Are there any compilers which implement Virtual Mechanism in any other way other than the virtual pointer and virtual table mechanism? As far as i have seen most(read g++,Microsoft visual studio) implement it through virtual table, pointer mechanism. So practically are there any other compiler implementations at all?
All current compilers that I know of use the vtable mechanism.
This is an optimization that's possible because C++ is statically type checked.
In some more dynamic languages there is instead a dynamic search up the base class chain(s), searching for an implementation of a member function that's called virtually, starting in the most derived class of the object. For example, that's how it worked in original Smalltalk. And the C++ standard describes the effect of a virtual call as if such a search had been used.
In Borland/Turbo Pascal in the 1990's such dynamic search was employed for finding handlers of Windows API "window messages". And I think possibly the same in Borland C++. It was in addition to the normal vtable mechanism, used solely for message handlers.
If it was used in Borland/Turbo C++ – I can't remember – then it was in support of a language extensions that allowed you to associate message id's with message handler functions.
The sizeof of any class with just a virtual function will be size of an pointer(vptr inside the this) on that compiler, So given that virtual ptr and tbl mechanism itself is compiler implementation, will this statement I made above be always true?
Formally no (even with assumption of vtable mechanism), it depends on the compiler. Since the standard doesn't require the vtable mechanism it says nothing about placement of vtable pointer in each object. And other rules let the compiler freely add padding, unused bytes, at the end.
But in practice perhaps. ;-)
However it's not something that you should rely on, or that you need to rely on. But in the other direction you can require this, for example if you're defining an ABI. Then any compiler that doesn't, simply doesn't conform to your requirement.
Cheers & hth.,