tests/corelib_2/set_test.dart - sdk.git - Git at Google

 // Copyright (c) 2011, 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 set_test;

 import 'package:expect/expect.dart';
 import "dart:collection";

 void testMain(Set create()) {
   testInts(create);
   testStrings(create);
   testInts(() => create().toSet());
   testStrings(() => create().toSet());
 }

 void testInts(Set create()) {
   Set set = create();

   testLength(0, set);
   Expect.isTrue(set.add(1));
   testLength(1, set);
   Expect.isTrue(set.contains(1));

   Expect.isFalse(set.add(1));
   testLength(1, set);
   Expect.isTrue(set.contains(1));

   Expect.isTrue(set.remove(1));
   testLength(0, set);
   Expect.isFalse(set.contains(1));

   Expect.isFalse(set.remove(1));
   testLength(0, set);
   Expect.isFalse(set.contains(1));

   for (int i = 0; i < 10; i++) {
     set.add(i);
   }

   testLength(10, set);
   for (int i = 0; i < 10; i++) {
     Expect.isTrue(set.contains(i));
   }

   testLength(10, set);

   for (int i = 10; i < 20; i++) {
     Expect.isFalse(set.contains(i));
   }

   // Test Set.forEach.
   int sum = 0;
   testForEach(Object val) {
     sum += ((val as int) + 1);
   }

   set.forEach(testForEach);
   Expect.equals(10 + 9 + 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1, sum);

   Expect.isTrue(set.containsAll(set));

   // Test Set.map.
   testMap(Object val) {
     return (val as int) * (val as int);
   }

   Set mapped = set.map(testMap).toSet();
   Expect.equals(10, mapped.length);

   Expect.isTrue(mapped.contains(0));
   Expect.isTrue(mapped.contains(1));
   Expect.isTrue(mapped.contains(4));
   Expect.isTrue(mapped.contains(9));
   Expect.isTrue(mapped.contains(16));
   Expect.isTrue(mapped.contains(25));
   Expect.isTrue(mapped.contains(36));
   Expect.isTrue(mapped.contains(49));
   Expect.isTrue(mapped.contains(64));
   Expect.isTrue(mapped.contains(81));

   sum = 0;
   set.forEach(testForEach);
   Expect.equals(10 + 9 + 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1, sum);

   sum = 0;

   mapped.forEach(testForEach);
   Expect.equals(1 + 2 + 5 + 10 + 17 + 26 + 37 + 50 + 65 + 82, sum);

   // Test Set.filter.
   testFilter(Object val) {
     return (val as int).isEven;
   }

   Set filtered = set.where(testFilter).toSet();

   Expect.equals(5, filtered.length);

   Expect.isTrue(filtered.contains(0));
   Expect.isTrue(filtered.contains(2));
   Expect.isTrue(filtered.contains(4));
   Expect.isTrue(filtered.contains(6));
   Expect.isTrue(filtered.contains(8));

   sum = 0;
   filtered.forEach(testForEach);
   Expect.equals(1 + 3 + 5 + 7 + 9, sum);

   Expect.isTrue(set.containsAll(filtered));

   // Test Set.every.
   testEvery(Object val) {
     return ((val as int) < 10);
   }

   Expect.isTrue(set.every(testEvery));
   Expect.isTrue(filtered.every(testEvery));

   filtered.add(10);
   Expect.isFalse(filtered.every(testEvery));

   // Test Set.some.
   testSome(Object val) {
     return (val == 4);
   }

   Expect.isTrue(set.any(testSome));
   Expect.isTrue(filtered.any(testSome));
   filtered.remove(4);
   Expect.isFalse(filtered.any(testSome));

   // Test Set.intersection.
   Set intersection = set.intersection(filtered);
   Expect.isTrue(set.contains(0));
   Expect.isTrue(set.contains(2));
   Expect.isTrue(set.contains(6));
   Expect.isTrue(set.contains(8));
   Expect.isFalse(intersection.contains(1));
   Expect.isFalse(intersection.contains(3));
   Expect.isFalse(intersection.contains(4));
   Expect.isFalse(intersection.contains(5));
   Expect.isFalse(intersection.contains(7));
   Expect.isFalse(intersection.contains(9));
   Expect.isFalse(intersection.contains(10));
   Expect.equals(4, intersection.length);

   Expect.isTrue(set.containsAll(intersection));
   Expect.isTrue(filtered.containsAll(intersection));

   // Test Set.union.
   Set twice = create()..addAll([0, 2, 4, 6, 8, 10, 12, 14]);
   Set thrice = create()..addAll([0, 3, 6, 9, 12, 15]);
   Set union = twice.union(thrice);
   Expect.equals(11, union.length);
   for (int i = 0; i < 16; i++) {
     Expect.equals(i.isEven || (i % 3) == 0, union.contains(i));
   }

