快速排序
- 快速排序原理
快速排序(Quick Sort)的基本思想是,通过一趟排序将待排记录分割成独立的两部分,其中一部分记录的关键字均比另一部分记录的关键字小,则可对这两部分记录继续进行排序,以达到整个序列有序的目的。
- 主程序
package Sort;
public class QuickSort {
private void Qsort(int[] list, int low, int high){
int privot;
if(low < high) {
print(list);
/*算出枢轴值privot*/
privot = Partition(list, low, high);
/*对低子表递归排序*/
Qsort(list, low, privot-1);
/*对高子表递归排序*/
Qsort(list, privot+1, high);
}
}
private int Partition(int[] list, int low, int high){
/*用表的第一个记录做枢轴记录*/
int privotkey = list[low];
while (low < high){
while (low < high && list[high] > privotkey)
high--;
/*将比枢轴记录小的记录交换到低端*/
swap(list, low, high);
while (low < high && list[low] < privotkey)
low++;
/*将比枢轴记录大的记录交换到高端*/
swap(list, low, high);
}
/*返回枢轴所在的位置*/
return low;
}
private void swap(int [] list,int j, int i){
int temp;
temp = list[i];
list[i] = list[j];
list[j] = temp;
}
private void print(int[] data) {
System.out.println("当前list数组的值:");
for (int i = 0; i < data.length; i++) {
System.out.print(data[i] + "\t");
}
System.out.println();
}
public static void main(String[] args) {
int[] list = {50,40,80,30,60,70,10,90,20};
QuickSort qs = new QuickSort();
qs.Qsort(list, 0, list.length-1);
qs.print(list);
}
}
- Qsort()分析
private void Qsort(int[] list, int low, int high){
int privot;
if(low < high) {
print(list);
/*算出枢轴值privot*/
privot = Partition(list, low, high);
/*对低子表递归排序*/
Qsort(list, low, privot-1);
/*对高子表递归排序*/
Qsort(list, privot+1, high);
}
}
- Partition()分析
private int Partition(int[] list, int low, int high){
/*用表的第一个记录做枢轴记录*/
int privotkey = list[low];
while (low < high){
while (low < high && list[high] > privotkey)
high--;
/*将比枢轴记录小的记录交换到低端*/
swap(list, low, high);
while (low < high && list[low] < privotkey)
low++;
/*将比枢轴记录大的记录交换到高端*/
swap(list, low, high);
}
/*返回枢轴所在的位置*/
return low;
}
- 输出结果
当前list数组的值:
50 40 80 30 60 70 10 90 20
当前list数组的值:
20 40 10 30 50 70 60 90 80
当前list数组的值:
10 20 40 30 50 70 60 90 80
当前list数组的值:
10 20 30 40 50 70 60 90 80
当前list数组的值:
10 20 30 40 50 60 70 90 80
当前list数组的值:
10 20 30 40 50 60 70 80 90
- 时间复杂度分析
最优情况下,快速排序算法的时间复杂度为O(nlogn),空间复杂度也为O(nlogn)
- 单链表快速排序实现
/**
* Definition for singly-linked list.
* public class ListNode {
* int val;
* ListNode next;
* ListNode(int x) { val = x; }
* }
*/
public class Solution {
public ListNode sortList(ListNode head) {
if(head == null || head.next == null) return head; ListNode left = new ListNode(0), leftHead = left;
ListNode right = new ListNode(0), rightHead = right;
ListNode mid = new ListNode(0), midHead = mid;
int val = head.val; while(head != null) {
if(head.val < val) {
left.next = head;
left = head;
} else if(head.val > val) {
right.next = head;
right = head;
} else {
mid.next = head;
mid = head;
}
head = head.next;
} left.next = null;
right.next = null;
mid.next = null;
return merge(sortList(leftHead.next), midHead.next, sortList(rightHead.next));
} public ListNode merge(ListNode left, ListNode mid, ListNode right) {
ListNode leftTail = getTail(left);
ListNode midTail = getTail(mid);
midTail.next = right;
if(leftTail != null) {
leftTail.next = mid;
return left;
} else {
return mid;
}
} public ListNode getTail(ListNode head) {
if(head == null) return head;
while(head.next != null) {
head = head.next;
}
return head;
}
}