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How do I compare values of generic types?

I have reduced it to a minimal sample:

public class Foo<T> where T : IComparable
    private T _minimumValue = default(T);

    public bool IsInRange(T value) 
        return (value >= _minimumValue); // <-- Error here

The error is:

Operator '>=' cannot be applied to operands of type 'T' and 'T'.

What on earth!? T is already constrained to IComparable, and even when constraining it to value types (where T: struct), we still can't apply any of the operators <, >, <=, >=, == or !=. (I know that workarounds involving Equals() exist for '==' and '!=', but it doesn't help for the relational operators).

So, two questions:

  1. Why do we observe this weird behaviour? What keeps us from comparing the values of generic types which are known to be IComparable? Doesn't it somehow defeat the entire purpose of generic constraints?
  2. How do I resolve this, or at least work around it?

(I realize there are already a handful of questions related to this seemingly simple problem - but none of the threads gives an exhaustive or workable answer, so here.)

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up vote 49 down vote accepted

IComparable doesn't overload the >= operator. You should use

value.CompareTo(_minimumValue) >= 0
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Great, this works (and explains it, of course) - thanks a lot! But it's a bit unsatisfying, and leaves the question: Why doesn't IComparable overload the comparison operators? Is this a conscious and deliberate design decision, with a good reason - or something that was overlooked in the design of the framework? After all, 'x.CompareTo(y) >= 0' is less readable than 'x >= y', no? – gstercken Jun 25 '11 at 21:29
I definately get your point. I guess the problem is that operators are static which means they cannot fit in an interface. I will not judge whether this is a good choice or not, but I tend to think that methods with proper names are easier to read than operators when types are non primitive; this is a matter of taste though. – faester Jun 25 '11 at 21:34
@gstercken: I attempted to address that question in my answer, though it is all speculation :) Though +1 on this, because it is concise. – Merlyn Morgan-Graham Jun 25 '11 at 21:44
@gstercken: One problem with IComparable overloading the comparison operators is that there are situations where X.Equals(Y) should return false, but X.CompareTo(Y) should return zero (suggesting neither element is larger than the other) [e.g. an ExpenseItem may have a natural ordering with respect to TotalCost, and there may be no natural ordering for expense items whose cost is the same, but that doesn't mean every expense item that costs $3,141.59 should be considered equivalent to every other item that costs the same. – supercat Apr 15 '13 at 19:28
...alas C# decided to use the token == to represent both an overloadable equality operator and a non-overloadable reference-equality test. – supercat Apr 15 '13 at 20:18

Problem with operator overloading

Unfortunately, interfaces cannot contain overloaded operators. Try typing this in your compiler:

public interface IInequalityComaparable<T>
    bool operator >(T lhs, T rhs);
    bool operator >=(T lhs, T rhs);
    bool operator <(T lhs, T rhs);
    bool operator <=(T lhs, T rhs);

I don't know why they didn't allow this, but I'm guessing it complicated the language definition, and would be hard for users to implement correctly.

Either that, or the designers didn't like the potential for abuse. For example, imagine doing a >= compare on a class MagicMrMeow. Or even on a class Matrix<T>. What does the result mean about the two values?; Especially when there could be an ambiguity?

The official work-around

Since the above interface isn't legal, we have the IComparable<T> interface to work around the problem. It implements no operators, and exposes only one method, int CompareTo(T other);

See http://msdn.microsoft.com/en-us/library/4d7sx9hd.aspx

The int result is actually a tri-bit, or a tri-nary (similar to a Boolean, but with three states). This table explains the meaning of the results:

Value              Meaning

Less than zero     This object is less than
                   the object specified by the CompareTo method.

Zero               This object is equal to the method parameter.

Greater than zero  This object is greater than the method parameter.

Using the work-around

In order to do the equivalent of value >= _minimumValue, you must instead write:

value.CompareTo(_minimumValue) >= 0
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Ah, right - makes sense. I forgot that interfaces in C# can't overload operators. – gstercken Jun 25 '11 at 21:48
public bool IsInRange(T value) 
    return (value.CompareTo(_minimumValue) >= 0);

When working with IComparable generics, all less than/greater than operators need to be converted to calls to CompareTo. Whatever operator you would use, keep the values being compared in the same order, and compare against zero. ( x <op> y becomes x.CompareTo(y) <op> 0, where <op> is >, >=, etc.)

Also, I'd recommend that the generic constraint you use be where T : IComparable<T>. IComparable by itself means that the object can be compared against anything, comparing an object against others of the same type is probably more appropriate.

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If value can be null the current answer could fail. Then use something this instead:

Comparer<T>.Default.Compare(value, _minimumValue) >= 0
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IComparable only forces a function called CompareTo. So you cannot apply any of the operators that you have mentioned

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Instead of value >= _minimValue use Comparer class:

public bool IsInRange(T value ) {
    var result = Comparer<T>.Default.Compare(value, _minimumValue);
    if ( result >= 0 ) { return true; }
    else { return false; }
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Wny introduce the use of a Comparer when there is already a generic constraint that T must implement IComparable? – Fredrik Mörk Jun 25 '11 at 21:21
@Fredrik generic constraints tend to build up. I agree with omitting them here. – Marc Gravell Jun 25 '11 at 21:33

As others have stated, one needs to explicitly use the CompareTo method. The reason that one cannot use interfaces with operators is that it is possible for a class to implement an arbitrary number of interfaces, with no clear ranking among them. Suppose one tried to compute the expression "a = foo + 5;" when foo implemented six interfaces all of which define an operator "+" with an integer second argument; which interface should be used for the operator?

The fact that classes can derive multiple interfaces makes interfaces very powerful. Unfortunately, it often forces one to be more explicit about what one actually wants to do.

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I don't think MI isn't any more a problem with overloaded operators as it is with regular methods. They are just funny syntax for methods. So you could solve that problem by using the same rules would be used to resolve them as regular methods on interfaces. One of the C# design goals was to have it be somewhat familiar to C++ programmers, and overloaded operators were abused to hell and back in that language. I'm guessing the designers preferred named methods which force you to give some sort of documentation for the intent of those methods. – Merlyn Morgan-Graham Apr 21 '12 at 10:47

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