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# Sort a Map<Key, Value> by values (Java)

I am relatively new to Java, and often find that I need to sort a `Map<Key, Value>` on the values. Since the values are not unique, I find myself converting the `keySet` into an `array`, and sorting that array through array sort with a custom comparator that sorts on the value associated with the key. Is there an easier way?

-
A map is not meant to be sorted, but accessed fast. Object equal values break the constraint of the map. Use the entry set, like `List<Map.Entry<...>> list =new LinkedList(map.entrySet())` and `Collections.sort ....` it that way. – Hannes Feb 9 '14 at 17:34
This must be one of the questions with the greatest # of answers that are valid in a way, and none that simply says it all. Kinda like looking for the world formula. Strange, as this cannot be a rare problem (as the vote count for the question already suggests). – cirko Nov 13 '15 at 12:20

Here's a generic-friendly version you're free to use:

``````import java.util.*;

public class MapUtil
{
public static <K, V extends Comparable<? super V>> Map<K, V>
sortByValue( Map<K, V> map )
{
List<Map.Entry<K, V>> list =
Collections.sort( list, new Comparator<Map.Entry<K, V>>()
{
public int compare( Map.Entry<K, V> o1, Map.Entry<K, V> o2 )
{
return (o1.getValue()).compareTo( o2.getValue() );
}
} );

Map<K, V> result = new LinkedHashMap<K, V>();
for (Map.Entry<K, V> entry : list)
{
result.put( entry.getKey(), entry.getValue() );
}
return result;
}
}
``````

And an associated JUnit4 test so you don't have to take my word for it:

``````import java.util.*;
import org.junit.*;

public class MapUtilTest
{
@Test
public void testSortByValue()
{
Random random = new Random(System.currentTimeMillis());
Map<String, Integer> testMap = new HashMap<String, Integer>(1000);
for(int i = 0 ; i < 1000 ; ++i) {
testMap.put( "SomeString" + random.nextInt(), random.nextInt());
}

testMap = MapUtil.sortByValue( testMap );
Assert.assertEquals( 1000, testMap.size() );

Integer previous = null;
for(Map.Entry<String, Integer> entry : testMap.entrySet()) {
Assert.assertNotNull( entry.getValue() );
if (previous != null) {
Assert.assertTrue( entry.getValue() >= previous );
}
previous = entry.getValue();
}
}

}
``````

Java 7 Version

``````public static <K, V extends Comparable<? super V>> Map<K, V>
sortByValue( Map<K, V> map )
{
List<Map.Entry<K, V>> list =
Collections.sort( list, new Comparator<Map.Entry<K, V>>()
{
@Override
public int compare( Map.Entry<K, V> o1, Map.Entry<K, V> o2 )
{
return ( o1.getValue() ).compareTo( o2.getValue() );
}
} );

Map<K, V> result = new LinkedHashMap<>();
for (Map.Entry<K, V> entry : list)
{
result.put( entry.getKey(), entry.getValue() );
}
return result;
}
``````

Java 8 Version

``````public static <K, V extends Comparable<? super V>> Map<K, V>
sortByValue( Map<K, V> map )
{
Map<K, V> result = new LinkedHashMap<>();
Stream<Map.Entry<K, V>> st = map.entrySet().stream();

st.sorted( Map.Entry.comparingByValue() )
.forEachOrdered( e -> result.put(e.getKey(), e.getValue()) );

return result;
}
``````
-
Glad this helps. John, the LinkedHashMap is important to the solution as it provides predictable iteration order. – Carter Page Jul 1 '12 at 12:46
Simplest solution! This is ascending sort. I copied the code and made a very small change to make it descending. Thanks! – trillions Aug 27 '12 at 23:29
@buzz3791 True. That's going to be the case in any sorting algorithm. Change the value of nodes in a structure during a sort creates unpredictable (and nearly always bad) results. – Carter Page Apr 25 '13 at 18:55
@Sheagorath I tried it in Android and it works too. It is not a platform specific problem, considering you are using the Java 6 version. Have you implemented Comparable correctly in your value object? – saiyancoder Dec 8 '14 at 1:12
Shouldn't the Java 8 version use `forEachOrdered` instead of `forEach`, since the docs of `forEach` states: "The behavior of this operation is explicitly nondeterministic."? – rob Jun 27 '15 at 14:06

### Important note:

This code can break in multiple ways. If you intend to use the code provided, be sure to read the comments as well to be aware of the implications. For example, values can no longer be retrieved by their key. (`get` always returns `null`.)

It seems much easier than all of the foregoing. Use a TreeMap as follows:

``````public class Testing {
public static void main(String[] args) {
HashMap<String, Double> map = new HashMap<String, Double>();
ValueComparator bvc = new ValueComparator(map);
TreeMap<String, Double> sorted_map = new TreeMap<String, Double>(bvc);

map.put("A", 99.5);
map.put("B", 67.4);
map.put("C", 67.4);
map.put("D", 67.3);

System.out.println("unsorted map: " + map);
sorted_map.putAll(map);
System.out.println("results: " + sorted_map);
}
}

class ValueComparator implements Comparator<String> {
Map<String, Double> base;

public ValueComparator(Map<String, Double> base) {
this.base = base;
}

// Note: this comparator imposes orderings that are inconsistent with
// equals.
public int compare(String a, String b) {
if (base.get(a) >= base.get(b)) {
return -1;
} else {
return 1;
} // returning 0 would merge keys
}
}
``````

Output:

``````unsorted map: {D=67.3, A=99.5, B=67.4, C=67.4}
results: {D=67.3, B=67.4, C=67.4, A=99.5}
``````
-
Not any more (stackoverflow.com/questions/109383/…). Also, why was there a cast to Double? Shouldn't it just be `return ((Comparable)base.get(a).compareTo(((Comparable)base.get(b)))`? – Stephen Aug 11 '10 at 21:50
@Stephen: No. In this case all keys equal by value are dropped (difference between equals and comparion by reference). Additionally: Even this code has problems with the following sequence `map.put("A","1d");map.put("B","1d");map.put("C",67d);map.put("D",99.5d);` – steffen Aug 20 '10 at 7:00
The comparator used for the treemap is inconsistent with equals (see the sortMap javadox). This means retireving items from the tree map will not work. sorted_map.get("A") will return null. That means this use of treemap is broken. – mR_fr0g Dec 1 '10 at 14:36
Just in case it's not clear to people: this solution will probably not do what you want if you have multiple keys mapping to the same value -- only one of those keys will appear in the sorted result. – Maxy-B Nov 24 '11 at 4:37
Louis Wasserman (yes, one of the Google Guava guys), actually dislikes this answer quite a bit: "It breaks in several really confusing ways if you even look at it funny. If the backing map changes, it will break. If multiple keys map to the same value, it will break. If you call get on a key that isn't in the backing map, it will break. If you do anything whatsoever that would cause a lookup to happen on a key that isn't in the map -- a Map.equals call, containsKey, anything -- it will break with really weird stack traces." plus.google.com/102216152814616302326/posts/bEQLDK712MJ – haylem Jul 3 '12 at 21:19

I would use Google Collections Guava to do this - if your values are `Comparable` then you can use

``````valueComparator = Ordering.natural().onResultOf(Functions.forMap(map))
``````

Which will create a function (object) for the map [that takes any of the keys as input, returning the respective value], and then apply natural (comparable) ordering to them [the values].

