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I have read the following statement regarding to the comparison of C# value types in C# in Depth, Second Edition several times.

page 77,

When a type parameter is unconstrained (no constraints are applied to it), you can use == and != operators, but only to compare a value of that type with null. You can’t compare two values of type T with each other.


When a type parameter is constrained to be a value type, == and != can’t be used with it at all.

If I understand (I don't think so) it correctly, it basically tells me that you cannot use == or != to compare two value types. Why why why?

It will be better if a simple example can be given for this case. Can someone give me a little idea what the above paragraph tries to convey?

share|improve this question
I suspect this is to avoid confusion with operator overloading, since an overloaded == operator would not be used when the generic type parameter is a value type. You can use Object.Equals, however, which well-behaved value types will implement and which will have the same behavior as == (for well-behaved types). – Dan Bryant Jun 3 '11 at 2:51
@Dan Bryant, it's not only to avoid confusion. There's no guarantee that a value type supports the == and != operators, and we can't use the System.Object implementation for value types, because testing reference equality only works on boxed instances. Well, we could in theory specify that the operands be boxed in order to use the reference equality check, but then the expression would always be false, which is clearly useless. – phoog Jun 3 '11 at 3:13
@phoog, the static Object.Equals will actually call the Equals implementation of the Object (even if it's a boxed value type), so it's a valid way to compare even value types. It also handles comparison of null with value types. Object.ReferenceEquals explicitly forces the check to be for reference equality, which can be helpful in cases where a reference type overrides the equality operator, but has a bug for the null comparison case (I've encountered this before with a third-party API.) – Dan Bryant Jun 7 '11 at 16:06
@Dan Bryant, yes, static (and also instance) object.Equals will do what you describe. The problem is that the == operator does not do this, and therefore it's impossible to meaningfully apply that operator in the case where a generic type parameter is a value type. – phoog Jun 8 '11 at 3:34
up vote 7 down vote accepted

It simply means this when constraining to a value type (second paragraph)

static bool TryToCompare<T>(T first, T second) where T : struct
    return first == second; // not legal
    return first.Equals(second); // legal

Without the value-type constraint on the generic, it also says this (first paragraph)

static bool TryToCompare<T>(T first, T second) 
    return first == second; // not legal
    return first == null; // legal
    return first.Equals(second); // legal

If you constrain T to a reference type, you can get away with using ==

static bool TryToCompare<T>(T first, T second) where T : class
    return first == second; // legal
    return first == null; // legal
    return first.Equals(second); // legal
share|improve this answer
the first example on your second function fails b/c we don't have any constraint on T and T may be struct or class. Is that correct? -thx – q0987 Jun 3 '11 at 3:00
More or less. There is no guarantee a value type T defines the == operator. For more on this topic, I would suggest you see this question and the top answer:… – Anthony Pegram Jun 3 '11 at 3:06
+1: basically I only use == and != against constants. If I'm not mistaken, you can also use default(T) for evaluation. Otherwise, I use Equals(). – IAbstract Jun 3 '11 at 3:10

Objects aren't comparable because a comparison using == is testing whether the reference is the same (the memory address). You would normally use if (string1.Equals(string2)).

Something I don't understand is that I have seen circumstances where == works with strings, and circumstances where it doesn't.

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From a results POV, == and string1.Equals(string2) shouldn't be any different. They're calculated in different ways, but for short strings, Equals has a slight speed advantage. Good article here: – keyboardP Jun 3 '11 at 3:01
On strings, you start to see "unexpected" results when comparisons are made against string as objects. Consider string x = "ONE"; string y = string.Format("ON{0}", "E"); bool b = x == y; bool c = (object)x == (object)y; b will be true, c will be false. However, change y to be string y = "ONE";, and now c will also be true. – Anthony Pegram Jun 3 '11 at 3:17
If the reference to either string operand has a compile-time type of object, then == will compile to a reference equality check. If they are both string-type references, you'll get the string implementation of the operator. – phoog Jun 3 '11 at 3:21

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