Normal method calls on an object has nothing to do with Closures; You only have a closure if you package that method call as a delegate!
In order to understand what's going on you need to have a good grasp on the concept of "value type" and "reference type". Talking about
Object is not explicit enough in .net since
Object is at the bottom of the hierarchy for everything, including value-types (
int is also an
Object). It's much easier to start thinking of method calls on pure reference types, like class instances.
Take your ordinary class variable and instantiation:
List x; // variable declaration
x = new List(); // instantiation
or, on a single line:
List x = new List();
The "body" of your instance will stay in a memory area that's called the Heap. The
x that you're working with only holds a reference to that memory area, and that's why this is called a
When you call a method on the
List using the
x variable, the method needs to know on what list to work. So the method simply gets a reference to that body of the instance as the first parameter, the
this parameter. It's incorrect to say the CLR or the Compiler passes "the object" because the object is always on the heap, it only passes a reference (or a pointer).
When the that method needs to call a different method of the same object, it simply passes the same
this as the first parameter, the one it received itself.
A normal method call would look like this:
x.Add(Something); // calls instance method "Add" on "x"
When the compiler sees that it knows the reference to use
x as the
this (the first parameter, the hidden one) for the call to
Add. There's no "closure" in there!
Here's what a closure would look like:
List<int> A = new List<int>();
List<int> B = new List<int>();
Action<int> aDelegate; // <-- declare a delegate type variable
// Action<int> is a delegate that returns void and
// takes a single int parameter.
aDelegate = A.Add; // <-- initialize the delegate using an instance method of object A
aDelegate(7); // <- notice the call! No reference to "A" because "A" is already stored in aDelegate
aDelegate = B.Add;
aDelegate(8); // <- notice the call! No reference to "B" because "B" is already stored in aDelegate
If you look closely at what happens when you call the delegate (
aDelegate(7)), the compiler somehow needs to call the
Add method on object
A, but you can't see that, it's hidden. The delegate encapsulates both the reference to the object
A and the address of the
Add method and that's why it's called a
closure. For contrast look at what happens when you do
aDelegate(8); This time method
Add is called on object
B, but there's no way to guess that because again, the reference to object
B was buried inside the delegate (the closure).