tests/compiler/dart2js/model/enumset_test.dart - sdk - Git at Google

 // Copyright (c) 2016, 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 enumset.test;

 import 'package:compiler/src/util/enumset.dart';
 import 'package:expect/expect.dart';

 enum Enum {
   A,
   B,
   C,
   D,
   E,
   F,
 }

 main() {
   testAddRemoveContains();
   testConstructorsIntersects();
 }

 void checkEnumSet(EnumSet<Enum> enumSet, int expectedValue,
     List<Enum> expectedValues, String expectedToString) {
   Expect.equals(expectedValue, enumSet.value,
       "Unexpected EnumSet.value for ${enumSet.iterable(Enum.values)}");
   Expect.listEquals(expectedValues, enumSet.iterable(Enum.values).toList(),
       "Unexpected values: ${enumSet.iterable(Enum.values)}");
   Expect.equals(expectedValues.isEmpty, enumSet.isEmpty,
       "Unexpected EnumSet.isEmpty for ${enumSet.iterable(Enum.values)}");
   Expect.equals(expectedToString, enumSet.toString(),
       "Unexpected EnumSet.toString for ${enumSet.iterable(Enum.values)}");
   for (Enum value in Enum.values) {
     Expect.equals(
         expectedValues.contains(value),
         enumSet.contains(value),
         "Unexpected EnumSet.contains for $value in "
         "${enumSet.iterable(Enum.values)}");
   }
 }

 void testAddRemoveContains() {
   EnumSet<Enum> enumSet = new EnumSet<Enum>();

   void check(
       int expectedValue, List<Enum> expectedValues, String expectedToString) {
     checkEnumSet(enumSet, expectedValue, expectedValues, expectedToString);
   }

   check(0, [], '0');

   enumSet.add(Enum.B);
   check(2, [Enum.B], '10');

   enumSet.add(Enum.F);
   check(34, [Enum.F, Enum.B], '100010');

   enumSet.add(Enum.A);
   check(35, [Enum.F, Enum.B, Enum.A], '100011');

   enumSet.add(Enum.A);
   check(35, [Enum.F, Enum.B, Enum.A], '100011');

   enumSet.remove(Enum.C);
   check(35, [Enum.F, Enum.B, Enum.A], '100011');

   enumSet.remove(Enum.B);
   check(33, [Enum.F, Enum.A], '100001');

   enumSet.remove(Enum.A);
   check(32, [Enum.F], '100000');

   enumSet.clear();
   check(0, [], '0');

   enumSet.add(Enum.A);
   enumSet.add(Enum.B);
   enumSet.add(Enum.C);
   enumSet.add(Enum.D);
   enumSet.add(Enum.E);
   enumSet.add(Enum.F);
   check(63, [Enum.F, Enum.E, Enum.D, Enum.C, Enum.B, Enum.A], '111111');
 }

 void testConstructorsIntersects() {
   EnumSet<Enum> emptyA = new EnumSet<Enum>();
   EnumSet<Enum> emptyB = new EnumSet<Enum>.fromValue(0);
   EnumSet<Enum> emptyC = const EnumSet<Enum>.fixed(0);
   EnumSet<Enum> emptyD = new EnumSet<Enum>.fixed(0);

   void checkIntersects(EnumSet<Enum> a, EnumSet<Enum> b, bool expectedValue) {
     Expect.equals(
         expectedValue, a.intersects(b), "Unexpected intersects of $a and $b");
     Expect.equals(a.intersects(b), b.intersects(a),
         "Unsymmetric intersects of $a and $b");
   }

   void check(EnumSet<Enum> a, EnumSet<Enum> b) {
     Expect.equals(a.value, b.value, "Unexpected values of $a and $b");
     Expect.equals(a.hashCode, b.hashCode, "Unexpected hash codes of $a and $b");
     Expect.equals(a, b, "Unexpected equality of $a and $b");
     checkIntersects(a, b, !a.isEmpty);
   }

   check(emptyA, emptyA);
   check(emptyA, emptyB);
   check(emptyA, emptyC);
   check(emptyA, emptyD);

