public class Box {
    private String object;
    public void set(String object) { this.object = object; }
    public String get() { return object; }
}

public class Box<T> {
    // T stands for "Type"
    private T t;
    public void set(T t) { this.t = t; }
    public T get() { return t; }
}

这样我们的Box类便可以得到复用，我们可以将T替换成任何我们想要的类型：
Box<Integer> integerBox = new Box<Integer>();
Box<Double> doubleBox = new Box<Double>();
Box<String> stringBox = new Box<String>();

泛型方法
　　看完了泛型类，接下来我们来了解一下泛型方法。声明一个泛型方法很简单，只要在返回类型前面加上一个类似<K, V>的形式就行了：
public class Util {
    public static <K, V> boolean compare(Pair<K, V> p1, Pair<K, V> p2) {
        return p1.getKey().equals(p2.getKey()) &&
               p1.getValue().equals(p2.getValue());
    }
}
public class Pair<K, V> {
    private K key;
    private V value;
    public Pair(K key, V value) {
        this.key = key;
        this.value = http://www.mamicode.com/value;>

我们可以像下面这样去调用泛型方法：
Pair<Integer, String> p1 = new Pair<>(1, "apple");
Pair<Integer, String> p2 = new Pair<>(2, "pear");
boolean same = Util.<Integer, String>compare(p1, p2);

public interface Comparable<T> {
    public int compareTo(T o);
}


public static <T extends Comparable<T>> int countGreaterThan(T[] anArray, T elem) {
    int count = 0;
    for (T e : anArray)
        if (e.compareTo(elem) > 0)
            ++count;
    return count;
}