   // Test Set.difference.
   Set difference = twice.difference(thrice);
   Expect.equals(5, difference.length);
   for (int i = 0; i < 16; i++) {
     Expect.equals(i.isEven && (i % 3) != 0, difference.contains(i));
   }
   Expect.isTrue(twice.difference(thrice).difference(twice).isEmpty);

   // Test Set.difference with non-element type.
   Set diffSet = create()..addAll([0, 1, 2, 499, 999]);
   Set<Object> objectSet = new Set<Object>();
   objectSet.add("foo");
   objectSet.add(499);
   Set diffResult = diffSet.difference(objectSet);
   Expect.equals(4, diffResult.length);
   for (int value in [0, 1, 2, 999]) {
     Expect.isTrue(diffResult.contains(value));
   }

   // Test Set.addAll.
   List list = new List(10);
   for (int i = 0; i < 10; i++) {
     list[i] = i + 10;
   }
   set.addAll(list);
   testLength(20, set);
   for (int i = 0; i < 20; i++) {
     Expect.isTrue(set.contains(i));
   }

   // Test Set.removeAll
   set.removeAll(list);
   testLength(10, set);
   for (int i = 0; i < 10; i++) {
     Expect.isTrue(set.contains(i));
   }
   for (int i = 10; i < 20; i++) {
     Expect.isFalse(set.contains(i));
   }

   // Test Set.clear.
   set.clear();
   testLength(0, set);
   Expect.isTrue(set.add(11));
   testLength(1, set);

   // Test Set.toSet.
   set.add(1);
   set.add(21);
   testLength(3, set);
   var set2 = set.toSet();
   testLength(3, set2);
   Expect.listEquals(set.toList(), set2.toList());
   set.add(31);
   testLength(4, set);
   testLength(3, set2);

   set2 = set.toSet()..clear();
   testLength(0, set2);
   Expect.isTrue(set2.add(11));
   Expect.isTrue(set2.add(1));
   Expect.isTrue(set2.add(21));
   Expect.isTrue(set2.add(31));
   testLength(4, set2);
   Expect.listEquals(set.toList(), set2.toList());

   set2 = (set.toSet()..clear()).toSet(); // Cloning empty set shouldn't fail.
   testLength(0, set2);
 }

 void testLength(int length, Set set) {
   Expect.equals(length, set.length);
   (length == 0 ? Expect.isTrue : Expect.isFalse)(set.isEmpty);
   (length != 0 ? Expect.isTrue : Expect.isFalse)(set.isNotEmpty);
   if (length == 0) {
     for (var e in set) {
       Expect.fail("contains element when iterated: $e");
     }
   }
   (length == 0 ? Expect.isFalse : Expect.isTrue)(set.iterator.moveNext());
 }

 void testStrings(Set create()) {
   var set = create();
   var strings = ["foo", "bar", "baz", "qux", "fisk", "hest", "svin", "pigvar"];
   set.addAll(strings);
   testLength(8, set);
   set.removeAll(strings.where((x) => x.length == 3));
   testLength(4, set);
   Expect.isTrue(set.add("bar"));
   Expect.isTrue(set.add("qux"));
   testLength(6, set);
   set.addAll(strings);
   testLength(8, set);
   set.removeWhere((x) => x.length != 3);
   testLength(4, set);
   set.retainWhere((x) => x[1] == "a");
   testLength(2, set);
   Expect.isTrue(set.containsAll(["baz", "bar"]));

   set = set.union(strings.where((x) => x.length != 3).toSet());
   testLength(6, set);
   set = set.intersection(["qux", "baz", "fisk", "egern"].toSet());
   testLength(2, set);
   Expect.isTrue(set.containsAll(["baz", "fisk"]));
 }

 void testTypeAnnotations(Set<int> set) {
   set.add(0);
   set.add(999);
   set.add(0x800000000);
   set.add(0x20000000000000);
   Expect.isFalse(set.contains("not an it"));
   Expect.isFalse(set.remove("not an it"));
   Expect.isFalse(set.containsAll(["Not an int", "Also no an int"]));

   testLength(4, set);
   set.removeAll(["Not an int", 999, "Also no an int"]);
   testLength(3, set);
   set.retainAll(["Not an int", 0, "Also no an int"]);
   testLength(1, set);
 }

 void testRetainWhere(
     Set<CE> create(
         [CEEq equals, CEHash hashCode, ValidKey validKey, CECompare compare])) {
   // The retainWhere method must not collapse the argument Iterable
   // in a way that doesn't match the equality of the set.
   // It must not throw away equal elements that are different in the
   // equality of the set.
   // It must not consider objects to be not there if they are equal
   // in the equality of the set.

