lib/src/equality.dart - collection - 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.

 import "dart:collection";

 import "comparators.dart";

 const int _HASH_MASK = 0x7fffffff;

 /// A generic equality relation on objects.
 abstract class Equality<E> {
   const factory Equality() = DefaultEquality<E>;

   /// Compare two elements for being equal.
   ///
   /// This should be a proper equality relation.
   bool equals(E e1, E e2);

   /// Get a hashcode of an element.
   ///
   /// The hashcode should be compatible with [equals], so that if
   /// `equals(a, b)` then `hash(a) == hash(b)`.
   int hash(E e);

   /// Test whether an object is a valid argument to [equals] and [hash].
   ///
   /// Some implementations may be restricted to only work on specific types
   /// of objects.
   bool isValidKey(Object o);
 }

 /// Equality of objects that compares only the natural equality of the objects.
 ///
 /// This equality uses the objects' own [Object.==] and [Object.hashCode] for
 /// the equality.
 class DefaultEquality<E> implements Equality<E> {
   const DefaultEquality();
   bool equals(E e1, E e2) => e1 == e2;
   int hash(E e) => e.hashCode;
   bool isValidKey(Object o) => true;
 }

 /// Equality of objects that compares only the identity of the objects.
 class IdentityEquality<E> implements Equality<E> {
   const IdentityEquality();
   bool equals(E e1, E e2) => identical(e1, e2);
   int hash(E e) => identityHashCode(e);
   bool isValidKey(Object o) => true;
 }

 /// Equality on iterables.
 ///
 /// Two iterables are equal if they have the same elements in the same order.
 class IterableEquality<E> implements Equality<Iterable<E>> {
   final Equality<E> _elementEquality;
   const IterableEquality([Equality<E> elementEquality =
                               const DefaultEquality()])
       : _elementEquality = elementEquality;

   bool equals(Iterable<E> elements1, Iterable<E> elements2) {
     if (identical(elements1, elements2)) return true;
     if (elements1 == null || elements2 == null) return false;
     var it1 = elements1.iterator;
     var it2 = elements2.iterator;
     while (true) {
       bool hasNext = it1.moveNext();
       if (hasNext != it2.moveNext()) return false;
       if (!hasNext) return true;
       if (!_elementEquality.equals(it1.current, it2.current)) return false;
     }
   }

   int hash(Iterable<E> elements) {
     // Jenkins's one-at-a-time hash function.
     int hash = 0;
     for (E element in elements) {
       int c = _elementEquality.hash(element);
       hash = (hash + c) & _HASH_MASK;
       hash = (hash + (hash << 10)) & _HASH_MASK;
       hash ^= (hash >> 6);
     }
     hash = (hash + (hash << 3)) & _HASH_MASK;
     hash ^= (hash >> 11);
     hash = (hash + (hash << 15)) & _HASH_MASK;
     return hash;
   }

   bool isValidKey(Object o) => o is Iterable<E>;
 }

 /// Equality on lists.
 ///
 /// Two lists are equal if they have the same length and their elements
 /// at each index are equal.
 ///
 /// This is effectively the same as [IterableEquality] except that it
 /// accesses elements by index instead of through iteration.
 class ListEquality<E> implements Equality<List<E>> {
   final Equality<E> _elementEquality;
   const ListEquality([Equality<E> elementEquality = const DefaultEquality()])
       : _elementEquality = elementEquality;

   bool equals(List<E> e1, List<E> e2) {
     if (identical(e1, e2)) return true;
     if (e1 == null || e2 == null) return false;
     int length = e1.length;
     if (length != e2.length) return false;
     for (int i = 0; i < length; i++) {
       if (!_elementEquality.equals(e1[i], e2[i])) return false;
     }
     return true;
   }

