http://blog.csdn.net/zhangerqing/article/details/8093919

hashCode和identityHashCode的区别

I、 hashCode()方法是Object类下面的一个方法，供继承类重写，根据对象内存地址计算哈希值，String类重写了hashCode方法，并改为根据字符序列来计算哈希值

II、identityHashCode()方法是System类中的静态方法，根据对象内存地址来计算哈希值；

方法示例：

    public static void main(String[] args)

    {

        // 下面程序中s1和s2是两个不同对象

        String s1 = new String("Hello");

        String s2 = new String("Hello");

        // String类重写了Object类的hashCode方法——改为根据字符序列计算hashCode值，

        // 因为s1和s2的字符序列相同，所以它们的hashCode方法返回值相同

        System.out.println(s1.hashCode() + "----" + s2.hashCode());

        // s1和s2是不同的字符串对象，所以它们的identityHashCode值不同，

        // identityHashCode是根据对象的地址计算得到的，所以任何两个不同的对象的

        // identityHashCode值总是不相等

        System.out.println(System.identityHashCode(s1) + "----"+ System.identityHashCode(s2));

        // s3和s4是相同的字符串对象，所以它们的identityHashCode值相同

        String s3 = "Java";

        String s4 = "Java";

        System.out.println(System.identityHashCode(s3) + "----"+ System.identityHashCode(s4));

    }

输出：

aaarticlea/png;base64,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" alt="" />