   EnumSet<Enum> singleA = new EnumSet<Enum>()..add(Enum.C);
   EnumSet<Enum> singleB = new EnumSet<Enum>.fromValue(4);
   EnumSet<Enum> singleC = const EnumSet<Enum>.fixed(4);
   EnumSet<Enum> singleD = new EnumSet<Enum>.fixed(4);
   EnumSet<Enum> singleE = new EnumSet<Enum>.fromValues([Enum.C]);
   EnumSet<Enum> singleF = new EnumSet<Enum>.fromValues([Enum.C], fixed: true);

   check(singleA, singleA);
   check(singleA, singleB);
   check(singleA, singleC);
   check(singleA, singleD);
   check(singleA, singleE);
   check(singleA, singleF);

   EnumSet<Enum> multiA = new EnumSet<Enum>()
     ..add(Enum.A)
     ..add(Enum.D)
     ..add(Enum.F);
   EnumSet<Enum> multiB = new EnumSet<Enum>.fromValue(41);
   EnumSet<Enum> multiC = const EnumSet<Enum>.fixed(41);
   EnumSet<Enum> multiD = new EnumSet<Enum>.fixed(41);
   EnumSet<Enum> multiE = new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.D]);
   EnumSet<Enum> multiF =
       new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.D], fixed: true);

   check(multiA, multiA);
   check(multiA, multiB);
   check(multiA, multiC);
   check(multiA, multiD);
   check(multiA, multiE);
   check(multiA, multiF);

   EnumSet<Enum> multi2 = new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.C]);

   checkIntersects(emptyA, singleA, false);
   checkIntersects(emptyA, multiA, false);
   checkIntersects(emptyA, multi2, false);

   checkIntersects(singleA, multiA, false);
   checkIntersects(singleA, multi2, true);

   checkIntersects(multiA, multi2, true);
 }
	// Copyright (c) 2016, 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 enumset.test;

	import 'package:compiler/src/util/enumset.dart';
	import 'package:expect/expect.dart';

	enum Enum {
	A,
	B,
	C,
	D,
	E,
	F,
	}

	main() {
	testAddRemoveContains();
	testConstructorsIntersects();
	}

	void checkEnumSet(EnumSet<Enum> enumSet, int expectedValue,
	List<Enum> expectedValues, String expectedToString) {
	Expect.equals(expectedValue, enumSet.value,
	"Unexpected EnumSet.value for ${enumSet.iterable(Enum.values)}");
	Expect.listEquals(expectedValues, enumSet.iterable(Enum.values).toList(),
	"Unexpected values: ${enumSet.iterable(Enum.values)}");
	Expect.equals(expectedValues.isEmpty, enumSet.isEmpty,
	"Unexpected EnumSet.isEmpty for ${enumSet.iterable(Enum.values)}");
	Expect.equals(expectedToString, enumSet.toString(),
	"Unexpected EnumSet.toString for ${enumSet.iterable(Enum.values)}");
	for (Enum value in Enum.values) {
	Expect.equals(
	expectedValues.contains(value),
	enumSet.contains(value),
	"Unexpected EnumSet.contains for $value in "
	"${enumSet.iterable(Enum.values)}");
	}
	}

	void testAddRemoveContains() {
	EnumSet<Enum> enumSet = new EnumSet<Enum>();

	void check(
	int expectedValue, List<Enum> expectedValues, String expectedToString) {
	checkEnumSet(enumSet, expectedValue, expectedValues, expectedToString);
	}

	check(0, [], '0');

	enumSet.add(Enum.B);
	check(2, [Enum.B], '10');

	enumSet.add(Enum.F);
	check(34, [Enum.F, Enum.B], '100010');

	enumSet.add(Enum.A);
	check(35, [Enum.F, Enum.B, Enum.A], '100011');