If they're not comparable, then you'll need to do something along the lines of

``````valueComparator = Ordering.from(comparator).onResultOf(Functions.forMap(map))
``````

These may be applied to a TreeMap (as `Ordering` extends `Comparator`), or a LinkedHashMap after some sorting

NB: If you are going to use a TreeMap, remember that if a comparison == 0, then the item is already in the list (which will happen if you have multiple values that compare the same). To alleviate this, you could add your key to the comparator like so (presuming that your keys and values are `Comparable`):

``````valueComparator = Ordering.natural().onResultOf(Functions.forMap(map)).compound(Ordering.natural())
``````

= Apply natural ordering to the value mapped by the key, and compound that with the natural ordering of the key

Note that this will still not work if your keys compare to 0, but this should be sufficient for most `comparable` items (as `hashCode`, `equals` and `compareTo` are often in sync...)

## Implementation

So now that we've got a comparator that does what we want, we need to get a result from it.

``````map = ImmutableSortedMap.copyOf(myOriginalMap, valueComparator);
``````

Now this will most likely work work, but:

1. needs to be done given a complete finished map
2. Don't try the comparators above on a `TreeMap`; there's no point trying to compare an inserted key when it doesn't have a value until after the put, i.e., it will break really fast

Point 1 is a bit of a deal-breaker for me; google collections is incredibly lazy (which is good: you can do pretty much every operation in an instant; the real work is done when you start using the result), and this requires copying a whole map!

## "Full" answer/Live sorted map by values

Don't worry though; if you were obsessed enough with having a "live" map sorted in this manner, you could solve not one but both(!) of the above issues with something crazy like the following:

Note: This has changed significantly in June 2012 - the previous code could never work: an internal HashMap is required to lookup the values without creating an infinite loop between the `TreeMap.get()` -> `compare()` and `compare()` -> `get()`

``````import static org.junit.Assert.assertEquals;

import java.util.HashMap;
import java.util.Map;
import java.util.TreeMap;

class ValueComparableMap<K extends Comparable<K>,V> extends TreeMap<K,V> {
//A map for doing lookups on the keys for comparison so we don't get infinite loops
private final Map<K, V> valueMap;

ValueComparableMap(final Ordering<? super V> partialValueOrdering) {
this(partialValueOrdering, new HashMap<K,V>());
}

private ValueComparableMap(Ordering<? super V> partialValueOrdering,
HashMap<K, V> valueMap) {
super(partialValueOrdering //Apply the value ordering
.onResultOf(Functions.forMap(valueMap)) //On the result of getting the value for the key from the map
.compound(Ordering.natural())); //as well as ensuring that the keys don't get clobbered
this.valueMap = valueMap;
}

public V put(K k, V v) {
if (valueMap.containsKey(k)){
//remove the key in the sorted set before adding the key again
remove(k);
}
valueMap.put(k,v); //To get "real" unsorted values for the comparator
return super.put(k, v); //Put it in value order
}

public static void main(String[] args){
TreeMap<String, Integer> map = new ValueComparableMap<String, Integer>(Ordering.natural());
map.put("a", 5);
map.put("b", 1);
map.put("c", 3);
assertEquals("b",map.firstKey());
assertEquals("a",map.lastKey());
map.put("d",0);
assertEquals("d",map.firstKey());
//ensure it's still a map (by overwriting a key, but with a new value)
map.put("d", 2);
assertEquals("b", map.firstKey());
//Ensure multiple values do not clobber keys
map.put("e", 2);
assertEquals(5, map.size());
assertEquals(2, (int) map.get("e"));
assertEquals(2, (int) map.get("d"));
}
}
``````

When we put, we ensure that the hash map has the value for the comparator, and then put to the TreeSet for sorting. But before that we check the hash map to see that the key is not actually a duplicate. Also, the comparator that we create will also include the key so that duplicate values don't delete the non-duplicate keys (due to == comparison). These 2 items are vital for ensuring the map contract is kept; if you think you don't want that, then you're almost at the point of reversing the map entirely (to `Map<V,K>`).

The constructor would need to be called as

`````` new ValueComparableMap(Ordering.natural());
//or
new ValueComparableMap(Ordering.from(comparator));
``````
-
This is awesome. I would like this answer to be under the question "How to sort a map's keys by value in Guava", which is what I was looking for. I adapted this answer to: final List<K> sortedKeys = Ordering.natural().onResultOf(Functions.forMap(map)) .immutableSortedCopy(map.keySet()); which is what I needed. Thanks! – John Lehmann Mar 23 '11 at 23:44
A full example would be useful here. – lisak Jun 3 '11 at 17:13
Talking about the class ValueComparableMap, which implements the most challenging answer to the question as it provides a mutable sorted map. I fail to see how this could work. The call to super.get(key) will refer to the comparator for tree traversal (that's how a sorted tree works, or see TreeMap source code). And the comparator needs answer from #get to return an answer. This will end up, it seems to me, in an infinite loop. (There's also the problem that "this" can't be referred to in the constructor, but that's less fundamental.) – Olivier Cailloux Jun 6 '12 at 21:26
@Oliver; fantastic! I hadn't noticed that (sometimes you really need to analyse abstractions...). I've fixed both issues, and added some inline tests. The next question is: how did I get to 48 votes without anybody ever using the code? :) – Stephen Jun 8 '12 at 12:20
Thanks for this, I used your solution in one project. I think there's a problem in put though: to behave like a map it needs to return the value previously associated with the key, if it exists, but like this it will never do. The solution I used is to return the removed value if it exists. – alex Aug 21 '13 at 9:22
``````private static <K, V> Map<K, V> sortByValue(Map<K, V> map) {
List<Entry<K, V>> list = new LinkedList<>(map.entrySet());
Collections.sort(list, new Comparator<Object>() {
@SuppressWarnings("unchecked")
public int compare(Object o1, Object o2) {
return ((Comparable<V>) ((Map.Entry<K, V>) (o1)).getValue()).compareTo(((Map.Entry<K, V>) (o2)).getValue());
}
});

Map<K, V> result = new LinkedHashMap<>();
for (Iterator<Entry<K, V>> it = list.iterator(); it.hasNext();) {
Map.Entry<K, V> entry = (Map.Entry<K, V>) it.next();
result.put(entry.getKey(), entry.getValue());
}

return result;
}
``````
-
The list to be sorted is "new LinkedList"?? Gee. Thankfully Collections.sort() dump the list to an array first, to avoid precisely this kind of error (but still, dumping an ArrayList to an array should be faster than doing the same for a LinkedList). – Dimitris Andreou Apr 8 '10 at 13:13
no generics? :-( – TraderJoeChicago May 24 '11 at 16:57
cannot convert from Iterator to TernaryTree.Iterator – lisak Jun 3 '11 at 16:31
why use Collections.sort if there is Arrays.sort? see my answer for more details – ciamej May 30 '12 at 0:49
@gg.kaspersky I'm not saying "it's bad to sort a LinkedList", but that LinkedList itself is a bad choice here, regardless of sorting. Much better to use an ArrayList, and for extra points, size it at exactly map.size(). Also see code.google.com/p/memory-measurer/wiki/… average cost per element in ArrayList: 5 bytes average cost per element in LinkedList: 24 bytes. For an exactly sized ArrayList, the average cost would be 4 bytes. That is, LinkedList takes SIX times the amount of memory that ArrayList needs. It's just bloat – Dimitris Andreou Nov 29 '12 at 19:29