   int hash(List<E> e) {
     // Jenkins's one-at-a-time hash function.
     // This code is almost identical to the one in IterableEquality, except
     // that it uses indexing instead of iterating to get the elements.
     int hash = 0;
     for (int i = 0; i < e.length; i++) {
       int c = _elementEquality.hash(e[i]);
       hash = (hash + c) & _HASH_MASK;
       hash = (hash + (hash << 10)) & _HASH_MASK;
       hash ^= (hash >> 6);
     }
     hash = (hash + (hash << 3)) & _HASH_MASK;
     hash ^= (hash >> 11);
     hash = (hash + (hash << 15)) & _HASH_MASK;
     return hash;
   }

   bool isValidKey(Object o) => o is List<E>;
 }

 abstract class _UnorderedEquality<E, T extends Iterable<E>>
     implements Equality<T> {
   final Equality<E> _elementEquality;

   const _UnorderedEquality(this._elementEquality);

   bool equals(T e1, T e2) {
     if (identical(e1, e2)) return true;
     if (e1 == null || e2 == null) return false;
     HashMap<E, int> counts = new HashMap(
         equals: _elementEquality.equals,
         hashCode: _elementEquality.hash,
         isValidKey: _elementEquality.isValidKey);
     int length = 0;
     for (var e in e1) {
       int count = counts[e];
       if (count == null) count = 0;
       counts[e] = count + 1;
       length++;
     }
     for (var e in e2) {
       int count = counts[e];
       if (count == null || count == 0) return false;
       counts[e] = count - 1;
       length--;
     }
     return length == 0;
   }

   int hash(T e) {
     int hash = 0;
     for (E element in e) {
       int c = _elementEquality.hash(element);
       hash = (hash + c) & _HASH_MASK;
     }
     hash = (hash + (hash << 3)) & _HASH_MASK;
     hash ^= (hash >> 11);
     hash = (hash + (hash << 15)) & _HASH_MASK;
     return hash;
   }
 }

 /// Equality of the elements of two iterables without considering order.
 ///
 /// Two iterables are considered equal if they have the same number of elements,
 /// and the elements of one set can be paired with the elements
 /// of the other iterable, so that each pair are equal.
 class UnorderedIterableEquality<E> extends _UnorderedEquality<E, Iterable<E>> {
   const UnorderedIterableEquality(
       [Equality<E> elementEquality = const DefaultEquality()])
       : super(elementEquality);

   bool isValidKey(Object o) => o is Iterable<E>;
 }

 /// Equality of sets.
 ///
 /// Two sets are considered equal if they have the same number of elements,
 /// and the elements of one set can be paired with the elements
 /// of the other set, so that each pair are equal.
 ///
 /// This equality behaves the same as [UnorderedIterableEquality] except that
 /// it expects sets instead of iterables as arguments.
 class SetEquality<E> extends _UnorderedEquality<E, Set<E>> {
   const SetEquality(
       [Equality<E> elementEquality = const DefaultEquality()])
       : super(elementEquality);

   bool isValidKey(Object o) => o is Set<E>;
 }

 /// Internal class used by [MapEquality].
 ///
 /// The class represents a map entry as a single object,
 /// using a combined hashCode and equality of the key and value.
 class _MapEntry {
   final MapEquality equality;
   final key;
   final value;
   _MapEntry(this.equality, this.key, this.value);

   int get hashCode =>
       (3 * equality._keyEquality.hash(key) +
        7 * equality._valueEquality.hash(value)) & _HASH_MASK;

   bool operator==(Object other) {
     if (other is! _MapEntry) return false;
     _MapEntry otherEntry = other;
     return equality._keyEquality.equals(key, otherEntry.key) &&
            equality._valueEquality.equals(value, otherEntry.value);

