tests/lib_2/async/future_or_type_test.dart - sdk.git - Git at Google

 // Copyright (c) 2018, 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.

 // @dart = 2.9

 // In strong mode, `FutureOr` should be a valid type in most locations.

 import 'dart:async';
 import 'package:expect/expect.dart';

 typedef void FunTakes<T>(T x);
 typedef T FunReturns<T>();

 main() {
   // Some useful values.
   dynamic n = null;
   dynamic i = 0;
   dynamic d = 1.5;
   dynamic fni = new Future<num>.value(i);
   dynamic fnd = new Future<num>.value(d);
   dynamic fi = new Future<int>.value(i);
   dynamic fd = new Future<double>.value(d);
   dynamic fn = new Future<Null>.value(null);

   dynamic o = new Object();
   dynamic fo = new Future<Object>.value(o);
   dynamic foi = new Future<Object>.value(i);

   if (typeAssertionsEnabled) {
     // Type annotation allows correct values.
     FutureOr<num> v;
     v = n;
     v = i;
     v = d;
     v = fni;
     v = fnd;
     v = fi;
     v = fd;
     v = fn;
     // Disallows invalid values.
     // These are all valid down-casts that fail at runtime.
     Expect.throws(() => v = o);
     Expect.throws(() => v = fo);
     Expect.throws(() => v = foi);

     void fun(FutureOr<num> v) {}
     fun(n);
     fun(i);
     fun(d);
     fun(fni);
     fun(fnd);
     fun(fi);
     fun(fd);
     fun(fn);
     // Disallows invalid values.
     // These are all valid down-casts that fail at runtime.
     Expect.throws(() => fun(o));
     Expect.throws(() => fun(fo));
     Expect.throws(() => fun(foi));

     FutureOr<num> fun2(Object o) => o; // implicit down-cast to return type.
     fun2(n);
     fun2(i);
     fun2(d);
     fun2(fni);
     fun2(fnd);
     fun2(fi);
     fun2(fd);
     fun2(fn);
     // Disallows invalid values.
     Expect.throws(() => fun2(o));
     Expect.throws(() => fun2(fo));
     Expect.throws(() => fun2(foi));

     List<Object> list = new List<FutureOr<num>>();
     list.add(n);
     list.add(i);
     list.add(d);
     list.add(fni);
     list.add(fnd);
     list.add(fi);
     list.add(fd);
     list.add(fn);
     Expect.throws(() => list.add(o));
     Expect.throws(() => list.add(fo));
     Expect.throws(() => list.add(foi));
   }

   {
     // Casts.
     FutureOr<num> v;
     v = n as FutureOr<num>;
     v = i as FutureOr<num>;
     v = d as FutureOr<num>;
     v = fni as FutureOr<num>;
     v = fnd as FutureOr<num>;
     v = fi as FutureOr<num>;
     v = fd as FutureOr<num>;
     v = fn as FutureOr<num>;
     // Disallows invalid values.
     // These are all valid down-casts that fail at runtime.
     Expect.throws(() => v = o as FutureOr<num>);
     Expect.throws(() => v = fo as FutureOr<num>);
     Expect.throws(() => v = foi as FutureOr<num>);
   }

   {
     // on-catch
     String check(Object o) {
       try {
         throw o;
       } on FutureOr<num> {
         return "caught";
       } on Object {
         return "uncaught";
       }
     }

     // Can't throw null, so no `n` case here.
     Expect.equals("caught", check(i));
     Expect.equals("caught", check(d));
     Expect.equals("caught", check(fni));
     Expect.equals("caught", check(fnd));
     Expect.equals("caught", check(fi));
     Expect.equals("caught", check(fd));
     Expect.equals("caught", check(fn));

     Expect.equals("uncaught", check(o));
     Expect.equals("uncaught", check(fo));
     Expect.equals("uncaught", check(foi));
   }

   {
     // Type variable bound.
     var valids = <C<FutureOr<num>>>[
       new C<Null>(),
       new C<int>(),
       new C<double>(),
       new C<num>(),
       new C<Future<Null>>(),
       new C<Future<int>>(),
       new C<Future<double>>(),
       new C<Future<num>>(),
       new C<FutureOr<Null>>(),
       new C<FutureOr<int>>(),
       new C<FutureOr<double>>(),
       new C<FutureOr<num>>(),
     ];
     Expect.equals(12, valids.length);
   }

   {
     // Dynamic checks.
     Expect.isFalse(new C<FutureOr<num>>().isCheck(n));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(i));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(d));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(fni));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(fnd));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(fi));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(fd));
     Expect.isTrue(new C<FutureOr<num>>().isCheck(fn));
     Expect.isFalse(new C<FutureOr<num>>().isCheck(o));
     Expect.isFalse(new C<FutureOr<num>>().isCheck(fo));
     Expect.isFalse(new C<FutureOr<num>>().isCheck(foi));

