I have a set of values for srting algorithm. I have successfully sorted them out. But I also want to have the index for each element after sorting. For example like :

Array = [95, 53, 24, 10]
Output after sorting should be like :
10 at index 3, 24 at index 2, 53 at index 1 and 95 at index 0

I have used the following logic for sorting. But unable to get the indexes

for (int p = 0; p < ((list.size()) - 1); p++) {
    int min = p;                 

    for(int q=p+1; q<list.size();q++) {
        if(doubleArray[q] < doubleArray[min]) {
            min = q;

    double smallNumber = doubleArray[p];
    doubleArray[p] = doubleArray[min];
    doubleArray[min] = smallNumber;                  
  • 1
    What is your output supposed to be? Do you just want to print to the console? If yes, why not just print the content together with the index in a for-loop? – T A Aug 8 '18 at 7:44
  • google it or follow geeksforgeeks.org/arrays-sort-in-java-with-examples – Ravibhushan Kumar Aug 8 '18 at 7:48
  • did I get it right? The problem is to sort the array in ascending order (desired result for above [10, 24, 53, 95]) but you want the output with the original indexes (before sorting)? – Carlos Heuberger Aug 8 '18 at 7:50
  • Yeah that's correct – Priya Aug 8 '18 at 8:08
  • I appreciate the quick accept! And welcome to upvote levels ;-) – GhostCat Aug 8 '18 at 8:23

As this is probably homework, just some ideas:

  • before sorting, create a copy of your initial array
  • after sorting, iterate the original array, and then find the index of each value in the sorted array, and print that
  • the tricky part is dealing with values that show up repeatedly. but that is something that depends on your exact requirements.

Alternatively, you could look into introducing a helpful data structure, such as a Pair<Integer, Integer> class. The first entry represents the value, the second one an index. Then you can define your own "sorting" on that class.

  • 3
    Another way to do it would be to convert the array into an array of pairs, e.g. [{95, 0}, {53, 1}, {24, 2}, {10, 3}] and sort that ... – Stephen C Aug 8 '18 at 7:50
  • third option: have a new array with the original indexes that get changed in parallel with the value array (but Stephen's solution is better, less risk of messing it up) – Carlos Heuberger Aug 8 '18 at 7:52
  • @StephenC Good point. Added that idea to my answer. – GhostCat Aug 8 '18 at 7:52
  • @CarlosHeuberger That is just a variation of Stephens idea. Basically you do the mapping in code. I prefer a distinct class instead, too. – GhostCat Aug 8 '18 at 7:53

As previously suggested, I would also recommend using an additional Item class which stores the item on which you want to sort and the initial index:

public class Item<T extends Comparable<T>> implements Comparable<Item<T>> {
    public final T item;
    public final int index;

    public Item(T item, int index) {
        if (item == null)
            throw new NullPointerException("the given item is null!");
        this.item = item;
        this.index = index;

    public int compareTo(Item<T> t) {
        if (t == null)
            return 1;
        return item.compareTo(t.item);

When you need to sort the array of doubles, you first create an ArrayList containing the Items which store the doubles of the input array and the initial index. Since the Item class implements the Comparable interface, you can use Collections.sort for sorting (which will be faster than your bubblesort implementation):

public static void sort(Integer... array) {
    List<Item<Integer>> copy = new ArrayList<Item<Integer>>(array.length);

    // copy the input array
    for (int i = 0; i < array.length; ++i)
        copy.add(new Item<Integer>(array[i], i));


    for (Item<Integer> t : copy)
        System.out.println(t.item + " at index " + t.index);

Try this:

  1. Create a Pair class like

class Pair { int val; int index; }

  1. sort it by valuez

  2. index will keep the initial index

  • This data structure already exists, there is no need to recreate it. See here. – T A Aug 8 '18 at 7:55
  • If I understand the question correctly, only the array exists. But during sorting, values are moved, that's why I suggest creating an additional structure to keep indexes. Correct me if I'm wrong. – dehasi Aug 8 '18 at 8:02
  • 1
    The "Pair" data structure is already shipped and can be imported with javafx. Why redo existing classes? – T A Aug 8 '18 at 8:21
  • @TA Thank you for mentioning it. I didn't know that javaFx has such class. – dehasi Aug 8 '18 at 8:39

I have just tried the following and it worked.

int[] index = {0,1,2,3}
for (int p=0;p<((list.size())-1);p++) 
                     int min = p;

                     for(int q=p+1; q<list.size();q++) 
                        if(doubleArray[q]< doubleArray[min])
                            min = q;
                     double smallNumber = doubleArray[p];
                     doubleArray[p] = doubleArray[min];
                     doubleArray[min] = smallNumber;

                     store = index[p];
                     index[p] = index[min];
                     index[min] = store;


and it worked. Is this also correct way of doing? I am new to Java. I am at a very basic stage.

  • Where does 'list' come from? – T A Aug 8 '18 at 7:57
  • Oh Sorry. I haven't explained it. I have a list which I converted into array of double datatype. So that is from where the array is generated. – Priya Aug 8 '18 at 8:07

I would suggest below approach:

    import java.util.Arrays;
    import java.util.HashMap;
    import java.util.List;
    import java.util.Map;
    import java.util.SortedSet;
    import java.util.TreeSet;

    public class trial
     public static void main(String[] args)
    List<Integer> aList = Arrays.asList(95, 53, 24, 10);
    Map<Integer, Integer> aMap = new HashMap<>();

    int index = 0;
    for( Integer aInteger : aList )
      aMap.put(aInteger, index);

    SortedSet<Integer> keys = new TreeSet<>(aMap.keySet());

    for( Integer key : keys )
      Integer value = aMap.get(key);
      System.out.println(key + " at index " + value);

Here you find the old index and shorted value

Map<Integer, Integer> map1 = numbers.stream().collect(Collectors.toMap(i -> i, i -> numbers.indexOf(i))).           entrySet().stream().sorted(Map.Entry.comparingByKey()).collect(Collectors.toMap(Map.Entry::getKey, Map.Entry::getValue,
                        (oldValue, newValue) -> oldValue, LinkedHashMap::new));

//output {10=3, 24=2, 53=1, 95=0}

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