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I heard about that type casting is slow. I had thought comparison is fast, but...

It seems IComparable.CompareTo(object y) has to use the cast, which would make x > y at least as slow as y as MyClass if not slower if there is no IComparable<T> available.

So, am I right to say that:

It is always better to implement IComparable<T> than IComparable because then we don't have to type cast?

Update

Is boxing much slower than type casting between 2 reference types?

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Have you tried anything? –  Default Oct 5 '12 at 11:29
    
"I heard about that type casting is slow." - Where did you hear that? Please link to the source. Without the context we can't tell what's going on. –  Oded Oct 5 '12 at 11:29
    
Slow is relative. Perhaps if you did tens of thousands at a time you'd notice the difference. Just use what fits the situation best. –  CodeCaster Oct 5 '12 at 11:30

2 Answers 2

From a performance standpoint it's always better to implement the generic versions of these interfaces because it's a guarantee that you will avoid the boxing of value types, which is the #1 performance killer in this type of scenario.

It is also the case that the generic versions will also not need to make runtime type checks, but the performance hit from these checks is very smaller than that from boxing and will be much harder to notice in practice.

Seeing as there's nothing you lose by implementing IComparable<T> then the conclusion it's clear: you should always do it, as there's nothing to lose and potentially quite a bit to gain.

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un/boxing is a value type cast to reference type vice versa. So shouldn't boxing have similar performance as as? –  colinfang Oct 5 '12 at 11:32
    
@colinfang: Not necessarily. It's not too hard to write code that causes extra boxing at the CompareTo call site, e.g. comparing with i inside a loop where i is an int. –  Jon Oct 5 '12 at 11:34

It's always better implement generics. Not only for performance, also because you get compile time checking.

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