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I have a set of extension methods that I regularly use for various UI tasks. I typically define them to run off of type object, even though inside of them I'm typically converting them to string types.

public static string FormatSomething(this object o)
{
     if( o != null )
     {
          string s = o.ToString();
          /// do the work and return something.
     }
     // return something else or empty string.

}

The main reason I use the object type and not string is to save myself in the UI from having to do <%#Eval("Phone").ToString().FormatSomething()%> when I can do <%#Eval("Phone").FormatSomething()%> instead.

So, is it fine from performance standpoint to create all the extension methods on object, or should I convert them to be string (or relevant) types based on what the extension method is doing?

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1  
The real question is does it matter? –  Rune FS Oct 4 '11 at 18:15
1  
@RuneFS Oh, it really doesn't, and I'm guessing any performance hit would probably be negligible. Mostly curiosity. –  Doozer Blake Oct 4 '11 at 18:17
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4 Answers

up vote 30 down vote accepted

Is there a performance hit for creating extension methods that operate off the object type?

Yes. If you pass a value type in then the value type will be boxed. That creates a performance penalty of allocating the box and doing the copy, plus of course later having to garbage collect the box.

Instead of

public static string FormatSomething(this object o) 
{
    return (o != null) ? o.ToString() : "";
}

I would write

public static string FormatSomething<T>(this T o) 
{
    return (o != null) ? o.ToString() : "";
}

That has the same effect, but avoids the boxing penalty. Or rather, it trades a per call boxing penalty for a first call jitting cost penalty.

is it fine from performance standpoint to create all the extension methods on object?

We cannot answer the question. Try it! Measure the performance, compare that against the desired performance, and see if you met your goal. If you did, great. If not, use a profiler, find the slowest thing, and fix it.

But neither question is the question you should be asking. The question you should have asked is:

Is it a good programming practice to create an extension method that extends everything?

No. It is almost never a good idea. In most cases where people want to do that, they are abusing the extension method mechanism. Typically there is some more specific type that could be extended. If you do this a lot then you end up with lots of extension methods on every type, and coding becomes confusing and error-prone.

For example, suppose you want to have an extension method that answers the question "does this sequence contain this value?" You could write:

public static bool IsContainedIn<T>(this T item, IEnumerable<T> sequence)

and then say

if (myInt.IsContainedIn(myIntSequence))

But it is much better to say:

public static bool Contains<T>(this IEnumerable<T> sequence, T item)

and then say

if (myIntSequence.Contains(myInt))

If you do it the first way then you're typing along in the IDE and every single time you type ".", you get prompted with IsContainedIn as an option because maybe you're about to write code that determines if this object is in a collection. But 99% of the time, you're not going to do that. Doing this adds noise to the tooling and makes it harder to find what you really want.

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1  
So, to be clear, the bottle-neck you're pointing out isn't specific to extension methods, but any method which passes a value-type by reference –  STW Oct 4 '11 at 19:37
3  
@STW: Yes. It is just particularly egregious with extension methods on object because the boxing is non-obvious. It looks like just a method on the value, which you would naively expect to not box anything. –  Eric Lippert Oct 4 '11 at 19:42
    
There are several methods on valuetypes that box on calling. For all value types there is GetType, and things like GetHashCode,Equals and ToString if you don't implement them yourself. (Also all instance methods on Enum boxs) –  Michael B Oct 4 '11 at 20:13
1  
@phoog: Close. Calling GetType on a variable tells you nothing about the type of the variable except that the variable must be assignment compatible with the value that is in it. What you want to do instead is do typeof(T) != typeof(object) -- this gives you evidence that the type system considers T to be whatever type argument was given. But really the whole question of "proof" is an odd one. –  Eric Lippert Apr 5 '12 at 22:14
1  
@kvb: One interesting avenue to explore is stuff that cannot be boxed. For example, if you have M<T>(ref T t) and call M<int> then T cannot secretly be object because then you could assign a non-int to the aliased variable on another thread, and thereby read a non-T out of a variable of type T. The variable aliased is required to be a bona-fide variable of exactly that type. –  Eric Lippert Apr 6 '12 at 16:38
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I seriously doubt there would be any performance implications outside of perhaps some IDE impact. Once compiled I wouldn't expect it would make any difference.

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Compared to when you call ToString befor the call to FormatSomething not really (you're null check might take a few more ms but they also make the code more robust.

Even if the compile time type of the object you're calling the method on was string it still would make a visible difference.

Don't worry about performance until you have a performance issue. Until then worry about maintainability including readability. If you have a performance problem then use a profiler to find where it is.

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What overhead is associated with an extension method at runtime? (.NET) answers your question I think. Extension methods are just static methods, so they do not belong on the Object type. Intellisense only makes it seem so.

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