   // If set equality is natural equality, using different but equal objects
   // must work. Can't use an identity set internally (as was done at some point
   // during development).
   var set = create();
   set.addAll([new CE(0), new CE(1), new CE(2)]);
   Expect.equals(3, set.length); // All different.
   set.retainAll([new CE(0), new CE(2)]);
   Expect.equals(2, set.length);
   Expect.isTrue(set.contains(new CE(0)));
   Expect.isTrue(set.contains(new CE(2)));

   // If equality of set is identity, we can't internally use a non-identity
   // based set because it might throw away equal objects that are not identical.
   var elems = [new CE(0), new CE(1), new CE(2), new CE(0)];
   set = create(identical, null, null, identityCompare);
   set.addAll(elems);
   Expect.equals(4, set.length);
   set.retainAll([elems[0], elems[2], elems[3]]);
   Expect.equals(3, set.length);
   Expect.isTrue(set.contains(elems[0]));
   Expect.isTrue(set.contains(elems[2]));
   Expect.isTrue(set.contains(elems[3]));

   // If set equality is less precise than equality, we must not use equality
   // internally to see if the element is there:
   set = create(customEq(3), customHash(3), validKey, customCompare(3));
   set.addAll([new CE(0), new CE(1), new CE(2)]);
   Expect.equals(3, set.length);
   set.retainAll([new CE(3), new CE(5)]);
   Expect.equals(2, set.length);
   Expect.isTrue(set.contains(new CE(6)));
   Expect.isTrue(set.contains(new CE(8)));

   // It shouldn't matter if the input is a set.
   set.clear();
   set.addAll([new CE(0), new CE(1), new CE(2)]);
   Expect.equals(3, set.length);
   set.retainAll(new Set.from([new CE(3), new CE(5)]));
   Expect.equals(2, set.length);
   Expect.isTrue(set.contains(new CE(6)));
   Expect.isTrue(set.contains(new CE(8)));
 }

 void testDifferenceIntersection(create([equals, hashCode, validKey, compare])) {
   // Test that elements of intersection comes from receiver set.
   CE ce1a = new CE(1);
   CE ce1b = new CE(1);
   CE ce2 = new CE(2);
   CE ce3 = new CE(3);
   Expect.equals(ce1a, ce1b); // Sanity check.

   var set1 = create();
   var set2 = create();
   set1.add(ce1a);
   set1.add(ce2);
   set2.add(ce1b);
   set2.add(ce3);

   var difference = set1.difference(set2);
   testLength(1, difference);
   Expect.identical(ce2, difference.lookup(ce2));

   difference = set2.difference(set1);
   testLength(1, difference);
   Expect.identical(ce3, difference.lookup(ce3));

   // Difference uses other.contains to check for equality.
   var set3 = create(identical, identityHashCode, null, identityCompare);
   set3.add(ce1b);
   difference = set1.difference(set3);
   testLength(2, difference); // ce1a is not identical to element in set3.
   Expect.identical(ce1a, difference.lookup(ce1a));
   Expect.identical(ce2, difference.lookup(ce2));

   // Intersection always takes elements from receiver set.
   var intersection = set1.intersection(set2);
   testLength(1, intersection);
   Expect.identical(ce1a, intersection.lookup(ce1a));

   intersection = set1.intersection(set3);
   testLength(0, intersection);
 }

 // Objects that are equal based on data.
 class CE implements Comparable<CE> {
   final int id;
   const CE(this.id);
   int get hashCode => id;
   bool operator ==(Object other) => other is CE && id == other.id;
   int compareTo(CE other) => id - other.id;
   String toString() => "CE($id)";
 }

 typedef int CECompare(CE e1, CE e2);
 typedef int CEHash(CE e1);
 typedef bool CEEq(CE e1, CE e2);
 typedef bool ValidKey(Object o);
 // Equality of Id objects based on id modulo value.
 CEEq customEq(int mod) => (CE e1, CE e2) => ((e1.id - e2.id) % mod) == 0;
 CEHash customHash(int mod) => (CE e) => e.id % mod;
 CECompare customCompare(int mod) =>
     (CE e1, CE e2) => (e1.id % mod) - (e2.id % mod);
 bool validKey(Object o) => o is CE;
 final customId = new Map<dynamic, dynamic>.identity();
 int counter = 0;
 int identityCompare(e1, e2) {
   if (identical(e1, e2)) return 0;
   int i1 = customId.putIfAbsent(e1, () => ++counter);
   int i2 = customId.putIfAbsent(e2, () => ++counter);
   return i1 - i2;
 }

 void testIdentity(Set create()) {
   Set set = create();
   var e1 = new CE(0);
   var e2 = new CE(0);
   Expect.equals(e1, e2);
   Expect.isFalse(identical(e1, e2));

   testLength(0, set);
   set.add(e1);
   testLength(1, set);
   Expect.isTrue(set.contains(e1));
   Expect.isFalse(set.contains(e2));

   set.add(e2);
   testLength(2, set);
   Expect.isTrue(set.contains(e1));
   Expect.isTrue(set.contains(e2));

   var set2 = set.toSet();
   testLength(2, set2);
   Expect.isTrue(set2.contains(e1));
   Expect.isTrue(set2.contains(e2));
 }

 void testIntSetFrom(setFrom) {
   List<num> numList = [2, 3, 5, 7, 11, 13];

   Set<int> set1 = setFrom(numList);
   Expect.listEquals(numList, set1.toList()..sort());

