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I have a class

public class Foo
  public int ID { get; set; }

and I've implemented a LinqEqualityComparer to allow dynamic IEqualityComparer tests for the Except extenion method.

public class LinqEqualityComparer<T> : IEqualityComparer<T>
    protected Func<T, T, bool> Comparison { get; set; }

    public LinqEqualityComparer(Func<T, T, bool> comparison)
        Comparison = comparison;

    public bool Equals(T x, T y)
        return Comparison(x, y);

    public int GetHashCode(T obj)
        return obj.GetHashCode();

I've created the following code to test it:

IEnumerable<Foo> settings = new Foo[]
  new Foo{ID = 1},
  new Foo{ID = 2}
IEnumerable<Foo> currentSettings = new Foo[]
  new Foo{ID = 1},
  new Foo{ID = 2},
  new Foo{ID = 3}
IEqualityComparer<Foo> comparer = new LinqEqualityComparer<Foo>((x, y) => x.ID == y.ID);
IEnumerable<Foo> missing = currentSettings.Except(settings, comparer);

However Foos 1,2 and 3 are all present in the 'missing' variable.

Why does this LinqEqualityComparer not work?

share|improve this question
Side note, this should probably have a slightly different name; the idea here is to define a comparer from a delegate (or more commonly a lambda). While this is somewhat related to LINQ, it doesn't need to be. There are plenty of places outside of LINQ that take a comparer where this type can be useful, so I'd consider giving it a different name. – Servy Dec 17 '13 at 15:55

1 Answer 1

up vote 7 down vote accepted

Because your equality comparer does not implement GetHashCode correctly. The GetHashCode implementation must produce the same code for elements that compare equal. This does not happen here because the equality comparison is customized while the hash codes are not generated accordingly.

To make this work you would need to do one of two things:

  1. Make the comparer accept the hash code implementation as an additional argument, i.e. x => x.ID.GetHashCode() and forward to that. This is easiest and what you should do in practice.

  2. Modify GetHashCode in such a way that it is an aggregate function of the hash codes of the properties that take part in the comparison (here that is the ID property) -- a straight xor of the individual hash codes would work (even though it might not be optiomal).

    That leaves you with the problem of how to detect which properties are compared. To be able to answer that question automatically you would need to accept an expression tree instead of a delegate for the comparison, i.e. an Expression<Func<T, T, bool>> and then visit the expression tree to determine what to do. That's bound to not be easy going.

share|improve this answer
Jon, that makes sense - so should I also pass in an appropriate hash func? – Liath Dec 17 '13 at 15:54
@Liath yes, the constructor would need a Func<T, int> delegate passed in too that is paired with the corresponding comparison delegate that generated proper hash codes. – Scott Chamberlain Dec 17 '13 at 15:54
To your edit, his GetHashCode implementation should just be x => x.ID.GetHashCode(). That's all... – Servy Dec 17 '13 at 15:58
@Liath: Yes, that's easiest. I have outlined an alternative "automatic" approach, but it's best seen as an exercise rather than good practice. – Jon Dec 17 '13 at 15:58
@Jon Your edit talks about XORing hash codes together to create an aggregate, which simply isn't appropriate in this context. – Servy Dec 17 '13 at 15:59

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