Let's suppose for the sake of argument that the vtable in question really is laid out the way you think it is, as a table of ordinary memory addresses, and that when casting those addresses to function pointers, they're callable.
You have at least two problems:
The calling convention for the member functions isn't necessarily the same as for ordinary functions. Microsoft's default calling convention is thiscall, which places a pointer to the object whose method is being called in the ECX register. There's no facility for specifying that manually; the only way to make that happen is by calling a member function in the way member functions are called, which involves syntax like
pobj->f(). You can't do that with pointers to functions (not even member-function pointers), unless you write machine code or assembler to get all the low-level details right.
You happen not to hit this problem for
func because it doesn't make reference to
this (either directly or by implicit reference to other members). The destructor does, though. Destructors are special, and what's actually stored in the vtable is a pointer to a compiler-generated helper function that calls the real destructor and then checks some flags passed as a hidden parameter to determine whether it should free the object's memory. The value that happens to be in ECX doesn't matter for the
func call, but it's very important to be right for the
Destructors aren't like normal functions. As I mentioned above, the compiler can generate one or more helper functions, and they receive parameters in addition to
this. You haven't accounted for that in your code. The compiler generates separate helpers for array and non-array destructors, so right now we don't even know which one you found at index 1 of the vtable. But since you didn't pass it a valid flag parameter, and there's no way to pass it the
this value, it doesn't really matter what you find in the vtable anyway.
You can attempt to solve the first problem by specifying a different calling convention, like stdcall. That puts the
this parameter back on the stack with the rest of the parameters, and that allows you to pass it when you call the function pointer. For
fun would need to have a declaration like this:
typedef void (__stdcall * fun)(A*);
pfunc like this:
To solve the second problem, you'll need to determine the actual order of the vtable functions so you know to find the right destructor helper. And to call it, you'd need a different function-pointer declaration, too. Destructors don't technically have a return type, but
void works well enough. You could use something like this:
typedef void (__stdcall * destr)(A*, unsigned flags);
For most of this answer, I've used an article by Igorsk about recognizing certain patterns in a program for the purpose of decompiling it back into C++. Part 2 covers classes.