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I'm trying to get the name of a method on a type using a lambda expression. I'm using Windows Identity Foundation and need to define access policies with the type name with namespace as a resource and the method name as the action. Here is an example.

This is the type I would be getting the type name and method name from:

namespace My.OrderEntry {
    public class Order {
        public void AddItem(string itemNumber, int quantity) {}

This is how I would like to define the access policy through a DSL:

ForResource<Order>().Performing(o => o.AddItem).AllowUsersHaving(new Claim());

From that statement, I would like to get "My.OrderEntry.Order" as the resource and "AddItem" as the action. Getting the type name with namespace is no problem, but I don't think I can use a lambda for a method like I'm trying to do.

public static IPermissionExp Performing<T>(
    this IActionExp<T> exp,
    Func<T, delegate???> action) {} //this is where I don't know what to define

Is this sort of thing even possible to do? Is there another way to do this sort of thing without using magic strings?

share|improve this question
What is AddItem supposed to add? – pdr Feb 22 '10 at 21:36
It doesn't really matter what AddItem does, I just need the name of the method without using magic strings. – awilinsk Feb 22 '10 at 21:38
It kind of does matter. I think where you're heading is an Action<delegate> but I don't think that's the best answer. – pdr Feb 22 '10 at 21:42
Is it possible to do Action<delegate>? I really just need to get the method name to define whether the user is allowed to call that method (action) on that type (resource). – awilinsk Feb 22 '10 at 21:47
Ok, I get what you're trying to do now. One more question - where are the values being passed to AddItem going to come from? – pdr Feb 22 '10 at 22:05
up vote 6 down vote accepted

There are two ways to do this:

1: You could make overloads that take the various Func and Action delegates(eg Expression<Func<T, Func<TParam1,TParam2, TReturn>>. Note that your callers would need to specify the generic parameters explicitly, either in the method call or by creating the delegate. This would be used like this:

ForResource<Order>().Performing(o => new Action<string>(o.AddItem)).AllowUsersHaving(new Claim());

2: You could take an Expression<Action> that contains a method call, and parse out the MethodInfo being called from the expression tree. This would be used like this:

ForResource<Order>().Performing(o => { o.AddItem(null); }).AllowUsersHaving(new Claim());
share|improve this answer
for 1) could I use "object" instead of "TParam1"? for 2) any way to do that without specifying the null argument? – awilinsk Feb 22 '10 at 21:45
+1. I'm unable to come up with a more general version than your second example really. – Skurmedel Feb 22 '10 at 22:26
@Wili: 1) No - delegates are not covariant. 2) No. – SLaks Feb 22 '10 at 23:33
Not as clean as I wanted, but I was pretty sure what I wanted wasn't possible. The second example is pretty close and I decided to go with that. – awilinsk Feb 23 '10 at 14:02

It looks like this is what you are looking for if you want the name of the action delegate method passed in to the Performing function.

public static IPermissionExp Performing<T>( 
    this IActionExp<T> exp, 
    Expression<Action<T, string, int>> action) 
    var expression = action.Body as MethodCallExpression;
    string actionMethodName = string.Empty;
    if (expression != null)
        actionMethodName = expression.Method.Name;
    // use actionMethodName ("AddItem" in the case below) here

This would allow you to call the method like this...

ForResource<Order>().Performing((o, a, b) => o.AddItem(a, b)).AllowUsersHaving(new Claim()); 
share|improve this answer
Of course though, this requires the arguments being known and stated by the caller. Obviously, not your #1 preference given you comments on other answers :-( – Russell Giddings Feb 23 '10 at 0:46

I recently did a thing at work where you defined the a method using a lambda, which the internal object then took the name of. You could use strings as well, or pass in a MethodInfo but the first one isn't really type safe (and typos are a big risk), and the latter is not very elegant.

Basically I had a method like this (this is not the exact method, it is a bit more advanced):

public void SetRequest(Request req, Expression<Func<Service, Func<long, IEnumerable<Stuff>>> methodSelector);

The key here is the "Expression" thing, this lets you "select" a method like this:

SetRequest(req, service => service.SomeMethodTakingLongReturningStuffs);

Method selector is made into a expression tree which you can then fetch different bits of data from. I don't recall exactly what the resulting tree looks like, it also depends on how your lambdas look.

share|improve this answer
I would have to know the method signature for that. If I have methods of different signatures, I would have to use different expressions for every signature I come across. – awilinsk Feb 22 '10 at 21:43
Yes, you could use Expression<Action> or Expression instead. – Skurmedel Feb 22 '10 at 21:48
I have Permorming<T>(this IActionExp<T> exp, Func<T, Expression<Action>> action). That doesn't compile. – awilinsk Feb 22 '10 at 21:52
I was incorrect in my previous comment, Expression cannot be used. However Expression<Action> can. If you look at my example the signature of the delegate to be made into a an expression tree needs to be specified as the type argument of Expression<>. So you would need to have Performing<T>(this IActionExp<T> exp, Expression<Action> action)... SLaks answer adequately shows how you would go about calling it. I don't think it can be made more "general" and prettier than his way though if you don't want to specify the signature of the method. – Skurmedel Feb 22 '10 at 22:20
Another "solution" would be to specify a ton of Performing-overloads with different type arguments that would cover a wide range of possible method signatures. It's not pretty implementation wise but it is an alternative. – Skurmedel Feb 22 '10 at 22:22

You could pass it in as a Action instead, which doesn't force any return type. It is still a little messy though, because you have to pass some arguments to the method in order for it to compile.

share|improve this answer
Action would work, but I really don't care about the arguments. Could I do something like: Func<T, Action>, Func<T, Action<object>>, Func<T, Action<object, object>> – awilinsk Feb 22 '10 at 21:40

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