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I have a list defined as:

var Items = new List<IItem>();

Now there are a number of different classes that have that interface and one of them is Consumable. The Consumable class also has the == operator overloaded. Now I have the following code and is not working:

if(item1 == item2)
{
    //code...
}

This does not work. I put a break point in the == operator overload and it never gets to it. When I go through line-by-line debugging, both item1 and item2 are of type Consumable, both GetType returns Consumable. I even try this code:

var temp = item1.GetType();
var temp2 = item2.GetType();
if (temp == temp2)
{
    //code...
}

and this equality results is true. Now if I try this:

if(((Consumable)item1) == ((Consumable)item2))
{
    //code...
}

and this triggers the break point in the == operator overload. Why would I have to manually cast the variable if when line-by-line debugging show it already thinks they are both consumable? Is it because I am pulling them from a list of IItems?

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2  
Marc is right; for some more thoughts on this design decision, see my article on the subject: blogs.msdn.com/b/ericlippert/archive/2009/04/09/… –  Eric Lippert Apr 27 '11 at 14:07
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4 Answers

Since your list is List<IItem>, I'm assuming you have something like:

var item1 = Items[0];

or whatever; here item1 the variable is typed as IItem. Operator resolution happens during build via static analysis (not at runtime via polymorphism/RTTI), so the only == available is the default for any object, i.e. reference equality.

To support your custom operator, the variables must be typed accordingly, for example:

Consumable item1 = ..., item2 = ...;

Your cast achieves a similar thing.

Another option would be to make sure that == and Equals (and GetHashCode()) are in agreement, and use:

if(Equals(item1, item2)) {...}

which will do null checks and then use your overridden Equals method. This then supports polymorphism, so it doesn't matter what the types are.

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The common langauge runtime does only know that your two objects implement the interface IItem. The smallest common part in object hierarchy is System.Object. And you did not overload the == operator of System.Object.

To use the correct overload you have to state the type of the object.

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== does not check type equality, but for classes it checks reference equality. So if the variables are pointing to the same object it will be true. For example like this:

var temp = item1;
var temp2 = item1;

if( temp == temp2 )
{
  //this code will execute
}
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Shouldn't be the IItem IComparable?

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2  
IComparable is for sorting, not equality. The inbuilt Equals is for equality, as is IEquatable<T> if you want a typed API. –  Marc Gravell Apr 27 '11 at 11:55
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