I think I've known the answer for a class, just want to confirm my understanding is correct. Let's say I have a `ClassA`

and its instance named `a`

. When `a.MethodA()`

is invoked:

(1) CLR find the type of `ClassA`

by the *type pointer* of `a`

in the heap(the type have been loaded into the heap)

(2) Find the `MethodA`

in the type, if not found, go to its base type, until the `object`

class.

Maybe my understanding is not quite precise, but I think it's basicly correct(Correct me if it's wrong!). And here comes the question of a simple *struct*.

```
struct MyStruct
{
public void MethodA() { }
}
```

I have `var x = new MyStruct();`

, its value is on the stack, and the type of `MyStruct`

has been loaded into the heap. When execute `x.MethodA()`

, of course no boxing. How CLR find `MethodA`

and get the IL and execute/JIT it? I think the answer is probably:(again, correct me if I'm wrong)

(1) we have the *declaring type* of `x`

on the stack. CLR find its type by the info on the stack, and find `MethodA`

in its type. -- let's call it `assumptionA`

.

I'll be happy if you tell me my `assumptionA`

is correct. But even it's wrong, it tells a truth: CLR has a way to find a struct's type without boxing.

Now what about `x.ToString()`

or `x.GetType()`

? We know that the value will be boxed, and then it will perform like a class. But why do we need boxing here? Since we can get its type(assumptionA tells us), why not go to its base type and find the method(just like a class)? Why need an expensive box operations here?