sdk/lib/collection/hash_map.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.

 part of dart.collection;

 /// Default function for equality comparison in customized HashMaps.
 bool _defaultEquals(Object? a, Object? b) => a == b;

 /// Default function for hash-code computation in customized HashMaps.
 int _defaultHashCode(Object? a) => a.hashCode;

 /// Type of custom equality function.
 typedef _Equality<K> = bool Function(K a, K b);

 /// Type of custom hash code function.
 typedef _Hasher<K> = int Function(K object);

 /// A hash-table based implementation of [Map].
 ///
 /// The [HashMap] is unordered (the order of iteration is not guaranteed).
 ///
 /// The keys of a `HashMap` must have consistent [Object.==]
 /// and [Object.hashCode] implementations. This means that the `==` operator
 /// must define a stable equivalence relation on the keys (reflexive,
 /// symmetric, transitive, and consistent over time), and that `hashCode`
 /// must be the same for objects that are considered equal by `==`.
 ///
 /// Iterating the map's keys, values or entries (through [forEach])
 /// may happen in any order. The iteration order only changes when the map is
 /// modified. Values are iterated in the same order as their associated keys,
 /// so iterating the [keys] and [values] in parallel
 /// will give matching key and value pairs.
 ///
 /// **Notice:**
 /// Do not modify a map (add or remove keys) while an operation
 /// is being performed on that map, for example in functions
 /// called during a [forEach] or [putIfAbsent] call,
 /// or while iterating the map ([keys], [values] or [entries]).
 ///
 /// Example:
 /// ```dart
 /// final Map<int, String> planets = HashMap(); // Is a HashMap
 /// ```
 /// To add data to a map, use [operator[]=], [addAll] or [addEntries].
 /// ```
 /// planets[3] = 'Earth';
 /// planets.addAll({4: 'Mars'});
 /// final gasGiants = {6: 'Jupiter', 5: 'Saturn'};
 /// planets.addEntries(gasGiants.entries);
 /// print(planets); // fx {5: Saturn, 6: Jupiter, 3: Earth, 4: Mars}
 /// ```
 /// To check if the map is empty, use [isEmpty] or [isNotEmpty].
 /// To find the number of map entries, use [length].
 /// ```
 /// final isEmpty = planets.isEmpty; // false
 /// final length = planets.length; // 4
 /// ```
 /// The [forEach] iterates through all entries of a map.
 /// ```
 /// planets.forEach((key, value) {
 ///   print('$key \t $value');
 ///   // 5        Saturn
 ///   // 4        Mars
 ///   // 3        Earth
 ///   // 6        Jupiter
 /// });
 /// ```
 /// To check whether the map has an entry with a specific key, use [containsKey].
 /// ```
 /// final keyOneExists = planets.containsKey(4); // true
 /// final keyFiveExists = planets.containsKey(1); // false
 /// ```
 /// To check whether the map has an entry with a specific value,
 /// use [containsValue].
 /// ```
 /// final marsExists = planets.containsValue('Mars'); // true
 /// final venusExists = planets.containsValue('Venus'); // false
 /// ```
 /// To remove an entry with a specific key, use [remove].
 /// ```
 /// final removeValue = planets.remove(5);
 /// print(removeValue); // Jupiter
 /// print(planets); // fx {4: Mars, 3: Earth, 5: Saturn}
 /// ```
 /// To remove multiple entries at the same time, based on their keys and values,
 /// use [removeWhere].
 /// ```
 /// planets.removeWhere((key, value) => key == 5);
 /// print(planets); // fx {3: Earth, 4: Mars}
 /// ```
 /// To conditionally add or modify a value for a specific key, depending on
 /// whether there already is an entry with that key,
 /// use [putIfAbsent] or [update].
 /// ```
 /// planets.update(4, (v) => 'Saturn');
 /// planets.update(8, (v) => '', ifAbsent: () => 'Neptune');
 /// planets.putIfAbsent(4, () => 'Another Saturn');
 /// print(planets); // fx {4: Saturn, 8: Neptune, 3: Earth}
 /// ```
 /// To update the values of all keys, based on the existing key and value,
 /// use [updateAll].
 /// ```
 /// planets.updateAll((key, value) => 'X');
 /// print(planets); // fx {8: X, 3: X, 4: X}
 /// ```
 /// To remove all entries and empty the map, use [clear].
 /// ```
 /// planets.clear();
 /// print(planets); // {}
 /// print(planets.isEmpty); // true
 /// ```
 ///
 /// **See also:**
 /// * [Map], the general interface of key/value pair collections.
 /// * [LinkedHashMap] iterates in key insertion order.
 /// * [SplayTreeMap] iterates the keys in sorted order.
 abstract class HashMap<K, V> implements Map<K, V> {
   /// Creates an unordered hash-table based [Map].
   ///
   /// The created map is not ordered in any way. When iterating the keys or
   /// values, the iteration order is unspecified except that it will stay the
   /// same as long as the map isn't changed.
   ///
   /// If [equals] is provided, it is used to compare the keys in the map with
   /// new keys. If [equals] is omitted, the key's own [Object.==] is used
   /// instead.
   ///
   /// Similarly, if [hashCode] is provided, it is used to produce a hash value
   /// for keys in order to place them in the map. If [hashCode] is omitted,
   /// the key's own [Object.hashCode] is used.
   ///
   /// The used `equals` and `hashCode` method should always be consistent,
   /// so that if `equals(a, b)`, then `hashCode(a) == hashCode(b)`. The hash
   /// of an object, or what it compares equal to, should not change while the
   /// object is a key in the map. If it does change, the result is
   /// unpredictable.
   ///
   /// If you supply one of [equals] and [hashCode],
   /// you should generally also supply the other.
   ///
   /// Some [equals] or [hashCode] functions might not work for all objects.
   /// If [isValidKey] is supplied, it's used to check a potential key
   /// which is not necessarily an instance of [K], like the arguments to
   /// [operator []], [remove] and [containsKey], which are typed as `Object?`.
   /// If [isValidKey] returns `false`, for an object, the [equals] and
   /// [hashCode] functions are not called, and no key equal to that object
   /// is assumed to be in the map.
   /// The [isValidKey] function defaults to just testing if the object is an
   /// instance of [K].
   ///
   /// Example:
   /// ```dart template:expression
   /// HashMap<int,int>(equals: (int a, int b) => (b - a) % 5 == 0,
   ///                  hashCode: (int e) => e % 5);
   /// ```
   /// This example map does not need an `isValidKey` function to be passed.
   /// The default function accepts precisely `int` values, which can safely be
   /// passed to both the `equals` and `hashCode` functions.
   ///
   /// If neither `equals`, `hashCode`, nor `isValidKey` is provided,
   /// the default `isValidKey` instead accepts all keys.
   /// The default equality and hashcode operations are known to work on all
   /// objects.
   ///
   /// Likewise, if `equals` is [identical], `hashCode` is [identityHashCode]
   /// and `isValidKey` is omitted, the resulting map is identity based,
   /// and the `isValidKey` defaults to accepting all keys.
   /// Such a map can be created directly using [HashMap.identity].
   external factory HashMap(
       {bool Function(K, K)? equals,
       int Function(K)? hashCode,
       bool Function(dynamic)? isValidKey});

