sdk/lib/collection/linked_hash_table.dart - Issue 12254006: Reapply "New implementation of {,Linked}Hash{Set,Map}."

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Issue 12254006: Reapply "New implementation of {,Linked}Hash{Set,Map}." (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart

Patch Set: Make HashMap and LinkedHashMap not extend HashTable. Created 7 years, 10 months ago

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	1 // Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file

	2 // for details. All rights reserved. Use of this source code is governed by a

	3 // BSD-style license that can be found in the LICENSE file.

	4

	5 part of dart.collection;

	6

	7 /** Unique marker object for the head of a linked list of entries. */

	8 class _LinkedHashTableHeadMarker {

	9 const _LinkedHashTableHeadMarker();

	10 }

	11

	12 const _LinkedHashTableHeadMarker _HEAD_MARKER =

	13 const _LinkedHashTableHeadMarker();

	14

	15 class _LinkedHashTable<K> extends _HashTable<K> {

	16 static const _NEXT_INDEX = 1;

	17 static const _PREV_INDEX = 2;

	18 static const _HEAD_OFFSET = 0;

	19

	20 _LinkedHashTable(int initialCapacity) : super(initialCapacity);

	21

	22 int get _entrySize => 3;

	23

	24 List _createTable(int capacity) {

	25 List result = new List.fixedLength(capacity * _entrySize);

	26 result[_HEAD_OFFSET] = _HEAD_MARKER;

	27 result[_HEAD_OFFSET + _NEXT_INDEX] = _HEAD_OFFSET;

	28 result[_HEAD_OFFSET + _PREV_INDEX] = _HEAD_OFFSET;

	29 return result;

	30 }

	31

	32 int _next(int offset) => _table[offset + _NEXT_INDEX];

	33 void _setNext(int offset, int to) { _table[offset + _NEXT_INDEX] = to; }

	34

	35 int _prev(int offset) => _table[offset + _PREV_INDEX];

	36 void _setPrev(int offset, int to) { _table[offset + _PREV_INDEX] = to; }

	37

	38 void _linkLast(int offset) {

	39 // Add entry at offset at end of double-linked list.

	40 int last = _prev(_HEAD_OFFSET);

	41 _setNext(offset, _HEAD_OFFSET);

	42 _setPrev(offset, last);

	43 _setNext(last, offset);

	44 _setPrev(_HEAD_OFFSET, offset);

	45 }

	46

	47 void _unlink(int offset) {

	48 assert(offset != _HEAD_OFFSET);

	49 int next = _next(offset);

	50 int prev = _prev(offset);

	51 _setNext(offset, null);

	52 _setPrev(offset, null);

	53 _setNext(prev, next);

	54 _setPrev(next, prev);

	55 }

	56

	57 /**

	58 * Copies all non-free entries from the old table to the new empty table.

	59 */

	60 void _addAllEntries(List oldTable) {

	61 int offset = oldTable[_HEAD_OFFSET + _NEXT_INDEX];

	62 while (offset != _HEAD_OFFSET) {

	63 Object object = oldTable[offset];

	64 int nextOffset = oldTable[offset + _NEXT_INDEX];

	65 int toOffset = _put(object);

	66 _copyEntry(oldTable, offset, toOffset);

	67 offset = nextOffset;

	68 }

	69 }

	70

	71 void _clear() {

	72 if (_elementCount == 0) return;

	73 _setNext(_HEAD_OFFSET, _HEAD_OFFSET);

	74 _setPrev(_HEAD_OFFSET, _HEAD_OFFSET);

	75 for (int i = _entrySize; i < _table.length; i++) {

	76 _table[i] = null;

	77 }

	78 _entryCount = _deletedCount = 0;

	79 _recordModification();

	80 }

	81

	82 int _put(K key) {

	83 int offset = _probeForAdd(_hashCodeOf(key), key);

	84 Object oldEntry = _table[offset];

	85 if (identical(oldEntry, _TOMBSTONE)) {

	86 _deletedCount--;

	87 } else if (oldEntry == null) {

	88 _entryCount++;

	89 } else {

	90 return offset;

	91 }

	92 _recordModification();

	93 _setKey(offset, key);

	94 _linkLast(offset);

	95 return offset;

	96 }

	97

	98 void _deleteEntry(int offset) {

	99 _unlink(offset);

	100 _setKey(offset, _TOMBSTONE);

	101 _deletedCount++;

	102 _recordModification();

	103 }

	104 }

	105

	106 class _LinkedHashTableKeyIterable<K> extends Iterable<K> {

	107 final _LinkedHashTable<K> _table;

	108 _LinkedHashTableKeyIterable(this._table);

	109 Iterator<K> get iterator => new _LinkedHashTableKeyIterator<K>(_table);

	110

	111 bool contains(Object value) => _table._get(value) >= 0;

	112

	113 int get length => _table._elementCount;

	114 }

	115

	116 class _LinkedHashTableKeyIterator<K> extends _LinkedHashTableIterator<K> {

	117 _LinkedHashTableKeyIterator(_LinkedHashTable<K> hashTable): super(hashTable);

	118

	119 K _getCurrent(int offset) => _hashTable._key(offset);

	120 }

	121

	122 class _LinkedHashTableValueIterable<V> extends Iterable<V> {

	123 final _LinkedHashTable _hashTable;

	124 final int _valueIndex;

	125 _LinkedHashTableValueIterable(this._hashTable, this._valueIndex);

	126 Iterator<V> get iterator =>

	127 new _LinkedHashTableValueIterator<V>(_hashTable, _valueIndex);

	128 int get length => _hashTable._elementCount;

	129 }

	130

	131 class _LinkedHashTableValueIterator<V> extends _LinkedHashTableIterator<V> {

	132 final int _valueIndex;

	133

	134 _LinkedHashTableValueIterator(_LinkedHashTable hashTable, this._valueIndex)

	135 : super(hashTable);

	136

	137 V _getCurrent(int offset) => _hashTable._table[offset + _valueIndex];

	138 }

	139

	140 abstract class _LinkedHashTableIterator<T> implements Iterator<T> {

	141 final _LinkedHashTable _hashTable;

	142 final int _modificationCount;

	143 int _offset;

	144 T _current;

	145

	146 _LinkedHashTableIterator(_LinkedHashTable table)

	147 : _hashTable = table,

	148 _modificationCount = table._modificationCount,

	149 _offset = table._next(_LinkedHashTable._HEAD_OFFSET);

	150

	151 bool moveNext() {

	152 _hashTable._checkModification(_modificationCount);

	153 if (_offset == _LinkedHashTable._HEAD_OFFSET) {

	154 _current = null;

	155 return false;

	156 }

	157 _current = _getCurrent(_offset);

	158 _offset = _hashTable._next(_offset);

	159 return true;

	160 }

	161

	162 T _getCurrent(int offset);

	163

	164 T get current => _current;

	165 }

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« sdk/lib/collection/linked_hash_set.dart ('K') | « sdk/lib/collection/linked_hash_set.dart ('k') | sdk/lib/collection/map.dart » ('j') | tests/corelib/map_from_test.dart » ('J')