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I have two ArrayLists of type Answer(self-made class).

I'd like to compare the two lists to see if they contain the same contents, but without order mattering.


//These should be equal.
ArrayList<String> listA = {"a", "b", "c"}
ArrayList<String> listB = {"b", "c", "a"}

List.equals states that two lists are equal if they contain the same size, contents, and order of elements. I want the same thing, but without order mattering.

Is there a simple way to do this? Or will I need to do a nested for loop, and manually check each index of both Lists?

Note: I can't change them from ArrayList to another type of list, they need to remain that.

share|improve this question
see the answer for this question: stackoverflow.com/a/1075699/1133011 – David Kroukamp Nov 21 '12 at 20:04
See List.containsAll(list) in java – Sahil Jain Jan 1 at 14:05

11 Answers 11

up vote 54 down vote accepted

You could sort both lists using Collections.sort() and then use the equals method. A slighly better solution is to first check if they are the same length before ordering, if they are not, then they are not equal, then sort, then use equals. For example if you had two lists of Strings it would be something like:

public  boolean equalLists(List<String> one, List<String> two){     
    if (one == null && two == null){
        return true;

    if((one == null && two != null) 
      || one != null && two == null
      || one.size() != two.size()){
        return false;

    //to avoid messing the order of the lists we will use a copy
    //as noted in comments by A. R. S.
    one = new ArrayList<String>(one); 
    two = new ArrayList<String>(two);   

    return one.equals(two);
share|improve this answer
Just remember not to destroy the order of the original list (as Collections.sort does) - i.e. pass a copy. – arshajii Nov 21 '12 at 20:10
@A.R.S. yes that is a definite side effect, but only if it matters in their particular case. – Jacob Schoen Nov 21 '12 at 20:11
You could just add one = new ArrayList<String>(one); two = new ArrayList<String>(two); to avoid ruining the arguments. – arshajii Nov 21 '12 at 20:14
Added in, as in is probably a good idea. Thanks – Jacob Schoen Nov 21 '12 at 20:18
@jschoen Trying to do Collections.sort() is giving me this error: Bound mismatch: The generic method sort(List<T>) of type Collections is not applicable for the arguments (ArrayList<Answer>). The inferred type Answer is not a valid substitute for the bounded parameter <T extends Comparable<? super T>> – iaacp Nov 21 '12 at 20:21

Probably the easiest way for any list would be:

listA.containsAll(listB) && listB.containsAll(listA)
share|improve this answer
Where is the fun in that. In all seriousness though this is probably the better solution. – Jacob Schoen Nov 21 '12 at 20:37
Depends on whether [a, b, c] and [c, b, a, b] are considered to have the same contents. This answer would say they do, but it could be that for the OP they don't (since one contains a duplicate and the other doesn't). To say nothing of the efficiency issues. – yshavit Nov 21 '12 at 20:48
@yshavit yes, that's true. – user381105 Nov 21 '12 at 21:28
enhancing based on comments - System.out.println(((l1.size() == l2.size())&&l2.containsAll(l1)&&l1.containsAll(l2))); – Nrj Apr 7 '15 at 9:19
@Nrj , what about [1,2,2] and [2,1,1]? – engineer Jul 24 '15 at 18:47

Apache Commons Collections to the rescue once again:

List<String> listA = Arrays.asList("a", "b", "b", "c");
List<String> listB = Arrays.asList("b", "c", "a", "b");
System.out.println(CollectionUtils.isEqualCollection(listA, listB)); // true


List<String> listC = Arrays.asList("a", "b", "c");
List<String> listD = Arrays.asList("a", "b", "c", "c");
System.out.println(CollectionUtils.isEqualCollection(listC, listD)); // false



public static boolean isEqualCollection(java.util.Collection a,
                                        java.util.Collection b)

Returns true iff the given Collections contain exactly the same elements with exactly the same cardinalities.

That is, iff the cardinality of e in a is equal to the cardinality of e in b, for each element e in a or b.


