Can anyone give me example about shell sort? I'm a new person in here who must learn about shell sort, but first I must find a Java shell sort example. I found one example in Google but it's too difficult.
Have you tried reading the wikipedia article first here? It provides a pretty good basics with illustration and examples.
Thereafter you might like to check out some java applets & animations depicting this sorting process here.
Hopefully, after that, you might find the java code here, for example, far more readable.
Hope it helps.

1

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Here, this code is very simple :
/**
* Shellsort, using Shell’s (poor) increments.
* @param a an array of Comparable items.
*/
public static <T extends Comparable<? super T>>
void shellsort( T [ ] a )
{
int j;
for( int gap = a.length / 2; gap > 0; gap /= 2 )
{
for( int i = gap; i < a.length; i++ )
{
T tmp = a[ i ];
for( j = i; j >= gap && tmp.compareTo( a[ j  gap ] ) < 0; j = gap )
{
a[ j ] = a[ j  gap ];
}
a[ j ] = tmp;
}
}
}
I stole it from a book called Data Structures and Algorithm Analysis in Java. It is very good book easy to understand. I advise you to read it.

2Thanks for posting this! This is the only REAL shell sort answer out of all the answers. The rest of these are Knuth's variant of the Shell Sort and I'm sure the gap / 2.2 answer is just a waste of time. – John Mercier Jul 11 '13 at 12:41



May be, this java code will help you.
public class ShellSort {
private long[] data;
private int len;
public ShellSort(int max) {
data = new long[max];
len = 0;
}
public void insert(long value){
data[len] = value;
len++;
}
public void display() {
System.out.print("Data:");
for (int j = 0; j < len; j++)
System.out.print(data[j] + " ");
System.out.println("");
}
public void shellSort() {
int inner, outer;
long temp;
//find initial value of h
int h = 1;
while (h <= len / 3)
h = h * 3 + 1; // (1, 4, 13, 40, 121, ...)
while (h > 0) // decreasing h, until h=1
{
// hsort the file
for (outer = h; outer < len; outer++) {
temp = data[outer];
inner = outer;
// one subpass (eg 0, 4, 8)
while (inner > h  1 && data[inner  h] >= temp) {
data[inner] = data[inner  h];
inner = h;
}
data[inner] = temp;
}
h = (h  1) / 3; // decrease h
}
}
public static void main(String[] args) {
int maxSize = 10;
ShellSort arr = new ShellSort(maxSize);
for (int j = 0; j < maxSize; j++) {
long n = (int) (java.lang.Math.random() * 99);
arr.insert(n);
}
arr.display();
arr.shellSort();
arr.display();
}
}

1thanks mister. but im still newbie n not understand to learn this java – Nightstalker Jan 30 '11 at 11:38
Shell sort improves insertion sort by comparing elements separated by a gap of several positions.
This lets an element take "bigger steps" toward its expected position. Multiple passes over the data are taken with smaller and smaller gap sizes. The last step of Shell sort is a plain insertion sort, but by then, the array of data is guaranteed to be almost sorted.
This code might help you in understanding the logic better.
package Sorts;
public class ShellSort extends Sorter{
@Override
public <T extends Comparable<? super T>> void sort(T[] a) {
int h = 1;
while((h*3+1) < a.length)
h = 3*h+1;
while(h > 0){
for(int i = h1; i < a.length; i++){
T s = a[i];
int j = i;
for(j = i; (j>=h) && (a[jh].compareTo(s) > 0); j=h)
a[j] = a[jh];
a[j] = s;
}
h /= 3;
}
}
}


I think you need to start with h in the loop: for(int i = h1; i < a.length; i++). Cause further on jh expression will give you 1 and will result in an 0use cycle. – Denys S. Jan 9 '13 at 19:16

