用java实现选择排序,快速,归并,冒泡排序

//********************************************************************
//  Sorting.java       Java Foundations
//
//  Contains various sort algorithms that operate on an array of
//  Comparable objects.
//********************************************************************

public class Sorting {
	// -----------------------------------------------------------------
	// Sorts the specified array of integers using the selection
	// sort algorithm.
	// -----------------------------------------------------------------
	public static void selectionSort(Comparable[] data) // 选择排序
	{
		int min;

		for (int index = 0; index < data.length - 1; index++) {
			min = index;
			for (int scan = index + 1; scan < data.length; scan++) //选出index+1。。。之后最小的与当前的min交换
				if (data[scan].compareTo(data[min]) < 0)
					min = scan;        

			swap(data, min, index);
		}
	}

	// -----------------------------------------------------------------
	// Swaps two elements in the specified array.
	// -----------------------------------------------------------------
	private static void swap(Comparable[] data, int index1, int index2) {
		Comparable temp = data[index1];
		data[index1] = data[index2];
		data[index2] = temp;
	}

	// -----------------------------------------------------------------
	// Sorts the specified array of objects using an insertion
	// sort algorithm.
	// -----------------------------------------------------------------
	public static void insertionSort(Comparable[] data) // 插入排序
	{
		for (int index = 1; index < data.length; index++) {
			Comparable key = data[index]; //当前要插入的元素
			int position = index;

			// Shift larger values to the right
			while (position > 0 && data[position - 1].compareTo(key) > 0) { //将当前要插入的元素插入到已排序的数列中
				data[position] = data[position - 1];
				position--;
			}

			data[position] = key; //插入元素
		}
	}

	// -----------------------------------------------------------------
	// Sorts the specified array of objects using a bubble sort
	// algorithm.
	// -----------------------------------------------------------------
	public static void bubbleSort(Comparable[] data) // 冒泡排序
	{
		int position, scan;

		for (position = data.length - 1; position >= 0; position--) {
			for (scan = 0; scan <= position - 1; scan++)
				if (data[scan].compareTo(data[scan + 1]) > 0)
					swap(data, scan, scan + 1);
		}
	}

	// -----------------------------------------------------------------
	// Sorts the specified array of objects using the quick sort
	// algorithm.
	// -----------------------------------------------------------------
	public static void quickSort(Comparable[] data, int min, int max) { // 快速排序
		int pivot;

		if (min < max) {
			pivot = partition(data, min, max); // make partitions
			quickSort(data, min, pivot - 1); // sort left partition
			quickSort(data, pivot + 1, max); // sort right partition
		}
	}

	// -----------------------------------------------------------------
	// Creates the partitions needed for quick sort.
	// -----------------------------------------------------------------
	private static int partition(Comparable[] data, int min, int max) {
		// Use first element as the partition value
		Comparable partitionValue = data[min];

		int left = min;
		int right = max;

		while (left < right) {
			// Search for an element that is > the partition element
			while (data[left].compareTo(partitionValue) <= 0 && left < right) //只要小于中轴元素
				left++;

			// Search for an element that is < the partitionelement
			while (data[right].compareTo(partitionValue) > 0)
				right--;

			if (left < right)  //推出两个while,肯定是left的大,right的小,将两者交换
				swap(data, left, right);
		}

		// Move the partition element to its final position
		swap(data, min, right); //将中轴元素移动到两个子数列之间

		return right;
	}

	// -----------------------------------------------------------------
	// Sorts the specified array of objects using the merge sort
	// algorithm.
	// -----------------------------------------------------------------
	public static void mergeSort(Comparable[] data, int min, int max) {
		if (min < max) {
			int mid = (min + max) / 2;
			mergeSort(data, min, mid);
			mergeSort(data, mid + 1, max);
			merge(data, min, mid, max);
		}
	}

	// -----------------------------------------------------------------
	// Sorts the specified array of objects using the merge sort
	// algorithm.
	// -----------------------------------------------------------------
	public static void merge(Comparable[] data, int first, int mid, int last) {
		Comparable[] temp = new Comparable[data.length];

		int first1 = first, last1 = mid; // endpoints of first subarray
		int first2 = mid + 1, last2 = last; // endpoints of second subarray
		int index = first1; // next index open in temp array

		// Copy smaller item from each subarray into temp until one
		// of the subarrays is exhausted
		while (first1 <= last1 && first2 <= last2) {
			if (data[first1].compareTo(data[first2]) < 0) {
				temp[index] = data[first1];
				first1++;
			} else {
				temp[index] = data[first2];
				first2++;
			}
			index++;
		}

		// Copy remaining elements from first subarray, if any
		while (first1 <= last1) {
			temp[index] = data[first1];
			first1++;
			index++;
		}

		// Copy remaining elements from second subarray, if any
		while (first2 <= last2) {
			temp[index] = data[first2];
			first2++;
			index++;
		}

		// Copy merged data into original array
		for (index = first; index <= last; index++)
			data[index] = temp[index];
	}
}

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