SortedMap<Integer, Long> newMap = new TreeMap(new MyComparator(result));
System.out.println("new map ---> " + newMap);


package com.example.admin.app;

import java.util.Comparator;
import java.util.Map;

class MyComparator implements Comparator {

    Map map;
    public MyComparator(Map map){
        this.map = map;

    public int compare (Object o1, Object o2) {
        return ((Long) map.get(o2)).compareTo((Long) map.get(o1));

While using treemap comparator, if values of 2 keys are same, comparator is considering only 1st value and ignoring second one.

Eg: Unsorted map -> {2=93085, 1=93254, 4=92928, 9=93164, 8=93085}

my actual result for the code written: {1=93254, 9=93164, 8=93085, 4=92928}

I need output like --> {1=93254, 9=93164, 8=93085, 2=93085, 4=92928}

Since key 2 and 8 have same values (93085), I'm getting only one. Someone please help.

  • 3
    what do you mean I'm getting only one can you show the code? – Deadpool Nov 13 '19 at 19:20
  • 1
    Welcome to stackoverflow! In order for us to help you, can you post the comparator code you are using? – ControlAltDel Nov 13 '19 at 19:20
  • 3
    Show your code. – LowKeyEnergy Nov 13 '19 at 19:21
  • 4
    The Comparator utilized by TreeMap compares keys, not values. There must be something else in your code that's causing this issue. – Jacob G. Nov 13 '19 at 19:24
  • 2
    @JacobG. I think if the Comparator returns 0, the TreeMap will interpret that as the same key value, and replace the value that was there before with the new one – ControlAltDel Nov 13 '19 at 19:27

It's a property of the TreeMap to treat keys as equal when the comparator reports them as equal (and maps do not support multiple equal keys in general).

As the specification says:

…a sorted map performs all key comparisons using its compareTo (or compare) method, so two keys that are deemed equal by this method are, from the standpoint of the sorted map, equal.

If you want to prevent the keys from disappearing when there is no ordering between them, you have to add a secondary ordering, to be used when the primary ordering considers them as equal. Since your map has comparable keys in the first place, you can utilize their natural order to get the desired result:

class MyComparator implements Comparator<Integer> {
    final Map<Integer, Long> map;
    public MyComparator(Map<Integer, Long> map){
        this.map = map;
    public int compare(Integer o1, Integer o2) {
        int c = Long.compare(map.get(o2), map.get(o1));
        return c != 0? c: o2.compareTo(o1);
Map<Integer, Long> result = new HashMap<>();
result.put(2, 93085L);
result.put(1, 93254L);
result.put(4, 92928L);
result.put(9, 93164L);
result.put(8, 93085L);

SortedMap<Integer, Long> newMap = new TreeMap<>(new MyComparator(result));
// new map ---> {1=93254, 9=93164, 8=93085, 2=93085, 4=92928}
System.out.println("new map ---> " + newMap);

Alternatively, you may use a LinkedHashMap which maintains the insertion order and fill it using a sorted list:

List<Integer> list = new ArrayList<>(result.keySet());
Collections.sort(list, new MyComparator(result));
Map<Integer, Long> newMap = new LinkedHashMap<>();
for(Integer i: list) newMap.put(i, result.get(i));
System.out.println("new map ---> " + newMap);

Both approaches produce a map with the desired iteration order. Which is more suitable depends on how it is subsequently used.

Since sorting a list does not eliminate duplicates, it would also work with your initial comparator, though I would make it type safe:

class MyComparator implements Comparator<Integer> {
    final Map<?, Long> map;
    public MyComparator(Map<?, Long> map){
        this.map = map;
    public int compare(Integer o1, Integer o2) {
        return Long.compare(map.get(o2), map.get(o1));

But then, the relative order of entries with the same value is unspecified.

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