# Writing a recursive sorting algorithm of an array of integers

I am trying to write a recursive sorting algorithm for an array of integers. The following codes prints to the console: 3, 5, 2, 1, 1, 2, 6, 7, 8, 10, 20

The output should be sorted but somehow "it doesn't work".

``````public static void main(String[] args)
{
int[] unsortedList = {20, 3, 1, 2, 1, 2, 6, 8, 10, 5, 7};
duplexSelectionSort(unsortedList, 0, unsortedList.length-1);

for (int i = 0; i < unsortedList.length; i++)
{
System.out.println(unsortedList[i]);
}
}

public static void duplexSelectionSort(
int[] unsortedNumbers,
int startIndex,
int stopIndex)
{
int minimumIndex = 0;
int maximumIndex = 0;

if (startIndex < stopIndex)
{
int index = 0;
while (index <= stopIndex)
{
if (unsortedNumbers[index] < unsortedNumbers[minimumIndex])
{
minimumIndex = index;
}
if (unsortedNumbers[index] > unsortedNumbers[maximumIndex])
{
maximumIndex = index;
}
index++;
}
swapEdges(unsortedNumbers, startIndex, stopIndex, minimumIndex, maximumIndex);
duplexSelectionSort(unsortedNumbers, startIndex + 1, stopIndex - 1);
}
}

public static void swapEdges(
int[] listOfIntegers,
int startIndex,
int stopIndex,
int minimumIndex,
int maximumIndex)
{
if ((minimumIndex == stopIndex) && (maximumIndex == startIndex))
{
swap(listOfIntegers, startIndex, stopIndex);
}
else
{
if (maximumIndex == startIndex)
{
swap(listOfIntegers, maximumIndex, stopIndex);
swap(listOfIntegers, minimumIndex, startIndex);
}
else
{
swap(listOfIntegers, minimumIndex, startIndex);
swap(listOfIntegers, maximumIndex, stopIndex);
}
}
}

public static void swap(int[] listOfIntegers,
int index1,
int index2)
{
int savedElementAtIndex1 = listOfIntegers[index1];
listOfIntegers[index1] = listOfIntegers[index2];
listOfIntegers[index2] = savedElementAtIndex1;
}
``````
-
And the question is...? –  SJuan76 Nov 19 '12 at 0:51
It's not sorting the array from smallest to largest –  Quinn Liu Nov 19 '12 at 0:53

The merge sort is an well-known recursive algorithm that you can take ideas from to do your own recursive sort algorithm:

``````public void mergeSort(int[] data) {
if(data.length <= 1) return;               // Base case: just 1 elt

int[] a = new int[data.length / 2];        // Split array into two
int[] b = new int[data.length - a.length]; //   halves, a and b
for(int i = 0; i < data.length; i++) {
if(i < a.length) a[i] = data[i];
else             b[i - a.length] = data[i];
}

mergeSort(a);                              // Recursively sort first
mergeSort(b);                              //   and second half.

int ai = 0;                                // Merge halves: ai, bi
int bi = 0;                                //   track position in
while(ai + bi < data.length) {             //   in each half.
if(bi >= b.length || (ai < a.length && a[ai] < b[bi])) {
data[ai + bi] = a[ai]; // (copy element of first array over)
ai++;
} else {
data[ai + bi] = b[bi]; // (copy element of second array over)
bi++;
}
}
}
``````
-

You need to remember when initializing variables in your recursive method that you are working on the startIndex through stopIndex slice of the array, not the whole array, and you should not be touching anything outside that slice.

Take another look at the initialization of index, minimumIndex, and maximumIndex in your duplexSelectionSort method.

-

To sort an array from smallest the largest, do this:

``````Arrays.sort(array);
``````
-
It looks like his goal is more so to write a sort himself, as opposed to just using pre-made code. –  Kitsune Nov 19 '12 at 1:18