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Is there any built in collection type (IEnumerable<S>) or IEqualityComparer<T> for an IEnumerable<S> in the framework that has it's Equals (and GetHashCode accordingly) defined by the equality of the items in it?

Something like:

var x = new SomeCollection { 1, 2, 3 };
var y = new SomeCollection { 1, 2, 3 };

// so that x.Equals(y) -> true 
// and x.Shuffle().Equals(y) -> false

Or a

class SomeComparer<T> : EqalityComparer<IEnumerable<T>> { }

// so that for 
var x = new[] { 1, 2, 3 };
var y = new[] { 1, 2, 3 };
// gives
// new SomeComparer<int>().Equals(x, y) -> true 
// new SomeComparer<int>().Equals(x.Shuffle(), y) -> false

? My question is, is there something in the framework that behaves like SomeCollection or SomeComparer<T> as shown in the code?

Why I need it: because I have a case for a Dictionary<Collection, T> where the Key part should be a collection and its equality is based on its entries.

Requirements:

  1. Collection need be only a simple enumerable type with Add method
  2. Order of items is important
  3. Duplicate items can exist in the collection

Note: I can write one my own, it's trivial. There are plenty of questions on SO helping with that. I'm asking is there a class in the framework itself.

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It seems a duplicate of this one –  wdosanjos Nov 8 '13 at 20:55
    
@wdosanjos not at all. I just went through that link. That question is about how to compare any two collections for equality. My question is, is there a collection that does it by itself. Furthermore, in the linked question, order doesn't matter. –  nawfal Nov 8 '13 at 20:56
    
Are you looking for Enumerable.SequenceEqual? –  Jon Nov 8 '13 at 20:59
1  
The comparer you get from HashSet<T>.CreateSetComparer() comes close to what you're asking for, except that for obvious reasons, a hash set does not preserve order of items. –  hvd Nov 8 '13 at 21:09
2  
No, there is no such class in the framework. –  Jim Mischel Nov 8 '13 at 21:52

3 Answers 3

I do not beleive that such a thing exists. I had a need to compare two dictionary's contents for equality and wrote this awhile back.

public class DictionaryComparer<TKey, TValue> : EqualityComparer<IDictionary<TKey, TValue>>
{
    public DictionaryComparer()
    {
    }
    public override bool Equals(IDictionary<TKey, TValue> x, IDictionary<TKey, TValue> y)
    {
        // early-exit checks
        if (object.ReferenceEquals(x, y))
            return true;

        if (null == x || y == null)
            return false;

        if (x.Count != y.Count)
            return false;

        // check keys are the same
        foreach (TKey k in x.Keys)
            if (!y.ContainsKey(k))
                return false;

        // check values are the same
        foreach (TKey k in x.Keys)
        {
            TValue v = x[k];
            if (object.ReferenceEquals(v, null))
                return object.ReferenceEquals(y[k], null);

            if (!v.Equals(y[k]))
                return false;
        }
        return true;
    }

    public override int GetHashCode(IDictionary<TKey, TValue> obj)
    {
        if (obj == null)
            return 0;

        int hash = 0;

        foreach (KeyValuePair<TKey, TValue> pair in obj)
        {
            int key = pair.Key.GetHashCode(); // key cannot be null
            int value = pair.Value != null ? pair.Value.GetHashCode() : 0;
            hash ^= ShiftAndWrap(key, 2) ^ value;
        }

        return hash;
    }

    private static int ShiftAndWrap(int value, int positions)
    {
        positions = positions & 0x1F;

        // Save the existing bit pattern, but interpret it as an unsigned integer. 
        uint number = BitConverter.ToUInt32(BitConverter.GetBytes(value), 0);
        // Preserve the bits to be discarded. 
        uint wrapped = number >> (32 - positions);
        // Shift and wrap the discarded bits. 
        return BitConverter.ToInt32(BitConverter.GetBytes((number << positions) | wrapped), 0);
    }
}
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1  
This seems useful, but why loop through the keys of x twice? Couldn't you merge the checking of whether y has each key of x with the checks for their associated values in one loop? –  Sven Grosen Nov 8 '13 at 21:37
    
I cant use this though, cos dictionaries are not about order. –  nawfal Nov 8 '13 at 21:49
1  
This is very inefficient as well. Why two loops as @ledbutter says. Why are you enumerating the keys alone and then doing lookup, rather enumerate the whole dictionary? Also you can avoid boxing of values in case they are value types. –  nawfal Nov 8 '13 at 22:00
    
@nawful because if dictionaries don't share keys they are not equal so inequality can be short circuited without retrieving and comparing values –  dkackman Nov 9 '13 at 2:45
    
@dkackman its a good point only if you're not retrieving values in the second loop, which is not. You're doing all the same lookup again. y.ContainsKey(key) is just the same lookup as y[key], just that in the second case the value is returned. If you're enumerating the dictionary itself, you can altogether avoid the x[key] lookup and in one loop!. Kindly tag me as @nawfal so that Im notified of your replies. –  nawfal Nov 11 '13 at 5:27

Just keep it simple. Just use the Dictionary ctor that takes in a specialized IEqualityComparer (just implement your equality logic in a comparer) and you are good to go. No need for special collection types and so on...

See here

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If you can, it may be better to define your own immutable collection class which accepts an IEqualityComparer<T> as a constructor parameter, and have its Equals and GetHashCode() members chain to those of the underlying collection, than to try to define an IEqualityComparer<T> for the purpose. Among other things, your immutable collection class would be able to cache its own hash value, and possibly the hash values for the items contained therein. This would accelerate not only calls to GetHashCode() on the collection, but also comparisons between two collections. If two collections' hashcodes are unequal, there's no point in checking anything further; even if two collections' hashcodes are equal, it may be worthwhile to check that the hashcodes of corresponding items match before testing the items themselves for equality [note that in general, using a hash-code test as an early exit before checking equality is not particularly helpful, because the slowest Equals case (where the items match) is the one where hash codes are going to match anyway; here, however, if all but the last item match, testing the hash code of the items may find the mismatch before one has spent time inspecting each item in detail.

Starting in .NET 4.0, it became possible to write an IEqualityComparer<T> which could achieve the performance advantage of an immutable collection class which caches hash values, by using a ConditionalWeakTable to map collections to objects which would cache information about them. Nonetheless, unless one is unable to use a custom immutable-collection class, I think such a class would probably be better than an IEqualityComparer<T> in this scenario anyway.

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