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Java基础 中的 Java中实现排序的那些方法


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下面,要和大家分享的是用Java语言实现的各种排序,包括插入排序、冒泡排序、选择排序、Shell排序、快速排序、归并排序、堆排序、SortUtil等。希望对大家有所帮助。

插入排序:

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class InsertSort implements SortUtil.Sort{

 

    public void sort(int[] data) {

 

        int temp;

        for(int i=1;i<data.length;i++){

            for(int j=i;(j>0)&&(data[j]<data[j-1]);j--){

                SortUtil.swap(data,j,j-1);

            }

        }       

    }

 

}

 

 

冒泡排序:

 

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class BubbleSort implements SortUtil.Sort{

 

    public void sort(int[] data) {

 

        int temp;

        for(int i=0;i<data.length;i++){

            for(int j=data.length-1;j>i;j--){

                if(data[j]<data[j-1]){

                    SortUtil.swap(data,j,j-1);

                }

            }

        }

    }

 

}

 

 

选择排序:

 

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class SelectionSort implements SortUtil.Sort {

    public void sort(int[] data) {

        int temp;

        for (int i = 0; i < data.length; i++) {

            int lowIndex = i;

            for (int j = data.length - 1; j > i; j--) {

                if (data[j] < data[lowIndex]) {

                    lowIndex = j;

                }

            }

            SortUtil.swap(data,i,lowIndex);

        }

    }

}

 

Shell排序:

 

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class ShellSort implements SortUtil.Sort{

    public void sort(int[] data) {

        for(int i=data.length/2;i>2;i/=2){

            for(int j=0;j<i;j++){

                insertSort(data,j,i);

            }

        }

        insertSort(data,0,1);

    }

    private void insertSort(int[] data, int start, int inc) {

        int temp;

        for(int i=start+inc;i<data.length;i+=inc){

            for(int j=i;(j>=inc)&&(data[j]<data[j-inc]);j-=inc){

                SortUtil.swap(data,j,j-inc);

            }

        }

    }

 

}

 

 

快速排序:

 

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class QuickSort implements SortUtil.Sort{

    public void sort(int[] data) {

        quickSort(data,0,data.length-1);       

    }

    private void quickSort(int[] data,int i,int j){

        int pivotIndex=(i+j)/2;

        //swap

        SortUtil.swap(data,pivotIndex,j)

        int k=partition(data,i-1,j,data[j]);

        SortUtil.swap(data,k,j);

        if((k-i)>1) quickSort(data,i,k-1);

        if((j-k)>1) quickSort(data,k+1,j);

         

    }

    private int partition(int[] data, int l, int r,int pivot) {

        do{

           while(data[++l]<pivot);

           while((r!=0)&&data[--r]>pivot);

           SortUtil.swap(data,l,r);

        }

        while(l<r);

        SortUtil.swap(data,l,r);       

        return l;

    }

 

}

 

 

改进后的快速排序:

 

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class ImprovedQuickSort implements SortUtil.Sort {

    private static int MAX_STACK_SIZE=4096;

    private static int THRESHOLD=10;

    public void sort(int[] data) {

        int[] stack=new int[MAX_STACK_SIZE];

        int top=-1;

        int pivot;

        int pivotIndex,l,r;

       

        stack[++top]=0;

        stack[++top]=data.length-1;

        while(top>0){

            int j=stack[top--];

            int i=stack[top--];

            pivotIndex=(i+j)/2;

            pivot=data[pivotIndex];

            SortUtil.swap(data,pivotIndex,j);

            //partition

            l=i-1;

            r=j;

            do{

                while(data[++l]<pivot);

                while((r!=0)&&(data[--r]>pivot));

                SortUtil.swap(data,l,r);

            }

            while(l<r);

            SortUtil.swap(data,l,r);

            SortUtil.swap(data,l,j);

           

            if((l-i)>THRESHOLD){

                stack[++top]=i;

                stack[++top]=l-1;

            }

            if((j-l)>THRESHOLD){

                stack[++top]=l+1;

                stack[++top]=j;

            }

           

        }

        //new InsertSort().sort(data);

        insertSort(data);

    }

    private void insertSort(int[] data) {

        int temp;

        for(int i=1;i<data.length;i++){

            for(int j=i;(j>0)&&(data[j]<data[j-1]);j--){

                SortUtil.swap(data,j,j-1);

            }

        }      

    }

 

}

 

归并排序:

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class MergeSort implements SortUtil.Sort{

    public void sort(int[] data) {

        int[] temp=new int[data.length];

        mergeSort(data,temp,0,data.length-1);

    }

    private void mergeSort(int[] data,int[] temp,int l,int r){

        int mid=(l+r)/2;

        if(l==r) return ;

        mergeSort(data,temp,l,mid);

        mergeSort(data,temp,mid+1,r);

        for(int i=l;i<=r;i++){

            temp[i]=data[i];