  • a - the first collection, must not be null
  • b - the second collection, must not be null

Returns: true iff the collections contain the same elements with the same cardinalities.

share|improve this answer
If only they handle null cases as well... – Tony Lang Oct 31 '14 at 14:23
The implementation seems more or less similar with DiddiZ's answer. – user227353 Aug 27 '15 at 16:48
// helper class, so we don't have to do a whole lot of autoboxing
private static class Count {
    public int count = 0;

public boolean haveSameElements(ArrayList<String> list1, ArrayList<String> list2) {
    // (list1, list1) is always true
    if (list1 == list2) return true;

    // If either list is null, or the lengths are not equal, they can't possibly match 
    if (list1 == null || list2 == null || list1.size() != list2.size())
        return false;

    // (switch the two checks above if (null, null) should return false)

    HashMap<String, Count> counts = new HashMap<String, Count>();

    // Count the items in list1
    for (String item : list1) {
        if (!counts.containsKey(item)) counts.put(item, new Count());
        counts.get(item).count += 1;

    // Subtract the count of items in list2
    for (String item : list2) {
        // If the map doesn't contain the item here, then this item wasn't in list1
        if (!counts.containsKey(item)) return false;
        counts.get(item).count -= 1;

    // If any count is nonzero at this point, then the two lists don't match
    for (Map.Entry<String, Count> entry : counts) {
        if (entry.getValue().count != 0) return false;

    return true;
share|improve this answer
Wow, was really surprised to find this performing faster than all other solutions. And it supports early-out. – DiddiZ Dec 1 '13 at 19:30
Different thing. – Aziz Yılmaz Aug 27 '14 at 12:15

Think how you would do this yourself, absent a computer or programming language. I give you two lists of elements, and you have to tell me if they contain the same elements. How would you do it?

One approach, as mentioned above, is to sort the lists and then go element-by-element to see if they're equal (which is what List.equals does). This means either you're allowed to modify the lists or you're allowed to copy them -- and without knowing the assignment, I can't know if either/both of those are allowed.

Another approach would be to go through each list, counting how many times each element appears. If both lists have the same counts at the end, they have the same elements. The code for that would be to translate each list to a map of elem -> (# of times the elem appears in the list) and then call equals on the two maps. If the maps are HashMap, each of those translations is an O(N) operation, as is the comparison. That's going to give you a pretty efficient algorithm in terms of time, at the cost of some extra memory.

share|improve this answer

This is based on @cHao solution. I included several fixes and performance improvements. This runs roughly twice as fast the equals-ordered-copy solution. Works for any collection type. Empty collections and null are regarded as equal. Use to your advantage ;)

 * Returns if both {@link Collection Collections} contains the same elements, in the same quantities, regardless of order and collection type.
 * <p>
 * Empty collections and {@code null} are regarded as equal.
public static <T> boolean haveSameElements(Collection<T> col1, Collection<T> col2) {
    if (col1 == col2)
        return true;

    // If either list is null, return whether the other is empty
    if (col1 == null)
        return col2.isEmpty();
    if (col2 == null)
        return col1.isEmpty();

    // If lengths are not equal, they can't possibly match
    if (col1.size() != col2.size())
        return false;

    // Helper class, so we don't have to do a whole lot of autoboxing
    class Count
        // Initialize as 1, as we would increment it anyway
        public int count = 1;

    final Map<T, Count> counts = new HashMap<>();

    // Count the items in list1
    for (final T item : col1) {
        final Count count = counts.get(item);
        if (count != null)
            // If the map doesn't contain the item, put a new count
            counts.put(item, new Count());

    // Subtract the count of items in list2
    for (final T item : col2) {
        final Count count = counts.get(item);
        // If the map doesn't contain the item, or the count is already reduced to 0, the lists are unequal 
        if (count == null || count.count == 0)
            return false;

    // If any count is nonzero at this point, then the two lists don't match
    for (final Count count : counts.values())
        if (count.count != 0)
            return false;

    return true;
share|improve this answer
You can skip the final for-loop using a sum counter. The sum counter will count the total of counts at each stage. Increase the sum counter in the first for-loop, and decrease it in the second for-loop. If the sum counter is greater than 0, the lists don't match, otherwise they do. Currently, in the final for-loop you check if all counts are zero or in other words, if the sum of all counts is zero. Using the sum counter kind of reverses this check, returning true if the total of counts is zero, or false otherwise. – SatA Jun 1 at 15:42
IMO, it is worth skipping that for-loop since when the lists do match (worst-case scenario) the for-loop adds another unnecessary O(n). – SatA Jun 1 at 15:42

If the cardinality of items doesn't matter (meaning: repeated elements are considered as one), then there is a way to do this without having to sort:

boolean result = new HashSet(listA).equals(new HashSet(listB));

This will create a Set out of each List, and then use HashSet's equals method which (of course) disregards ordering.