   Set<num> numSet = numList.toSet();
   Set<int> set2 = setFrom(numSet);
   Expect.listEquals(numList, set2.toList()..sort());

   Iterable<num> numIter = numList.where((x) => true);
   Set<int> set3 = setFrom(numIter);
   Expect.listEquals(numList, set3.toList()..sort());

   Set<int> set4 = setFrom(new Iterable.generate(0));
   Expect.isTrue(set4.isEmpty);
 }

 void testCESetFrom(setFrom) {
   var ceList = [
     new CE(2),
     new CE(3),
     new CE(5),
     new CE(7),
     new CE(11),
     new CE(13)
   ];

   Set<CE> set1 = setFrom(ceList);
   Expect.listEquals(ceList, set1.toList()..sort());

   Set<CE> ceSet = ceList.toSet();
   Set<CE> set2 = setFrom(ceSet);
   Expect.listEquals(ceList, set2.toList()..sort());

   Iterable<CE> ceIter = ceList.where((x) => true);
   Set<CE> set3 = setFrom(ceIter);
   Expect.listEquals(ceList, set3.toList()..sort());

   Set<CE> set4 = setFrom(new Iterable.generate(0));
   Expect.isTrue(set4.isEmpty);
 }

 class A {}

 class B {}

 class C implements A, B {}

 void testASetFrom(setFrom) {
   List<B> bList = <B>[new C()];
   // Set.from allows to cast elements.
   Set<A> aSet = setFrom(bList);
   Expect.isTrue(aSet.length == 1);
 }

 main() {
   testMain(() => new HashSet());
   testMain(() => new LinkedHashSet());
   testMain(() => new HashSet.identity());
   testMain(() => new LinkedHashSet.identity());
   testMain(() => new HashSet(equals: identical));
   testMain(() => new LinkedHashSet(equals: identical));
   testMain(() => new HashSet(
       equals: (a, b) => a == b,
       hashCode: (a) => -a.hashCode,
       isValidKey: (a) => true));
   testMain(() => new LinkedHashSet(
       equals: (a, b) => a == b,
       hashCode: (a) => -a.hashCode,
       isValidKey: (a) => true));
   testMain(() => new SplayTreeSet());

   testIdentity(() => new HashSet.identity());
   testIdentity(() => new LinkedHashSet.identity());
   testIdentity(() => new HashSet(equals: identical));
   testIdentity(() => new LinkedHashSet(equals: identical));
   testIdentity(() => new SplayTreeSet(identityCompare));

   testTypeAnnotations(new HashSet<int>());
   testTypeAnnotations(new LinkedHashSet<int>());
   testTypeAnnotations(new HashSet<int>(equals: identical));
   testTypeAnnotations(new LinkedHashSet<int>(equals: identical));
   testTypeAnnotations(new HashSet<int>(
       equals: (int a, int b) => a == b,
       hashCode: (int a) => a.hashCode,
       isValidKey: (a) => a is int));
   testTypeAnnotations(new LinkedHashSet<int>(
       equals: (int a, int b) => a == b,
       hashCode: (int a) => a.hashCode,
       isValidKey: (a) => a is int));
   testTypeAnnotations(new SplayTreeSet<int>());

   testRetainWhere(([equals, hashCode, validKey, comparator]) =>
       new HashSet(equals: equals, hashCode: hashCode, isValidKey: validKey));
   testRetainWhere(([equals, hashCode, validKey, comparator]) =>
       new LinkedHashSet(
           equals: equals, hashCode: hashCode, isValidKey: validKey));
   testRetainWhere(([equals, hashCode, validKey, comparator]) =>
       new SplayTreeSet(comparator, validKey));

   testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
       new HashSet(equals: equals, hashCode: hashCode, isValidKey: validKey));
   testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
       new LinkedHashSet(
           equals: equals, hashCode: hashCode, isValidKey: validKey));
   testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
       new SplayTreeSet(comparator, validKey));

   testIntSetFrom((x) => new Set<int>.from(x));
   testIntSetFrom((x) => new HashSet<int>.from(x));
   testIntSetFrom((x) => new LinkedHashSet<int>.from(x));
   testIntSetFrom((x) => new SplayTreeSet<int>.from(x));

   testCESetFrom((x) => new Set<CE>.from(x));
   testCESetFrom((x) => new HashSet<CE>.from(x));
   testCESetFrom((x) => new LinkedHashSet<CE>.from(x));
   testCESetFrom((x) => new SplayTreeSet<CE>.from(x));

   testCESetFrom(
       (x) => new SplayTreeSet<CE>.from(x, customCompare(20), validKey));
   testCESetFrom((x) => new SplayTreeSet<CE>.from(x, identityCompare));

   testASetFrom((x) => new Set<A>.from(x));
   testASetFrom((x) => new HashSet<A>.from(x));
   testASetFrom((x) => new LinkedHashSet<A>.from(x));
   testASetFrom((x) => new SplayTreeSet<A>.from(x, identityCompare));
 }
	// Copyright (c) 2011, 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 set_test;

	import 'package:expect/expect.dart';
	import "dart:collection";

	void testMain(Set create()) {
	testInts(create);
	testStrings(create);
	testInts(() => create().toSet());
	testStrings(() => create().toSet());
	}

	void testInts(Set create()) {
	Set set = create();

	testLength(0, set);
	Expect.isTrue(set.add(1));
	testLength(1, set);
	Expect.isTrue(set.contains(1));