     Expect.isFalse(new C<FutureOr<int>>().isCheck(n));
     Expect.isTrue(new C<FutureOr<int>>().isCheck(i));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(d));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(fni));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(fnd));
     Expect.isTrue(new C<FutureOr<int>>().isCheck(fi));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(fd));
     Expect.isTrue(new C<FutureOr<int>>().isCheck(fn));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(o));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(fo));
     Expect.isFalse(new C<FutureOr<int>>().isCheck(foi));

     Expect.isTrue(new C<FutureOr<Null>>().isCheck(n));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(i));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(d));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(fni));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(fnd));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(fi));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(fd));
     Expect.isTrue(new C<FutureOr<Null>>().isCheck(fn));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(o));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(fo));
     Expect.isFalse(new C<FutureOr<Null>>().isCheck(foi));

     Expect.isFalse(new C<Future<num>>().isCheck(n));
     Expect.isFalse(new C<Future<num>>().isCheck(i));
     Expect.isFalse(new C<Future<num>>().isCheck(d));
     Expect.isTrue(new C<Future<num>>().isCheck(fni));
     Expect.isTrue(new C<Future<num>>().isCheck(fnd));
     Expect.isTrue(new C<Future<num>>().isCheck(fi));
     Expect.isTrue(new C<Future<num>>().isCheck(fd));
     Expect.isTrue(new C<Future<num>>().isCheck(fn));
     Expect.isFalse(new C<Future<num>>().isCheck(o));
     Expect.isFalse(new C<Future<num>>().isCheck(fo));
     Expect.isFalse(new C<Future<num>>().isCheck(foi));

     Expect.isFalse(new C<Future<int>>().isCheck(n));
     Expect.isFalse(new C<Future<int>>().isCheck(i));
     Expect.isFalse(new C<Future<int>>().isCheck(d));
     Expect.isFalse(new C<Future<int>>().isCheck(fni));
     Expect.isFalse(new C<Future<int>>().isCheck(fnd));
     Expect.isTrue(new C<Future<int>>().isCheck(fi));
     Expect.isFalse(new C<Future<int>>().isCheck(fd));
     Expect.isTrue(new C<Future<int>>().isCheck(fn));
     Expect.isFalse(new C<Future<int>>().isCheck(o));
     Expect.isFalse(new C<Future<int>>().isCheck(fo));
     Expect.isFalse(new C<Future<int>>().isCheck(foi));

     Expect.isFalse(new C<num>().isCheck(n));
     Expect.isTrue(new C<num>().isCheck(i));
     Expect.isTrue(new C<num>().isCheck(d));
     Expect.isFalse(new C<num>().isCheck(fni));
     Expect.isFalse(new C<num>().isCheck(fnd));
     Expect.isFalse(new C<num>().isCheck(fi));
     Expect.isFalse(new C<num>().isCheck(fd));
     Expect.isFalse(new C<num>().isCheck(fn));
     Expect.isFalse(new C<num>().isCheck(o));
     Expect.isFalse(new C<num>().isCheck(fo));
     Expect.isFalse(new C<num>().isCheck(foi));

     Expect.isFalse(new C<int>().isCheck(n));
     Expect.isTrue(new C<int>().isCheck(i));
     Expect.isFalse(new C<int>().isCheck(d));
     Expect.isFalse(new C<int>().isCheck(fni));
     Expect.isFalse(new C<int>().isCheck(fnd));
     Expect.isFalse(new C<int>().isCheck(fi));
     Expect.isFalse(new C<int>().isCheck(fd));
     Expect.isFalse(new C<int>().isCheck(fn));
     Expect.isFalse(new C<int>().isCheck(o));
     Expect.isFalse(new C<int>().isCheck(fo));
     Expect.isFalse(new C<int>().isCheck(foi));

     Expect.isTrue(new C<Null>().isCheck(n));
     Expect.isFalse(new C<Null>().isCheck(i));
     Expect.isFalse(new C<Null>().isCheck(d));
     Expect.isFalse(new C<Null>().isCheck(fni));
     Expect.isFalse(new C<Null>().isCheck(fnd));
     Expect.isFalse(new C<Null>().isCheck(fi));
     Expect.isFalse(new C<Null>().isCheck(fd));
     Expect.isFalse(new C<Null>().isCheck(fn));
     Expect.isFalse(new C<Null>().isCheck(o));
     Expect.isFalse(new C<Null>().isCheck(fo));
     Expect.isFalse(new C<Null>().isCheck(foi));
   }
 }

 // FutureOr used as type parameter bound.
 class C<T extends FutureOr<num>> {
   bool isCheck(Object o) => o is T;
 }
	// Copyright (c) 2018, 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.

