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Yet another list-comparing question.

List<MyType> list1;
List<MyType> list2;

I need to check that they both have the same elements, regardless of their position within the list. Each MyType object may appear multiple times on a list. Is there a built-in function that checks this? What if I guarantee that each element appears only once in a list?

EDIT: Guys thanks for the answers but I forgot to add something, the number of occurrences of each element should be the same on both lists.

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possible duplicate of Comparing two collections for equality –  nawfal Nov 8 '13 at 20:06

5 Answers 5

up vote 80 down vote accepted

If you want them to be really equal (i.e. the same items and the same number of each item), I think that the simplest solution is to sort before comparing:

Enumerable.SequenceEqual(list1.OrderBy(t => t), list2.OrderBy(t => t))


Here is a solution that performs a bit better (about ten times faster), and only requires IEquatable, not IComparable:

public static bool ScrambledEquals<T>(IEnumerable<T> list1, IEnumerable<T> list2) {
  var cnt = new Dictionary<T, int>();
  foreach (T s in list1) {
    if (cnt.ContainsKey(s)) {
    } else {
      cnt.Add(s, 1);
  foreach (T s in list2) {
    if (cnt.ContainsKey(s)) {
    } else {
      return false;
  return cnt.Values.All(c => c == 0);

Edit 2:

To handle any data type as key (for example nullable types as Frank Tzanabetis pointed out), you can make a version that takes a comparer for the dictionary:

public static bool ScrambledEquals<T>(IEnumerable<T> list1, IEnumerable<T> list2, IEqualityComparer<T> comparer) {
  var cnt = new Dictionary<T, int>(comparer);
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This is a good answer, I believe it is correct, and it is shorter than mine. My only suggestion is to use SequenceEqual as an extension method. I should also point out that this requires that T be IComparable, whereas the ToLookup version only requires a correct GetHashCode and Equals implementation. –  Ani Sep 8 '10 at 17:07
I think this is the simplest approach. I'm using: list1.sort(); list2.sort(); return Enumerable.SequenceEquals(list1, list2); Now I'm having problems in comparing elements. Can you guys give me some pointers? In Java I only have to implement equals or hash, here it doesnt seem to work. Thanks –  Bruno Teixeira Sep 8 '10 at 17:08
This approach only works if MyType is comparable (or a custom comparer is supplied) and a total ordering of items is possible. Otherwise you can get false negatives. It's also doing more work than necessary - specifically, if the lists have a different number of items they can't possibly be equal. –  LBushkin Sep 8 '10 at 17:11
@Bruno Teixeira: Write a correct Equals and GetHashCode implementation; ideally implement IEquatable<T>. Then either implement IComparable<T> (ideally) and use this technique or use a ToLookup or some other associative-array technique. –  Ani Sep 8 '10 at 17:13
Thanks for the good lead. It's Enumerable.SequenceEqual not Enumerable.SequenceEquals though, could you update Guffa? –  Martin Capodici Aug 1 '12 at 1:05

As written, this question is ambigous. The statement:

... they both have the same elements, regardless of their position within the list. Each MyType object may appear multiple times on a list.

does not indicate whether you want to ensure that the two lists have the same set of objects or the same distinct set.

If you want to ensure to collections have exactly the same set of members regardless of order, you can use:

// lists should have same count of items, and set difference must be empty
var areEquivalent = (list1.Count == list2.Count) && !list1.Except(list2).Any();

If you want to ensure two collections have the same distinct set of members (where duplicates in either are ignored), you can use:

// check that [(A-B) Union (B-A)] is empty
var areEquivalent = !list1.Except(list2).Union( list2.Except(list1) ).Any();

Using the set operations (Intersect, Union, Except) is more efficient than using methods like Contains. In my opinion, it also better expresses the expectations of your query.

EDIT: Now that you've clarified your question, I can say that you want to use the first form - since duplicates matter. Here's a simple example to demonstrate that you get the result you want:

var a = new[] {1, 2, 3, 4, 4, 3, 1, 1, 2};
var b = new[] { 4, 3, 2, 3, 1, 1, 1, 4, 2 };

// result below should be true, since the two sets are equivalent...
var areEquivalent = (a.Count() == b.Count()) && !a.Except(b).Any(); 
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The first method doesn't work in the following case: a = new[] {1,5,5} and b = new[] {1,1,5}. The collections don't have exactly the same set of members but areEquivalent is set to true. –  Remko Jansen Apr 24 '13 at 8:47

If you don't care about the number of occurrences, I would approach it like this. Using hash sets will give you better performance than simple iteration.

var set1 = new HashSet<MyType>(list1);
var set2 = new HashSet<MyType>(list2);
return set1.SetEquals(set2);

This will require that you have overridden .GetHashCode() and implemented IEquatable<MyType> on MyType.

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Do I just need to implement the GetHashCode on MyType then? –  Bruno Teixeira Sep 8 '10 at 16:52
@Bruno: Yes. Good point. –  recursive Sep 8 '10 at 17:01
The HashSet<T> also needs you to implement the Equals method. The items are compared against each other, it's not just the hash codes that are compared. –  Guffa Sep 8 '10 at 17:06
@Guffa: All the other approaches here require Equals also. –  recursive Sep 8 '10 at 17:12
@recursive: Yes, but the answer mentiones only GetHashCode, as if Equals would not be needed. –  Guffa Sep 8 '10 at 17:29

Thinking this should do what you want:

list1.All(item => list2.Contains(item)) &&
list2.All(item => list1.Contains(item));

if you want it to be distinct, you could change it to:

list1.All(item => list2.Contains(item)) &&
list1.Distinct().Count() == list1.Count &&
list1.Count == list2.Count
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list2 could contain extra items. –  recursive Sep 8 '10 at 16:43
@recursive: edited to account for that. Thanks. –  Brian Genisio Sep 8 '10 at 16:46
You can still get a false positive. Consider {1, 2, 2} and {1, 1, 2}, they contain the same items, has the same count, but still are not equal. –  Guffa Sep 8 '10 at 16:53
@Guffa: Good point. I think I got it now, with the list1.Distinct() addition. If all the items are the same, and list 1 is distinct, and they both have the same lengths, then list 2 must also be distinct. Now, {1,2} and {2,1} are considered the same, but {1,2,2} and {1,1,2} are not. –  Brian Genisio Sep 8 '10 at 16:59
While technically correct, the behavior of Contains() may result in O(N<sup>2</sup>) performance. The set operations (Except, Intersect, Union) perform much better if the number of items large. –  LBushkin Sep 8 '10 at 17:06

This is a slightly difficult problem, which I think reduces to: "Test if two lists are permutations of each other."

I believe the solutions provided by others only indicate whether the 2 lists contain the same unique elements. This is a necessary but insufficient test, for example {1, 1, 2, 3} is not a permutation of {3, 3, 1, 2} although their counts are equal and they contain the same distinct elements.

I believe this should work though, although it's not the most efficient:

static bool ArePermutations<T>(IList<T> list1, IList<T> list2)
   if(list1.Count != list2.Count)
         return false;

   var l1 = list1.ToLookup(t => t);
   var l2 = list2.ToLookup(t => t);

   return l1.Count == l2.Count 
       && l1.All(group => l2.Contains(group.Key) && l2[group.Key].Count() == group.Count()); 
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