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HashMap<ArrayList<Integer>, String>

Iterating though this structure, I get:

[1 1 0], "gh"
[0 4 2], "gh"
[0 5 2], "qh"

However, I want to sort this on the key (in increasing order), to get

[0 4 2], "gh"
[0 5 2], "qh"
[1 1 0], "gh"

The first component is sorted first, then the second, then the third.

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Is that good practice to have arraylist as key? I would suggest arraylist.blogspot.com/2011/12/… –  Nambari Dec 9 '12 at 5:51
Generally speaking, no it isn't. Your keys should be immutable. http://docs.oracle.com/javase/6/docs/api/java/util/LinkedHashMap.html might be of interest too. –  Daniel B. Chapman Dec 9 '12 at 5:53
@DanielChapman LinkedHashMap preserves insertion order, not key-based ordering. –  Matt Ball Dec 9 '12 at 6:00
Agree with @Nambari (+1), its not a good approach to have arraylist as key in hashMap. Better put arraylist in a custom object and override hashcode, equals method and also implement comparable interface. –  rai.skumar Dec 9 '12 at 6:19

2 Answers 2

up vote 4 down vote accepted

HashMaps have no inherent ordering.

This class makes no guarantees as to the order of the map; in particular, it does not guarantee that the order will remain constant over time.

Use a different data structure, or externally sort the keys yourself, before iterating. Either way, you'll need to write a Comparator<List<Integer>> since List<E> does not extend Comparable<List<E>>

List<List<Integer>> keys = new ArrayList<>(map.keySet());
Collections.sort(keys, new Comparator<List<Integer>>() {
    @Override public int compare(List<Integer> a, List<Integer> b) {
        // TODO handle edge cases, like lists of differing size

        for (int i=0; i<Math.min(a.size(), b.size()); i++) {
            int result = Integer.compare(a.get(i), b.get(i));
            if (result != 0) {
                return result;

        return 0;

for (List<Integer> key : keys) {
    String value = map.get(key);
    // do something interesting with the value

N.B. it is generally a Bad Idea to use mutable keys in a map of any type. Personally, I've never had a need to – at least use an immutable list of integers instead.

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Once I have defined your collections.sort in my class, I'm not sure how I should call it after HashMap<ArrayList<Integer>, String> map = new HashMap<ArrayList<Integer>, String>(); . Can I simply do map.sort()? –  Wuschelbeutel Kartoffelhuhn Dec 9 '12 at 6:19
No, read my code more carefully. You sort a list of the keys, immediately before iterating on the keys & values of the map. Also, the fact that there is no map.sort() method should be a pretty good hint about the answer to your comment, don't you think? –  Matt Ball Dec 9 '12 at 6:22
I have never seen this syntax before. Is your block Collections.sort(... a function that can be called or does it literally sort the data after that code is executed? Furthermore, if I use your code, can I declare my map as before or does your map.keySet() require that I instantiate it differently? Thanks –  Wuschelbeutel Kartoffelhuhn Dec 9 '12 at 6:26
The Collections.sort() bit is a function call to this method: docs.oracle.com/javase/7/docs/api/java/util/…. It passes an anonymous inner class of Comparator as the second argument. You can declare the map as before – every map implementation supports the keySet() method. –  Matt Ball Dec 9 '12 at 6:29
But I do have to call your override Collections.sort() with keys, right before I iterate though all the keys, right? And this is what's confusing for me because sort has two args and I dont know what to supply...why cant i do keys.sort()...sorry for the elementary question (im a beginner) –  Wuschelbeutel Kartoffelhuhn Dec 9 '12 at 6:36

TreeMap may be useful for you. There are a few ways to handle this. I would personally not use an ArrayList as the index to a Map. Instead, I'd fabricate a key from the ArrayList and include the actual ArrayList in the value.

In the case above, the value of the Map would be of this type:

class SomeClass() {
    ArrayList<Integer> aList;
    String aString;  // gh and qh in your example.
    public Integer getKey() {
        // Do something here to create a suitable key from aList and return it.

(Structurally, this sort of class is probably more of what you want anyway - you don't want the List and the String separated if they are related, which they clearly seem to be.)

Now you'd make a TreeMap not a HashMap and add SomeClass instances:

TreeMap treeMap = new TreeMap();
SomeClass someClass = new SomeClass(...); // construct it somehow
treeMap.add(someClass.getKey(), someClass);

And Bob's your uncle.

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