   }
 }

 /// Equality on maps.
 ///
 /// Two maps are equal if they have the same number of entries, and if the
 /// entries of the two maps are pairwise equal on both key and value.
 class MapEquality<K, V> implements Equality<Map<K, V>> {
   final Equality<K> _keyEquality;
   final Equality<V> _valueEquality;
   const MapEquality({ Equality<K> keys : const DefaultEquality(),
                       Equality<V> values : const DefaultEquality() })
       : _keyEquality = keys, _valueEquality = values;

   bool equals(Map<K, V> e1, Map<K, V> e2) {
     if (identical(e1, e2)) return true;
     if (e1 == null || e2 == null) return false;
     int length = e1.length;
     if (length != e2.length) return false;
     Map<_MapEntry, int> equalElementCounts = new HashMap();
     for (K key in e1.keys) {
       _MapEntry entry = new _MapEntry(this, key, e1[key]);
       int count = equalElementCounts[entry];
       if (count == null) count = 0;
       equalElementCounts[entry] = count + 1;
     }
     for (K key in e2.keys) {
       _MapEntry entry = new _MapEntry(this, key, e2[key]);
       int count = equalElementCounts[entry];
       if (count == null || count == 0) return false;
       equalElementCounts[entry] = count - 1;
     }
     return true;
   }

   int hash(Map<K, V> map) {
     int hash = 0;
     for (K key in map.keys) {
       int keyHash = _keyEquality.hash(key);
       int valueHash = _valueEquality.hash(map[key]);
       hash = (hash + 3 * keyHash + 7 * valueHash) & _HASH_MASK;
     }
     hash = (hash + (hash << 3)) & _HASH_MASK;
     hash ^= (hash >> 11);
     hash = (hash + (hash << 15)) & _HASH_MASK;
     return hash;
   }

   bool isValidKey(Object o) => o is Map<K, V>;
 }

 /// Combines several equalities into a single equality.
 ///
 /// Tries each equality in order, using [Equality.isValidKey], and returns
 /// the result of the first equality that applies to the argument or arguments.
 ///
 /// For `equals`, the first equality that matches the first argument is used,
 /// and if the second argument of `equals` is not valid for that equality,
 /// it returns false.
 ///
 /// Because the equalities are tried in order, they should generally work on
 /// disjoint types. Otherwise the multi-equality may give inconsistent results
 /// for `equals(e1, e2)` and `equals(e2, e1)`. This can happen if one equality
 /// considers only `e1` a valid key, and not `e2`, but an equality which is
 /// checked later, allows both.
 class MultiEquality<E> implements Equality<E> {
   final Iterable<Equality<E>> _equalities;

   const MultiEquality(Iterable<Equality<E>> equalities)
       : _equalities = equalities;

   bool equals(E e1, E e2) {
     for (Equality<E> eq in _equalities) {
       if (eq.isValidKey(e1)) return eq.isValidKey(e2) && eq.equals(e1, e2);
     }
     return false;
   }

   int hash(E e) {
     for (Equality<E> eq in _equalities) {
       if (eq.isValidKey(e)) return eq.hash(e);
     }
     return -1;
   }

   bool isValidKey(Object o) {
     for (Equality<E> eq in _equalities) {
       if (eq.isValidKey(o)) return true;
     }
     return false;
   }
 }

 /// Deep equality on collections.
 ///
 /// Recognizes lists, sets, iterables and maps and compares their elements using
 /// deep equality as well.
 ///
 /// Non-iterable/map objects are compared using a configurable base equality.
 ///
 /// Works in one of two modes: ordered or unordered.
 ///
 /// In ordered mode, lists and iterables are required to have equal elements
 /// in the same order. In unordered mode, the order of elements in iterables
 /// and lists are not important.
 ///
 /// A list is only equal to another list, likewise for sets and maps. All other
 /// iterables are compared as iterables only.
 class DeepCollectionEquality implements Equality {
   final Equality _base;
   final bool _unordered;
   const DeepCollectionEquality([Equality base = const DefaultEquality()])
       : _base = base, _unordered = false;