	// @dart = 2.9

	// In strong mode, `FutureOr` should be a valid type in most locations.

	import 'dart:async';
	import 'package:expect/expect.dart';

	typedef void FunTakes<T>(T x);
	typedef T FunReturns<T>();

	main() {
	// Some useful values.
	dynamic n = null;
	dynamic i = 0;
	dynamic d = 1.5;
	dynamic fni = new Future<num>.value(i);
	dynamic fnd = new Future<num>.value(d);
	dynamic fi = new Future<int>.value(i);
	dynamic fd = new Future<double>.value(d);
	dynamic fn = new Future<Null>.value(null);

	dynamic o = new Object();
	dynamic fo = new Future<Object>.value(o);
	dynamic foi = new Future<Object>.value(i);

	if (typeAssertionsEnabled) {
	// Type annotation allows correct values.
	FutureOr<num> v;
	v = n;
	v = i;
	v = d;
	v = fni;
	v = fnd;
	v = fi;
	v = fd;
	v = fn;
	// Disallows invalid values.
	// These are all valid down-casts that fail at runtime.
	Expect.throws(() => v = o);
	Expect.throws(() => v = fo);
	Expect.throws(() => v = foi);

	void fun(FutureOr<num> v) {}
	fun(n);
	fun(i);
	fun(d);
	fun(fni);
	fun(fnd);
	fun(fi);
	fun(fd);
	fun(fn);
	// Disallows invalid values.
	// These are all valid down-casts that fail at runtime.
	Expect.throws(() => fun(o));
	Expect.throws(() => fun(fo));
	Expect.throws(() => fun(foi));

	FutureOr<num> fun2(Object o) => o; // implicit down-cast to return type.
	fun2(n);
	fun2(i);
	fun2(d);
	fun2(fni);
	fun2(fnd);
	fun2(fi);
	fun2(fd);
	fun2(fn);
	// Disallows invalid values.
	Expect.throws(() => fun2(o));
	Expect.throws(() => fun2(fo));
	Expect.throws(() => fun2(foi));

	List<Object> list = new List<FutureOr<num>>();
	list.add(n);
	list.add(i);
	list.add(d);
	list.add(fni);
	list.add(fnd);
	list.add(fi);
	list.add(fd);
	list.add(fn);
	Expect.throws(() => list.add(o));
	Expect.throws(() => list.add(fo));
	Expect.throws(() => list.add(foi));
	}

	{
	// Casts.
	FutureOr<num> v;
	v = n as FutureOr<num>;
	v = i as FutureOr<num>;
	v = d as FutureOr<num>;
	v = fni as FutureOr<num>;
	v = fnd as FutureOr<num>;
	v = fi as FutureOr<num>;
	v = fd as FutureOr<num>;
	v = fn as FutureOr<num>;
	// Disallows invalid values.
	// These are all valid down-casts that fail at runtime.
	Expect.throws(() => v = o as FutureOr<num>);
	Expect.throws(() => v = fo as FutureOr<num>);
	Expect.throws(() => v = foi as FutureOr<num>);
	}

	{
	// on-catch
	String check(Object o) {
	try {
	throw o;
	} on FutureOr<num> {
	return "caught";
	} on Object {
	return "uncaught";
	}
	}

	// Can't throw null, so no `n` case here.
	Expect.equals("caught", check(i));
	Expect.equals("caught", check(d));
	Expect.equals("caught", check(fni));
	Expect.equals("caught", check(fnd));
	Expect.equals("caught", check(fi));
	Expect.equals("caught", check(fd));
	Expect.equals("caught", check(fn));

	Expect.equals("uncaught", check(o));
	Expect.equals("uncaught", check(fo));
	Expect.equals("uncaught", check(foi));
	}

	{
	// Type variable bound.
	var valids = <C<FutureOr<num>>>[
	new C<Null>(),
	new C<int>(),
	new C<double>(),
	new C<num>(),
	new C<Future<Null>>(),
	new C<Future<int>>(),
	new C<Future<double>>(),
	new C<Future<num>>(),
	new C<FutureOr<Null>>(),
	new C<FutureOr<int>>(),
	new C<FutureOr<double>>(),
	new C<FutureOr<num>>(),
	];
	Expect.equals(12, valids.length);
	}

	{
	// Dynamic checks.
	Expect.isFalse(new C<FutureOr<num>>().isCheck(n));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(i));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(d));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(fni));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(fnd));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(fi));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(fd));
	Expect.isTrue(new C<FutureOr<num>>().isCheck(fn));
	Expect.isFalse(new C<FutureOr<num>>().isCheck(o));
	Expect.isFalse(new C<FutureOr<num>>().isCheck(fo));
	Expect.isFalse(new C<FutureOr<num>>().isCheck(foi));

