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I had a generic extension method

public static IList<T> Replace<T>(this IList<T> source, Ilist<T> newList) where T:IStateful

which I called using

myStatefulSetOfStuff = myStatefulSetOfStuff.Replace(GetNewSetOfStuff());

I realized, though, that my method would work on all collections that implement ICollection, so I changed it to

public static ICollection<T> Replace<T>(this ICollection<T> source, ICollection<T> newList) where T:IStateful

However, now the method returns an IColllection, which forces me to write the call as:

myStatefulSetOfStuff = myStatefulSetOfStuff.Replace(GetNewSetOfStuff()).ToList();

How can I re-write my method so that I don't need the .ToList() on my call?

EDIT: There seemes to be some confusion, so I'll try to clear it up. I have a list. I want to perform an operation on that list with a new list. No problem. And I figured out how to return a List with an extension method.

But I realized, hey, the actual code in Replace() isn't specific to Lists, it can apply to any collection. So I modified Replace to return an ICollection. This then forces the calling method to look like

var newStuff = left.Replace(right).ToList()


var newStuff = left.Replace(right).ToArray()


But I don't want to say ToList, ToArray, etc., I want the method to just infer the correct return type from the source object. So I can say

var newStuff = left.Replace(right);

and newStuff will be of the same type as left. Right will be of the same type as well.

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What type is myStatefulSetOfStuff? –  Andrey Apr 8 '11 at 20:32
Do source and newList have to be the same type? Or can they be separate types so long as both types implement ICollection<T>? –  LukeH Apr 8 '11 at 20:37
source and newList will be of the same type. –  John Apr 8 '11 at 20:39

2 Answers 2

up vote 9 down vote accepted

Try the following

public static TCollection Replace<TCollection, TItem>(
  this TCollection source,   
  TCollection newList)
    where TCollection : ICollection<TItem>
    where TItem : IStateful

Here's a use case example

interface IStateful { }
class Foo : IStateful { }
static void Test()
    ICollection<Foo> left = null, right= null;
    left.Replace<ICollection<Foo>, Foo>(right);

Unfortunately the generic parameters do appear necessary in this scenario (can't get type inference to work for this specific scenario)


My answer is based off of a bit of a misread of the question. I thought the intent was to flow the type of the source to the return type of the method. Upon further re-reading though it appears you want instead to flow any source and return an List in all cases. In which case I suggest you take a look at Reed's answer.

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+1: This will work, and it's what was asked, but it only works if the input is a list - not sure if that's what the OP really wants to do. –  Reed Copsey Apr 8 '11 at 20:35
@Reed can you clarify? I've got this working with only ICollection<T> types. Granted the type inference is failing for some reason but I can make it work by specifying the types explicitly –  JaredPar Apr 8 '11 at 20:39
@JaredPar: You couldn't use a List<T> for the return type and source, but a different ICollection<T> for the "newList" argument, for example. Not sure if that's what's required, but it sounded like, from the question, he wanted ICollection inputs but IList<T> results. –  Reed Copsey Apr 8 '11 at 20:41
@Reed I see the point you're making now. Had to re-read the question a few times. –  JaredPar Apr 8 '11 at 20:42
@JaredPar: Yeah - not sure exactly what's wanted here, though - I had considered this, but it would still potentially require the .ToList(), depending on the input types, which was part of the original issue. –  Reed Copsey Apr 8 '11 at 20:44

If you need it to always return IList<T>, just change it to:

public static IList<T> Replace<T>(this ICollection<T> source, ICollection<T> newList) where T:IStateful

And put the .ToList() call inside your extension method (unless it's already creating a list internally).

That being said, you can "nest" this by having two type parameters, if you wish to do so.

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