6

Goal: Generic enumerated type to be the same type when returned.

Note: This works when the types are entered but I don't understand why they can't be inferred.

List<T> then return List<T>

IOrderedEnumerable<T> then return IOrderedEnumerable<T>

ETC

Current method (works only if all types are entered)

public static TEnumerable WithEach<TEnumerable, T>(this TEnumerable items, Action<T> action)
where TEnumerable : IEnumerable<T>
{
    foreach (var item in items) action.Invoke(item);
    return items;
}

Example Only

var list = new List<int>(); //TODO: Mock random values
list.WithEach(x => Console.WriteLine(x)) //Here WithEach ideally returns List<int> following orignal type List<int>
    .OrderBy(x => x) 
    .WithEach(x => Console.WriteLine(x)); //Here WithEach ideally returns IOrderedEnumerable<int> following OrderBy

Making it work

var list = new List<int>(); //TODO: Mock random values
list.WithEach<List<int>, int>(x => Console.WriteLine(x))
    .OrderBy(x => x) 
    .WithEach<IOrderedEnumerable<int>, int>(x => Console.WriteLine(x));

What I'm missing is why C# can't infer the types although the where filter does make the types accurate. I understand why you either supply all or none generic types to methods so please do not point me to those answers.

Edit: If I can't infer the types; then how can I make this more elegant?

  • 1
    I'll look into the details, but just as a warning: this ends up iterating over the sequence and then returning the same sequence, which may not support being iterated over multiple times. When designing LINQ-like methods I try to avoid multiple iteration. It may not be an issue in your case, but I thought I'd mention it before looking into the type inference. – Jon Skeet Dec 4 '18 at 19:51
  • You're right @JonSkeet; ideally iterations would be immutable. I'm just scratching my head into making the method FLUENT and keeping the question simple. – Michael Puckett II Dec 4 '18 at 19:52
  • Why not yield? – Kenneth K. Dec 4 '18 at 19:55
  • 1
    @KennethK.: Given that the stated goal is "Generic enumerated type to be the same type when returned." that sounds like an answer to your question. (As an example, after calling OrderBy then WithEach, with the OP's design they'd be able to call ThenBy - they can't if WithEach returns just IEnumerable<T>.) – Jon Skeet Dec 4 '18 at 20:06
  • 1
    @Servy: I'd say there's a difference in terms of why the types aren't inferred too though - that question doesn't have the second type parameter anywhere in the parameter list; this does, but the argument doesn't help infer it. For type inference, I think it's useful to have multiple questions that are somewhat similar but with subtle differences. – Jon Skeet Dec 4 '18 at 20:27
9

Type inference in C# is very complicated - just for once, I'm not going to get the spec out to try to step through it, because I'm aware of just how horrible it can become.

I believe the problem is that neither of the parameter/argument combinations gives the compiler enough information to infer T:

  • The TEnumerable items parameter doesn't mention T, so it isn't used to infer T, despite the type constraint
  • The Action<T> parameter would be fine, but the compiler can't make an inference based on the lambda expression you're providing

I can't think of a good change to the method signature that would make exactly your first code work - but you can change how you invoke the method just a little to make it work, by specifying the parameter type in the lambda expression:

var list = new List<int>();
list.WithEach((int x) => Console.WriteLine(x++))
    .OrderBy(x => x) 
    .WithEach((int x) => Console.WriteLine(x));

The downside of that is that it won't work with anonymous types, of course.

One workaround for that downside is a pretty horrible one, but it lets you express the type of T via a parameter instead, when you need to. You change the method signature to:

public static TEnumerable WithEach<TEnumerable, T>(
    this TEnumerable items,
    Action<T> action,
    T ignored = default(T))

If you wanted to call the method with a list of some anonymous type, you could write:

list.WithEach(x => Console.WriteLine(x.Name), new { Name = "", Value = 10 });

... where the final argument would match the anonymous type. That will allow the type of T to be inferred by the final parameter instead of the second one. You can use that for other types of course, but I'd probably stick to using it for anonymous types instead.

That's all a pretty horrible hack, and I don't think I'd actually use it, but if you really, really need this to work with anonymous types, it would cope.

  • 8
    Your belief is, of course, correct. Basically all inferences must be made from arguments to formals, and then the constraints are checked. We never make an inference from a constraint. We make inferences from arguments, and then verify that they are consistent with the constraints. – Eric Lippert Dec 4 '18 at 20:05
  • 2
    @EricLippert That makes sense then. Appreciated! – Michael Puckett II Dec 4 '18 at 20:10
  • 2
    That rule -- arguments to formals -- is relaxed slightly in the case of inferring a type parameter that is in the formal parameter list of a delegate type. In that case, as you correctly note, we infer from formal parameter lists of typed lambdas to formal parameter lists of delegates with unfixed type parameters. – Eric Lippert Dec 4 '18 at 20:10
  • 2
    @MichaelPuckettII: You're welcome. This is for whatever reason a controversial decision; lots of people think that constraints should be used to help the compiler make a decision, rather than what I believe, which is that constraints should be used to let the developer know when inference is sufficiently unclear that we cannot determine the right answer from the arguments. For a long, unproductive debate on this issue, see the comments to blogs.msdn.microsoft.com/ericlippert/2009/12/10/… – Eric Lippert Dec 4 '18 at 20:12
  • 2
    @MichaelPuckettII: FYI, Jon's "horrible hack" is a technique sometimes called "cast by example" because the original use case of this technique was used to make a conversion that took an example of the type you wanted to cast to. blogs.msdn.microsoft.com/alexj/2007/11/22/… – Eric Lippert Dec 4 '18 at 20:14
-1

Declare your extension using just T, like so:

public static IEnumerable<T> WithEach<T>(this IEnumerable<T> items,Action<T> action)
{
    foreach (var item in items) action.Invoke(item);
    return items;
}

This has the downside of losing the specific sub-class of IEnumerable that you implement.

It's easy to implement overloads for the specific subclasses you care about:

public static IOrderedEnumerable<T> WithEach<T>(this IOrderedEnumerable<T> items, Action<T> action)
{
    ((IEnumerable<T>)items).WithEach(action);
    return items;
} 

Returning the IEnumerable after iterating it is a bit scary, though. IEnumerables might not be restartable.

  • 2
    The point (as I understand it) is that the OP wants to be able to return the same type as the first parameter, so that they can continue to use methods specific to that type (not to IEnumerable<T>) later. – Jon Skeet Dec 4 '18 at 19:54
  • Although this will return the same type reference it will not be the same type moving forward. This will return IEnumberable<T> when I want it to be IOrderedEnumerable<T> for example. – Michael Puckett II Dec 4 '18 at 19:54

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