   /// Creates a deep equality on collections where the order of lists and
   /// iterables are not considered important. That is, lists and iterables are
   /// treated as unordered iterables.
   const DeepCollectionEquality.unordered(
       [Equality base = const DefaultEquality()])
       : _base = base, _unordered = true;

   bool equals(e1, e2) {
     if (e1 is Set) {
       if (e2 is! Set) return false;
       return new SetEquality(this).equals(e1, e2);
     }
     if (e1 is Map) {
       if (e2 is! Map) return false;
       return new MapEquality(keys: this, values: this).equals(e1, e2);
     }
     if (!_unordered) {
       if (e1 is List) {
         if (e2 is! List) return false;
         return new ListEquality(this).equals(e1, e2);
       }
       if (e1 is Iterable) {
         if (e2 is! Iterable) return false;
         return new IterableEquality(this).equals(e1, e2);
       }
     } else if (e1 is Iterable) {
       if (e2 is! Iterable) return false;
       if (e1 is List != e2 is List) return false;
       return new UnorderedIterableEquality(this).equals(e1, e2);
     }
     return _base.equals(e1, e2);
   }

   int hash(Object o) {
     if (o is Set) return new SetEquality(this).hash(o);
     if (o is Map) return new MapEquality(keys: this, values: this).hash(o);
     if (!_unordered) {
       if (o is List) return new ListEquality(this).hash(o);
       if (o is Iterable) return new IterableEquality(this).hash(o);
     } else if (o is Iterable) {
       return new UnorderedIterableEquality(this).hash(o);
     }
     return _base.hash(o);
   }

   bool isValidKey(Object o) => o is Iterable || o is Map || _base.isValidKey(o);
 }

 /// String equality that's insensitive to differences in ASCII case.
 ///
 /// Non-ASCII characters are compared as-is, with no conversion.
 class CaseInsensitiveEquality implements Equality<String> {
   const CaseInsensitiveEquality();

   bool equals(String string1, String string2) =>
       equalsIgnoreAsciiCase(string1, string2);

   int hash(String string) => hashIgnoreAsciiCase(string);

   bool isValidKey(Object object) => object is String;
 }
	// 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.

	import "dart:collection";

	import "comparators.dart";

	const int _HASH_MASK = 0x7fffffff;

	/// A generic equality relation on objects.
	abstract class Equality<E> {
	const factory Equality() = DefaultEquality<E>;

	/// Compare two elements for being equal.
	///
	/// This should be a proper equality relation.
	bool equals(E e1, E e2);

	/// Get a hashcode of an element.
	///
	/// The hashcode should be compatible with [equals], so that if
	/// `equals(a, b)` then `hash(a) == hash(b)`.
	int hash(E e);

	/// Test whether an object is a valid argument to [equals] and [hash].
	///
	/// Some implementations may be restricted to only work on specific types
	/// of objects.
	bool isValidKey(Object o);
	}

	/// Equality of objects that compares only the natural equality of the objects.
	///
	/// This equality uses the objects' own [Object.==] and [Object.hashCode] for
	/// the equality.
	class DefaultEquality<E> implements Equality<E> {
	const DefaultEquality();
	bool equals(E e1, E e2) => e1 == e2;
	int hash(E e) => e.hashCode;
	bool isValidKey(Object o) => true;
	}

	/// Equality of objects that compares only the identity of the objects.
	class IdentityEquality<E> implements Equality<E> {
	const IdentityEquality();
	bool equals(E e1, E e2) => identical(e1, e2);
	int hash(E e) => identityHashCode(e);
	bool isValidKey(Object o) => true;
	}