        }

        int i1=l;

        int i2=mid+1;

        for(int cur=l;cur<=r;cur++){

            if(i1==mid+1)

                data[cur]=temp[i2++];

            else if(i2>r)

                data[cur]=temp[i1++];

            else if(temp[i1]<temp[i2])

                data[cur]=temp[i1++];

            else

                data[cur]=temp[i2++];           

        }

    }

 

}

 

改进后的归并排序:

package org.rut.util.algorithm.support;

import org.rut.util.algorithm.SortUtil;

public class ImprovedMergeSort implements SortUtil.Sort {

    private static final int THRESHOLD = 10;

    public void sort(int[] data) {

        int[] temp=new int[data.length];

        mergeSort(data,temp,0,data.length-1);

    }

 

    private void mergeSort(int[] data, int[] temp, int l, int r) {

 

        int i, j, k;

        int mid = (l + r) / 2;

        if (l == r)

            return;

        if ((mid - l) >= THRESHOLD)

            mergeSort(data, temp, l, mid);

        else

            insertSort(data, l, mid - l + 1);

        if ((r - mid) > THRESHOLD)

            mergeSort(data, temp, mid + 1, r);

        else

            insertSort(data, mid + 1, r - mid);

        for (i = l; i <= mid; i++) {

            temp[i] = data[i];

        }

        for (j = 1; j <= r - mid; j++) {

            temp[r - j + 1] = data[j + mid];

        }

        int a = temp[l];

        int b = temp[r];

        for (i = l, j = r, k = l; k <= r; k++) {

            if (a < b) {

                data[k] = temp[i++];

                a = temp[i];

            } else {

                data[k] = temp[j--];

                b = temp[j];

            }

        }

    }

    private void insertSort(int[] data, int start, int len) {

        for(int i=start+1;i<start+len;i++){

            for(int j=i;(j>start) && data[j]<data[j-1];j--){

                SortUtil.swap(data,j,j-1);

            }

        }

    }

 

}

 

 

堆排序:

 

 

package org.rut.util.algorithm.support;

 

 

import org.rut.util.algorithm.SortUtil;

 

 

public class HeapSort implements SortUtil.Sort{

 

    public void sort(int[] data) {

        MaxHeap h=new MaxHeap();

        h.init(data);

        for(int i=0;i<data.length;i++)

            h.remove();

        System.arraycopy(h.queue,1,data,0,data.length);

    }

     private static class MaxHeap{        

        

        void init(int[] data){

            this.queue=new int[data.length+1];

            for(int i=0;i<data.length;i++){

                queue[++size]=data[i];

                fixUp(size);

            }

        }

        private int size=0;

        private int[] queue;

                

        public int get() {

            return queue[1];

        }

        public void remove() {

            SortUtil.swap(queue,1,size--);

            fixDown(1);

        }

        //fixdown

        private void fixDown(int k) {

            int j;

            while ((j = k << 1) <= size) {

                if (j < size && queue[j]<queue[j+1])

                    j++;

                if (queue[k]>queue[j]) //不用交换

                    break;

                SortUtil.swap(queue,j,k);

                k = j;

            }

        }

        private void fixUp(int k) {

            while (k > 1) {

                int j = k >> 1;

                if (queue[j]>queue[k])

                    break;

                SortUtil.swap(queue,j,k);

                k = j;

            }

        }

    }

 

}

 

 

SortUtil

 

package org.rut.util.algorithm;

import org.rut.util.algorithm.support.BubbleSort;

import org.rut.util.algorithm.support.HeapSort;

import org.rut.util.algorithm.support.ImprovedMergeSort;

import org.rut.util.algorithm.support.ImprovedQuickSort;

import org.rut.util.algorithm.support.InsertSort;

import org.rut.util.algorithm.support.MergeSort;

import org.rut.util.algorithm.support.QuickSort;

import org.rut.util.algorithm.support.SelectionSort;

import org.rut.util.algorithm.support.ShellSort;

public class SortUtil {

    public final static int INSERT = 1;

    public final static int BUBBLE = 2;

    public final static int SELECTION = 3;

    public final static int SHELL = 4;

    public final static int QUICK = 5;

    public final static int IMPROVED_QUICK = 6;

    public final static int MERGE = 7;

    public final static int IMPROVED_MERGE = 8;

    public final static int HEAP = 9;

    public static void sort(int[] data) {

        sort(data, IMPROVED_QUICK);

    }

    private static String[] name={

            "insert", "bubble", "selection", "shell", "quick", "improved_quick", "merge", "improved_merge", "heap"

    };

    private static Sort[] impl=new Sort[]{

            new InsertSort(),

            new BubbleSort(),

            new SelectionSort(),

            new ShellSort(),

            new QuickSort(),

            new ImprovedQuickSort(),

            new MergeSort(),

            new ImprovedMergeSort(),

            new HeapSort()

    };

    public static String toString(int algorithm){

        return name[algorithm-1];

    }

    public static void sort(int[] data, int algorithm) {

        impl[algorithm-1].sort(data);

    }

    public static interface Sort {

        public void sort(int[] data);

    }

    public static void swap(int[] data, int i, int j) {

        int temp = data[i];

        data[i] = data[j];

        data[j] = temp;

    }

}