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I find myself (too) often using a construct like the following:

class MyClass
    public TypeA ObjectA;
    public TypeB ObjectB;
    public TypeC ObjectC;
    public List<TypeD> ListOfObjectD = new List<TypeD>();

    public void DoSmth()
        return SomeConstruct(
            new Setter<TypeA>(a => ObjectA = a), // these are the
            new Setter<TypeB>(b => ObjectB = b), // things I'm trying
            new Setter<TypeC>(c => ObjectC = c), // to make shorter
            new Setter<TypeD>(d => ListOfObjectD.Add(d)),
class Setter<T>
    public Action<T> Action;

    public Setter(Action<T> action)
        Action = action;

Is there any way for the Setter class to infer the type of the Action and create the standard (T obj) => Member = obj Action by only passing the Member in some way? I'm thinking of something like:

new Setter(ObjectA)

which of course is not valid syntax, but should give you an idea what I'm trying to achieve. I'm using this construct literally hundreds of time in my code, so the code saved by this small change would be tremendous.

Edit: Added the TypeD example. The part

new Setter<TypeD>(d => ListOfObjectD.Add(d))

can be simplified to

new Setter<TypeD>(ListOfObjectD.Add)

which is awesome because it cuts from the redundant code. If only <TypeD> could also be inferred it would be perfect. I'm looking for something like this for the others.

@Lazarus - basically the purpose is to return setters, so other objects can set certain members of the class (or it can do other stuff defined in the Action) without accessing the class itself, only the Setter object. The full list of reasons is long and convoluted, but the structuring of the program works like a charm and I doubt needs changing (the example of course is simplified and doesn't really make sense as is).

Edit 2: I found a good way to simplify things for List's:

static class SetterHelper
    public static Setter<T> GetSetter<T>(this List<T> list)
        return new Setter<T>(list.Add);

Now I can just use this:


which works perfectly! why can't I do the same for T directly? I tried this:

static class SetterHelper
    public static Setter<T> GetSetter<T>(this T item)
        return new Setter<T>(t => item = t); // THIS DOESN'T SET THE PASSED MEMBER

Of course it won't work as intended because it will set item, but not the passed member. I tried adding ref as (ref this T item) but it won't compile :(... It would have been perfect.

share|improve this question
I'm sorry I can't test this as I don't have Visual Studio installed on my Windows partition but could you do public void DoSmth(Object ObjectType) then typeof(ObjectType) to get the object type when you create it? – Mike Bethany Dec 5 '10 at 19:11
I'm missing something here, what is the objective of this construct? My experience is that when something becomes too complex then I've normally misunderstood the problem space and/or the language constructs. I'd really appreciate it if someone could explain what this construct does and why. – Lazarus Dec 5 '10 at 19:17
My experience is that when people post examples they often remove extraneous code so they can focus on just the problem. Without the context it can be confusing to other programmers as to why they would even want to do this. Certainly it is useful to make sure you are solving a problem as efficiently as possible but I feel this goes into design. If the question isn't specifically about design then I just try to help them solve the problem at hand. – Mike Bethany Dec 5 '10 at 19:31
Oh, I've just read your last edit... maybe this could help you ? --> stackoverflow.com/questions/3653854/… – digEmAll Dec 5 '10 at 21:07
Why don't you implement GetSetter as a normal method (not extention method), with ref T item as parameter.. You can shorten the names of the method and static class to avoid redundant typing. Actually, it is legal to have both a Setter static class and a Setter<T> class in the same namespace, so you could write Settter.Get(ref Object A) – user180326 Dec 5 '10 at 21:12

Best I can offer you is the following syntax:

Setter.For( () => ObjectA );

using this helper class

static class Setter
    public static Setter<T> For<T>(Expression<Func<T>> e)
        ParameterExpression[] args = { Expression.Parameter(((e.Body as MemberExpression).Member as FieldInfo).FieldType) };
        Action<T> s = Expression.Lambda<Action<T>>(Expression.Assign(e.Body, args[0]), args).Compile();

        return new Setter<T>(s);
share|improve this answer
Mmh... sounds similar to this answer --> stackoverflow.com/questions/3653854/… – digEmAll Dec 5 '10 at 21:08
@digEmAll: Yeah, it is similar in many ways. Didn't see your link until I had it all hashed out in Visual Studio though. – Ben Voigt Dec 5 '10 at 21:21
Not exactly performance friendly, but thanks for the idea anyway. – manixrock Dec 5 '10 at 23:54
Yeah, I probably should have mentioned that... expression trees are efficient compared to reflection, but not compared to pre-compiled code. Of course, once the delegate is created, it'll be just as fast, but the initial setup process is not. – Ben Voigt Dec 5 '10 at 23:58

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