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Thanks for the help from Zirak In my previous post i implemented the following in JavaScript:

var arr1 =[0,1,2,3];
var arr2 =["ac", "bc", "ad", "e"];
var result = arr1 .sort(function(i, j){return arr2[i].localeCompare(arr2[j])})
document.write(result );

The way to achieve this is quite compact in JavaScript, can a java implementation of this be also achieved by such simplicity? I could only think of implementing the Comparable interface like the following:

public class testCompare {
    public static String[] arr2={"ac", "bc", "ad", "e"};
    public static Obj[] arr1={new Obj(0), new Obj(1), new Obj(2), new Obj(3)};
    static class Obj implements Comparable{
            int index=0;
            public Obj(int i){
                    index=i;
            }
            @Override
            public int compareTo(Object o) {
                    return arr2[index].compareTo(arr2[((Obj)o).index]);
            }
     }
}

but if the array have X many items, then I will have to create X many Objs, is there another way that I could achieve this more simply? Another question is, if I do the above method what would be the time complexity for the sorting both in java and in JavaScript, are they all O(n^2)? Thanks a lot

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3 Answers 3

up vote 2 down vote accepted
public class MyComparator implements Comparator<Integer> {
    @Override
    public int compare(Integer i1, Integer i2) {
        return arr2[i1.intValue()].compareTo(arr2[i2.intValue()]);
    }
}

Arrays.sort(arr1, new MyComparator());

This is the equivalent of the JavaScript sort. The Comparator object is used as the callback function is used in JavaScript.

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This is great, Thanks a lot –  user685275 May 5 '11 at 14:05

Try using a TreeMap<String, Integer> (assuming you want to sort integers) which means all entries are sorted by their string key:

SortedMap<String, Integer> map = new TreeMap<String, Integer>();
map.put("ac", 0);
map.put("bc", 1);
map.put("ad", 2);
map.put("e", 3);

for( Map.Entry<String, Integer> entry : map.entrySet() )
{
  System.out.println(entry.getKey() + " - " + entry.getValue());
}

Output:

ac - 0
ad - 2
bc - 1
e - 3

To sort an array and get the new order of the previous indices you could iterate over the array and add the indices as Integer objects to the map:

String[] input = {"ab", "bc", "ad" , "e" };
SortedMap<String, Integer> map = new TreeMap<String, Integer>();
for( int i = 0; i < input.length; ++i )
{
  map.put(input[i], i); //or use values from another array, e.g. map.put(inputKeys[i], inputValues[i]);
}

If you need to sort the keys by anything else but the natural order, you can add a Comparator<String> to the TreeMap constructor.

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Thanks for answering, appreciate it. –  user685275 May 5 '11 at 14:07

In response to the second part of you question: Arrays.sort in Java has guaranteed O(n log n) time complexity, as specified in the API.

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Yep. Internally java is using a QuickSort with an insertion sort for the leaf nodes. –  Voo May 5 '11 at 13:57
    
This is great, thanks a lot –  user685275 May 5 '11 at 14:07
    
@Voo: afaik this is not true: 1) API says, the actual algorithm depends on the specific implementation, and at least on my machine it uses a version of merge sort 2) quicksort does not guarantee O(n log n), rather has a worst case running time of O(n^2) –  dcn May 5 '11 at 14:30

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