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I have 2 collections both containing the same type of object and both collections have approximately 40K objects each.

The code for the object each collection contains is basically like a dictionary except I've overridden the equals and hash functions:

public class MyClass: IEquatable<MyClass>
    public int ID { get; set; }
    public string Name { get; set; }

    public override bool Equals(object obj)
        return obj is MyClass && this.Equals((MyClass)obj);

    public bool Equals(MyClass ot)
        if (ReferenceEquals(this, ot))
            return true;

         ot.ID.Equals(this.ID) &&
         string.Equals(ot.Name, this.Name, StringComparison.OrdinalIgnoreCase); 

    public override int GetHashCode()
             int result = this.ID.GetHashCode();
             result = (result * 397) ^ this.Name.GetSafeHashCode();
             return result;

The code I'm using to compare the collections and get the differences is just a simple Linq query using PLinq.

ParallelQuery p1Coll = sourceColl.AsParallel();
ParallelQuery p2Coll = destColl.AsParallel();

List<object> diffs = p2Coll.Where(r => !p1Coll.Any(m => m.Equals(r))).ToList();

Does anybody know of a faster way of comparing this many objects? Currently it's taking about 40 seconds +/- 2 seconds on a quad core computer. Would doing some grouping based on the data and then comparing each group of data in parallel possibly be faster? If I group the data first based on Name I would end up with about 490 unique objects and if I grouped it by ID first I would end up with about 622 unique objects.

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Before anything, consider caching the hash code. You lose some time by calculating it each time. –  Marcel N. Jan 8 '13 at 18:26
What is Name.GetSafeHashCode()? Perhaps caching your HashCode so it doesn't get recalculated might help, but I'm not sure by how much (you'll also have to invalidate/recalculate it if/when ID or Name change) –  Chris Sinclair Jan 8 '13 at 18:26
I think, you must avoid LINQ to achieve performance. If you can get your collections ordered, it will be best point. –  Hamlet Hakobyan Jan 8 '13 at 18:26
@HamletHakobyan You don't need to order the collections for good performance; putting them in hash based sets would be better than ordering (which is what most of the LINQ set operations do). You could use LINQ, but you don't have to. Using a HashSet directly would be just as good, and only slightly more code. –  Servy Jan 8 '13 at 18:39
@Chris The GetSafeHashCode is just a generic extension method that checks if the object is null first and then returns the objects GetHashCode() value or 0. –  hype8912 Jan 8 '13 at 18:42

2 Answers 2

up vote 15 down vote accepted

You can use Except method which will give you every item from p2Coll that is not in p1Coll.

var diff = p2Coll.Except(p1Coll);

UPDATE (some performance testing):


Actual time depends upon multiple factors (such as content of collections, hardware, what's running on your machine, amount of hashcode collisions etc.) that's why we have complexity and Big O notation (see Daniel Brückner comment).

Here is some performance stats for 10 runs on my 4 years old machine:

Median time for Any(): 6973,97658ms
Median time for Except(): 9,23025ms

Source code for my test is available on gist.


If you want to have different items from both first and second collection you have to actually do Expect on both and that Union the result:

var diff = p2Coll.Except(p1Coll).Union(p1Coll.Except(p2Coll));
share|improve this answer
Really, it is faster? Are you tested? –  Hamlet Hakobyan Jan 8 '13 at 18:24
This should be quite a bit faster - the solution from the question is O(m * n), this solution internally builds a hash table and is therefore O(m + n). –  Daniel Brückner Jan 8 '13 at 18:32
Added a dirty quick test... –  Eugene Jan 8 '13 at 19:03
Not excatly the same as the op's query since Except also removes any duplicates from p2Coll. –  Magnus Jan 10 '13 at 18:19


int[] id1 = { 44, 26, 92, 30, 71, 38 };
int[] id2 = { 39, 59, 83, 47, 26, 4, 30 };

IEnumerable<int> both = id1.Intersect(id2);

foreach (int id in both)

This code produces the following output:

share|improve this answer
Above answer is better. –  Chris Ayers Jan 8 '13 at 18:25
But Intersect does the opposite. He was looking for a way to get the differences. –  Marcel N. Jan 8 '13 at 18:28
But Except is not the difference either (unless the second set is guaranteed to be a subset of the first one). It is however what the code given in the question computes. –  Daniel Brückner Jan 8 '13 at 18:41

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