If cardinality matters, then you must confine yourself to facilities provided by List; @jschoen's answer would be more fitting in that case.

share|improve this answer

Solution which leverages CollectionUtils subtract method:

import static org.apache.commons.collections15.CollectionUtils.subtract;

public class CollectionUtils {
  static public <T> boolean equals(Collection<? extends T> a, Collection<? extends T> b) {
    if (a == null && b == null)
      return true;
    if (a == null || b == null || a.size() != b.size())
      return false;
    return subtract(a, b).size() == 0 && subtract(a, b).size() == 0;
share|improve this answer

I had this same problem and came up with a different solution. This one also works when duplicates are involved:

public static boolean equalsWithoutOrder(List<?> fst, List<?> snd){
  if(fst != null && snd != null){
    if(fst.size() == snd.size()){
      // create copied lists so the original list is not modified
      List<?> cfst = new ArrayList<Object>(fst);
      List<?> csnd = new ArrayList<Object>(snd);

      Iterator<?> ifst = cfst.iterator();
      boolean foundEqualObject;
      while( ifst.hasNext() ){
        Iterator<?> isnd = csnd.iterator();
        foundEqualObject = false;
        while( isnd.hasNext() ){
          if( ifst.next().equals(isnd.next()) ){
            foundEqualObject = true;

        if( !foundEqualObject ){
          // fail early
      if(cfst.isEmpty()){ //both temporary lists have the same size
        return true;
  }else if( fst == null && snd == null ){
    return true;
  return false;

Advantages compared to some other solutions:

  • less than O(N²) complexity (although I have not tested it's real performance comparing to solutions in other answers here);
  • exits early;
  • checks for null;
  • works even when duplicates are involved: if you have an array [1,2,3,3] and another array [1,2,2,3] most solutions here tell you they are the same when not considering the order. This solution avoids this by removing equal elements from the temporary lists;
  • uses semantic equality (equals) and not reference equality (==);
  • does not sort itens, so they don't need to be sortable (by implement Comparable) for this solution to work.
share|improve this answer

Converting the lists to Guava's Multiset works very well. They are compared regardless of their order and duplicate elements are taken into account as well.

static <T> boolean equalsIgnoreOrder(List<T> a, List<T> b) {
    return ImmutableMultiset.copyOf(a).equals(ImmutableMultiset.copyOf(b));

assert equalsIgnoreOrder(ImmutableList.of(3, 1, 2), ImmutableList.of(2, 1, 3));
assert !equalsIgnoreOrder(ImmutableList.of(1), ImmutableList.of(1, 1));
share|improve this answer

Best of both worlds [@DiddiZ, @Chalkos]: this one mainly builds upon @Chalkos method, but fixes a bug (ifst.next()), and improves initial checks (taken from @DiddiZ) as well as removes the need to copy the first collection (just removes items from a copy of the second collection).

Not requiring a hashing function or sorting, and enabling an early exist on un-equality, this is the most efficient implementation yet. That is unless you have a collection length in the thousands or more, and a very simple hashing function.

public static <T> boolean isCollectionMatch(Collection<T> one, Collection<T> two) {
    if (one == two)
        return true;

    // If either list is null, return whether the other is empty
    if (one == null)
        return two.isEmpty();
    if (two == null)
        return one.isEmpty();

    // If lengths are not equal, they can't possibly match
    if (one.size() != two.size())
        return false;

    // copy the second list, so it can be modified
    final List<T> ctwo = new ArrayList<>(two);

    for (T itm : one) {
        Iterator<T> it = ctwo.iterator();
        boolean gotEq = false;
        while (it.hasNext()) {
            if (itm.equals(it.next())) {
                gotEq = true;
        if (!gotEq) return false;
    // All elements in one were found in two, and they're the same size.
    return true;
share|improve this answer
If I am not mistaken, the complexity of this algorithm in a worth case scenario (where the lists are equal but sorted in an opposite manner) would be O(N*N!). – SatA Jun 5 at 11:39
Actually, it would be O(N*(N/2)), as with each iteration, the array size decreases. – jazzgil Jun 6 at 8:47
Oh my bad, you are correct, it would be O(N*(N/2)) – SatA Jun 6 at 9:30

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