	/// Equality on iterables.
	///
	/// Two iterables are equal if they have the same elements in the same order.
	class IterableEquality<E> implements Equality<Iterable<E>> {
	final Equality<E> _elementEquality;
	const IterableEquality([Equality<E> elementEquality =
	const DefaultEquality()])
	: _elementEquality = elementEquality;

	bool equals(Iterable<E> elements1, Iterable<E> elements2) {
	if (identical(elements1, elements2)) return true;
	if (elements1 == null \|\| elements2 == null) return false;
	var it1 = elements1.iterator;
	var it2 = elements2.iterator;
	while (true) {
	bool hasNext = it1.moveNext();
	if (hasNext != it2.moveNext()) return false;
	if (!hasNext) return true;
	if (!_elementEquality.equals(it1.current, it2.current)) return false;
	}
	}

	int hash(Iterable<E> elements) {
	// Jenkins's one-at-a-time hash function.
	int hash = 0;
	for (E element in elements) {
	int c = _elementEquality.hash(element);
	hash = (hash + c) & _HASH_MASK;
	hash = (hash + (hash << 10)) & _HASH_MASK;
	hash ^= (hash >> 6);
	}
	hash = (hash + (hash << 3)) & _HASH_MASK;
	hash ^= (hash >> 11);
	hash = (hash + (hash << 15)) & _HASH_MASK;
	return hash;
	}

	bool isValidKey(Object o) => o is Iterable<E>;
	}

	/// Equality on lists.
	///
	/// Two lists are equal if they have the same length and their elements
	/// at each index are equal.
	///
	/// This is effectively the same as [IterableEquality] except that it
	/// accesses elements by index instead of through iteration.
	class ListEquality<E> implements Equality<List<E>> {
	final Equality<E> _elementEquality;
	const ListEquality([Equality<E> elementEquality = const DefaultEquality()])
	: _elementEquality = elementEquality;

	bool equals(List<E> e1, List<E> e2) {
	if (identical(e1, e2)) return true;
	if (e1 == null \|\| e2 == null) return false;
	int length = e1.length;
	if (length != e2.length) return false;
	for (int i = 0; i < length; i++) {
	if (!_elementEquality.equals(e1[i], e2[i])) return false;
	}
	return true;
	}

	int hash(List<E> e) {
	// Jenkins's one-at-a-time hash function.
	// This code is almost identical to the one in IterableEquality, except
	// that it uses indexing instead of iterating to get the elements.
	int hash = 0;
	for (int i = 0; i < e.length; i++) {
	int c = _elementEquality.hash(e[i]);
	hash = (hash + c) & _HASH_MASK;
	hash = (hash + (hash << 10)) & _HASH_MASK;
	hash ^= (hash >> 6);
	}
	hash = (hash + (hash << 3)) & _HASH_MASK;
	hash ^= (hash >> 11);
	hash = (hash + (hash << 15)) & _HASH_MASK;
	return hash;
	}

	bool isValidKey(Object o) => o is List<E>;
	}

	abstract class _UnorderedEquality<E, T extends Iterable<E>>
	implements Equality<T> {
	final Equality<E> _elementEquality;

	const _UnorderedEquality(this._elementEquality);

	bool equals(T e1, T e2) {
	if (identical(e1, e2)) return true;
	if (e1 == null \|\| e2 == null) return false;
	HashMap<E, int> counts = new HashMap(
	equals: _elementEquality.equals,
	hashCode: _elementEquality.hash,
	isValidKey: _elementEquality.isValidKey);
	int length = 0;
	for (var e in e1) {
	int count = counts[e];
	if (count == null) count = 0;
	counts[e] = count + 1;
	length++;
	}
	for (var e in e2) {
	int count = counts[e];
	if (count == null \|\| count == 0) return false;
	counts[e] = count - 1;
	length--;
	}
	return length == 0;
	}

	int hash(T e) {
	int hash = 0;
	for (E element in e) {
	int c = _elementEquality.hash(element);
	hash = (hash + c) & _HASH_MASK;
	}
	hash = (hash + (hash << 3)) & _HASH_MASK;
	hash ^= (hash >> 11);
	hash = (hash + (hash << 15)) & _HASH_MASK;
	return hash;
	}
	}

