this pointer isn't a member of the object or class - it's an implicit parameter to the method that you call. As such it's passed in much like any other parameter - except that you don't directly ask for it.
In your example above, the constructor is a special method, which is in turn a special kind of function. When you construct the object, the compiler allocates memory for it (in this case on the stack, as
a is a local variable in the
main function. Then it automatically calls the constructor to initialise the object.
As part of calling the constructor, the implicit parameter
this - a pointer to your object - is passed in as a parameter.
In a method with the following signature...
void MyMethod (const int* p) const;
there are actually two parameters, both pointers. There's the explicit parameter
p and the implicit parameter
const at the end of the line specifies that
this is a const pointer, much as the earlier one specifies that
p is a const pointer. The need for that special syntax only exists because
this is passed implicitly, so you can't specify const-ness in the normal way as with other parameters.
A "static" method doesn't have the implicit "this" parameter, and cannot directly access the object members either - there may not be a particular object associated with the call. It is basically a standard function rather than a method, except with access to private members (providing it can find an object to access).
As Steve Fallows points out,
sizeof (this) is known at compile-time, because it is a pointer type and all pointers (*1) have the same
sizeof value. The "8" you see implies you are compiling for a 64-bit platform.
this is usable at this point - it points to valid memory, and all the members have completed their constructor calls. However, it isn't necessarily fully initialised - you are still in the constructor call after all.
*1 - strictly, that may not be true - but the compiler knows what type of pointer it's dealing with here even though the value isn't known until runtime.