	Expect.isFalse(new C<FutureOr<int>>().isCheck(n));
	Expect.isTrue(new C<FutureOr<int>>().isCheck(i));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(d));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(fni));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(fnd));
	Expect.isTrue(new C<FutureOr<int>>().isCheck(fi));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(fd));
	Expect.isTrue(new C<FutureOr<int>>().isCheck(fn));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(o));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(fo));
	Expect.isFalse(new C<FutureOr<int>>().isCheck(foi));

	Expect.isTrue(new C<FutureOr<Null>>().isCheck(n));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(i));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(d));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(fni));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(fnd));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(fi));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(fd));
	Expect.isTrue(new C<FutureOr<Null>>().isCheck(fn));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(o));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(fo));
	Expect.isFalse(new C<FutureOr<Null>>().isCheck(foi));

	Expect.isFalse(new C<Future<num>>().isCheck(n));
	Expect.isFalse(new C<Future<num>>().isCheck(i));
	Expect.isFalse(new C<Future<num>>().isCheck(d));
	Expect.isTrue(new C<Future<num>>().isCheck(fni));
	Expect.isTrue(new C<Future<num>>().isCheck(fnd));
	Expect.isTrue(new C<Future<num>>().isCheck(fi));
	Expect.isTrue(new C<Future<num>>().isCheck(fd));
	Expect.isTrue(new C<Future<num>>().isCheck(fn));
	Expect.isFalse(new C<Future<num>>().isCheck(o));
	Expect.isFalse(new C<Future<num>>().isCheck(fo));
	Expect.isFalse(new C<Future<num>>().isCheck(foi));

	Expect.isFalse(new C<Future<int>>().isCheck(n));
	Expect.isFalse(new C<Future<int>>().isCheck(i));
	Expect.isFalse(new C<Future<int>>().isCheck(d));
	Expect.isFalse(new C<Future<int>>().isCheck(fni));
	Expect.isFalse(new C<Future<int>>().isCheck(fnd));
	Expect.isTrue(new C<Future<int>>().isCheck(fi));
	Expect.isFalse(new C<Future<int>>().isCheck(fd));
	Expect.isTrue(new C<Future<int>>().isCheck(fn));
	Expect.isFalse(new C<Future<int>>().isCheck(o));
	Expect.isFalse(new C<Future<int>>().isCheck(fo));
	Expect.isFalse(new C<Future<int>>().isCheck(foi));

	Expect.isFalse(new C<num>().isCheck(n));
	Expect.isTrue(new C<num>().isCheck(i));
	Expect.isTrue(new C<num>().isCheck(d));
	Expect.isFalse(new C<num>().isCheck(fni));
	Expect.isFalse(new C<num>().isCheck(fnd));
	Expect.isFalse(new C<num>().isCheck(fi));
	Expect.isFalse(new C<num>().isCheck(fd));
	Expect.isFalse(new C<num>().isCheck(fn));
	Expect.isFalse(new C<num>().isCheck(o));
	Expect.isFalse(new C<num>().isCheck(fo));
	Expect.isFalse(new C<num>().isCheck(foi));

	Expect.isFalse(new C<int>().isCheck(n));
	Expect.isTrue(new C<int>().isCheck(i));
	Expect.isFalse(new C<int>().isCheck(d));
	Expect.isFalse(new C<int>().isCheck(fni));
	Expect.isFalse(new C<int>().isCheck(fnd));
	Expect.isFalse(new C<int>().isCheck(fi));
	Expect.isFalse(new C<int>().isCheck(fd));
	Expect.isFalse(new C<int>().isCheck(fn));
	Expect.isFalse(new C<int>().isCheck(o));
	Expect.isFalse(new C<int>().isCheck(fo));
	Expect.isFalse(new C<int>().isCheck(foi));

	Expect.isTrue(new C<Null>().isCheck(n));
	Expect.isFalse(new C<Null>().isCheck(i));
	Expect.isFalse(new C<Null>().isCheck(d));
	Expect.isFalse(new C<Null>().isCheck(fni));
	Expect.isFalse(new C<Null>().isCheck(fnd));
	Expect.isFalse(new C<Null>().isCheck(fi));
	Expect.isFalse(new C<Null>().isCheck(fd));
	Expect.isFalse(new C<Null>().isCheck(fn));
	Expect.isFalse(new C<Null>().isCheck(o));
	Expect.isFalse(new C<Null>().isCheck(fo));
	Expect.isFalse(new C<Null>().isCheck(foi));
	}
	}

	// FutureOr used as type parameter bound.
	class C<T extends FutureOr<num>> {
	bool isCheck(Object o) => o is T;
	}