	enumSet.add(Enum.A);
	check(35, [Enum.F, Enum.B, Enum.A], '100011');

	enumSet.remove(Enum.C);
	check(35, [Enum.F, Enum.B, Enum.A], '100011');

	enumSet.remove(Enum.B);
	check(33, [Enum.F, Enum.A], '100001');

	enumSet.remove(Enum.A);
	check(32, [Enum.F], '100000');

	enumSet.clear();
	check(0, [], '0');

	enumSet.add(Enum.A);
	enumSet.add(Enum.B);
	enumSet.add(Enum.C);
	enumSet.add(Enum.D);
	enumSet.add(Enum.E);
	enumSet.add(Enum.F);
	check(63, [Enum.F, Enum.E, Enum.D, Enum.C, Enum.B, Enum.A], '111111');
	}

	void testConstructorsIntersects() {
	EnumSet<Enum> emptyA = new EnumSet<Enum>();
	EnumSet<Enum> emptyB = new EnumSet<Enum>.fromValue(0);
	EnumSet<Enum> emptyC = const EnumSet<Enum>.fixed(0);
	EnumSet<Enum> emptyD = new EnumSet<Enum>.fixed(0);

	void checkIntersects(EnumSet<Enum> a, EnumSet<Enum> b, bool expectedValue) {
	Expect.equals(
	expectedValue, a.intersects(b), "Unexpected intersects of $a and $b");
	Expect.equals(a.intersects(b), b.intersects(a),
	"Unsymmetric intersects of $a and $b");
	}

	void check(EnumSet<Enum> a, EnumSet<Enum> b) {
	Expect.equals(a.value, b.value, "Unexpected values of $a and $b");
	Expect.equals(a.hashCode, b.hashCode, "Unexpected hash codes of $a and $b");
	Expect.equals(a, b, "Unexpected equality of $a and $b");
	checkIntersects(a, b, !a.isEmpty);
	}

	check(emptyA, emptyA);
	check(emptyA, emptyB);
	check(emptyA, emptyC);
	check(emptyA, emptyD);

	EnumSet<Enum> singleA = new EnumSet<Enum>()..add(Enum.C);
	EnumSet<Enum> singleB = new EnumSet<Enum>.fromValue(4);
	EnumSet<Enum> singleC = const EnumSet<Enum>.fixed(4);
	EnumSet<Enum> singleD = new EnumSet<Enum>.fixed(4);
	EnumSet<Enum> singleE = new EnumSet<Enum>.fromValues([Enum.C]);
	EnumSet<Enum> singleF = new EnumSet<Enum>.fromValues([Enum.C], fixed: true);

	check(singleA, singleA);
	check(singleA, singleB);
	check(singleA, singleC);
	check(singleA, singleD);
	check(singleA, singleE);
	check(singleA, singleF);

	EnumSet<Enum> multiA = new EnumSet<Enum>()
	..add(Enum.A)
	..add(Enum.D)
	..add(Enum.F);
	EnumSet<Enum> multiB = new EnumSet<Enum>.fromValue(41);
	EnumSet<Enum> multiC = const EnumSet<Enum>.fixed(41);
	EnumSet<Enum> multiD = new EnumSet<Enum>.fixed(41);
	EnumSet<Enum> multiE = new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.D]);
	EnumSet<Enum> multiF =
	new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.D], fixed: true);

	check(multiA, multiA);
	check(multiA, multiB);
	check(multiA, multiC);
	check(multiA, multiD);
	check(multiA, multiE);
	check(multiA, multiF);

	EnumSet<Enum> multi2 = new EnumSet<Enum>.fromValues([Enum.F, Enum.A, Enum.C]);

	checkIntersects(emptyA, singleA, false);
	checkIntersects(emptyA, multiA, false);
	checkIntersects(emptyA, multi2, false);

	checkIntersects(singleA, multiA, false);
	checkIntersects(singleA, multi2, true);

	checkIntersects(multiA, multi2, true);
	}