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每日一学--ThreadLocal

ThreadLocal翻译成中文比较准确的叫法应该是:线程局部变量。

  这个玩意有什么用处,或者说为什么要有这么一个东东?先解释一下,在并发编程的时候,成员变量如果不做任何处理其实是线程不安全的,各个线程都在操作同一个变量,显然是不行的,并且我们也知道volatile这个关键字也是不能保证线程安全的。那么在有一种情况之下,我们需要满足这样一个条件:变量是同一个,但是每个线程都使用同一个初始值,也就是使用同一个变量的一个新的副本。这种情况之下ThreadLocal就非常使用,比如说DAO的数据库连接,我们知道DAO是单例的,那么他的属性Connection就不是一个线程安全的变量。而我们每个线程都需要使用他,并且各自使用各自的。这种情况,ThreadLocal就比较好的解决了这个问题。

  我们从源码的角度来分析这个问题。

  首先定义一个ThreadLocal:

public class ConnectionUtil {
    private static ThreadLocal<Connection> tl = new ThreadLocal<Connection>();
    private static Connection initConn = null;
    static {
        try {
            initConn = DriverManager.getConnection("url, name and password");
        } catch (SQLException e) {
            e.printStackTrace();
        }
    }
    
    public Connection getConn() {
        Connection c = tl.get();
        if(null == c) tl.set(initConn);
        return tl.get();
    }
}

 

package java.lang;
import java.lang.ref.*;
import java.util.concurrent.atomic.AtomicInteger;

public class ThreadLocal<T> {
   
    private final int threadLocalHashCode = nextHashCode();
   
    private static AtomicInteger nextHashCode =
        new AtomicInteger();

    private static final int HASH_INCREMENT = 0x61c88647;

    private static int nextHashCode() {
        return nextHashCode.getAndAdd(HASH_INCREMENT);
    }

    protected T initialValue() {
        return null;
    }

    public ThreadLocal() {
    }

    public T get() {
        Thread t = Thread.currentThread();
        ThreadLocalMap map = getMap(t);
        if (map != null) {
            ThreadLocalMap.Entry e = map.getEntry(this);
            if (e != null)
                return (T)e.value;
        }
        return setInitialValue();
    }

    private T setInitialValue() {
        T value = initialValue();
        Thread t = Thread.currentThread();
        ThreadLocalMap map = getMap(t);
        if (map != null)
            map.set(this, value);
        else
            createMap(t, value);
        return value;
    }

    public void set(T value) {
        Thread t = Thread.currentThread();
        ThreadLocalMap map = getMap(t);
        if (map != null)
            map.set(this, value);
        else
            createMap(t, value);
    }

     public void remove() {
         ThreadLocalMap m = getMap(Thread.currentThread());
         if (m != null)
             m.remove(this);
     }

    ThreadLocalMap getMap(Thread t) {
        return t.threadLocals;
    }

    void createMap(Thread t, T firstValue) {
        t.threadLocals = new ThreadLocalMap(this, firstValue);
    }

    static ThreadLocalMap createInheritedMap(ThreadLocalMap parentMap) {
        return new ThreadLocalMap(parentMap);
    }

    T childValue(T parentValue) {
        throw new UnsupportedOperationException();
    }

    static class ThreadLocalMap {

        static class Entry extends WeakReference<ThreadLocal> {
            /** The value associated with this ThreadLocal. */
            Object value;

            Entry(ThreadLocal k, Object v) {
                super(k);
                value = v;
            }
        }

        private static final int INITIAL_CAPACITY = 16;

        private Entry[] table;

        private int size = 0;

        private int threshold; // Default to 0

        private void setThreshold(int len) {
            threshold = len * 2 / 3;
        }

        private static int nextIndex(int i, int len) {
            return ((i + 1 < len) ? i + 1 : 0);
        }

        private static int prevIndex(int i, int len) {
            return ((i - 1 >= 0) ? i - 1 : len - 1);
        }

