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public returnType ReturnProperty<T>(Expression<Func<T, returnType>> property) where T : MyObject
  // Some code or something

Obviously this is not my actual function, but basically what I want is to be able to select either an object of MyObject or an object of List<MyObject>. What should I replace returnType with for this to be possible? Is it possible at all? Do I have alternatives besides making returnType be object?

Note: Also, I did not know what tags to put on this question, sorry.

Edit: Also, the reason I need to be able to do both is I wanted to have an array of them or something. Like Expression<Func<T, returnType>>[] properties. Maybe this gives me more or less options.

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er, on a hunch, no, not possible to return a type that represents both an instance of an object or its generic enumerable equivalent. for what it's worth, consider returning IEnumerable<T> and if only a single element is returned it is a collection of 1. –  johnny g Jul 19 '11 at 17:20
+1 for johnny g's suggestion; it's very easy to turn a single item into an IEnumerable of that item by using "new MyObject[] { item }" –  Mike Edenfield Jul 19 '11 at 17:33
This works for the return type, but what about inside the Expression? –  OpticalDelusion Jul 19 '11 at 18:09

2 Answers 2

You can have the function return object. object is anything, so it could be MyObject or List<MyObject>. You can then do things like this:

object retval = ReturnProperty(...)
if (retval is MyObject)
else if (retval is IEnumerable<MyObject>)    // Works for List, array, etc.
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"Do I have alternatives besides making returnType be object?" I have all of my database objects inherit from one class, and I would like this function to only take in objects (and list of objects) from this class. –  OpticalDelusion Jul 19 '11 at 18:09
No, because MyObject and List<MyObject> have nothing in common. One does not inherit from the other and they share no interface, so the "least common denominator" if you will, is object. –  Ed Bayiates Jul 19 '11 at 18:11

The short answer is that if you can't write it as direct c# code, you can't write it as an expression tree.

Not that I think it's at all a good idea, but you could define a collection which has an implicit conversion from the contained type, which would allow you to use an expression which only takes a collection as a parameter, e.g.:

private static void ProcessItems(ItemCollection c) {}
ProcessItems(new Item());

// ...

class Item {}

class ItemCollection : List<Item>
    public static implicit operator ItemCollection(Item item)
        return new ItemCollection {item};
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