	Expect.isFalse(set.add(1));
	testLength(1, set);
	Expect.isTrue(set.contains(1));

	Expect.isTrue(set.remove(1));
	testLength(0, set);
	Expect.isFalse(set.contains(1));

	Expect.isFalse(set.remove(1));
	testLength(0, set);
	Expect.isFalse(set.contains(1));

	for (int i = 0; i < 10; i++) {
	set.add(i);
	}

	testLength(10, set);
	for (int i = 0; i < 10; i++) {
	Expect.isTrue(set.contains(i));
	}

	testLength(10, set);

	for (int i = 10; i < 20; i++) {
	Expect.isFalse(set.contains(i));
	}

	// Test Set.forEach.
	int sum = 0;
	testForEach(Object val) {
	sum += ((val as int) + 1);
	}

	set.forEach(testForEach);
	Expect.equals(10 + 9 + 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1, sum);

	Expect.isTrue(set.containsAll(set));

	// Test Set.map.
	testMap(Object val) {
	return (val as int) * (val as int);
	}

	Set mapped = set.map(testMap).toSet();
	Expect.equals(10, mapped.length);

	Expect.isTrue(mapped.contains(0));
	Expect.isTrue(mapped.contains(1));
	Expect.isTrue(mapped.contains(4));
	Expect.isTrue(mapped.contains(9));
	Expect.isTrue(mapped.contains(16));
	Expect.isTrue(mapped.contains(25));
	Expect.isTrue(mapped.contains(36));
	Expect.isTrue(mapped.contains(49));
	Expect.isTrue(mapped.contains(64));
	Expect.isTrue(mapped.contains(81));

	sum = 0;
	set.forEach(testForEach);
	Expect.equals(10 + 9 + 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1, sum);

	sum = 0;

	mapped.forEach(testForEach);
	Expect.equals(1 + 2 + 5 + 10 + 17 + 26 + 37 + 50 + 65 + 82, sum);

	// Test Set.filter.
	testFilter(Object val) {
	return (val as int).isEven;
	}

	Set filtered = set.where(testFilter).toSet();

	Expect.equals(5, filtered.length);

	Expect.isTrue(filtered.contains(0));
	Expect.isTrue(filtered.contains(2));
	Expect.isTrue(filtered.contains(4));
	Expect.isTrue(filtered.contains(6));
	Expect.isTrue(filtered.contains(8));

	sum = 0;
	filtered.forEach(testForEach);
	Expect.equals(1 + 3 + 5 + 7 + 9, sum);

	Expect.isTrue(set.containsAll(filtered));

	// Test Set.every.
	testEvery(Object val) {
	return ((val as int) < 10);
	}

	Expect.isTrue(set.every(testEvery));
	Expect.isTrue(filtered.every(testEvery));

	filtered.add(10);
	Expect.isFalse(filtered.every(testEvery));

	// Test Set.some.
	testSome(Object val) {
	return (val == 4);
	}

	Expect.isTrue(set.any(testSome));
	Expect.isTrue(filtered.any(testSome));
	filtered.remove(4);
	Expect.isFalse(filtered.any(testSome));

	// Test Set.intersection.
	Set intersection = set.intersection(filtered);
	Expect.isTrue(set.contains(0));
	Expect.isTrue(set.contains(2));
	Expect.isTrue(set.contains(6));
	Expect.isTrue(set.contains(8));
	Expect.isFalse(intersection.contains(1));
	Expect.isFalse(intersection.contains(3));
	Expect.isFalse(intersection.contains(4));
	Expect.isFalse(intersection.contains(5));
	Expect.isFalse(intersection.contains(7));
	Expect.isFalse(intersection.contains(9));
	Expect.isFalse(intersection.contains(10));
	Expect.equals(4, intersection.length);

	Expect.isTrue(set.containsAll(intersection));
	Expect.isTrue(filtered.containsAll(intersection));

	// Test Set.union.
	Set twice = create()..addAll([0, 2, 4, 6, 8, 10, 12, 14]);
	Set thrice = create()..addAll([0, 3, 6, 9, 12, 15]);
	Set union = twice.union(thrice);
	Expect.equals(11, union.length);
	for (int i = 0; i < 16; i++) {
	Expect.equals(i.isEven \|\| (i % 3) == 0, union.contains(i));
	}

	// Test Set.difference.
	Set difference = twice.difference(thrice);
	Expect.equals(5, difference.length);
	for (int i = 0; i < 16; i++) {
	Expect.equals(i.isEven && (i % 3) != 0, difference.contains(i));
	}
	Expect.isTrue(twice.difference(thrice).difference(twice).isEmpty);

