Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

If I understand correctly, IComparable and IComparable<T> are intended to allow for the definition of a natural or total ordering over a set of types. In either case, the relation defined by CompareTo(Object) or CompareTo(T) must be Reflexive, Symmetric, and Transitive.

This is all very good and well and quite applicable when applied to a single type or even an entire hierarchy of types (supposing those more derived types do not need to influence the definition of relation). However, once a subtype introduces an element of state which should affect its relation in terms of those types from which it derived, the comparable interfaces almost seem to break down.

The provided code sample demonstrates my current solution to the problem. Because RelationalObject cannot have any knowledge of those types which actually need to be compared, its intended purpose is primarily to provide and seal a modifiable implementation of CompareTo while requiring derived types to actually implemented the comparison algorithms based upon context.

I'm wondering, is there a better method of handling such scenarios? I realize I could probably just implement some IComparer or IComparer<T> which knows about and can handle the comparison of known objects; however, this seems to defeat the purpose of IComparable and IComparable<T>.

using System;

public abstract class RelationalObject : IComparable<RelationalObject>
    public sealed int CompareTo(RelationalObject that)
        int relation = 0;

        if (that == null)
            relation = 1;

        if (relation == 0 && !this.Equals(that))
            Type thisType = this.GetType();
            Type thatType = that.GetType();

            if (thatType.IsInstanceOfType(this))
                if (thisType.Equals(thatType))
                    relation = this.CompareToExactType(that);
                    relation = -1 * that.CompareToSuperType(this);
                if (thisType.IsInstanceOfType(that))
                    relation = this.CompareToSuperType(that);
                    relation = this.CompareToForeignType(that);

        return relation;

    protected abstract int CompareToExactType(RelationalObject that);

    protected abstract int CompareToForeignType(RelationalObject that);

    protected abstract int CompareToSuperType(RelationalObject that);
share|improve this question
I think this would be a good candidate for the Code Review site. – Brannon Aug 4 '12 at 4:58
up vote 1 down vote accepted

IComparable<T> is primarily intended for comparison of objects of one type, not type and its descendants. That's why you're having problems with handling comparison of unknown types. So I'd stick with implementing IComparer.

share|improve this answer
I've given this topic a great deal more thought since your answer was posted and suppose that, for the time being, implementing IComparer and IComparer<T> seperately will lead to a more efficient solution. For this reason, I'm accepting this answer. However, I can't help but wonder if certain solutions might be better described by a pattern similar to that which was proposed. In any event, thanks for the feedback! – Bradford Fisher Aug 10 '12 at 8:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.