   /// Creates an unordered identity-based map.
   ///
   /// Keys of this map are considered equal only to the same object,
   /// and do not use [Object.==] at all.
   ///
   /// Effectively shorthand for:
   /// ```dart
   /// HashMap<K, V>(equals: identical, hashCode: identityHashCode)
   /// ```
   external factory HashMap.identity();

   /// Creates a [HashMap] that contains all key/value pairs of [other].
   ///
   /// The keys must all be instances of [K] and the values of [V].
   /// The [other] map itself can have any type.
   /// ```dart
   /// final baseMap = {1: 'A', 2: 'B', 3: 'C'};
   /// final fromBaseMap = HashMap<int, String>.from(baseMap);
   /// print(fromBaseMap); // {1: A, 2: B, 3: C}
   /// ```
   factory HashMap.from(Map<dynamic, dynamic> other) {
     HashMap<K, V> result = HashMap<K, V>();
     other.forEach((dynamic k, dynamic v) {
       result[k as K] = v as V;
     });
     return result;
   }

   /// Creates a [HashMap] that contains all key/value pairs of [other].
   /// Example:
   /// ```dart
   /// final baseMap = <int, String>{1: 'A', 2: 'B', 3: 'C'};
   /// final mapOf = HashMap<num, Object>.of(baseMap);
   /// print(mapOf); // {1: A, 2: B, 3: C}
   /// ```
   factory HashMap.of(Map<K, V> other) => HashMap<K, V>()..addAll(other);

