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I understand how to go between the 2 different types but my question is; why is this difference at the type level?

I would have thought it would be a property of the ParamterInfo object, not separate special type.

Assuming it's presented as a separate type in reflection because that is how it is internally, what language benefits are there to having this as a separate type (I'm guessing easier method overload resolution or something)?

On a similar note, why does ref make a distinct type but out doesn't (I can't think of reasons for ref being a separate type, that don't apply to out)?

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up vote 5 down vote accepted
public static int SomeMethod(string local, ref string strParam)
  local = SomeStaticlyHeldString;
  strParam = SomeStaticlyHeldString;
  int localInt = local.Length;
  return strParam.Length;

The assignment to local means that the place in memory that local labels now points to the same object that SomeStaticlyHeldString was pointing to.

The assignment to strParam means that the place in memory that the argument passed to the method using ref labels, now points to the same object that SomeStaticlyHeldString was pointing to.

Obtaining local.Length queries the object that local points to. Obtaining strParam.Length queries the object that the variable that strParam points to, points to.

The two are really behaving very differently, not just at the point the parameter or local is defined, but with every use of them. That the difference is largely hidden makes them all the more different, as every operation upon them differs in effect.

If we had a lower level language that had nothing but local variables, objects on some sort of non-local heap, and pointers to both of those, then local would be of type string* and strParam of type string**. This would be how we would do a similar sort of operation in C, and how we could do so in C++ though it also has reference types (though with C++ that a type is a reference type is more clearly part of its type definition, and they have further uses and refinements). C# hides almost all of this from us in its syntax. It's always debatable how beneficial any hiding of details is, but in this case there isn't much in the way of anything useful being hidden, so it's one that one would be hard-pressed to criticise.

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Accepting this one as IMO it better answers my question. Thanks. :) – George Duckett Jan 17 '12 at 10:19

ref parameters have distinct types because ref types are also allowed and useful in other contexts than parameters. C# doesn't allow it, but other languages (at least C++/CLI) do support, for example, local variables of reference type. Such a thing makes sense for ref, but not for out.

Pretending C# allows it, you could write (it's supported by IL):

int x = 3;
ref int y = x;
y = 4;
if (x == 4)
    MessageBox.Show("x is 4");

This isn't an example of when it's useful, but in the same situations where ref parameters are useful, it can also be useful to use a helper class or struct with a ref field.

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Ahh, that makes sense. An example would be helpful though. I can't see how you'd use a ref local. – George Duckett Jan 17 '12 at 9:52
Updated with an admittedly useless example :) – hvd Jan 17 '12 at 10:02
Ahh i see, still not too sure of an actual application though. Guess you could have y referring to one of several variables or something (or elements in an array?). – George Duckett Jan 17 '12 at 10:05
Another thing is, ref is useful for interop, as ref will behave as a pointer when passed in unmanaged code. out on the other hand can't be used with interop. – William Mariager Jan 17 '12 at 10:06
One example of a ref return type function that C# does use even if you can't define it in C# yourself is the Address function on arrays, which allows you to take the address of (for purposes of passing to a ref argument) a multidimensional array element. – Random832 Jan 17 '12 at 14:22

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