Java 8 offers a new answer: convert the entries into a stream, and use the comparator combinators from Map.Entry:

``````Stream<Map.Entry<K,V>> sorted =
map.entrySet().stream()
.sorted(Map.Entry.comparingByValue());
``````

This will let you consume the entries sorted in ascending order of value. If you want descending value, simply reverse the comparator:

``````Stream<Map.Entry<K,V>> sorted =
map.entrySet().stream()
.sorted(Collections.reverseOrder(Map.Entry.comparingByValue()));
``````

If the values are not comparable, you can pass an explicit comparator:

``````Stream<Map.Entry<K,V>> sorted =
map.entrySet().stream()
.sorted(Map.Entry.comparingByValue(comparator));
``````

You can then proceed to use other stream operations to consume the data. For example, if you want the top 10 in a new map:

``````Map<K,V> topTen =
map.entrySet().stream()
.sorted(Map.Entry.comparingByKey(Comparator.reverseOrder()))
.limit(10)
.collect(Collectors.toMap(Map.Entry::getKey, Map.Entry::getValue));
``````

Or print to `System.out`:

``````map.entrySet().stream()
.sorted(Map.Entry.comparingByValue())
.forEach(System.out::println);
``````
-
Nice, but what about the use of `parallelStream()` in this case ? – Benj Dec 9 '14 at 18:21
It will work in parallel, however, you may find that the cost of merging maps to combine the partial results is too expensive and the parallel version may not perform as well as you'd hope. But it does work and produce the correct answer. – Brian Goetz Dec 9 '14 at 18:37
Thanks for your useful advice. It was exactly what I was wondering, though it depends on what type of key you use and so many parameters... The important thing is "it does work and produce the correct answer". – Benj Dec 10 '14 at 19:30
How can I sort according to the values being Lists with different sizes? I want to sort by descending list size. – Pete Apr 28 '15 at 15:04
something wrong with that topTen stream example, aside from the misplaced semicolon. My stream-Fu is not strong enough to fix it though. – lreeder Jul 11 '15 at 0:53

Sorting the keys requires the Comparator to look up each value for each comparison. A more scalable solution would use the entrySet directly, since then the value would be immediately available for each comparison (although I haven't backed this up by numbers).

Here's a generic version of such a thing:

``````public static <K, V extends Comparable<? super V>> List<K> getKeysSortedByValue(Map<K, V> map) {
final int size = map.size();
final List<Map.Entry<K, V>> list = new ArrayList<Map.Entry<K, V>>(size);
final ValueComparator<V> cmp = new ValueComparator<V>();
Collections.sort(list, cmp);
final List<K> keys = new ArrayList<K>(size);
for (int i = 0; i < size; i++) {
keys.set(i, list.get(i).getKey());
}
return keys;
}

private static final class ValueComparator<V extends Comparable<? super V>>
implements Comparator<Map.Entry<?, V>> {
public int compare(Map.Entry<?, V> o1, Map.Entry<?, V> o2) {
return o1.getValue().compareTo(o2.getValue());
}
}
``````

There are ways to lessen memory rotation for the above solution. The first ArrayList created could for instance be re-used as a return value; this would require suppression of some generics warnings, but it might be worth it for re-usable library code. Also, the Comparator does not have to be re-allocated at every invocation.

Here's a more efficient albeit less appealing version:

``````public static <K, V extends Comparable<? super V>> List<K> getKeysSortedByValue2(Map<K, V> map) {
final int size = map.size();
final List reusedList = new ArrayList(size);
final List<Map.Entry<K, V>> meView = reusedList;
Collections.sort(meView, SINGLE);
final List<K> keyView = reusedList;
for (int i = 0; i < size; i++) {
keyView.set(i, meView.get(i).getKey());
}
return keyView;
}

private static final Comparator SINGLE = new ValueComparator();
``````

Finally, if you need to continously access the sorted information (rather than just sorting it once in a while), you can use an additional multi map. Let me know if you need more details...

-
The second version can be more concise if you return List<Map.Entry<K,V>> This also makes it easier to iterate and get both the keys and the values without having to do a lot of extra gets to the map. This is all assuming you are ok with this code being thread-unsafe. If the backing map or sorted list are shared in a multithreaded environment, all bets are off. – Mike Miller Sep 20 '11 at 21:00

The commons-collections library contains a solution called TreeBidiMap. Or, you could have a look at the Google Collections API. It has TreeMultimap which you could use.

And if you don't want to use these framework... they come with source code.

-
You don't have to use the commons-collection. Java comes with its own java.util.TreeMap. – yoliho Sep 21 '08 at 4:23
yes, but TreeMap is far less flexible when sorting on the value part of the mapentries. – p3t0r Sep 21 '08 at 6:18
Good point... I didn't read the question carefully enough. You're right -- it's a strange problem. – yoliho Sep 21 '08 at 15:38
The trouble with BidiMap is that it adds a 1:1 relation constraint between keys and values in order to make the relation invertible (ie. both keys and values need to be unique). This means you can't use this to store something like a word count object since many words will have the same count. – Doug Jul 23 '10 at 19:49

I've looked at the given answers, but a lot of them are more complicated than needed or remove map elements when several keys have same value.

Here is a solution that I think fits better:

``````public static <K, V extends Comparable<V>> Map<K, V> sortByValues(final Map<K, V> map) {
Comparator<K> valueComparator =  new Comparator<K>() {
public int compare(K k1, K k2) {
int compare = map.get(k2).compareTo(map.get(k1));
if (compare == 0) return 1;
else return compare;
}
};
Map<K, V> sortedByValues = new TreeMap<K, V>(valueComparator);
sortedByValues.putAll(map);
return sortedByValues;
}
``````

Note that the map is sorted from the highest value to the lowest.