	// Test Set.difference with non-element type.
	Set diffSet = create()..addAll([0, 1, 2, 499, 999]);
	Set<Object> objectSet = new Set<Object>();
	objectSet.add("foo");
	objectSet.add(499);
	Set diffResult = diffSet.difference(objectSet);
	Expect.equals(4, diffResult.length);
	for (int value in [0, 1, 2, 999]) {
	Expect.isTrue(diffResult.contains(value));
	}

	// Test Set.addAll.
	List list = new List(10);
	for (int i = 0; i < 10; i++) {
	list[i] = i + 10;
	}
	set.addAll(list);
	testLength(20, set);
	for (int i = 0; i < 20; i++) {
	Expect.isTrue(set.contains(i));
	}

	// Test Set.removeAll
	set.removeAll(list);
	testLength(10, set);
	for (int i = 0; i < 10; i++) {
	Expect.isTrue(set.contains(i));
	}
	for (int i = 10; i < 20; i++) {
	Expect.isFalse(set.contains(i));
	}

	// Test Set.clear.
	set.clear();
	testLength(0, set);
	Expect.isTrue(set.add(11));
	testLength(1, set);

	// Test Set.toSet.
	set.add(1);
	set.add(21);
	testLength(3, set);
	var set2 = set.toSet();
	testLength(3, set2);
	Expect.listEquals(set.toList(), set2.toList());
	set.add(31);
	testLength(4, set);
	testLength(3, set2);

	set2 = set.toSet()..clear();
	testLength(0, set2);
	Expect.isTrue(set2.add(11));
	Expect.isTrue(set2.add(1));
	Expect.isTrue(set2.add(21));
	Expect.isTrue(set2.add(31));
	testLength(4, set2);
	Expect.listEquals(set.toList(), set2.toList());

	set2 = (set.toSet()..clear()).toSet(); // Cloning empty set shouldn't fail.
	testLength(0, set2);
	}

	void testLength(int length, Set set) {
	Expect.equals(length, set.length);
	(length == 0 ? Expect.isTrue : Expect.isFalse)(set.isEmpty);
	(length != 0 ? Expect.isTrue : Expect.isFalse)(set.isNotEmpty);
	if (length == 0) {
	for (var e in set) {
	Expect.fail("contains element when iterated: $e");
	}
	}
	(length == 0 ? Expect.isFalse : Expect.isTrue)(set.iterator.moveNext());
	}

	void testStrings(Set create()) {
	var set = create();
	var strings = ["foo", "bar", "baz", "qux", "fisk", "hest", "svin", "pigvar"];
	set.addAll(strings);
	testLength(8, set);
	set.removeAll(strings.where((x) => x.length == 3));
	testLength(4, set);
	Expect.isTrue(set.add("bar"));
	Expect.isTrue(set.add("qux"));
	testLength(6, set);
	set.addAll(strings);
	testLength(8, set);
	set.removeWhere((x) => x.length != 3);
	testLength(4, set);
	set.retainWhere((x) => x[1] == "a");
	testLength(2, set);
	Expect.isTrue(set.containsAll(["baz", "bar"]));

	set = set.union(strings.where((x) => x.length != 3).toSet());
	testLength(6, set);
	set = set.intersection(["qux", "baz", "fisk", "egern"].toSet());
	testLength(2, set);
	Expect.isTrue(set.containsAll(["baz", "fisk"]));
	}

	void testTypeAnnotations(Set<int> set) {
	set.add(0);
	set.add(999);
	set.add(0x800000000);
	set.add(0x20000000000000);
	Expect.isFalse(set.contains("not an it"));
	Expect.isFalse(set.remove("not an it"));
	Expect.isFalse(set.containsAll(["Not an int", "Also no an int"]));

	testLength(4, set);
	set.removeAll(["Not an int", 999, "Also no an int"]);
	testLength(3, set);
	set.retainAll(["Not an int", 0, "Also no an int"]);
	testLength(1, set);
	}

	void testRetainWhere(
	Set<CE> create(
	[CEEq equals, CEHash hashCode, ValidKey validKey, CECompare compare])) {
	// The retainWhere method must not collapse the argument Iterable
	// in a way that doesn't match the equality of the set.
	// It must not throw away equal elements that are different in the
	// equality of the set.
	// It must not consider objects to be not there if they are equal
	// in the equality of the set.

