jdk的源码如下
public static void shuffle(List<?> list, Random rnd) {
int size = list.size();
if (size < SHUFFLE_THRESHOLD || list instanceof RandomAccess) {
for (int i=size; i>1; i--)
swap(list, i-1, rnd.nextInt(i));
} else {
Object arr[] = list.toArray();
// Shuffle array
for (int i=size; i>1; i--)
swap(arr, i-1, rnd.nextInt(i));
// Dump array back into list
// instead of using a raw type here, it's possible to capture
// the wildcard but it will require a call to a supplementary
// private method
ListIterator it = list.listIterator();
for (int i=0; i<arr.length; i++) {
it.next();
it.set(arr[i]);
}
}
}
一、首先是判断要打乱的list的属性:list的size和是否实现RandomAccess接口
如果list的size小于SHUFFLE_THRESHOLD(5) 或者 list实现了RandomAccess接口,则直接交换list内元素的位置。具体的交换策略如下:
令list的size为n, 从n-1位开始,将该位的元素与其前面某一位(随机得到)元素交换,直到第1位结束。
使用的函数:
- swap(List<?> list, int i, int j)
public static void swap(List<?> list, int i, int j) {
// instead of using a raw type here, it's possible to capture
// the wildcard but it will require a call to a supplementary
// private method
final List l = list;
l.set(i, l.set(j, l.get(i))); //将j位置的值和i位置的值进行交换
}
- E set(int index, E element)接口
/**
* Replaces the element at the specified position in this list with the
* specified element (optional operation).
*
* @param index index of the element to replace
* @param element element to be stored at the specified position
*/
E set(int index, E element)
- E set(int index, E element)某一实现
public E set(int index, E element) {
try {
ListIterator<E> e = listIterator(index);
E oldVal = e.next();
e.set(element);
return oldVal; //将index的值设置为element,并返回原来的值
} catch (NoSuchElementException exc) {
throw new IndexOutOfBoundsException("Index: "+index);
}
}
二、如果list没有实现RandomAccess接口且长度大于SHUFFLE_THRESHOLD(5)
这时候首先要做的是将list转化成数组,这个和RandomAccess有关
/**
* Marker interface used by <tt>List</tt> implementations to indicate that
* they support fast (generally constant time) random access. The primary
* purpose of this interface is to allow generic algorithms to alter their
* behavior to provide good performance when applied to either random or
* sequential access lists.
*
* <p>The best algorithms for manipulating random access lists (such as
* <tt>ArrayList</tt>) can produce quadratic behavior when applied to
* sequential access lists (such as <tt>LinkedList</tt>). Generic list
* algorithms are encouraged to check whether the given list is an
* <tt>instanceof</tt> this interface before applying an algorithm that would
* provide poor performance if it were applied to a sequential access list,
* and to alter their behavior if necessary to guarantee acceptable
* performance.
*
......
public interface RandomAccess {
}
RandomAccess用于标识ist的实现类是否支持快速地随机访问(一般是O(1)的时间复杂度),例如ArraryList实现了RandomAccess接口,随机访问一个元素(get(i))所花费的时间复杂度是O(1),而LinkedList却没有实现这个接口,所以随机一个元素的时间复杂度是O(n)(最坏情况)。所以在遍历一个list时,可以先判断它是否实现了RandomAccess接口,根据数据结构的不同先进行相应的处理,避免出现O(n2)的时间复杂度。
如在shuffle()的else代码段中,就先将没有实现RandomAccess接口的list转换成数组,然后在执行交换策略,这样避免O(n2)的时间复杂度。
以上内容如有不正确的地方,欢迎支持。
**粗体** _斜体_ [链接](http://example.com) `代码` - 列表 > 引用
。你还可以使用@
来通知其他用户。