-
PROBLEM: if you want to use the returned map later, for example to check if it contains a certain element, you will always get false, because of your custom comparator! A possible solution: replace the last line with: return new LinkedHashMap<K,V>(sortedByValues); – Erel Segal-Halevi Oct 2 '11 at 15:58
This looks a clean solution to me , except the fact that @ErelSegalHalevi pointed out , checking whether the values exist in the Map will not be possible as you specified the comparator. map.put("1", "One"); map.put("2", "Two"); map.put("3", "Three"); map.put("4", "Four"); map.put("5", "Five"); map.containsKey("1") will always return false , if you return new object in the function sortByValues() like return new TreeMap<K, V>(sortedByValues); solves the problem . Thanks Abhi – abhi May 14 '13 at 8:14
pretty much the same as user157196's and Carter Page's answer. Carter Page's contains the LinkedHashMap fix – Kirby Apr 22 '14 at 17:37
4th line of the solution should be int compare = map.get(k1).compareTo(map.get(k2)); if you need ascending order – cosmolev Jul 22 '14 at 8:20

With Java 8, you can use the streams api to do it in a significantly less verbose way:

``````Map<K, V> sortedMap = map.entrySet().stream()
.sorted(Entry.comparingByValue())
.collect(toMap(Entry::getKey, Entry::getValue,
``````
-
How to sort it in a reverse order? – vlad.golubev Jun 1 '14 at 19:18
@VladGolubev `comparing(Entry::getValue).reversed()` – assylias Jun 1 '14 at 19:33
found a solution - `Collections.reverseOrder(comparing(Entry::getValue))` – vlad.golubev Aug 9 '14 at 8:26
@samosfator That looks like a bug in eclipse (or you are running an old version of JDK 8). – assylias Aug 9 '14 at 8:44
look at this example code – vlad.golubev Aug 9 '14 at 8:49

While I agree that the constant need to sort a map is probably a smell, I think the following code is the easiest way to do it without using a different data structure.

``````public class MapUtilities {

public static <K, V extends Comparable<V>> List<Entry<K, V>> sortByValue(Map<K, V> map) {
List<Entry<K, V>> entries = new ArrayList<Entry<K, V>>(map.entrySet());
Collections.sort(entries, new ByValue<K, V>());
return entries;
}

private static class ByValue<K, V extends Comparable<V>> implements Comparator<Entry<K, V>> {
public int compare(Entry<K, V> o1, Entry<K, V> o2) {
return o1.getValue().compareTo(o2.getValue());
}
}
``````

}

And here is an embarrassingly incomplete unit test:

``````public class MapUtilitiesTest extends TestCase {
public void testSorting() {
HashMap<String, Integer> map = new HashMap<String, Integer>();
map.put("One", 1);
map.put("Two", 2);
map.put("Three", 3);

List<Map.Entry<String, Integer>> sorted = MapUtilities.sortByValue(map);
assertEquals("First", "One", sorted.get(0).getKey());
assertEquals("Second", "Two", sorted.get(1).getKey());
assertEquals("Third", "Three", sorted.get(2).getKey());
}
``````

}

The result is a sorted list of Map.Entry objects, from which you can obtain the keys and values.

-
This method is much easier and more intuitive than creating a Map<V, List<K>> object with pretty much the same effect. The values are not really supposed to be keys in a Map object, what you're really looking for is a list in this situation, IMHO. – Jeff Wu Dec 30 '11 at 1:49
This solution doesn't work with lots of values, it screwed with my counts (the value associated with each key) – Sam Levin Sep 15 '12 at 16:17
That's strange. Could you elaborate? What was your output and what was the output you expected? – Lyudmil Sep 29 '12 at 10:24

To accomplish this with the new features in Java 8:

``````import static java.util.Map.Entry.comparingByValue;
import static java.util.stream.Collectors.toList;

<K, V> List<Entry<K, V>> sort(Map<K, V> map, Comparator<? super V> comparator) {
return map.entrySet().stream().sorted(comparingByValue(comparator)).collect(toList());
}
``````

The entries are ordered by their values using the given comparator. Alternatively, if your values are mutually comparable, no explicit comparator is needed:

``````<K, V extends Comparable<? super V>> List<Entry<K, V>> sort(Map<K, V> map) {
return map.entrySet().stream().sorted(comparingByValue()).collect(toList());
}
``````

The returned list is a snapshot of the given map at the time this method is called, so neither will reflect subsequent changes to the other. For a live iterable view of the map:

``````<K, V extends Comparable<? super V>> Iterable<Entry<K, V>> sort(Map<K, V> map) {
return () -> map.entrySet().stream().sorted(comparingByValue()).iterator();
}
``````

The returned iterable creates a fresh snapshot of the given map each time it's iterated, so barring concurrent modification, it will always reflect the current state of the map.

-
This returns a List of Entries rather than a map sorted by value. Other version that returns a map: stackoverflow.com/a/22132422/829571 – assylias Mar 3 '14 at 17:26

The answer voted for the most does not work when you have 2 items that equals. the TreeMap leaves equal values out.

the exmaple: unsorted map

```key/value: D/67.3
key/value: A/99.5
key/value: B/67.4
key/value: C/67.5
key/value: E/99.5
```

results

```key/value: A/99.5
key/value: C/67.5
key/value: B/67.4
key/value: D/67.3
```

So leaves out E!!

For me it worked fine to adjust the comparator, if it equals do not return 0 but -1.

in the example:

class ValueComparator implements Comparator {

Map base; public ValueComparator(Map base) { this.base = base; }

public int compare(Object a, Object b) {

``````if((Double)base.get(a) < (Double)base.get(b)) {
return 1;
} else if((Double)base.get(a) == (Double)base.get(b)) {
return -1;
} else {
return -1;
}
``````

} }

now it returns:

unsorted map:

```key/value: D/67.3
key/value: A/99.5
key/value: B/67.4
key/value: C/67.5
key/value: E/99.5
```

results:

```key/value: A/99.5
key/value: E/99.5
key/value: C/67.5
key/value: B/67.4
key/value: D/67.3
```

as a response to Aliens (2011 nov. 22): I Am using this solution for a map of Integer Id's and names, but the idea is the same, so might be the code above is not correct (I will write it in a test and give you the correct code), this is the code for a Map sorting, based on the solution above:

``````package nl.iamit.util;

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

public class Comparators {

public static class MapIntegerStringComparator implements Comparator {

Map<Integer, String> base;

public MapIntegerStringComparator(Map<Integer, String> base) {
this.base = base;
}

public int compare(Object a, Object b) {

int compare = ((String) base.get(a))
.compareTo((String) base.get(b));
if (compare == 0) {
return -1;
}
return compare;
}
}

}
``````