	// If set equality is natural equality, using different but equal objects
	// must work. Can't use an identity set internally (as was done at some point
	// during development).
	var set = create();
	set.addAll([new CE(0), new CE(1), new CE(2)]);
	Expect.equals(3, set.length); // All different.
	set.retainAll([new CE(0), new CE(2)]);
	Expect.equals(2, set.length);
	Expect.isTrue(set.contains(new CE(0)));
	Expect.isTrue(set.contains(new CE(2)));

	// If equality of set is identity, we can't internally use a non-identity
	// based set because it might throw away equal objects that are not identical.
	var elems = [new CE(0), new CE(1), new CE(2), new CE(0)];
	set = create(identical, null, null, identityCompare);
	set.addAll(elems);
	Expect.equals(4, set.length);
	set.retainAll([elems[0], elems[2], elems[3]]);
	Expect.equals(3, set.length);
	Expect.isTrue(set.contains(elems[0]));
	Expect.isTrue(set.contains(elems[2]));
	Expect.isTrue(set.contains(elems[3]));

	// If set equality is less precise than equality, we must not use equality
	// internally to see if the element is there:
	set = create(customEq(3), customHash(3), validKey, customCompare(3));
	set.addAll([new CE(0), new CE(1), new CE(2)]);
	Expect.equals(3, set.length);
	set.retainAll([new CE(3), new CE(5)]);
	Expect.equals(2, set.length);
	Expect.isTrue(set.contains(new CE(6)));
	Expect.isTrue(set.contains(new CE(8)));

	// It shouldn't matter if the input is a set.
	set.clear();
	set.addAll([new CE(0), new CE(1), new CE(2)]);
	Expect.equals(3, set.length);
	set.retainAll(new Set.from([new CE(3), new CE(5)]));
	Expect.equals(2, set.length);
	Expect.isTrue(set.contains(new CE(6)));
	Expect.isTrue(set.contains(new CE(8)));
	}

	void testDifferenceIntersection(create([equals, hashCode, validKey, compare])) {
	// Test that elements of intersection comes from receiver set.
	CE ce1a = new CE(1);
	CE ce1b = new CE(1);
	CE ce2 = new CE(2);
	CE ce3 = new CE(3);
	Expect.equals(ce1a, ce1b); // Sanity check.

	var set1 = create();
	var set2 = create();
	set1.add(ce1a);
	set1.add(ce2);
	set2.add(ce1b);
	set2.add(ce3);

	var difference = set1.difference(set2);
	testLength(1, difference);
	Expect.identical(ce2, difference.lookup(ce2));

	difference = set2.difference(set1);
	testLength(1, difference);
	Expect.identical(ce3, difference.lookup(ce3));

	// Difference uses other.contains to check for equality.
	var set3 = create(identical, identityHashCode, null, identityCompare);
	set3.add(ce1b);
	difference = set1.difference(set3);
	testLength(2, difference); // ce1a is not identical to element in set3.
	Expect.identical(ce1a, difference.lookup(ce1a));
	Expect.identical(ce2, difference.lookup(ce2));

	// Intersection always takes elements from receiver set.
	var intersection = set1.intersection(set2);
	testLength(1, intersection);
	Expect.identical(ce1a, intersection.lookup(ce1a));

	intersection = set1.intersection(set3);
	testLength(0, intersection);
	}

	// Objects that are equal based on data.
	class CE implements Comparable<CE> {
	final int id;
	const CE(this.id);
	int get hashCode => id;
	bool operator ==(Object other) => other is CE && id == other.id;
	int compareTo(CE other) => id - other.id;
	String toString() => "CE($id)";
	}

	typedef int CECompare(CE e1, CE e2);
	typedef int CEHash(CE e1);
	typedef bool CEEq(CE e1, CE e2);
	typedef bool ValidKey(Object o);
	// Equality of Id objects based on id modulo value.
	CEEq customEq(int mod) => (CE e1, CE e2) => ((e1.id - e2.id) % mod) == 0;
	CEHash customHash(int mod) => (CE e) => e.id % mod;
	CECompare customCompare(int mod) =>
	(CE e1, CE e2) => (e1.id % mod) - (e2.id % mod);
	bool validKey(Object o) => o is CE;
	final customId = new Map<dynamic, dynamic>.identity();
	int counter = 0;
	int identityCompare(e1, e2) {
	if (identical(e1, e2)) return 0;
	int i1 = customId.putIfAbsent(e1, () => ++counter);
	int i2 = customId.putIfAbsent(e2, () => ++counter);
	return i1 - i2;
	}

	void testIdentity(Set create()) {
	Set set = create();
	var e1 = new CE(0);
	var e2 = new CE(0);
	Expect.equals(e1, e2);
	Expect.isFalse(identical(e1, e2));

	testLength(0, set);
	set.add(e1);
	testLength(1, set);
	Expect.isTrue(set.contains(e1));
	Expect.isFalse(set.contains(e2));

	set.add(e2);
	testLength(2, set);
	Expect.isTrue(set.contains(e1));
	Expect.isTrue(set.contains(e2));

	var set2 = set.toSet();
	testLength(2, set2);
	Expect.isTrue(set2.contains(e1));
	Expect.isTrue(set2.contains(e2));
	}

	void testIntSetFrom(setFrom) {
	List<num> numList = [2, 3, 5, 7, 11, 13];

	Set<int> set1 = setFrom(numList);
	Expect.listEquals(numList, set1.toList()..sort());