	/// Equality of the elements of two iterables without considering order.
	///
	/// Two iterables are considered equal if they have the same number of elements,
	/// and the elements of one set can be paired with the elements
	/// of the other iterable, so that each pair are equal.
	class UnorderedIterableEquality<E> extends _UnorderedEquality<E, Iterable<E>> {
	const UnorderedIterableEquality(
	[Equality<E> elementEquality = const DefaultEquality()])
	: super(elementEquality);

	bool isValidKey(Object o) => o is Iterable<E>;
	}

	/// Equality of sets.
	///
	/// Two sets are considered equal if they have the same number of elements,
	/// and the elements of one set can be paired with the elements
	/// of the other set, so that each pair are equal.
	///
	/// This equality behaves the same as [UnorderedIterableEquality] except that
	/// it expects sets instead of iterables as arguments.
	class SetEquality<E> extends _UnorderedEquality<E, Set<E>> {
	const SetEquality(
	[Equality<E> elementEquality = const DefaultEquality()])
	: super(elementEquality);

	bool isValidKey(Object o) => o is Set<E>;
	}

	/// Internal class used by [MapEquality].
	///
	/// The class represents a map entry as a single object,
	/// using a combined hashCode and equality of the key and value.
	class _MapEntry {
	final MapEquality equality;
	final key;
	final value;
	_MapEntry(this.equality, this.key, this.value);

	int get hashCode =>
	(3 * equality._keyEquality.hash(key) +
	7 * equality._valueEquality.hash(value)) & _HASH_MASK;

	bool operator==(Object other) {
	if (other is! _MapEntry) return false;
	_MapEntry otherEntry = other;
	return equality._keyEquality.equals(key, otherEntry.key) &&
	equality._valueEquality.equals(value, otherEntry.value);

	}
	}

	/// Equality on maps.
	///
	/// Two maps are equal if they have the same number of entries, and if the
	/// entries of the two maps are pairwise equal on both key and value.
	class MapEquality<K, V> implements Equality<Map<K, V>> {
	final Equality<K> _keyEquality;
	final Equality<V> _valueEquality;
	const MapEquality({ Equality<K> keys : const DefaultEquality(),
	Equality<V> values : const DefaultEquality() })
	: _keyEquality = keys, _valueEquality = values;

	bool equals(Map<K, V> e1, Map<K, V> e2) {
	if (identical(e1, e2)) return true;
	if (e1 == null \|\| e2 == null) return false;
	int length = e1.length;
	if (length != e2.length) return false;
	Map<_MapEntry, int> equalElementCounts = new HashMap();
	for (K key in e1.keys) {
	_MapEntry entry = new _MapEntry(this, key, e1[key]);
	int count = equalElementCounts[entry];
	if (count == null) count = 0;
	equalElementCounts[entry] = count + 1;
	}
	for (K key in e2.keys) {
	_MapEntry entry = new _MapEntry(this, key, e2[key]);
	int count = equalElementCounts[entry];
	if (count == null \|\| count == 0) return false;
	equalElementCounts[entry] = count - 1;
	}
	return true;
	}

	int hash(Map<K, V> map) {
	int hash = 0;
	for (K key in map.keys) {
	int keyHash = _keyEquality.hash(key);
	int valueHash = _valueEquality.hash(map[key]);
	hash = (hash + 3 * keyHash + 7 * valueHash) & _HASH_MASK;
	}
	hash = (hash + (hash << 3)) & _HASH_MASK;
	hash ^= (hash >> 11);
	hash = (hash + (hash << 15)) & _HASH_MASK;
	return hash;
	}

	bool isValidKey(Object o) => o is Map<K, V>;
	}

	/// Combines several equalities into a single equality.
	///
	/// Tries each equality in order, using [Equality.isValidKey], and returns
	/// the result of the first equality that applies to the argument or arguments.
	///
	/// For `equals`, the first equality that matches the first argument is used,
	/// and if the second argument of `equals` is not valid for that equality,
	/// it returns false.
	///
	/// Because the equalities are tried in order, they should generally work on
	/// disjoint types. Otherwise the multi-equality may give inconsistent results
	/// for `equals(e1, e2)` and `equals(e2, e1)`. This can happen if one equality
	/// considers only `e1` a valid key, and not `e2`, but an equality which is
	/// checked later, allows both.
	class MultiEquality<E> implements Equality<E> {
	final Iterable<Equality<E>> _equalities;

