快速排序
参考资料:
- 算法导论
- http://blog.csdn.net/insistgogo/article/details/7785038
- http://blog.csdn.net/michealtx/article/details/7181906
- http://www.oschina.net/code/snippet_186712_6364
代码:
QuickSort.java
1 package algorithms; 2 3 import java.util.Arrays; 4 import java.util.Random; 5 6 import sorts.InsertionSort; 7 8 public class QuickSort { 9 10 private static final int SMALL_ARRAY_SIZE = 5; 11 12 /** 13 * sort the array 14 * @param array the array to be sorted 15 * @param low the lower bound (inclusive) 16 * @param high the upper bound (exclusive) 17 * */ 18 public static <T extends Comparable<T>> 19 void sort(T[] array, int low, int high) { 20 --high; // right the upper bound (exclusive) 21 _sort(array, low, high); 22 } 23 private static <T extends Comparable<T>> void 24 _sort(T[] array, int low, int high) { 25 if (high - low + 1 <= SMALL_ARRAY_SIZE) { 26 InsertionSort.sort(array, low, high+1); 27 } else { 28 int pivotIndex = medianOf3(array, low, high); 29 int partition = Partition.doPartition(array, low, high+1, pivotIndex); 30 _sort(array, low, partition-1); 31 _sort(array, partition+1, high); 32 } 33 } 34 // medianOf3() requires the array's length to be at least 4 35 private static <T extends Comparable<T>> int medianOf3(T[] array, int low, int high) { 36 int middle = (low + high) / 2; 37 if (array[low].compareTo(array[middle]) > 0) { 38 swap(array, low, middle); 39 } 40 if (array[low].compareTo(array[high]) > 0) { 41 swap(array, low, high); 42 } 43 if (array[middle].compareTo(array[high]) > 0) { 44 swap(array, middle, high); 45 } 46 swap(array, middle, high-1); 47 return high-1; 48 } 49 50 private static <T> void swap(T[] array, int index1, int index2) { 51 T temp = array[index1]; 52 array[index1] = array[index2]; 53 array[index2] = temp; 54 } 55 56 // test 57 public static void main(String[] args) { 58 Random random = new Random(); 59 int num = 10; 60 Integer[] a = new Integer[num]; 61 for (int i = 0; i < num; i++) { 62 a[i] = random.nextInt(100); 63 } 64 System.out.println(Arrays.toString(a)); 65 QuickSort.sort(a, 0, a.length); 66 System.out.println(Arrays.toString(a)); 67 } 68 69 }
Partition.java
1 package algorithms; 2 3 public class Partition { 4 5 /** 6 * 7 * Partition the array into 2 parts, the index range of the left part is [left, i-1], the index range of 8 * the right part is [i, right], such that all elements smaller 9 * than the pivot are in the left part and all elements no smaller than the pivot 10 * are in the right part. 11 * @param left left bound (inclusive) 12 * @param right right bound (exclusive) 13 * @return the index of the left-most element in the right part, that is, i. 14 * */ 15 public static <T extends Comparable<T>> int doPartition(T[] a, int left, int right, int pivotIndex) { 16 --right; 17 T pivot = a[pivotIndex]; 18 swap(a, right, pivotIndex); // set the pivot to the rightmost position 19 int i = left - 1; 20 for (int j = left; j <= right - 1; ++j) { 21 if (a[j].compareTo(pivot)<=0) { 22 ++i; 23 swap(a, i, j); 24 } 25 } 26 swap(a, i+1, right); 27 return i+1; 28 } 29 30 private static <T> void swap(T[] array, int index1, int index2) { 31 T temp = array[index1]; 32 array[index1] = array[index2]; 33 array[index2] = temp; 34 } 35 36 }