and this is the test class (I just tested it, and this works for the Integer, String Map:

``````package test.nl.iamit.util;

import java.util.HashMap;
import java.util.TreeMap;
import nl.iamit.util.Comparators;
import org.junit.Test;
import static org.junit.Assert.assertArrayEquals;

public class TestComparators {

@Test
public void testMapIntegerStringComparator(){
HashMap<Integer, String> unSoretedMap = new HashMap<Integer, String>();
Comparators.MapIntegerStringComparator bvc = new Comparators.MapIntegerStringComparator(
unSoretedMap);
TreeMap<Integer, String> sorted_map = new TreeMap<Integer, String>(bvc);
//the testdata:
unSoretedMap.put(new Integer(1), "E");
unSoretedMap.put(new Integer(2), "A");
unSoretedMap.put(new Integer(3), "E");
unSoretedMap.put(new Integer(4), "B");
unSoretedMap.put(new Integer(5), "F");

sorted_map.putAll(unSoretedMap);

Object[] targetKeys={new Integer(2),new Integer(4),new Integer(3),new Integer(1),new Integer(5) };
Object[] currecntKeys=sorted_map.keySet().toArray();

assertArrayEquals(targetKeys,currecntKeys);
}
}
``````

here is the code for the Comparator of a Map:

``````public static class MapStringDoubleComparator implements Comparator {

Map<String, Double> base;

public MapStringDoubleComparator(Map<String, Double> base) {
this.base = base;
}

//note if you want decending in stead of ascending, turn around 1 and -1
public int compare(Object a, Object b) {
if ((Double) base.get(a) == (Double) base.get(b)) {
return 0;
} else if((Double) base.get(a) < (Double) base.get(b)) {
return -1;
}else{
return 1;
}
}
}
``````

and this is the testcase for this:

``````@Test
public void testMapStringDoubleComparator(){
HashMap<String, Double> unSoretedMap = new HashMap<String, Double>();
Comparators.MapStringDoubleComparator bvc = new Comparators.MapStringDoubleComparator(
unSoretedMap);
TreeMap<String, Double> sorted_map = new TreeMap<String, Double>(bvc);
//the testdata:
unSoretedMap.put("D",new Double(67.3));
unSoretedMap.put("A",new Double(99.5));
unSoretedMap.put("B",new Double(67.4));
unSoretedMap.put("C",new Double(67.5));
unSoretedMap.put("E",new Double(99.5));

sorted_map.putAll(unSoretedMap);

Object[] targetKeys={"D","B","C","E","A"};
Object[] currecntKeys=sorted_map.keySet().toArray();

assertArrayEquals(targetKeys,currecntKeys);
}
``````

of cource you can make this a lot more generic, but I just needed it for 1 case (the Map)

-
It does not work for me. I get all values as null. – Aliens Nov 22 '11 at 0:42
you were right, there was some error in the code I gave at first! i Hope my recent edit will help you. – michel.iamit Nov 23 '11 at 13:12

Create customized comparator and use it while creating new TreeMap object.

``````class MyComparator implements Comparator<Object> {

Map<String, Integer> map;

public MyComparator(Map<String, Integer> map) {
this.map = map;
}

public int compare(Object o1, Object o2) {

if (map.get(o2) == map.get(o1))
return 1;
else
return ((Integer) map.get(o2)).compareTo((Integer)
map.get(o1));

}
}
``````

Use the below code in your main func

``````    Map<String, Integer> lMap = new HashMap<String, Integer>();
lMap.put("A", 35);
lMap.put("B", 75);
lMap.put("C", 50);
lMap.put("D", 50);

MyComparator comparator = new MyComparator(lMap);

Map<String, Integer> newMap = new TreeMap<String, Integer>(comparator);
newMap.putAll(lMap);
System.out.println(newMap);
``````

Output:

``````{B=75, D=50, C=50, A=35}
``````
-
This works for duplicate values too!!! – Sujan Reddy A Feb 10 '13 at 6:12
Works great! Thanks! – Недоброе Привидение Dec 18 '13 at 7:44

Use a generic comparator such as :

``````final class MapValueComparator<K,V extends Comparable<V>> implements Comparator<K> {

private Map<K,V> map;

private MapValueComparator() {
super();
}

public MapValueComparator(Map<K,V> map) {
this();
this.map = map;
}

public int compare(K o1, K o2) {
return map.get(o1).compareTo(map.get(o2));
}
}
``````
-

This is a variation of Anthony's answer, which doesn't work if there are duplicate values:

``````public static <K, V extends Comparable<V>> Map<K, V> sortMapByValues(final Map<K, V> map) {
Comparator<K> valueComparator =  new Comparator<K>() {
public int compare(K k1, K k2) {
final V v1 = map.get(k1);
final V v2 = map.get(k2);

/* Not sure how to handle nulls ... */
if (v1 == null) {
return (v2 == null) ? 0 : 1;
}

int compare = v2.compareTo(v1);
if (compare != 0)
{
return compare;
}
else
{
Integer h1 = k1.hashCode();
Integer h2 = k2.hashCode();
return h2.compareTo(h1);
}
}
};
Map<K, V> sortedByValues = new TreeMap<K, V>(valueComparator);
sortedByValues.putAll(map);
return sortedByValues;
}
``````

Note that it's rather up in the air how to handle nulls.

One important advantage of this approach is that it actually returns a Map, unlike some of the other solutions offered here.

-
This is the best answer on the page and it is down at the bottom. What a shame – eggonlegs Oct 24 '11 at 2:36
It's incorrect, my method works if there are duplicate values. I've used it with maps having more than 100 keys with "1" as value. – Anthony Feb 25 '12 at 16:40

Instead of using `Collections.sort` as some do I'd suggest using `Arrays.sort`. Actually what `Collections.sort` does is something like this:

``````public static <T extends Comparable<? super T>> void sort(List<T> list) {
Object[] a = list.toArray();
Arrays.sort(a);
ListIterator<T> i = list.listIterator();
for (int j=0; j<a.length; j++) {
i.next();
i.set((T)a[j]);
}
}
``````

It just calls `toArray` on the list and then uses `Arrays.sort`. This way all the map entries will be copied three times: once from the map to the temporary list (be it a LinkedList or ArrayList), then to the temporary array and finally to the new map.

My solution ommits this one step as it does not create unnecessary LinkedList. Here is the code, generic-friendly and performance-optimal:

``````public static <K, V extends Comparable<? super V>> Map<K, V> sortByValue(Map<K, V> map)
{
@SuppressWarnings("unchecked")
Map.Entry<K,V>[] array = map.entrySet().toArray(new Map.Entry[map.size()]);

Arrays.sort(array, new Comparator<Map.Entry<K, V>>()
{
public int compare(Map.Entry<K, V> e1, Map.Entry<K, V> e2)
{
return e1.getValue().compareTo(e2.getValue());
}
});

Map<K, V> result = new LinkedHashMap<K, V>();
for (Map.Entry<K, V> entry : array)
result.put(entry.getKey(), entry.getValue());

return result;
}
``````
-

Major problem. If you use the first answer (Google takes you here), change the comparator to add an equal clause, otherwise you cannot get values from the sorted_map by keys:

``````public int compare(String a, String b) {
if (base.get(a) > base.get(b)) {
return 1;
} else if (base.get(a) < base.get(b)){
return -1;
}

return 0;
// returning 0 would merge keys
}
``````
-
Now when you add two entries with equal values they will be merged you should only return 0 if you are sure that the objects are the same (equal) – Masood_mj Jan 23 '13 at 4:54

This is just too complicated. Maps were not supposed to do such job as sorting them by Value. The easiest way is to create your own Class so it fits your requirement.