   /// Creates a [HashMap] where the keys and values are computed from the
   /// [iterable].
   ///
   /// For each element of the [iterable] this constructor computes a key/value
   /// pair, by applying [key] and [value] respectively.
   ///
   /// The keys of the key/value pairs do not need to be unique. The last
   /// occurrence of a key will simply overwrite any previous value.
   ///
   /// If no values are specified for [key] and [value], the default is the
   /// identity function.
   /// Example:
   /// ```dart
   /// final numbers = [11, 12, 13, 14];
   /// final mapFromIterable = HashMap<int, int>.fromIterable(numbers,
   ///     key: (i) => i, value: (i) => i * i);
   /// print(mapFromIterable); // {11: 121, 12: 144, 13: 169, 14: 196}
   /// ```
   factory HashMap.fromIterable(Iterable iterable,
       {K Function(dynamic element)? key, V Function(dynamic element)? value}) {
     HashMap<K, V> map = HashMap<K, V>();
     MapBase._fillMapWithMappedIterable(map, iterable, key, value);
     return map;
   }

   /// Creates a [HashMap] associating the given [keys] to [values].
   ///
   /// This constructor iterates over [keys] and [values] and maps each element
   /// of [keys] to the corresponding element of [values].
   ///
   /// If [keys] contains the same object multiple times, the last occurrence
   /// overwrites the previous value.
   ///
   /// It is an error if the two [Iterable]s don't have the same length.
   /// Example:
   /// ```dart
   /// final keys = ['Mercury', 'Venus', 'Earth', 'Mars'];
   /// final values = [0.06, 0.81, 1, 0.11];
   /// final mapFromIterables = HashMap.fromIterables(keys, values);
   /// print(mapFromIterables);
   /// // {Earth: 1, Mercury: 0.06, Mars: 0.11, Venus: 0.81}
   /// ```
   factory HashMap.fromIterables(Iterable<K> keys, Iterable<V> values) {
     HashMap<K, V> map = HashMap<K, V>();
     MapBase._fillMapWithIterables(map, keys, values);
     return map;
   }

   /// Creates a [HashMap] containing the entries of [entries].
   ///
   /// Returns a new `HashMap<K, V>` where all entries of [entries]
   /// have been added in iteration order.
   ///
   /// If multiple [entries] have the same key,
   /// later occurrences overwrite the earlier ones.
   ///
   /// Example:
   /// ```dart
   /// final numbers = [11, 12, 13, 14];
   /// final map = HashMap.fromEntries(numbers.map((i) => MapEntry(i, i * i)));
   /// print(map); // {11: 121, 12: 144, 13: 169, 14: 196}
   /// ```
   @Since("2.1")
   factory HashMap.fromEntries(Iterable<MapEntry<K, V>> entries) =>
       HashMap<K, V>()..addEntries(entries);
 }
	// 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.

	part of dart.collection;

	/// Default function for equality comparison in customized HashMaps.
	bool _defaultEquals(Object? a, Object? b) => a == b;

	/// Default function for hash-code computation in customized HashMaps.
	int _defaultHashCode(Object? a) => a.hashCode;

	/// Type of custom equality function.
	typedef _Equality<K> = bool Function(K a, K b);

	/// Type of custom hash code function.
	typedef _Hasher<K> = int Function(K object);

