/* * #! * Ontopia Engine * #- * Copyright (C) 2001 - 2013 The Ontopia Project * #- * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * !# */ sclass CompactPairKeyHashMap<K, V> extends AbstractMap<Pair<K>, V> { final static int INITIAL_SIZE = 3; final static double LOAD_FACTOR = 0.6; // This object is used to represent null, should clients use that as final static Object nullObject = new Object(); /** * When a key is deleted this object is put into the hashtable in * its place, so that other entries with the same key (collisions) * further down the hashtable are not lost after we delete an object * in the collision chain. */ final static Object deletedObject = new Object(); int elements; int freecells; K[] keys1; K[] keys2; V[] values; // object at pos x corresponds to key at pos x int modCount; *() { this(INITIAL_SIZE); } *(int size) { keys1 = (K[]) new Object[(size==0 ? 1 : size)]; keys2 = (K[]) new Object[(size==0 ? 1 : size)]; values = (V[]) new Object[(size==0 ? 1 : size)]; elements = 0; freecells = keys1.length; modCount = 0; } // ===== MAP IMPLEMENTATION ============================================= /** * Returns the number of key/value mappings in this map. */ public synchronized int size() { return elements; } /** * Returns <tt>true</tt> if this map contains no mappings. */ public synchronized boolean isEmpty() { return elements == 0; } /** * Removes all key/value mappings in the map. */ public synchronized void clear() { elements = 0; for (int ix = 0; ix < keys1.length; ix++) { keys1[ix] = keys2[ix] = null; values[ix] = null; } freecells = values.length; modCount++; } /** * Returns <tt>true</tt> if this map contains the specified key. */ public synchronized boolean containsKey(Object k) { return keys1[findKeyIndex(k)] != null; } /** * Returns <tt>true</tt> if this map contains the specified value. */ public synchronized boolean containsValue(Object v) { if (v == null) v = (V)nullObject; for (int ix = 0; ix < values.length; ix++) if (values[ix] != null && values[ix].equals(v)) return true; return false; } /** * Returns a read-only set view of the map's keys. */ public synchronized Set<Entry<Pair<K>, V>> entrySet() { throw new UnsupportedOperationException(); } /** * Removes the mapping with key k, if there is one, and returns its * value, if there is one, and null if there is none. */ public synchronized V remove(Object k) { int index = findKeyIndex(k); // we found the right position, now do the removal if (keys1[index] != null) { // we found the object // same problem here as with put V v = values[index]; keys1[index] = keys2[index] = (K) deletedObject; values[index] = (V) deletedObject; modCount++; elements--; return v; } else // we did not find the key return null; } /** * Adds the specified mapping to this map, returning the old value for * the mapping, if there was one. */ public synchronized V put(Pair<K> k, V v) { if (k.a == null) k = pair((K)nullObject, k.b); if (k.b == null) k = pair(k.a, (K)nullObject); int hash = k.hashCode(); int hash1 = k.a.hashCode(); int hash2 = k.b.hashCode(); int index = (hash & 0x7FFFFFFF) % keys1.length; int offset = 1; int deletedix = -1; // search for the key (continue while !null and !this key) while(keys1[index] != null && !(keys1[index].hashCode() == hash1 && keys2[index].hashCode() == hash2 && keys1[index].equals(k.a) && keys2[index].equals(k.b))) { // if there's a deleted mapping here we can put this mapping here, // provided it's not in here somewhere else already if (keys1[index] == deletedObject) deletedix = index; index = ((index + offset) & 0x7FFFFFFF) % keys1.length; offset = offset*2 + 1; if (offset == -1) offset = 2; } if (keys1[index] == null) { // wasn't present already if (deletedix != -1) // reusing a deleted cell index = deletedix; else freecells--; modCount++; elements++; keys1[index] = k.a; keys2[index] = k.b; values[index] = (V) v; // rehash with increased capacity if (1 - (freecells / (double) keys1.length) > LOAD_FACTOR) rehash(keys1.length*2 + 1); return null; } else { // was there already modCount++; V oldv = values[index]; values[index] = (V) v; return oldv; } } /** * INTERNAL: Rehashes the hashmap to a bigger size. */ void rehash(int newCapacity) { int oldCapacity = keys1.length; K[] newKeys1 = (K[]) new Object[newCapacity]; K[] newKeys2 = (K[]) new Object[newCapacity]; V[] newValues = (V[]) new Object[newCapacity]; for (int ix = 0; ix < oldCapacity; ix++) { Object k1 = keys1[ix]; if (k1 == null || k1 == deletedObject) continue; Object k2 = keys2[ix]; int hash = pair(k1, k2).hashCode(); int index = (hash & 0x7FFFFFFF) % newCapacity; int offset = 1; // search for the key while(newKeys1[index] != null) { // no need to test for duplicates index = ((index + offset) & 0x7FFFFFFF) % newCapacity; offset = offset*2 + 1; if (offset == -1) offset = 2; } newKeys1[index] = (K) k1; newKeys2[index] = (K) k2; newValues[index] = values[ix]; } keys1 = newKeys1; keys2 = newKeys2; values = newValues; freecells = keys1.length - elements; } /** * Returns the value for the key k, if there is one, and null if * there is none. */ public synchronized V get(Object k) { return values[findKeyIndex(k)]; } /** * Returns a virtual read-only collection containing all the values * in the map. */ public synchronized Collection<V> values() { return new ValueCollection(); } /** * Returns a virtual read-only set of all the keys in the map. */ public synchronized Set<Pair<K>> keySet() { return new KeySet(); } // --- Internal utilities final int findKeyIndex(Object _k) { Pair k = cast _k; if (k.a == null) k = pair((K)nullObject, k.b); if (k.b == null) k = pair(k.a, (K)nullObject); int hash = k.hashCode(); int hash1 = k.a.hashCode(); int hash2 = k.b.hashCode(); int index = (hash & 0x7FFFFFFF) % keys1.length; int offset = 1; int deletedix = -1; // search for the key (continue while !null and !this key) while(keys1[index] != null && !(keys1[index].hashCode() == hash1 && keys2[index].hashCode() == hash2 && keys1[index].equals(k.a) && keys2[index].equals(k.b))) { index = ((index + offset) & 0x7FFFFFFF) % keys1.length; offset = offset*2 + 1; if (offset == -1) offset = 2; } return index; } // --- Key set class KeySet extends AbstractSet<Pair<K>> { public synchronized int size() { return elements; } public synchronized boolean contains(Object k) { return containsKey(k); } public synchronized Iterator<Pair<K>> iterator() { return new KeyIterator(); } } class KeyIterator implements Iterator<Pair<K>> { private int ix; private KeyIterator() { // walk up to first value, so that hasNext() and next() return // correct results for (; ix < keys1.length; ix++) if (values[ix] != null && keys1[ix] != deletedObject) break; } public synchronized boolean hasNext() { return ix < keys1.length; } public synchronized void remove() { throw new UnsupportedOperationException("Collection is read-only"); } public synchronized Pair<K> next() { if (ix >= keys1.length) throw new NoSuchElementException(); K key1 = (K) keys1[ix]; K key2 = (K) keys2[ix]; ix++; // walk up to next value for (; ix < keys1.length; ix++) if (keys1[ix] != null && keys1[ix] != deletedObject) break; // ix now either points to next key, or outside array (if no next) return pair(key1, key2); } } // --- Value collection class ValueCollection extends AbstractCollection<V> { public synchronized int size() { return elements; } public synchronized Iterator<V> iterator() { return new ValueIterator(); } public synchronized boolean contains(Object v) { return containsValue(v); } } class ValueIterator implements Iterator<V> { private int ix; private ValueIterator() { // walk up to first value, so that hasNext() and next() return // correct results for (; ix < values.length; ix++) if (values[ix] != null && values[ix] != deletedObject) break; } public synchronized boolean hasNext() { return ix < values.length; } public synchronized void remove() { throw new UnsupportedOperationException("Collection is read-only"); } public synchronized V next() { if (ix >= values.length) throw new NoSuchElementException(); V value = (V) values[ix++]; // walk up to next value for (; ix < values.length; ix++) if (values[ix] != null && values[ix] != deletedObject) break; // ix now either points to next value, or outside array (if no next) return value; } } }
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Snippet ID: | #1013385 |
Snippet name: | CompactPairKeyHashMap - map Pair to Object - synchronized |
Eternal ID of this version: | #1013385/9 |
Text MD5: | 23d7126110be94924140caad240495d7 |
Author: | stefan |
Category: | javax / collections |
Type: | JavaX fragment (include) |
Public (visible to everyone): | Yes |
Archived (hidden from active list): | No |
Created/modified: | 2018-01-04 00:12:40 |
Source code size: | 10675 bytes / 390 lines |
Pitched / IR pitched: | No / No |
Views / Downloads: | 459 / 1026 |
Version history: | 8 change(s) |
Referenced in: | [show references] |