# Sorting algortithm with index in java

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;
count++;

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;
}
``````
• 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.

• 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;
}

@Override
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)

Collections.sort(copy);

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
• 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;

count++;
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);
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,