	/// A hash-table based implementation of [Map].
	///
	/// The [HashMap] is unordered (the order of iteration is not guaranteed).
	///
	/// The keys of a `HashMap` must have consistent [Object.==]
	/// and [Object.hashCode] implementations. This means that the `==` operator
	/// must define a stable equivalence relation on the keys (reflexive,
	/// symmetric, transitive, and consistent over time), and that `hashCode`
	/// must be the same for objects that are considered equal by `==`.
	///
	/// Iterating the map's keys, values or entries (through [forEach])
	/// may happen in any order. The iteration order only changes when the map is
	/// modified. Values are iterated in the same order as their associated keys,
	/// so iterating the [keys] and [values] in parallel
	/// will give matching key and value pairs.
	///
	/// Notice:
	/// Do not modify a map (add or remove keys) while an operation
	/// is being performed on that map, for example in functions
	/// called during a [forEach] or [putIfAbsent] call,
	/// or while iterating the map ([keys], [values] or [entries]).
	///
	/// Example:
	/// ```dart
	/// final Map<int, String> planets = HashMap(); // Is a HashMap
	/// ```
	/// To add data to a map, use [operator[]=], [addAll] or [addEntries].
	/// ```
	/// planets[3] = 'Earth';
	/// planets.addAll({4: 'Mars'});
	/// final gasGiants = {6: 'Jupiter', 5: 'Saturn'};
	/// planets.addEntries(gasGiants.entries);
	/// print(planets); // fx {5: Saturn, 6: Jupiter, 3: Earth, 4: Mars}
	/// ```
	/// To check if the map is empty, use [isEmpty] or [isNotEmpty].
	/// To find the number of map entries, use [length].
	/// ```
	/// final isEmpty = planets.isEmpty; // false
	/// final length = planets.length; // 4
	/// ```
	/// The [forEach] iterates through all entries of a map.
	/// ```
	/// planets.forEach((key, value) {
	/// print('$key \t $value');
	/// // 5 Saturn
	/// // 4 Mars
	/// // 3 Earth
	/// // 6 Jupiter
	/// });
	/// ```
	/// To check whether the map has an entry with a specific key, use [containsKey].
	/// ```
	/// final keyOneExists = planets.containsKey(4); // true
	/// final keyFiveExists = planets.containsKey(1); // false
	/// ```
	/// To check whether the map has an entry with a specific value,
	/// use [containsValue].
	/// ```
	/// final marsExists = planets.containsValue('Mars'); // true
	/// final venusExists = planets.containsValue('Venus'); // false
	/// ```
	/// To remove an entry with a specific key, use [remove].
	/// ```
	/// final removeValue = planets.remove(5);
	/// print(removeValue); // Jupiter
	/// print(planets); // fx {4: Mars, 3: Earth, 5: Saturn}
	/// ```
	/// To remove multiple entries at the same time, based on their keys and values,
	/// use [removeWhere].
	/// ```
	/// planets.removeWhere((key, value) => key == 5);
	/// print(planets); // fx {3: Earth, 4: Mars}
	/// ```
	/// To conditionally add or modify a value for a specific key, depending on
	/// whether there already is an entry with that key,
	/// use [putIfAbsent] or [update].
	/// ```
	/// planets.update(4, (v) => 'Saturn');
	/// planets.update(8, (v) => '', ifAbsent: () => 'Neptune');
	/// planets.putIfAbsent(4, () => 'Another Saturn');
	/// print(planets); // fx {4: Saturn, 8: Neptune, 3: Earth}
	/// ```
	/// To update the values of all keys, based on the existing key and value,
	/// use [updateAll].
	/// ```
	/// planets.updateAll((key, value) => 'X');
	/// print(planets); // fx {8: X, 3: X, 4: X}
	/// ```
	/// To remove all entries and empty the map, use [clear].
	/// ```
	/// planets.clear();
	/// print(planets); // {}
	/// print(planets.isEmpty); // true
	/// ```
	///
	/// See also:
	/// * [Map], the general interface of key/value pair collections.
	/// * [LinkedHashMap] iterates in key insertion order.
	/// * [SplayTreeMap] iterates the keys in sorted order.
	abstract class HashMap<K, V> implements Map<K, V> {
	/// Creates an unordered hash-table based [Map].
	///
	/// The created map is not ordered in any way. When iterating the keys or
	/// values, the iteration order is unspecified except that it will stay the
	/// same as long as the map isn't changed.
	///
	/// If [equals] is provided, it is used to compare the keys in the map with
	/// new keys. If [equals] is omitted, the key's own [Object.==] is used
	/// instead.
	///
	/// Similarly, if [hashCode] is provided, it is used to produce a hash value
	/// for keys in order to place them in the map. If [hashCode] is omitted,
	/// the key's own [Object.hashCode] is used.
	///
	/// The used `equals` and `hashCode` method should always be consistent,
	/// so that if `equals(a, b)`, then `hashCode(a) == hashCode(b)`. The hash
	/// of an object, or what it compares equal to, should not change while the
	/// object is a key in the map. If it does change, the result is
	/// unpredictable.
	///
	/// If you supply one of [equals] and [hashCode],
	/// you should generally also supply the other.
	///
	/// Some [equals] or [hashCode] functions might not work for all objects.
	/// If [isValidKey] is supplied, it's used to check a potential key
	/// which is not necessarily an instance of [K], like the arguments to
	/// [operator []], [remove] and [containsKey], which are typed as `Object?`.
	/// If [isValidKey] returns `false`, for an object, the [equals] and
	/// [hashCode] functions are not called, and no key equal to that object
	/// is assumed to be in the map.
	/// The [isValidKey] function defaults to just testing if the object is an
	/// instance of [K].
	///
	/// Example:
	/// ```dart template:expression
	/// HashMap<int,int>(equals: (int a, int b) => (b - a) % 5 == 0,
	/// hashCode: (int e) => e % 5);
	/// ```
	/// This example map does not need an `isValidKey` function to be passed.
	/// The default function accepts precisely `int` values, which can safely be
	/// passed to both the `equals` and `hashCode` functions.
	///
	/// If neither `equals`, `hashCode`, nor `isValidKey` is provided,
	/// the default `isValidKey` instead accepts all keys.
	/// The default equality and hashcode operations are known to work on all
	/// objects.
	///
	/// Likewise, if `equals` is [identical], `hashCode` is [identityHashCode]
	/// and `isValidKey` is omitted, the resulting map is identity based,
	/// and the `isValidKey` defaults to accepting all keys.
	/// Such a map can be created directly using [HashMap.identity].
	external factory HashMap(
	{bool Function(K, K)? equals,
	int Function(K)? hashCode,
	bool Function(dynamic)? isValidKey});

