JDK源码学习笔记——LinkedHashMap

时间:2023-03-09 08:11:18
JDK源码学习笔记——LinkedHashMap

HashMap有一个问题,就是迭代HashMap的顺序并不是HashMap放置的顺序,也就是无序。

LinkedHashMap保证了元素迭代的顺序。该迭代顺序可以是插入顺序或者是访问顺序。通过维护一个双向链表实现。

需要在理解HashMap实现原理的基础上学习LinkedHashMap,JDK源码学习笔记——HashMap

一、数据结构

实际上就是在HashMap的基础上加了LinkedList

JDK源码学习笔记——LinkedHashMap

JDK源码学习笔记——LinkedHashMap

(图片来自Java集合之LinkedHashMap

LinkedHashMap.Entry继承了HashMap.Node,并扩展了before ,after属性

    static class Entry<K,V> extends HashMap.Node<K,V> {

        Entry<K,V> before, after;

        Entry(int hash, K key, V value, Node<K,V> next) {

            super(hash, key, value, next);

        }

    }

二、类

继承了HashMap

public class LinkedHashMap<K,V> extends HashMap<K,V> implements Map<K,V>

三、属性

    transient LinkedHashMap.Entry<K,V> head;

    transient LinkedHashMap.Entry<K,V> tail;

    final boolean accessOrder;//true表示按照访问顺序迭代(最近访问在后),false时表示按照插入顺序(先插入在前,默认)

四、主要方法

put

    /**

     * 直接使用HashMap的put方法

     * 重写了newNode()方法:维护双向链表

     * 重写了afterNodeAccess(e)方法:如果按访问顺序排序,把node移动到双链表的尾端

     */

    Node<K,V> newNode(int hash, K key, V value, Node<K,V> e) {

        LinkedHashMap.Entry<K,V> p =

            new LinkedHashMap.Entry<K,V>(hash, key, value, e);

        linkNodeLast(p);

        return p;

    }

    private void linkNodeLast(LinkedHashMap.Entry<K,V> p) {

        LinkedHashMap.Entry<K,V> last = tail;

        tail = p;

        if (last == null)

            head = p;

        else {

            p.before = last;

            last.after = p;

        }

    }

    void afterNodeAccess(Node<K,V> e) { // move node to last

        LinkedHashMap.Entry<K,V> last;

        if (accessOrder && (last = tail) != e) {

            LinkedHashMap.Entry<K,V> p =

                (LinkedHashMap.Entry<K,V>)e, b = p.before, a = p.after;

            p.after = null;

            if (b == null)

                head = a;

            else

                b.after = a;

            if (a != null)

                a.before = b;

            else

                last = b;

            if (last == null)

                head = p;

            else {

                p.before = last;

                last.after = p;

            }

            tail = p;

            ++modCount;

        }

    }

get

    /**

     * 重写了get方法

     * 如果按访问顺序排序,把node移动到双链表的尾端

     */

    public V get(Object key) {

        Node<K,V> e;

        if ((e = getNode(hash(key), key)) == null)

            return null;

        if (accessOrder)

            afterNodeAccess(e);// 如果按访问顺序排序,把node移动到双链表的尾端

        return e.value;

    }

remove

    /**

     * 直接使用HashMap的remove方法

     * 重写了afterNodeRemoval()方法:维护双端链表

     */

    void afterNodeRemoval(Node<K,V> e) { // unlink

        LinkedHashMap.Entry<K,V> p =

            (LinkedHashMap.Entry<K,V>)e, b = p.before, a = p.after;

        p.before = p.after = null;

        if (b == null)

            head = a;

        else

            b.after = a;

        if (a == null)

            tail = b;

        else

            a.before = b;

    }

遍历

    /**

     * 主要看nextNode()方法

     * 直接遍历的双向链表

     */

    final class LinkedKeyIterator extends LinkedHashIterator implements Iterator<K> {

        public final K next() {

            return nextNode().getKey();

        }

    }

    final class LinkedValueIterator extends LinkedHashIterator implements Iterator<V> {

        public final V next() {

            return nextNode().value;

        }

    }

    final class LinkedEntryIterator extends LinkedHashIterator implements Iterator<Map.Entry<K, V>> {

        public final Map.Entry<K, V> next() {

            return nextNode();

        }

    }

    abstract class LinkedHashIterator {

        LinkedHashMap.Entry<K,V> next;

        LinkedHashMap.Entry<K,V> current;

        int expectedModCount;

        LinkedHashIterator() {

            next = head;

            expectedModCount = modCount;

            current = null;

        }

        public final boolean hasNext() {

            return next != null;

        }

        final LinkedHashMap.Entry<K,V> nextNode() {

            LinkedHashMap.Entry<K,V> e = next;

            if (modCount != expectedModCount)

                throw new ConcurrentModificationException();

            if (e == null)

                throw new NoSuchElementException();

            current = e;

            next = e.after;

            return e;

        }

        public final void remove() {

            Node<K,V> p = current;

            if (p == null)

                throw new IllegalStateException();

            if (modCount != expectedModCount)

                throw new ConcurrentModificationException();

            current = null;

            K key = p.key;

            removeNode(hash(key), key, null, false, false);

            expectedModCount = modCount;

        }

    }

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