1This is actually the Knuth sort. Other than that the only problem I see is the rule that h should be <= a.length / 3 is not being followed in your algorithm. It is actually supposed to be h <= Math.ceil(a.length / 3) but nobody seems to count that. – John Mercier Jul 12 '13 at 15:56
Here is a visualization of shell sort for a python implementation:
def exch(a,i,j):
t = a[i]
a[i] = a[j]
a[j] = t
def shellsort(string):
print string
a = list(string)
N = len(a)
h = 1
i = 0
j = 0
k = 0
#determine starting stride length
while ( h < N/3 ):
h = 3*h + 1
print "STRIDE LENGTH: " + str(h)
while (h >=1):
i = h
while i < N:
j = i
k = j  h
while j >= h and a[j] < a[jh]:
k = j  h
exch(a,j,k)
j = h
i += 1
h = h/3
print "STRIDE LENGTH: " + str(h)
print ''.join(a)·
if __name__ == '__main__':
shellsort("astringtosortwithshellsort")
Here's an example:
public static void shellsort( Comparable [ ] a )
{
for( int gap = a.length / 2; gap > 0;
gap = gap == 2 ? 1 : (int) ( gap / 2.2 ) )
for( int i = gap; i < a.length; i++ )
{
Comparable tmp = a[ i ];
int j = i;
for( ; j >= gap && tmp.compareTo( a[ j  gap ] ) < 0; j = gap )
a[ j ] = a[ j  gap ];
a[ j ] = tmp;
}
}
I find the easiest way to understand shell sort is to break it down into segments:
private static void shellsort() {
int[] theArray = {44,5,33,22,765,43,53,12,57,97};
//first section gets the Knuth's interval sequence (very efficient)
int h=1;
while(h<= theArray.length/3){
h = 3*h + 1; //h is equal to highest sequence of h<=length/3 (1,4,13,40...)
}
//next section
while(h>0){ //for array of length 10, h=4
//similar to insertion sort below
for(int i=0; i<theArray.length; i++){
int temp = theArray[i];
int j;
for(j=i; j>h1 && theArray[jh] >= temp; j=jh){
a[j] = a[jh];
}
a[j] = temp;
}
h = (h1)/3;
}
}
Output: 5, 12, 22, 33, 43, 44, 53, 57, 97, 765
Classic primitive type implementation:
package math;
import java.util.Arrays;
public class Sorter{
public static void main(String []args){
int[] a = {9,8,7,6,5,4,3,2,1};//plz use sophisticated random number generator
System.out.println( Arrays.toString(a) );
System.out.println( Arrays.toString(shellSort(a)) );
}
//Performs a shell sort on an array of ints.
public static int[] shellSort(int[] array){
int h = 1;
while (h < array.length) h = 3*h + 1;
while (h > 0){
h = h/3;
for (int k = 0; k < h; k++){
for (int i = h+k; i < array.length; i+=h){
int key = array[i];
int j = ih;
while (j>=0 && array[j] > key){
array[j+h] = array[j];
j=h;
}
array[j+h] = key;
//> invariant: array[0,h,2*h..j] is sorted
}
}
//>invariant: each hsubarray is sorted
}
return array;
};
}
P.S.: Check this link for other sorting algorithms (they are in c++, though, easily portable to java).
package sort_tester;
public class ShellSorter extends Sorter {
private final int[] gapArray = {1750,701,301,132,57,23,10,4,1};
@Override
public void makeSort (boolean trace) {
int size = list.length;
int i,j, temp;
for ( int gap : gapArray ) {
i = gap;
while ( i < size ) {
temp = list[i];
j = igap;
while ( j >= 0 && list[j] > temp ) {
list[j + gap] = list[j];
j = gap;
}
list[j + gap] = temp;
i ++;
}
}
}
}
list  is int[]; GapArray taken from arcticle of Marcin Ciura http://sun.aei.polsl.pl/~mciura/publikacje/shellsort.pdf
Here is a video link: https://youtu.be/SCBf7aqKQEY The guy has made a good video of shell sort!!
And a simple code:
int sort(int arr[])
{
int n = arr.length;
int gap = n/2;
int i,j;
while(gap>0)
{ for (i=0,j=i+gap; j<n; i++,++j)
{
if(arr[i]>arr[j]) //swap
{ int temp = arr[i];
arr[i]=arr[j];
arr[j]=temp;
}
}
gap=gap/2;
}
return 0;
}

1When you answer try to give a description about how to solve and how it works. – Billa Nov 15 '17 at 17:57
Use this
public void shellSort(Integer[] arr) {
int interval = arr.length / 2;
while (interval != 0) {
for (int i = 0; i < interval; i++) {
for (int p = i + interval; p < arr.length; p += interval) {
int key = arr[p];
int j = p  interval;
while (j >= 0) {
if (key < arr[j]) {
arr[j + interval] = arr[j];
} else
break;
j = interval;
}
arr[j + interval] = key;
}
}
interval /= 2;
}
}