	/// Creates an unordered identity-based map.
	///
	/// Keys of this map are considered equal only to the same object,
	/// and do not use [Object.==] at all.
	///
	/// Effectively shorthand for:
	/// ```dart
	/// HashMap<K, V>(equals: identical, hashCode: identityHashCode)
	/// ```
	external factory HashMap.identity();

	/// Creates a [HashMap] that contains all key/value pairs of [other].
	///
	/// The keys must all be instances of [K] and the values of [V].
	/// The [other] map itself can have any type.
	/// ```dart
	/// final baseMap = {1: 'A', 2: 'B', 3: 'C'};
	/// final fromBaseMap = HashMap<int, String>.from(baseMap);
	/// print(fromBaseMap); // {1: A, 2: B, 3: C}
	/// ```
	factory HashMap.from(Map<dynamic, dynamic> other) {
	HashMap<K, V> result = HashMap<K, V>();
	other.forEach((dynamic k, dynamic v) {
	result[k as K] = v as V;
	});
	return result;
	}

	/// Creates a [HashMap] that contains all key/value pairs of [other].
	/// Example:
	/// ```dart
	/// final baseMap = <int, String>{1: 'A', 2: 'B', 3: 'C'};
	/// final mapOf = HashMap<num, Object>.of(baseMap);
	/// print(mapOf); // {1: A, 2: B, 3: C}
	/// ```
	factory HashMap.of(Map<K, V> other) => HashMap<K, V>()..addAll(other);

	/// Creates a [HashMap] where the keys and values are computed from the
	/// [iterable].
	///
	/// For each element of the [iterable] this constructor computes a key/value
	/// pair, by applying [key] and [value] respectively.
	///
	/// The keys of the key/value pairs do not need to be unique. The last
	/// occurrence of a key will simply overwrite any previous value.
	///
	/// If no values are specified for [key] and [value], the default is the
	/// identity function.
	/// Example:
	/// ```dart
	/// final numbers = [11, 12, 13, 14];
	/// final mapFromIterable = HashMap<int, int>.fromIterable(numbers,
	/// key: (i) => i, value: (i) => i * i);
	/// print(mapFromIterable); // {11: 121, 12: 144, 13: 169, 14: 196}
	/// ```
	factory HashMap.fromIterable(Iterable iterable,
	{K Function(dynamic element)? key, V Function(dynamic element)? value}) {
	HashMap<K, V> map = HashMap<K, V>();
	MapBase._fillMapWithMappedIterable(map, iterable, key, value);
	return map;
	}

	/// Creates a [HashMap] associating the given [keys] to [values].
	///
	/// This constructor iterates over [keys] and [values] and maps each element
	/// of [keys] to the corresponding element of [values].
	///
	/// If [keys] contains the same object multiple times, the last occurrence
	/// overwrites the previous value.
	///
	/// It is an error if the two [Iterable]s don't have the same length.
	/// Example:
	/// ```dart
	/// final keys = ['Mercury', 'Venus', 'Earth', 'Mars'];
	/// final values = [0.06, 0.81, 1, 0.11];
	/// final mapFromIterables = HashMap.fromIterables(keys, values);
	/// print(mapFromIterables);
	/// // {Earth: 1, Mercury: 0.06, Mars: 0.11, Venus: 0.81}
	/// ```
	factory HashMap.fromIterables(Iterable<K> keys, Iterable<V> values) {
	HashMap<K, V> map = HashMap<K, V>();
	MapBase._fillMapWithIterables(map, keys, values);
	return map;
	}

	/// Creates a [HashMap] containing the entries of [entries].
	///
	/// Returns a new `HashMap<K, V>` where all entries of [entries]
	/// have been added in iteration order.
	///
	/// If multiple [entries] have the same key,
	/// later occurrences overwrite the earlier ones.
	///
	/// Example:
	/// ```dart
	/// final numbers = [11, 12, 13, 14];
	/// final map = HashMap.fromEntries(numbers.map((i) => MapEntry(i, i * i)));
	/// print(map); // {11: 121, 12: 144, 13: 169, 14: 196}
	/// ```
	@Since("2.1")
	factory HashMap.fromEntries(Iterable<MapEntry<K, V>> entries) =>
	HashMap<K, V>()..addEntries(entries);
	}