tests/compiler/dart2js/flatten_test.dart - sdk.git - Git at Google

 // Copyright (c) 2013, 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.

 library flatten_test;

 import 'package:expect/expect.dart';
 import "package:async_helper/async_helper.dart";
 import 'type_test_helper.dart';
 import 'package:compiler/src/elements/resolution_types.dart';
 import "package:compiler/src/elements/elements.dart" show ClassElement;

 void main() {
   asyncTest(() => TypeEnvironment.create(r"""
       abstract class F<T> implements Future<T> {}
       abstract class G<T> implements Future<G<T>> {}
       abstract class H<T> implements Future<H<H<T>>> {}
       """).then((env) {
         void check(
             ResolutionDartType T, ResolutionDartType expectedFlattenedType) {
           ResolutionDartType flattenedType = env.flatten(T);
           Expect.equals(
               expectedFlattenedType,
               flattenedType,
               "Unexpected flattening of '$T' = '$flattenedType',"
               "expected '$expectedFlattenedType'.");
         }

         ClassElement Future_ = env.getElement('Future');
         ClassElement F = env.getElement('F');
         ClassElement G = env.getElement('G');
         ClassElement H = env.getElement('H');
         ResolutionDartType int_ = env['int'];
         ResolutionDartType dynamic_ = env['dynamic'];
         ResolutionDartType Future_int = instantiate(Future_, [int_]);
         ResolutionDartType F_int = instantiate(F, [int_]);
         ResolutionDartType G_int = instantiate(G, [int_]);
         ResolutionDartType H_int = instantiate(H, [int_]);
         ResolutionDartType H_H_int = instantiate(H, [H_int]);

         // flatten(int) = int
         check(int_, int_);

         // flatten(Future) = dynamic
         check(Future_.rawType, dynamic_);

         // flatten(Future<int>) = int
         check(Future_int, int_);

         // flatten(Future<Future<int>>) = int
         check(instantiate(Future_, [Future_int]), int_);

         // flatten(F) = dynamic
         check(F.rawType, dynamic_);

         // flatten(F<int>) = int
         check(F_int, int_);

         // flatten(F<Future<int>>) = Future<int>
         check(instantiate(F, [Future_int]), Future_int);

         // flatten(G) = G
         check(G.rawType, G.rawType);

         // flatten(G<int>) = G<int>
         check(G_int, G_int);

         // flatten(H) = H<H>
         check(H.rawType, instantiate(H, [H.rawType]));

         // flatten(H<int>) = H<H<int>>
         check(H_int, H_H_int);

         // flatten(Future<F<int>>) = int
         check(instantiate(Future_, [F_int]), int_);

         // flatten(Future<G<int>>) = int
         check(instantiate(Future_, [G_int]), G_int);

         // flatten(Future<H<int>>) = int
         check(instantiate(Future_, [H_int]), H_H_int);
       }));
 }
	// Copyright (c) 2013, 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.

	library flatten_test;

	import 'package:expect/expect.dart';
	import "package:async_helper/async_helper.dart";
	import 'type_test_helper.dart';
	import 'package:compiler/src/elements/resolution_types.dart';
	import "package:compiler/src/elements/elements.dart" show ClassElement;

	void main() {
	asyncTest(() => TypeEnvironment.create(r"""
	abstract class F<T> implements Future<T> {}
	abstract class G<T> implements Future<G<T>> {}
	abstract class H<T> implements Future<H<H<T>>> {}
	""").then((env) {
	void check(
	ResolutionDartType T, ResolutionDartType expectedFlattenedType) {
	ResolutionDartType flattenedType = env.flatten(T);
	Expect.equals(
	expectedFlattenedType,
	flattenedType,
	"Unexpected flattening of '$T' = '$flattenedType',"
	"expected '$expectedFlattenedType'.");
	}

	ClassElement Future_ = env.getElement('Future');
	ClassElement F = env.getElement('F');
	ClassElement G = env.getElement('G');
	ClassElement H = env.getElement('H');
	ResolutionDartType int_ = env['int'];
	ResolutionDartType dynamic_ = env['dynamic'];
	ResolutionDartType Future_int = instantiate(Future_, [int_]);
	ResolutionDartType F_int = instantiate(F, [int_]);
	ResolutionDartType G_int = instantiate(G, [int_]);
	ResolutionDartType H_int = instantiate(H, [int_]);
	ResolutionDartType H_H_int = instantiate(H, [H_int]);

	// flatten(int) = int
	check(int_, int_);

	// flatten(Future) = dynamic
	check(Future_.rawType, dynamic_);

	// flatten(Future<int>) = int
	check(Future_int, int_);

	// flatten(Future<Future<int>>) = int
	check(instantiate(Future_, [Future_int]), int_);

	// flatten(F) = dynamic
	check(F.rawType, dynamic_);

	// flatten(F<int>) = int
	check(F_int, int_);

	// flatten(F<Future<int>>) = Future<int>
	check(instantiate(F, [Future_int]), Future_int);

	// flatten(G) = G
	check(G.rawType, G.rawType);

	// flatten(G<int>) = G<int>
	check(G_int, G_int);

	// flatten(H) = H<H>
	check(H.rawType, instantiate(H, [H.rawType]));

	// flatten(H<int>) = H<H<int>>
	check(H_int, H_H_int);

	// flatten(Future<F<int>>) = int
	check(instantiate(Future_, [F_int]), int_);

	// flatten(Future<G<int>>) = int
	check(instantiate(Future_, [G_int]), G_int);

	// flatten(Future<H<int>>) = int
	check(instantiate(Future_, [H_int]), H_H_int);
	}));
	}