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/* hashmap.vala
*
* Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald
* Copyright (C) 1997-2000 GLib Team and others
* Copyright (C) 2007 Jürg Billeter
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Author:
* Jürg Billeter <j@bitron.ch>
*/
using GLib;
/**
* Hashtable implementation of the Map interface.
*/
public class Gee.HashMap<K,V> : Object, Map<K,V> {
public int size {
get { return _nnodes; }
}
public HashFunc key_hash_func {
set { _key_hash_func = value; }
}
public EqualFunc key_equal_func {
set { _key_equal_func = value; }
}
public EqualFunc value_equal_func {
set { _value_equal_func = value; }
}
private int _array_size;
private int _nnodes;
private Node<K,V>[] _nodes;
// concurrent modification protection
private int _stamp = 0;
private HashFunc _key_hash_func;
private EqualFunc _key_equal_func;
private EqualFunc _value_equal_func;
private const int MIN_SIZE = 11;
private const int MAX_SIZE = 13845163;
public HashMap (construct HashFunc key_hash_func = GLib.direct_hash, construct EqualFunc key_equal_func = GLib.direct_equal, construct EqualFunc value_equal_func = GLib.direct_equal) {
}
construct {
_array_size = MIN_SIZE;
_nodes = new Node<K,V>[_array_size];
}
public Set<K> get_keys () {
return new KeySet<K,V> (this);
}
public Collection<V> get_values () {
return new ValueCollection<K,V> (this);
}
private Node<K,V>* lookup_node (K key) {
uint hash_value = _key_hash_func (key);
Node<K,V>* node = &_nodes[hash_value % _array_size];
while ((*node) != null && (hash_value != (*node).key_hash || !_key_equal_func ((*node).key, key))) {
node = &((*node).next);
}
return node;
}
public bool contains (K key) {
Node<K,V>* node = lookup_node (key);
return (*node != null);
}
public V get (K key) {
weak Node<K,V> node = *lookup_node (key);
if (node != null) {
return node.value;
} else {
return null;
}
}
public void set (K key, V value) {
Node<K,V>* node = lookup_node (key);
if (*node != null) {
(*node).value = value;
} else {
uint hash_value = _key_hash_func (key);
*node = new Node<K,V> (key, value, hash_value);
_nnodes++;
resize ();
}
_stamp++;
}
public bool remove (K key) {
Node<K,V>* node = lookup_node (key);
if (*node != null) {
(*node).key = null;
(*node).value = null;
*node = (*node).next;
_nnodes--;
resize ();
_stamp++;
return true;
}
return false;
}
public void clear () {
for (int i = 0; i < _array_size; i++) {
Node<K,V> node = #_nodes[i];
while (node != null) {
Node next = #node.next;
node.key = null;
node.value = null;
node = #next;
}
}
_nnodes = 0;
resize ();
}
private void resize () {
if ((_array_size >= 3 * _nnodes && _array_size >= MIN_SIZE) ||
(3 * _array_size <= _nnodes && _array_size < MAX_SIZE)) {
int new_array_size = SpacedPrimes.closest (_nnodes);
new_array_size = new_array_size.clamp (MIN_SIZE, MAX_SIZE);
Node<K,V>[] new_nodes = new Node<K,V>[new_array_size];
for (int i = 0; i < _array_size; i++) {
Node<K,V> node;
Node<K,V> next;
for (node = #_nodes[i]; node != null; node = #next) {
next = #node.next;
uint hash_val = node.key_hash % new_array_size;
node.next = #new_nodes[hash_val];
new_nodes[hash_val] = #node;
}
}
_nodes = #new_nodes;
_array_size = new_array_size;
}
}
~HashSet () {
clear ();
}
private class Node<K,V> {
public K key;
public V value;
public Node<K,V> next;
public uint key_hash;
public Node (K# k, V# v, uint hash) {
key = #k;
value = #v;
key_hash = hash;
}
}
private class KeySet<K,V> : Object, Iterable<K>, Collection<K>, Set<K> {
public HashMap<K,V> map {
set { _map = value; }
}
private HashMap<K,V> _map;
public KeySet (construct HashMap! map) {
}
public Iterator<K> iterator () {
return new KeyIterator<K,V> (_map);
}
public int size {
get { return _map.size; }
}
public bool add (K key) {
assert_not_reached ();
return false;
}
public void clear () {
assert_not_reached ();
}
public bool remove (K key) {
assert_not_reached ();
return false;
}
public bool contains (K key) {
return _map.contains (key);
}
}
private class KeyIterator<K,V> : Object, Iterator<K> {
public HashMap<K,V> map {
set {
_map = value;
_stamp = _map._stamp;
}
}
private HashMap<K,V> _map;
private int _index = -1;
private weak Node<K,V> _node;
// concurrent modification protection
private int _stamp;
public KeyIterator (construct HashMap! map) {
}
public bool next () {
if (_node != null) {
_node = _node.next;
}
while (_node == null && _index + 1 < _map._array_size) {
_index++;
_node = _map._nodes[_index];
}
return (_node != null);
}
public K get () {
assert (_stamp == _map._stamp);
assert (_node != null);
return _node.key;
}
}
private class ValueCollection<K,V> : Object, Iterable<V>, Collection<V> {
public HashMap<K,V> map {
set { _map = value; }
}
private HashMap<K,V> _map;
public ValueCollection (construct HashMap! map) {
}
public Iterator<V> iterator () {
return new ValueIterator<K,V> (_map);
}
public int size {
get { return _map.size; }
}
public bool add (V value) {
assert_not_reached ();
}
public void clear () {
assert_not_reached ();
}
public bool remove (V value) {
assert_not_reached ();
}
public bool contains (V value) {
Iterator<V> it = iterator ();
while (it.next ()) {
if (_map._value_equal_func (it.get (), value)) {
return true;
}
}
return false;
}
}
private class ValueIterator<K,V> : Object, Iterator<V> {
public HashMap<K,V> map {
set {
_map = value;
_stamp = _map._stamp;
}
}
private HashMap<V,K> _map;
private int _index = -1;
private weak Node<K,V> _node;
// concurrent modification protection
private int _stamp;
public ValueIterator (construct HashMap! map) {
}
public bool next () {
if (_node != null) {
_node = _node.next;
}
while (_node == null && _index + 1 < _map._array_size) {
_index++;
_node = _map._nodes[_index];
}
return (_node != null);
}
public V get () {
assert (_stamp == _map._stamp);
assert (_node != null);
return _node.value;
}
}
}
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