Java中 shuffle 算法的使用

发布于 2016-07-08 04:18:19 | 153 次阅读 | 评论: 0 | 来源: 网友投递

Java程序设计语言

java 是一种可以撰写跨平台应用软件的面向对象的程序设计语言，是由Sun Microsystems公司于1995年5月推出的Java程序设计语言和Java平台（即JavaEE(j2ee), JavaME(j2me), JavaSE(j2se)）的总称。

本篇文章，小编将为大家介绍，在Java中 shuffle 算法的使用，有需要的朋友可以参考一下

Fisher–Yates shuffle 基本思想（Knuth shuffle ）：

To shuffle an array a of n elements (indices 0..n-1):
for i from n − 1 downto 1 do
j ← random integer with 0 ≤ j ≤ i
exchange a[j] and a[i]

JDK源代码如下：


/**
     * Moves every element of the List to a random new position in the list.
     * 
     * @param list
     *            the List to shuffle
     * 
     * @throws UnsupportedOperationException
     *             when replacing an element in the List is not supported
     */
    public static void shuffle(List<?> list) {
        shuffle(list, new Random());
    }

    /**
     * Moves every element of the List to a random new position in the list
     * using the specified random number generator.
     *
     * @param list
     *            the List to shuffle
     * @param random
     *            the random number generator
     *
     * @throws UnsupportedOperationException
     *             when replacing an element in the List is not supported
     */
    @SuppressWarnings("unchecked")
    public static void shuffle(List<?> list, Random random) {
        if (!(list instanceof RandomAccess)) {
            Object[] array = list.toArray();
            for (int i = array.length - 1; i > 0; i--) {
                int index = random.nextInt(i + 1);
                if (index < 0) {
                    index = -index;
                }
                Object temp = array[i];
                array[i] = array[index];
                array[index] = temp;
            }

            int i = 0;
            ListIterator<Object> it = (ListIterator<Object>) list
                    .listIterator();
            while (it.hasNext()) {
                it.next();
                it.set(array[i++]);
            }
        } else {
            List<Object> rawList = (List<Object>) list;
            for (int i = rawList.size() - 1; i > 0; i--) {
                int index = random.nextInt(i + 1);
                if (index < 0) {
                    index = -index;
                }
                rawList.set(index, rawList.set(i, rawList.get(index)));
            }
        }
    }

public class javaShuffle { public static int temp = 0; public static long start; public static long end; public static void main(final String args[]) { Object changeTemp; List<Integer> numList = new ArrayList<Integer>(); List<Integer> firstList = new ArrayList<Integer>(); List<Integer> secondList = new ArrayList<Integer>(); List<Integer> thirdList = new ArrayList<Integer>(); List<Integer> fourthList = new ArrayList<Integer>(); for (int i = 1; i <= 100000; i++) { numList.add(i); firstList.add(i); secondList.add(i); thirdList.add(i); fourthList.add(i); } // first shuffle,use changeTemp getStartTime(); int randInt = 0; for (int i = 0, length = firstList.size(); i < length; i++) { randInt = getRandom(i, firstList.size()); changeTemp = firstList.get(i); firstList.set(i, firstList.get(randInt)); firstList.set(randInt, javaShuffle.temp); } getEndTime("first shuffle run time "); // second shuffle,exchange list getStartTime(); for (int i = 0, length = secondList.size(); i < length; i++) { randInt = getRandom(i, secondList.size()); secondList.set(i, secondList.set(randInt, secondList.get(i))); } getEndTime("second shuffle run time"); // third shuffle, change generate random int getStartTime(); Object[] tempArray = thirdList.toArray(); Random rand = new Random(); int j = 0; for (int i = tempArray.length - 1; i > 0; i--) { j = rand.nextInt(i + 1); thirdList.set(i, thirdList.set(j, thirdList.get(i))); } getEndTime("third shuffle run time "); // fourth shuffle, simulate java shuffle getStartTime(); Random random = new Random(); if (!(fourthList instanceof RandomAccess)) { Object[] array = fourthList.toArray(); for (int i = array.length - 1; i > 0; i--) { int index = random.nextInt(i + 1); if (index < 0) { index = -index; } Object temp = array[i]; array[i] = array[index]; array[index] = temp; } int i = 0; ListIterator<Integer> it = (ListIterator<Integer>) fourthList.listIterator(); while (it.hasNext()) { it.next(); it.set((Integer) array[i++]); } } else { List<Integer> rawList = (List<Integer>) fourthList; for (int i = rawList.size() - 1; i > 0; i--) { int index = random.nextInt(i + 1); if (index < 0) { index = -index; } rawList.set(index, rawList.set(i, rawList.get(index))); } } getEndTime("fourth shuffle run time"); // java shuffle getStartTime(); Collections.shuffle(numList); getEndTime("java shuffle run time "); } public static void swap(int a, int b) { javaShuffle.temp = a; a = b; b = javaShuffle.temp; } public static int getRandom(final int low, final int high) { return (int) (Math.random() * (high - low) + low); } public static void getStartTime() { javaShuffle.start = System.nanoTime(); } public static void getEndTime(final String s) { javaShuffle.end = System.nanoTime(); System.out.println(s + ": " + (javaShuffle.end - javaShuffle.start) + "ns"); } } 如果数值较小，例如100000级别，则输出大概是：