        ThreadLocalMap(ThreadLocal firstKey, Object firstValue) {
            table = new Entry[INITIAL_CAPACITY];
            int i = firstKey.threadLocalHashCode & (INITIAL_CAPACITY - 1);
            table[i] = new Entry(firstKey, firstValue);
            size = 1;
            setThreshold(INITIAL_CAPACITY);
        }

        private ThreadLocalMap(ThreadLocalMap parentMap) {
            Entry[] parentTable = parentMap.table;
            int len = parentTable.length;
            setThreshold(len);
            table = new Entry[len];

            for (int j = 0; j < len; j++) {
                Entry e = parentTable[j];
                if (e != null) {
                    ThreadLocal key = e.get();
                    if (key != null) {
                        Object value = key.childValue(e.value);
                        Entry c = new Entry(key, value);
                        int h = key.threadLocalHashCode & (len - 1);
                        while (table[h] != null)
                            h = nextIndex(h, len);
                        table[h] = c;
                        size++;
                    }
                }
            }
        }

        private Entry getEntry(ThreadLocal key) {
            int i = key.threadLocalHashCode & (table.length - 1);
            Entry e = table[i];
            if (e != null && e.get() == key)
                return e;
            else
                return getEntryAfterMiss(key, i, e);
        }

        private Entry getEntryAfterMiss(ThreadLocal key, int i, Entry e) {
            Entry[] tab = table;
            int len = tab.length;

            while (e != null) {
                ThreadLocal k = e.get();
                if (k == key)
                    return e;
                if (k == null)
                    expungeStaleEntry(i);
                else
                    i = nextIndex(i, len);
                e = tab[i];
            }
            return null;
        }

        private void set(ThreadLocal key, Object value) {

            Entry[] tab = table;
            int len = tab.length;
            int i = key.threadLocalHashCode & (len-1);

            for (Entry e = tab[i];
                 e != null;
                 e = tab[i = nextIndex(i, len)]) {
                ThreadLocal k = e.get();

                if (k == key) {
                    e.value = value;
                    return;
                }

                if (k == null) {
                    replaceStaleEntry(key, value, i);
                    return;
                }
            }

            tab[i] = new Entry(key, value);
            int sz = ++size;
            if (!cleanSomeSlots(i, sz) && sz >= threshold)
                rehash();
        }

        private void remove(ThreadLocal key) {
            Entry[] tab = table;
            int len = tab.length;
            int i = key.threadLocalHashCode & (len-1);
            for (Entry e = tab[i];
                 e != null;
                 e = tab[i = nextIndex(i, len)]) {
                if (e.get() == key) {
                    e.clear();
                    expungeStaleEntry(i);
                    return;
                }
            }
        }

        private void replaceStaleEntry(ThreadLocal key, Object value,
                                       int staleSlot) {
            Entry[] tab = table;
            int len = tab.length;
            Entry e;

            int slotToExpunge = staleSlot;
            for (int i = prevIndex(staleSlot, len);
                 (e = tab[i]) != null;
                 i = prevIndex(i, len))
                if (e.get() == null)
                    slotToExpunge = i;

            for (int i = nextIndex(staleSlot, len);
                 (e = tab[i]) != null;
                 i = nextIndex(i, len)) {
                ThreadLocal k = e.get();

                if (k == key) {
                    e.value = value;

                    tab[i] = tab[staleSlot];
                    tab[staleSlot] = e;

                    if (slotToExpunge == staleSlot)
                        slotToExpunge = i;
                    cleanSomeSlots(expungeStaleEntry(slotToExpunge), len);
                    return;
                }

                if (k == null && slotToExpunge == staleSlot)
                    slotToExpunge = i;
            }

            tab[staleSlot].value = http://www.mamicode.com/null;
            tab[staleSlot] = new Entry(key, value);

            if (slotToExpunge != staleSlot)
                cleanSomeSlots(expungeStaleEntry(slotToExpunge), len);
        }

        private int expungeStaleEntry(int staleSlot) {
            Entry[] tab = table;
            int len = tab.length;

            tab[staleSlot].value = http://www.mamicode.com/null;
            tab[staleSlot] = null;
            size--;

            Entry e;
            int i;
            for (i = nextIndex(staleSlot, len);
                 (e = tab[i]) != null;
                 i = nextIndex(i, len)) {
                ThreadLocal k = e.get();
                if (k == null) {
                    e.value = null;
                    tab[i] = null;
                    size--;
                } else {
                    int h = k.threadLocalHashCode & (len - 1);
                    if (h != i) {
                        tab[i] = null;

