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When an object is added to the .NET System.Collections.Generic.Dictionary class the hashcode of the key is stored internally and used for later comparisons. When the hashcode changes after its initial insertion into the dictionary it often becomes "inaccessible" and may surprise its users when an existence check, even using the same reference, returns false (sample code below).

The GetHashCode documentation says:

The GetHashCode method for an object must consistently return the same hash code as long as there is no modification to the object state that determines the return value of the object's Equals method.

So, according to the GetHashCode docs, the hashcode may change whenever equality-determining state is changed, yet the Dictionary implementation does not support this.

Is the current .NET dictionary implementation broken in that it incorrectly ignore the hashcode allowances? Should GetHashCode() only be based on immutable members? Or, is there something else to break a possible false dichotomy?

class Hashable
    public int PK { get; set; }

    public override int GetHashCode()
        if (PK != 0) return PK.GetHashCode();
        return base.GetHashCode();

    public override bool Equals(object obj)
        return Equals(obj as Hashable);

    public virtual bool Equals(Hashable other)
        if (other == null) return false;
        else if (ReferenceEquals(this, other)) return true;
        else if (PK != 0 && other.PK != 0) return Equals(PK, other.PK);
        return false;

    public override string ToString()
        return string.Format("Hashable {0}", PK);

class Test
    static void Main(string[] args)
        var dict = new Dictionary<Hashable, bool>();
        var h = new Hashable();
        dict.Add(h, true);

        h.PK = 42;
        if (!dict.ContainsKey(h)) // returns false, despite same reference
            dict.Add(h, false);
share|improve this question
If a Dictionary would support mutating keys, it'd have to hook into the keys and somehow get notified whenever a GetHashCode() changes. The implication of doing that sounds huge, probably just plain impossible. –  Anonym Feb 1 '11 at 23:08
I always assumed the dictionary was based on something like an underlying object id or pointer (which I'm not yet sure .NET has), but you're right - HashCode is a perfect implementation choice for a dictionary. –  Kaleb Pederson Feb 1 '11 at 23:36
In fact, this design is to allow you to use more complex types as keys; you just need to design them properly. (If it used an object pointer, for example, you could end up with duplicates in your dictionary due to having two instances of a complex type as keys, even though you properly designed that complex type to represent, e.g., a composite key). –  Dan Tao Feb 1 '11 at 23:40

2 Answers 2

up vote 22 down vote accepted

No, you just shouldn't mutate a key (in a material way) after inserting it into a dictionary. This is by design, and the way that every hash table I've ever used works. The docs even specify this:

As long as an object is used as a key in the Dictionary<TKey, TValue>, it must not change in any way that affects its hash value. Every key in a Dictionary<TKey, TValue> must be unique according to the dictionary's equality comparer. A key cannot be null, but a value can be, if the value type TValue is a reference type.

So it's only going to surprise users who don't read documentation :)

share|improve this answer
+1, wonderful! .. –  Aliostad Feb 1 '11 at 23:04
Ok, I deserved that slap in the face... and will read all the docs next time :). –  Kaleb Pederson Feb 1 '11 at 23:34
As a silly side effect, you can mutate the object all you want, as long as the hash code is not changed (e.g. the hash code depends only on the key of an entity, not on it's values) –  SWeko Feb 1 '11 at 23:44
Jon, thank you so much for you just shouldn't mutate a key ... I've read too many arguments about putting mutable objects in to dictionary keys, and what this implies for the "correct" implementation of Equals. When the real answer is what you just said: don't mutate keys... –  ToolmakerSteve May 8 '14 at 23:25

To add to Jon's answer, I would just add emphasis to a certain part of the docs that you quoted:

The GetHashCode method for an object must consistently return the same hash code as long as there is no modification to the object state that determines the return value of the object's Equals method.

Now, right there you've broken the rules. You changed PK, which doesn't affect the outcome of Equals (because you have that ReferenceEquals check in there), but the result of your GetHashCode does change. So that's the simple answer.

Taking the more conceptual approach, I think you can look at it like this: if you have overridden the Equals and GetHashCode behavior for your type, then you've taken ownership of the concept of what it means for one instance of this type to be equal to another. And in fact you have defined it in a way that a Hashable object can be changed into something completely different; i.e., something that is no longer usable in the same way it was previously (because its hash code has changed).

Considered from this perspective, after you do dict.Add(h, true), and then you change h.PK, the dictionary doesn't contain the object referenced by h anymore. It contains something else (which doesn't really exist anywhere). It's kind of like the type you've defined is a snake that has shed its skin.

share|improve this answer
I think you just overcomplicate things and people hardly understand what you actually wrote here. Jon Skeet said it all. –  Al Kepp Feb 3 '11 at 22:38
@Al: Haha... sorry? I thought I was saying something meaningful; if you feel this answer's nonsensical or overly confusing, you are free to downvote it; I won't take it personally. Although I would appreciate an explanation of what the really problematic part is, if possible (i.e., what specifically I said that prompted you to write that comment). Maybe I just worded myself poorly and could be clearer. –  Dan Tao Feb 3 '11 at 22:59
I like your paragraph that starts with "Taking the more conceptual approach". I don't really like the quoted part of the spec, since I don't see any legitimate basis for a class with visible mutable state to override Object.Equals. The concept of equivalence is well defined for objects of all types (class and struct); objects should override Object.Equals to test equivalence (even though some types (e.g. Decimal) override Object.Equals to mean something else), and Object.GetHashCode() should be compatible with Object.Equals. –  supercat Aug 21 '12 at 22:03
@AlKepp, I would like to be able to downvote comments... –  Guillermo Gutiérrez Jul 22 '13 at 21:19

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