	Set<num> numSet = numList.toSet();
	Set<int> set2 = setFrom(numSet);
	Expect.listEquals(numList, set2.toList()..sort());

	Iterable<num> numIter = numList.where((x) => true);
	Set<int> set3 = setFrom(numIter);
	Expect.listEquals(numList, set3.toList()..sort());

	Set<int> set4 = setFrom(new Iterable.generate(0));
	Expect.isTrue(set4.isEmpty);
	}

	void testCESetFrom(setFrom) {
	var ceList = [
	new CE(2),
	new CE(3),
	new CE(5),
	new CE(7),
	new CE(11),
	new CE(13)
	];

	Set<CE> set1 = setFrom(ceList);
	Expect.listEquals(ceList, set1.toList()..sort());

	Set<CE> ceSet = ceList.toSet();
	Set<CE> set2 = setFrom(ceSet);
	Expect.listEquals(ceList, set2.toList()..sort());

	Iterable<CE> ceIter = ceList.where((x) => true);
	Set<CE> set3 = setFrom(ceIter);
	Expect.listEquals(ceList, set3.toList()..sort());

	Set<CE> set4 = setFrom(new Iterable.generate(0));
	Expect.isTrue(set4.isEmpty);
	}

	class A {}

	class B {}

	class C implements A, B {}

	void testASetFrom(setFrom) {
	List<B> bList = <B>[new C()];
	// Set.from allows to cast elements.
	Set<A> aSet = setFrom(bList);
	Expect.isTrue(aSet.length == 1);
	}

	main() {
	testMain(() => new HashSet());
	testMain(() => new LinkedHashSet());
	testMain(() => new HashSet.identity());
	testMain(() => new LinkedHashSet.identity());
	testMain(() => new HashSet(equals: identical));
	testMain(() => new LinkedHashSet(equals: identical));
	testMain(() => new HashSet(
	equals: (a, b) => a == b,
	hashCode: (a) => -a.hashCode,
	isValidKey: (a) => true));
	testMain(() => new LinkedHashSet(
	equals: (a, b) => a == b,
	hashCode: (a) => -a.hashCode,
	isValidKey: (a) => true));
	testMain(() => new SplayTreeSet());

	testIdentity(() => new HashSet.identity());
	testIdentity(() => new LinkedHashSet.identity());
	testIdentity(() => new HashSet(equals: identical));
	testIdentity(() => new LinkedHashSet(equals: identical));
	testIdentity(() => new SplayTreeSet(identityCompare));

	testTypeAnnotations(new HashSet<int>());
	testTypeAnnotations(new LinkedHashSet<int>());
	testTypeAnnotations(new HashSet<int>(equals: identical));
	testTypeAnnotations(new LinkedHashSet<int>(equals: identical));
	testTypeAnnotations(new HashSet<int>(
	equals: (int a, int b) => a == b,
	hashCode: (int a) => a.hashCode,
	isValidKey: (a) => a is int));
	testTypeAnnotations(new LinkedHashSet<int>(
	equals: (int a, int b) => a == b,
	hashCode: (int a) => a.hashCode,
	isValidKey: (a) => a is int));
	testTypeAnnotations(new SplayTreeSet<int>());

	testRetainWhere(([equals, hashCode, validKey, comparator]) =>
	new HashSet(equals: equals, hashCode: hashCode, isValidKey: validKey));
	testRetainWhere(([equals, hashCode, validKey, comparator]) =>
	new LinkedHashSet(
	equals: equals, hashCode: hashCode, isValidKey: validKey));
	testRetainWhere(([equals, hashCode, validKey, comparator]) =>
	new SplayTreeSet(comparator, validKey));

	testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
	new HashSet(equals: equals, hashCode: hashCode, isValidKey: validKey));
	testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
	new LinkedHashSet(
	equals: equals, hashCode: hashCode, isValidKey: validKey));
	testDifferenceIntersection(([equals, hashCode, validKey, comparator]) =>
	new SplayTreeSet(comparator, validKey));

	testIntSetFrom((x) => new Set<int>.from(x));
	testIntSetFrom((x) => new HashSet<int>.from(x));
	testIntSetFrom((x) => new LinkedHashSet<int>.from(x));
	testIntSetFrom((x) => new SplayTreeSet<int>.from(x));

	testCESetFrom((x) => new Set<CE>.from(x));
	testCESetFrom((x) => new HashSet<CE>.from(x));
	testCESetFrom((x) => new LinkedHashSet<CE>.from(x));
	testCESetFrom((x) => new SplayTreeSet<CE>.from(x));

	testCESetFrom(
	(x) => new SplayTreeSet<CE>.from(x, customCompare(20), validKey));
	testCESetFrom((x) => new SplayTreeSet<CE>.from(x, identityCompare));

	testASetFrom((x) => new Set<A>.from(x));
	testASetFrom((x) => new HashSet<A>.from(x));
	testASetFrom((x) => new LinkedHashSet<A>.from(x));
	testASetFrom((x) => new SplayTreeSet<A>.from(x, identityCompare));
	}