	const MultiEquality(Iterable<Equality<E>> equalities)
	: _equalities = equalities;

	bool equals(E e1, E e2) {
	for (Equality<E> eq in _equalities) {
	if (eq.isValidKey(e1)) return eq.isValidKey(e2) && eq.equals(e1, e2);
	}
	return false;
	}

	int hash(E e) {
	for (Equality<E> eq in _equalities) {
	if (eq.isValidKey(e)) return eq.hash(e);
	}
	return -1;
	}

	bool isValidKey(Object o) {
	for (Equality<E> eq in _equalities) {
	if (eq.isValidKey(o)) return true;
	}
	return false;
	}
	}

	/// Deep equality on collections.
	///
	/// Recognizes lists, sets, iterables and maps and compares their elements using
	/// deep equality as well.
	///
	/// Non-iterable/map objects are compared using a configurable base equality.
	///
	/// Works in one of two modes: ordered or unordered.
	///
	/// In ordered mode, lists and iterables are required to have equal elements
	/// in the same order. In unordered mode, the order of elements in iterables
	/// and lists are not important.
	///
	/// A list is only equal to another list, likewise for sets and maps. All other
	/// iterables are compared as iterables only.
	class DeepCollectionEquality implements Equality {
	final Equality _base;
	final bool _unordered;
	const DeepCollectionEquality([Equality base = const DefaultEquality()])
	: _base = base, _unordered = false;

	/// Creates a deep equality on collections where the order of lists and
	/// iterables are not considered important. That is, lists and iterables are
	/// treated as unordered iterables.
	const DeepCollectionEquality.unordered(
	[Equality base = const DefaultEquality()])
	: _base = base, _unordered = true;

	bool equals(e1, e2) {
	if (e1 is Set) {
	if (e2 is! Set) return false;
	return new SetEquality(this).equals(e1, e2);
	}
	if (e1 is Map) {
	if (e2 is! Map) return false;
	return new MapEquality(keys: this, values: this).equals(e1, e2);
	}
	if (!_unordered) {
	if (e1 is List) {
	if (e2 is! List) return false;
	return new ListEquality(this).equals(e1, e2);
	}
	if (e1 is Iterable) {
	if (e2 is! Iterable) return false;
	return new IterableEquality(this).equals(e1, e2);
	}
	} else if (e1 is Iterable) {
	if (e2 is! Iterable) return false;
	if (e1 is List != e2 is List) return false;
	return new UnorderedIterableEquality(this).equals(e1, e2);
	}
	return _base.equals(e1, e2);
	}

	int hash(Object o) {
	if (o is Set) return new SetEquality(this).hash(o);
	if (o is Map) return new MapEquality(keys: this, values: this).hash(o);
	if (!_unordered) {
	if (o is List) return new ListEquality(this).hash(o);
	if (o is Iterable) return new IterableEquality(this).hash(o);
	} else if (o is Iterable) {
	return new UnorderedIterableEquality(this).hash(o);
	}
	return _base.hash(o);
	}

	bool isValidKey(Object o) => o is Iterable \|\| o is Map \|\| _base.isValidKey(o);
	}

	/// String equality that's insensitive to differences in ASCII case.
	///
	/// Non-ASCII characters are compared as-is, with no conversion.
	class CaseInsensitiveEquality implements Equality<String> {
	const CaseInsensitiveEquality();

	bool equals(String string1, String string2) =>
	equalsIgnoreAsciiCase(string1, string2);

	int hash(String string) => hashIgnoreAsciiCase(string);

	bool isValidKey(Object object) => object is String;
	}