In example lower you are supposed to add TreeMap a comparator at place where * is. But by java API it gives comparator only keys, not values. All of examples stated here is based on 2 Maps. One Hash and one new Tree. Which is odd.

The example:

``````Map<Driver driver, Float time> map = new TreeMap<Driver driver, Float time>(*);
``````

So change the map into a set this way:

``````ResultComparator rc = new ResultComparator();
Set<Results> set = new TreeSet<Results>(rc);
``````

You will create class `Results`,

``````public class Results {
private Driver driver;
private Float time;

public Results(Driver driver, Float time) {
this.driver = driver;
this.time = time;
}

public Float getTime() {
return time;
}

public void setTime(Float time) {
this.time = time;
}

public Driver getDriver() {
return driver;
}

public void setDriver (Driver driver) {
this.driver = driver;
}
}
``````

and the Comparator class:

``````public class ResultsComparator implements Comparator<Results> {
public int compare(Results t, Results t1) {
if (t.getTime() < t1.getTime()) {
return 1;
} else if (t.getTime() == t1.getTime()) {
return 0;
} else {
return -1;
}
}
}
``````

This way you can easily add more dependencies.

And as the last point I'll add simple iterator:

``````Iterator it = set.iterator();
while (it.hasNext()) {
Results r = (Results)it.next();
System.out.println( r.getDriver().toString
//or whatever that is related to Driver class -getName() getSurname()
+ " "
+ r.getTime()
);
}
``````
-

Based on @devinmoore code, a map sorting methods using generics and supporting both ascending and descending ordering.

``````/**
* Sort a map by it's keys in ascending order.
*
* @return new instance of {@link LinkedHashMap} contained sorted entries of supplied map.
* @author Maxim Veksler
*/
public static <K, V> LinkedHashMap<K, V> sortMapByKey(final Map<K, V> map) {
return sortMapByKey(map, SortingOrder.ASCENDING);
}

/**
* Sort a map by it's values in ascending order.
*
* @return new instance of {@link LinkedHashMap} contained sorted entries of supplied map.
* @author Maxim Veksler
*/
public static <K, V> LinkedHashMap<K, V> sortMapByValue(final Map<K, V> map) {
return sortMapByValue(map, SortingOrder.ASCENDING);
}

/**
* Sort a map by it's keys.
*
* @param sortingOrder {@link SortingOrder} enum specifying requested sorting order.
* @return new instance of {@link LinkedHashMap} contained sorted entries of supplied map.
* @author Maxim Veksler
*/
public static <K, V> LinkedHashMap<K, V> sortMapByKey(final Map<K, V> map, final SortingOrder sortingOrder) {
Comparator<Map.Entry<K, V>> comparator = new Comparator<Entry<K,V>>() {
public int compare(Entry<K, V> o1, Entry<K, V> o2) {
return comparableCompare(o1.getKey(), o2.getKey(), sortingOrder);
}
};

return sortMap(map, comparator);
}

/**
* Sort a map by it's values.
*
* @param sortingOrder {@link SortingOrder} enum specifying requested sorting order.
* @return new instance of {@link LinkedHashMap} contained sorted entries of supplied map.
* @author Maxim Veksler
*/
public static <K, V> LinkedHashMap<K, V> sortMapByValue(final Map<K, V> map, final SortingOrder sortingOrder) {
Comparator<Map.Entry<K, V>> comparator = new Comparator<Entry<K,V>>() {
public int compare(Entry<K, V> o1, Entry<K, V> o2) {
return comparableCompare(o1.getValue(), o2.getValue(), sortingOrder);
}
};

return sortMap(map, comparator);
}

@SuppressWarnings("unchecked")
private static <T> int comparableCompare(T o1, T o2, SortingOrder sortingOrder) {
int compare = ((Comparable<T>)o1).compareTo(o2);

switch (sortingOrder) {
case ASCENDING:
return compare;
case DESCENDING:
return (-1) * compare;
}

return 0;
}

/**
* Sort a map by supplied comparator logic.
*
* @return new instance of {@link LinkedHashMap} contained sorted entries of supplied map.
* @author Maxim Veksler
*/
public static <K, V> LinkedHashMap<K, V> sortMap(final Map<K, V> map, final Comparator<Map.Entry<K, V>> comparator) {
// Convert the map into a list of key,value pairs.
List<Map.Entry<K, V>> mapEntries = new LinkedList<Map.Entry<K, V>>(map.entrySet());

// Sort the converted list according to supplied comparator.
Collections.sort(mapEntries, comparator);

// Build a new ordered map, containing the same entries as the old map.
for(Map.Entry<K, V> entry : mapEntries) {
// We iterate on the mapEntries list which is sorted by the comparator putting new entries into
// the targeted result which is a sorted map.
result.put(entry.getKey(), entry.getValue());
}

return result;
}

/**
* Sorting order enum, specifying request result sort behavior.
* @author Maxim Veksler
*
*/
public static enum SortingOrder {
/**
* Resulting sort will be from smaller to biggest.
*/
ASCENDING,
/**
* Resulting sort will be from biggest to smallest.
*/
DESCENDING
}
``````
-
Then again maybe a better solution would be to just use a self sorting map, in the case use org.apache.commons.collections.bidimap.TreeBidiMap – Maxim Veksler Apr 14 '09 at 13:48

Here is an OO solution (i.e., doesn't use `static` methods):

``````import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

public class SortableValueMap<K, V extends Comparable<V>>
public SortableValueMap() { }

public SortableValueMap( Map<K, V> map ) {
super( map );
}

public void sortByValue() {
List<Map.Entry<K, V>> list = new LinkedList<Map.Entry<K, V>>( entrySet() );

Collections.sort( list, new Comparator<Map.Entry<K, V>>() {
public int compare( Map.Entry<K, V> entry1, Map.Entry<K, V> entry2 ) {
return entry1.getValue().compareTo( entry2.getValue() );
}
});

clear();

for( Map.Entry<K, V> entry : list ) {
put( entry.getKey(), entry.getValue() );
}
}

private static void print( String text, Map<String, Double> map ) {
System.out.println( text );

for( String key : map.keySet() ) {
System.out.println( "key/value: " + key + "/" + map.get( key ) );
}
}

public static void main( String[] args ) {
SortableValueMap<String, Double> map =
new SortableValueMap<String, Double>();

map.put( "A", 67.5 );
map.put( "B", 99.5 );
map.put( "C", 82.4 );
map.put( "D", 42.0 );

print( "Unsorted map", map );
map.sortByValue();
print( "Sorted map", map );
}
}
``````

Hereby donated to the public domain.