first shuffle run time : 85029499ns second shuffle run time: 80909474ns third shuffle run time : 71543926ns fourth shuffle run time: 76520595ns java shuffle run time : 61027643ns first shuffle run time : 82326239ns second shuffle run time: 78575611ns third shuffle run time : 95009632ns fourth shuffle run time: 105946897ns java shuffle run time : 90849302ns first shuffle run time : 84539840ns second shuffle run time: 85965575ns third shuffle run time : 101814998ns fourth shuffle run time: 113309672ns java shuffle run time : 35089693ns first shuffle run time : 87679863ns second shuffle run time: 79991814ns third shuffle run time : 73720515ns fourth shuffle run time: 78353061ns java shuffle run time : 64146465ns first shuffle run time : 84314386ns second shuffle run time: 80074803ns third shuffle run time : 74001283ns fourth shuffle run time: 79931321ns java shuffle run time : 86427540ns first shuffle run time : 84315523ns second shuffle run time: 81468386ns third shuffle run time : 75052284ns fourth shuffle run time: 79461407ns java shuffle run time : 66607729ns

first shuffle run time : 2115703288ns
second shuffle run time: 3114045871ns
third shuffle run time : 4664426798ns
fourth shuffle run time: 2962686695ns
java shuffle run time : 3246883026ns first shuffle run time : 2165398466ns
second shuffle run time: 3129558913ns
third shuffle run time : 4147859664ns
fourth shuffle run time: 2911849942ns
java shuffle run time : 4311703487ns first shuffle run time : 2227462247ns
second shuffle run time: 3279548770ns
third shuffle run time : 4704344954ns
fourth shuffle run time: 2942635980ns
java shuffle run time : 3933172427ns first shuffle run time : 2200158789ns
second shuffle run time: 3172666791ns
third shuffle run time : 4715631517ns
fourth shuffle run time: 2950817535ns
java shuffle run time : 3387417676ns first shuffle run time : 2201124449ns
second shuffle run time: 3203823874ns
third shuffle run time : 4179926278ns
fourth shuffle run time: 2913690411ns
java shuffle run time : 3571313813ns first shuffle run time : 2163053190ns
second shuffle run time: 3073889926ns
third shuffle run time : 4493831518ns
fourth shuffle run time: 2852713887ns
java shuffle run time : 3773602415ns

可以看出，第一种方法速度最快，而第四种最慢。java自带 shuffle速度也不理想。

在进行大数据处理的时候，如果使用java库效率较低时，可以考虑使用其他方式。

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