
   static staticF(callback()) => callback();
   static int staticG(int callback()) => callback();
 }

 C nullC() => null;

 main() {
   // Make sure the "none" test fails if method invocation using "?." is not
   // implemented.  This makes status files easier to maintain.
   nullC()?.f(null);

   // o?.m(...) is equivalent to ((x) => x == null ? null : x.m(...))(o).
   Expect.equals(null, nullC()?.f(bad())); //# 01: ok
   Expect.equals(1, new C()?.f(() => 1)); //# 02: ok

   // C?.m(...) is equivalent to C.m(...).
   Expect.equals(1, C?.staticF(() => 1)); //# 14: ok
   Expect.equals(1, h.C?.staticF(() => 1)); //# 15: ok

   // The static type of o?.m(...) is the same as the static type of
   // o.m(...).
   { int i = nullC()?.g(bad()); Expect.equals(null, i); } //# 03: ok
   { int i = new C()?.g(() => 1); Expect.equals(1, i); } //# 04: ok
   { String s = nullC()?.g(bad()); Expect.equals(null, s); } //# 05: static type warning
   { String s = new C()?.g(() => null); Expect.equals(null, s); } //# 06: static type warning
   { int i = C?.staticG(() => 1); Expect.equals(1, i); } //# 16: ok
   { int i = h.C?.staticG(() => 1); Expect.equals(1, i); } //# 17: ok
   { String s = C?.staticG(() => null); Expect.equals(null, s); } //# 18: static type warning
   { String s = h.C?.staticG(() => null); Expect.equals(null, s); } //# 19: static type warning

   // Let T be the static type of o and let y be a fresh variable of type T.
   // Exactly the same static warnings that would be caused by y.m(...) are also
   // generated in the case of o?.m(...).
   { B b = new C(); Expect.equals(1, b?.f(() => 1)); } //# 07: static type warning
   { int i = 1; Expect.equals(null, nullC()?.f(i)); } //# 08: static type warning

   // '?.' can't be used to access toplevel functions in libraries imported via
   // prefix.
   h?.topLevelFunction(); //# 11: compile-time error

   // Nor can it be used to access the toString method on the class Type.
   Expect.throws(() => C?.toString(), noMethod); //# 12: static type warning
   Expect.throws(() => h.C?.toString(), noMethod); //# 13: 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 semantics of the ?. operator when it is used to invoke a method.

	import "package:expect/expect.dart";
	import "conditional_access_helper.dart" as h;

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

	noMethod(e) => e is NoSuchMethodError;

	class B {}

	class C extends B {
	f(callback()) => callback();
	int g(int callback()) => callback();
	static staticF(callback()) => callback();
	static int staticG(int callback()) => callback();
	}

	C nullC() => null;

	main() {
	// Make sure the "none" test fails if method invocation using "?." is not
	// implemented. This makes status files easier to maintain.
	nullC()?.f(null);

	// o?.m(...) is equivalent to ((x) => x == null ? null : x.m(...))(o).
	Expect.equals(null, nullC()?.f(bad())); //# 01: ok
	Expect.equals(1, new C()?.f(() => 1)); //# 02: ok

	// C?.m(...) is equivalent to C.m(...).
	Expect.equals(1, C?.staticF(() => 1)); //# 14: ok
	Expect.equals(1, h.C?.staticF(() => 1)); //# 15: ok

	// The static type of o?.m(...) is the same as the static type of
	// o.m(...).
	{ int i = nullC()?.g(bad()); Expect.equals(null, i); } //# 03: ok
	{ int i = new C()?.g(() => 1); Expect.equals(1, i); } //# 04: ok
	{ String s = nullC()?.g(bad()); Expect.equals(null, s); } //# 05: static type warning
	{ String s = new C()?.g(() => null); Expect.equals(null, s); } //# 06: static type warning
	{ int i = C?.staticG(() => 1); Expect.equals(1, i); } //# 16: ok
	{ int i = h.C?.staticG(() => 1); Expect.equals(1, i); } //# 17: ok
	{ String s = C?.staticG(() => null); Expect.equals(null, s); } //# 18: static type warning
	{ String s = h.C?.staticG(() => null); Expect.equals(null, s); } //# 19: static type warning

	// Let T be the static type of o and let y be a fresh variable of type T.
	// Exactly the same static warnings that would be caused by y.m(...) are also
	// generated in the case of o?.m(...).
	{ B b = new C(); Expect.equals(1, b?.f(() => 1)); } //# 07: static type warning
	{ int i = 1; Expect.equals(null, nullC()?.f(i)); } //# 08: static type warning

	// '?.' can't be used to access toplevel functions in libraries imported via
	// prefix.
	h?.topLevelFunction(); //# 11: compile-time error

	// Nor can it be used to access the toString method on the class Type.
	Expect.throws(() => C?.toString(), noMethod); //# 12: static type warning
	Expect.throws(() => h.C?.toString(), noMethod); //# 13: static type warning
	}