-

Afaik the most cleaner way is utilizing collections to sort map on value:

``````Map<String, Long> map = new HashMap<String, Long>();
// populate with data to sort on Value
// use datastructure designed for sorting

Queue queue = new PriorityQueue( map.size(), new MapComparable() );

// get a sorted map

for (Map.Entry<String, Long> entry; (entry = queue.poll())!=null;) {
}

public static class MapComparable implements Comparator<Map.Entry<String, Long>>{

public int compare(Entry<String, Long> e1, Entry<String, Long> e2) {
return e1.getValue().compareTo(e2.getValue());
}
}
``````
-

Since TreeMap<> does not work for values that can be equal, I used this:

``````private <K, V extends Comparable<? super V>> List<Entry<K, V>> sort(Map<K, V> map)     {
List<Map.Entry<K, V>> list = new LinkedList<Map.Entry<K, V>>(map.entrySet());
Collections.sort(list, new Comparator<Map.Entry<K, V>>() {
public int compare(Map.Entry<K, V> o1, Map.Entry<K, V> o2) {
return o1.getValue().compareTo(o2.getValue());
}
});

return list;
}
``````

You might want to put list in a LinkedHashMap, but if you're only going to iterate over it right away, that's superfluous...

-
that's right but your comparator doesn't handle equals values case – Sebastien Lorber Dec 27 '11 at 17:48

Some simple changes in order to have a sorted map with pairs that have duplicate values. In the compare method (class ValueComparator) when values are equal do not return 0 but return the result of comparing the 2 keys. Keys are distinct in a map so you succeed to keep duplicate values (which are sorted by keys by the way). So the above example could be modified like this:

``````    public int compare(Object a, Object b) {

if((Double)base.get(a) < (Double)base.get(b)) {
return 1;
} else if((Double)base.get(a) == (Double)base.get(b)) {
return ((String)a).compareTo((String)b);
} else {
return -1;
}
}
}
``````
-

If you have duplicate keys and only a small set of data (<1000) and your code is not performance critical you can just do the following:

``````Map<String,Integer> tempMap=new HashMap<String,Integer>(inputUnsortedMap);

for(int i=0;i<inputUnsortedMap.size();i++){
Map.Entry<String,Integer> maxEntry=null;
Integer maxValue=-1;
for(Map.Entry<String,Integer> entry:tempMap.entrySet()){
if(entry.getValue()>maxValue){
maxValue=entry.getValue();
maxEntry=entry;
}
}
tempMap.remove(maxEntry.getKey());
sortedOutputMap.put(maxEntry.getKey(),maxEntry.getValue());
}
``````

inputUnsortedMap is the input to the code.

The variable sortedOutputMap will contain the data in decending order when iterated over. To change order just change > to a < in the if statement.

Is not the fastest sort but does the job without any additional dependencies.

-

For sure the solution of Stephen is really great, but for those who can't use Guava:

Here's my solution for sorting by value a map. This solution handle the case where there are twice the same value etc...

``````// If you want to sort a map by value, and if there can be twice the same value:

// here is your original map
Map<String,Integer> mapToSortByValue = new HashMap<String, Integer>();
mapToSortByValue.put("A", 3);
mapToSortByValue.put("B", 1);
mapToSortByValue.put("C", 3);
mapToSortByValue.put("D", 5);
mapToSortByValue.put("E", -1);
mapToSortByValue.put("F", 1000);
mapToSortByValue.put("G", 79);
mapToSortByValue.put("H", 15);

// Sort all the map entries by value
Set<Map.Entry<String,Integer>> set = new TreeSet<Map.Entry<String,Integer>>(
new Comparator<Map.Entry<String,Integer>>(){
@Override
public int compare(Map.Entry<String,Integer> obj1, Map.Entry<String,Integer> obj2) {
Integer val1 = obj1.getValue();
Integer val2 = obj2.getValue();
// DUPLICATE VALUE CASE
// If the values are equals, we can't return 0 because the 2 entries would be considered
// as equals and one of them would be deleted (because we use a set, no duplicate, remember!)
int compareValues = val1.compareTo(val2);
if ( compareValues == 0 ) {
String key1 = obj1.getKey();
String key2 = obj2.getKey();
int compareKeys = key1.compareTo(key2);
if ( compareKeys == 0 ) {
// what you return here will tell us if you keep REAL KEY-VALUE duplicates in your set
// if you want to, do whatever you want but do not return 0 (but don't break the comparator contract!)
return 0;
}
return compareKeys;
}
return compareValues;
}
}
);

// OK NOW OUR SET IS SORTED COOL!!!!

// And there's nothing more to do: the entries are sorted by value!
for ( Map.Entry<String,Integer> entry : set ) {
System.out.println("Set entries: " + entry.getKey() + " -> " + entry.getValue());
}

// But if you add them to an hashmap
Map<String,Integer> myMap = new HashMap<String,Integer>();
// When iterating over the set the order is still good in the println...
for ( Map.Entry<String,Integer> entry : set ) {
System.out.println("Added to result map entries: " + entry.getKey() + " " + entry.getValue());
myMap.put(entry.getKey(), entry.getValue());
}

// But once they are in the hashmap, the order is not kept!
for ( Integer value : myMap.values() ) {
System.out.println("Result map values: " + value);
}
// Also this way doesn't work:
// Logic because the entryset is a hashset for hashmaps and not a treeset
// (and even if it was a treeset, it would be on the keys only)
for ( Map.Entry<String,Integer> entry : myMap.entrySet() ) {
System.out.println("Result map entries: " + entry.getKey() + " -> " + entry.getValue());
}

// CONCLUSION:
// If you want to iterate on a map ordered by value, you need to remember:
// 1) Maps are only sorted by keys, so you can't sort them directly by value
// 2) So you simply CAN'T return a map to a sortMapByValue function
// 3) You can't reverse the keys and the values because you have duplicate values
//    This also means you can't neither use Guava/Commons bidirectionnal treemaps or stuff like that

// SOLUTIONS
// So you can:
// 1) only sort the values which is easy, but you loose the key/value link (since you have duplicate values)
// 2) sort the map entries, but don't forget to handle the duplicate value case (like i did)
// 3) if you really need to return a map, use a LinkedHashMap which keep the insertion order
``````

