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A few days ago, I answered an interesting question on SO about HashSet<T>. A possible solution involved cloning the hashset, and in my answer I suggested to do something like this:

HashSet<int> original = ...
HashSet<int> clone = new HashSet<int>(original);

Although this approach is quite straightforward, I suspect it's very inefficient: the constructor of the new HashSet<T> needs to separately add each item from the original hashset, and check if it isn't already present. This is clearly a waste of time: since the source collection is a ISet<T>, it is guaranteed not to contain duplicates. There should be a way to take advantage of that knowledge...

Ideally, HashSet<T> should implement ICloneable, but unfortunately it's not the case. I also checked with Reflector to see if the HashSet<T> constructor did something specific if the source collection was a hashset, but it doesn't. It could probably be done by using reflection on private fields, but that would be an ugly hack...

So, did someone come up with a clever solution to clone a hashset more efficiently ?

(Note that this question is purely theoretical, I don't need to do that in a real program)

share|improve this question
    
hm, good question, just curious though, what are the theoretical inefficiencies we are concerned about? i'm rusty on my order notation for abstract data types, but wouldn't a check for existence within the target hash set be a simple O(1) collision test? i agree from an informational perspective it could be "better" but can we put a bound on it, and would it be significant? –  johnny g Oct 13 '10 at 20:45
2  
I suspect they don't have a HashSet<T>(ISet<T>) constructor is because any class could implement ISet<T>, perhaps badly; which means the presence of ISet<T> is no guarantee that there are no duplicates –  Steve Ellinger Oct 13 '10 at 20:46
    
@Steve Ellinger, you're probably right. However, they could have provided a HashSet<T>(HashSet<T>) constructor... –  Thomas Levesque Oct 13 '10 at 21:00
    
Actually, what I am curious about is why they didn't implement ICloneable, is it because any implementation would be no more efficient then the constructor you ended up calling in your referred to answer; therefore, why bother when the functionality is already available. The same could possibly be said for your copy constructor. Course this doesn't seem plausible given your comment about about 'and check if it isn't already present'. Hmmm. –  Steve Ellinger Oct 13 '10 at 21:08
3  
Even the deserializer makes no assumptions and uses AddIfNotPresent(). Good idea, the culture might have changed. This is a no-go. Question the need to clone first. Expensive operations should be, well, expensive. Great API design. –  Hans Passant Oct 13 '10 at 21:12

5 Answers 5

up vote 6 down vote accepted

If you really wanted the most efficient way to clone a HashSet<T>, you'd do the following (but possibly at the cost of maintainability)

  1. Use reflector or the debugger to figure out exactly what fields in HashSet<T> need to be copied. You may need to do this recursively for each field.
  2. Use Reflection.Emit or use expression trees to generate a method which does the necessary copying of all of the fields. May need to call other generated methods which copy the value of each field. We're using runtime code generation because it's the only way to directly access private fields.
  3. Use FormatterServices.GetUninitializedObject(...) to instantiate a blank object. Use the method generated in step 2 to copy the original object to the new blank object.
share|improve this answer
    
Forgot to mention (the obvious optimization) that you'd want to cache the generated method and reuse it for all cloning operations. –  jthg Nov 4 '10 at 18:52
    
Oops, missed the part where you called this an "ugly hack". It shouldn't be too ugly if you use expression tress rather than Reflection.Emit. Of course, the tight dependency on the implementation details of HashSet might make it ugly if MS decides to tweak HashSet. –  jthg Nov 4 '10 at 18:58
    
I don't like the idea of reflection on private members... but unless Microsoft implements a proper copy constructor, I agree that it's probably the most efficient way to do it. –  Thomas Levesque Nov 4 '10 at 20:05

EDIT: After closer inspection this does not seems to be a good idea, with less then 60 elements in the original hashset the method below appears to be slower then just creating a new hashset.

DISCLAIMER: this seems to work but use at your own risk, if you are going to serialize the cloned hashsets you probably want to copy SerializationInfo m_siInfo.

I also faced this problem and took a stab at it, below you will find an extension method that uses FieldInfo.GetValue and SetValue to copy the required fields. It is faster than using HashSet(IEnumerable), how much depends on the amount of elements in the original hashset. For 1,000 elements the difference is about a factor 7. With 100,000 elements its about a factor 3.

There are other ways which may be even faster, but this has gotten rid of the bottleneck for me for now. I tried using expressiontrees and emitting but hit a roadblock, if I get those to work Ill update this post.

using System;
using System.Collections.Generic;
using System.Reflection;
using System.Runtime.Serialization;

public static class HashSetExtensions
{
    public static HashSet<T> Clone<T>(this HashSet<T> original)
    {
        var clone = (HashSet<T>)FormatterServices.GetUninitializedObject(typeof(HashSet<T>));
        Copy(Fields<T>.comparer, original, clone);

        if (original.Count == 0)
        {
            Fields<T>.freeList.SetValue(clone, -1);
        }
        else
        {
            Fields<T>.count.SetValue(clone, original.Count);
            Clone(Fields<T>.buckets, original, clone);
            Clone(Fields<T>.slots, original, clone);
            Copy(Fields<T>.freeList, original, clone);
            Copy(Fields<T>.lastIndex, original, clone);
            Copy(Fields<T>.version, original, clone);
        }