                        while (tab[h] != null)
                            h = nextIndex(h, len);
                        tab[h] = e;
                    }
                }
            }
            return i;
        }

        private boolean cleanSomeSlots(int i, int n) {
            boolean removed = false;
            Entry[] tab = table;
            int len = tab.length;
            do {
                i = nextIndex(i, len);
                Entry e = tab[i];
                if (e != null && e.get() == null) {
                    n = len;
                    removed = true;
                    i = expungeStaleEntry(i);
                }
            } while ( (n >>>= 1) != 0);
            return removed;
        }

        private void rehash() {
            expungeStaleEntries();

            // Use lower threshold for doubling to avoid hysteresis
            if (size >= threshold - threshold / 4)
                resize();
        }

        private void resize() {
            Entry[] oldTab = table;
            int oldLen = oldTab.length;
            int newLen = oldLen * 2;
            Entry[] newTab = new Entry[newLen];
            int count = 0;

            for (int j = 0; j < oldLen; ++j) {
                Entry e = oldTab[j];
                if (e != null) {
                    ThreadLocal k = e.get();
                    if (k == null) {
                        e.value = null; // Help the GC
                    } else {
                        int h = k.threadLocalHashCode & (newLen - 1);
                        while (newTab[h] != null)
                            h = nextIndex(h, newLen);
                        newTab[h] = e;
                        count++;
                    }
                }
            }

            setThreshold(newLen);
            size = count;
            table = newTab;
        }

        private void expungeStaleEntries() {
            Entry[] tab = table;
            int len = tab.length;
            for (int j = 0; j < len; j++) {
                Entry e = tab[j];
                if (e != null && e.get() == null)
                    expungeStaleEntry(j);
            }
        }
    }
}

这样子,都是用同一个连接,但是每个连接都是新的,是同一个连接的副本。

  那么实现机制是如何的呢?

1、每个Thread对象内部都维护了一个ThreadLocalMap这样一个ThreadLocal的Map,可以存放若干个ThreadLocal

/* ThreadLocal values pertaining to this thread. This map is maintained
 * by the ThreadLocal class. */
ThreadLocal.ThreadLocalMap threadLocals = null;

2、当我们在调用get()方法的时候,先获取当前线程,然后获取到当前线程的ThreadLocalMap对象,如果非空,那么取出ThreadLocal的value,否则进行初始化,初始化就是将initialValue的值set到ThreadLocal中。

public T get() {
    Thread t = Thread.currentThread();
    ThreadLocalMap map = getMap(t);
    if (map != null) {
        ThreadLocalMap.Entry e = map.getEntry(this);
        if (e != null)
            return (T)e.value;
    }
    return setInitialValue();
}

 

3、当我们调用set()方法的时候,很常规,就是将值设置进ThreadLocal中。

4、总结:当我们调用get方法的时候,其实每个当前线程中都有一个ThreadLocal。每次获取或者设置都是对该ThreadLocal进行的操作,是与其他线程分开的。

5、应用场景:当很多线程需要多次使用同一个对象,并且需要该对象具有相同初始化值的时候最适合使用ThreadLocal。

6、其实说再多也不如看一下源码来得清晰。如果要看源码,其中涉及到一个WeakReference和一个Map,这两个地方需要了解下,这两个东西分别是a.Java的弱引用,也就是GC的时候会销毁该引用所包裹(引用)的对象,这个threadLocal作为key可能被销毁,但是只要我们定义成他的类不卸载,tl这个强引用就始终引用着这个ThreadLocal的,永远不会被gc掉。b.和HashMap差不多。

  事实上,从本质来讲,就是每个线程都维护了一个map,而这个map的key就是threadLocal,而值就是我们set的那个值,每次线程在get的时候,都从自己的变量中取值,既然从自己的变量中取值,那肯定就不存在线程安全问题,总体来讲,ThreadLocal这个变量的状态根本没有发生变化,他仅仅是充当一个key的角色,另外提供给每一个线程一个初始值。如果允许的话,我们自己就能实现一个这样的功能,只不过恰好JDK就已经帮我们做了这个事情。

转载自:http://www.cnblogs.com/dreamroute/p/5034726.html

每日一学--ThreadLocal