The exec: http://www.ideone.com/dq3Lu

The output:

``````Set entries: E -> -1
Set entries: B -> 1
Set entries: A -> 3
Set entries: C -> 3
Set entries: D -> 5
Set entries: H -> 15
Set entries: G -> 79
Set entries: F -> 1000
Added to result map entries: E -1
Added to result map entries: B 1
Added to result map entries: A 3
Added to result map entries: C 3
Added to result map entries: D 5
Added to result map entries: H 15
Added to result map entries: G 79
Added to result map entries: F 1000
Result map values: 5
Result map values: -1
Result map values: 1000
Result map values: 79
Result map values: 3
Result map values: 1
Result map values: 3
Result map values: 15
Result map entries: D -> 5
Result map entries: E -> -1
Result map entries: F -> 1000
Result map entries: G -> 79
Result map entries: A -> 3
Result map entries: B -> 1
Result map entries: C -> 3
Result map entries: H -> 15
``````

Hope it will help some folks

-

I've merged the solutions of user157196 and Carter Page:

``````class MapUtil {

public static <K, V extends Comparable<? super V>> Map<K, V> sortByValue( Map<K, V> map ){
ValueComparator<K,V> bvc =  new ValueComparator<K,V>(map);
TreeMap<K,V> sorted_map = new TreeMap<K,V>(bvc);
sorted_map.putAll(map);
return sorted_map;
}

}

class ValueComparator<K, V extends Comparable<? super V>> implements Comparator<K> {

Map<K, V> base;
public ValueComparator(Map<K, V> base) {
this.base = base;
}

public int compare(K a, K b) {
int result = (base.get(a).compareTo(base.get(b)));
if (result == 0) result=1;
// returning 0 would merge keys
return result;
}
}
``````
-

You can try Guava's multimaps:

``````TreeMap<Integer, Collection<String>> sortedMap = new TreeMap<>(
Multimaps.invertFrom(Multimaps.forMap(originalMap),
ArrayListMultimap.<Integer, String>create()).asMap());
``````

As a result you get a map from original values to collections of keys that correspond to them. This approach can be used even if there are multiple keys for the same value.

-

There are a lot of answers for this question already, but none provided me what I was looking for, a map implementation that returns keys and entries sorted by the associated value, and maintains this property as keys and values are modified in the map. Two other questions ask for this specifically.

I cooked up a generic friendly example that solves this use case. This implementation does not honor all of the contracts of the Map interface, such as reflecting value changes and removals in the returned key set and entry sets in the actual map. I felt such a solution would be too large to include in a Stack Overflow answer. If I manage to create a more complete implementation, perhaps I will post it to Github and then to it link in an updated version of this answer.

``````import java.util.*;

/**
* A map where {@link #keySet()} and {@link #entrySet()} return sets ordered
* by associated values based on the the comparator provided at construction
* time. The order of two or more keys with identical values is not defined.
* <p>
* Several contracts of the Map interface are not satisfied by this minimal
* implementation.
*/
public class ValueSortedMap<K, V> extends HashMap<K, V> {
protected Map<V, Collection<K>> valueToKeysMap;

// uses natural order of value object, if any
public ValueSortedMap() {
this((Comparator<? super V>) null);
}

public ValueSortedMap(Comparator<? super V> valueComparator) {
this.valueToKeysMap = new TreeMap<V, Collection<K>>(valueComparator);
}

public boolean containsValue(Object o) {
return valueToKeysMap.containsKey(o);
}

public V put(K k, V v) {
V oldV = null;
if (containsKey(k)) {
oldV = get(k);
valueToKeysMap.get(oldV).remove(k);
}
super.put(k, v);
if (!valueToKeysMap.containsKey(v)) {
Collection<K> keys = new ArrayList<K>();
valueToKeysMap.put(v, keys);
} else {
}
return oldV;
}

public void putAll(Map<? extends K, ? extends V> m) {
for (Map.Entry<? extends K, ? extends V> e : m.entrySet())
put(e.getKey(), e.getValue());
}

public V remove(Object k) {
V oldV = null;
if (containsKey(k)) {
oldV = get(k);
super.remove(k);
valueToKeysMap.get(oldV).remove(k);
}
return oldV;
}

public void clear() {
super.clear();
valueToKeysMap.clear();
}

public Set<K> keySet() {
for (V v : valueToKeysMap.keySet()) {
Collection<K> keys = valueToKeysMap.get(v);
}
return ret;
}

public Set<Map.Entry<K, V>> entrySet() {
for (Collection<K> keys : valueToKeysMap.values()) {
for (final K k : keys) {
final V v = get(k);
public K getKey() {
return k;
}

public V getValue() {
return v;
}

public V setValue(V v) {
throw new UnsupportedOperationException();
}
});
}
}
return ret;
}
}
``````
-

Depending on the context, using `java.util.LinkedHashMap<T>` which rememebers the order in which items are placed into the map. Otherwise, if you need to sort values based on their natural ordering, I would recommend maintaining a separate List which can be sorted via `Collections.sort()`.

-
I don't see why this was -1, so far LinkedHashMap is probably the best solution for me, I'm just trying to figure out how expensive it is to throw away and create a new LinkedHashMap. – NobleUplift Apr 18 at 20:07

When I'm faced with this, I just create a list on the side. If you put them together in a custom Map implementation, it'll have a nice feel to it... You can use something like the following, performing the sort only when needed. (Note: I haven't really tested this, but it compiles... might be a silly little bug in there somewhere)

(If you want it sorted by both keys and values, have the class extend TreeMap, don't define the accessor methods, and have the mutators call super.xxxxx instead of map_.xxxx)

``````package com.javadude.sample;

import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;

public class SortedValueHashMap<K, V> implements Map<K, V> {
private Map<K, V> map_ = new HashMap<K, V>();
private List<V> valueList_ = new ArrayList<V>();
private boolean needsSort_ = false;
private Comparator<V> comparator_;

public SortedValueHashMap() {
}
public SortedValueHashMap(List<V> valueList) {
valueList_ = valueList;
}

public List<V> sortedValues() {
if (needsSort_) {
needsSort_ = false;
Collections.sort(valueList_, comparator_);
}
return valueList_;
}

// mutators
public void clear() {
map_.clear();
valueList_.clear();
needsSort_ = false;
}

public V put(K key, V value) {
needsSort_ = true;
return map_.put(key, value);
}

public void putAll(Map<? extends K, ? extends V> m) {
map_.putAll(m);
needsSort_ = true;
}

public V remove(Object key) {
V value = map_.remove(key);
valueList_.remove(value);
return value;
}

// accessors
public boolean containsKey(Object key)           { return map_.containsKey(key); }
public boolean containsValue(Object value)       { return map_.containsValue(value); }
public Set<java.util.Map.Entry<K, V>> entrySet() { return map_.entrySet(); }
public boolean equals(Object o)                  { return map_.equals(o); }
public V get(Object key)                         { return map_.get(key); }
public int hashCode()                            { return map_.hashCode(); }
public boolean isEmpty()                         { return map_.isEmpty(); }
public Set<K> keySet()                           { return map_.keySet(); }
public int size()                                { return map_.size(); }
public Collection<V> values()                    { return map_.values(); }
}
``````
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## protected by ElenasysJun 17 '15 at 23:08

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