        return clone;
    }

    static void Copy<T>(FieldInfo field, HashSet<T> source, HashSet<T> target)
    {
        field.SetValue(target, field.GetValue(source));
    }

    static void Clone<T>(FieldInfo field, HashSet<T> source, HashSet<T> target)
    {
        field.SetValue(target, ((Array)field.GetValue(source)).Clone());
    }

    static class Fields<T>
    {
        public static readonly FieldInfo freeList = GetFieldInfo("m_freeList");
        public static readonly FieldInfo buckets = GetFieldInfo("m_buckets");
        public static readonly FieldInfo slots = GetFieldInfo("m_slots");
        public static readonly FieldInfo count = GetFieldInfo("m_count");
        public static readonly FieldInfo lastIndex = GetFieldInfo("m_lastIndex");
        public static readonly FieldInfo version = GetFieldInfo("m_version");
        public static readonly FieldInfo comparer = GetFieldInfo("m_comparer");

        static FieldInfo GetFieldInfo(string name)
        {
            return typeof(HashSet<T>).GetField(name, BindingFlags.Instance | BindingFlags.NonPublic);
        }
    }
}
share|improve this answer

Easy pattern which should won't work for many collections:

Class cloneableDictionary(Of T, U)
    Inherits Dictionary(Of T, U)
    Function clone() As Dictionary(Of T, U)
        Return CType(Me.MemberwiseClone, cloneableDict(Of T, U))
    End Function
End Class

Unfortunately, I don't know that Microsoft did anything to prevent calling MemberwiseClone in places where it shouldn't be called (e.g. declaring something other than a method--like maybe a class--with the name MemberwiseClone) so I don't know how one can tell whether such an approach is likely to work.

I think there's a fair reason for a standard collection not to support a public cloning method but only a protected one: it's possible that a class which derives from a collection might break severely if cloned, and if base class' cloning method is public there's no way to prevent an object of a derived class from being given to code that expects to clone it.

That having been said, it would have been nice if .net included cloneableDictionary and other such classes as standard types (though obviously not implemented essentially as above).

share|improve this answer
1  
This won't work... It does a shallow copy, which is what I (kind of) want, but it's too shallow: most collections internally use arrays to store the items and/or buckets, and MemberwiseClone will create a copy of the collection with the same array instance. So the clones won't be independant copies: if I modify one of the collection, the other one will be affected too, and will become corrupted, which is worse ! –  Thomas Levesque Oct 15 '10 at 22:53
    
Here's an example that illustrates the problem: pastebin.com/70cTdr6a –  Thomas Levesque Oct 15 '10 at 23:03
    
Note edits above. Probably worth keeping as an answer, to dissuade anyone else who might come up with the same "solution". BTW, it's too bad Microsoft didn't make "BaseClone" a protected method whose default implementation would be a memberwise clone, and define a standard means for disabling it (e.g. shadowing it with something else called BaseClone that isn't a method). –  supercat Oct 15 '10 at 23:09
    
@Thomas Levesque: Really an embarrassing mistake, especially since I was just trying to figure out the right pattern for clonable objects. As soon as I saw your first post, I knew immediately that I'd oopsed. It seems a lot of people seem to prefer the notion of a copy constructor, but in general a copy constructor is a poor substitute for a clone method, since the type of the object created by a copy constructor will be the type of the constructor, rather than the type of the object being copied. Maybe I'll post my proposed cloning pattern to a blog and link to it. –  supercat Oct 16 '10 at 1:11
    
@Thomas Levesque: How do you like the cloning pattern at supercatnet.blogspot.com/2010/10/… ? The method for sealing methods descendant classes shouldn't call seems a little icky, but workable; is there a better method? Is there any way for a derived class to mess things up without using Reflection? Should I post that pattern as an "is this a good pattern" question? –  supercat Oct 16 '10 at 2:32

Just a random thought. It might be silly.

Since they did not implement ICloneable, and the constructor does not use the knowledge that the source is of the same type, I guess we're left with one option. Implementing the optimized version and adding it as an extension method to the type.

Something like:

namespace ExtensionMethods
{
    public static class MyExtensions
    {
        public static HashSet<int> Clone(this HashSet<int> original)
        {
            HashSet<int> clone = new HashSet<int>();
            //your optimized code here 
            return clone;
        }
    }   
}

Then, your code from the question would look like this:

HashSet<int> original = ...
HashSet<int> clone = HashSet<int>.Clone(original);
share|improve this answer
5  
And what would you put in place of the comment ? This is what my question was about... –  Thomas Levesque Nov 3 '10 at 15:08

O(n) clone is as good as it can get, theoretically, to clone two sets that won't share the same underlying data structure.

Checking whether or not an element is in a HashSet should be a constant time (i.e. O(1)) operation.

So you could create a wrapper that would just wrap an existing HashSet and hold on to any new additions, but that seems pretty perverse.

When you say 'efficient', you mean 'more efficient than the existing O(n) method' - I posit you can't actually get more efficient than O(n) without playing pretty serious semantic games about what 'clone' means.

share|improve this answer
1  
No, when I say "efficient", I don't mean a better complexity. You're correct in saying that it will be a O(n) operation anyway, but it isn't only about complexity. Consider this: List<T>.Add has a O(1) complexity, like HashSet<T>.Add, but it's much faster because it doesn't need to check if the item is already present. So when I say "efficient", I mean faster, not less complex. –  Thomas Levesque Nov 3 '10 at 19:13

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