When the compiler sees the definition of
Base it decides the layout of its
vtable according to some algorithm1, which is common to all its derived classes as far as methods inherited from
Base are concerned (derived classes may add other
virtual methods, but they are put into the
vtable after the stuff inherited from
Thus, when the compiler sees
p->virt3(), it already knows that for any object that inherits from
Base the pointer to the correct
virt3 is e.g. in the third slot of the
vtable (because that's how it laid out the
Base at the moment of its definition), so it can correctly generate the code for the virtual call.
Long story short (driving inspiration from @David Rodríguez's comment): it knows where it stays because he decided it before.
1. The standard do not mandate any particular algorithm (actually, it doesn't say anything about how the C++ ABI should be implenented), but there are several widespread C++ ABI specifications, notably the COM ABI on Windows and the Itanium ABI on Linux (and in general for gcc). Obviously, given the same class definition, the algorithm must give the same vtable layout every time, otherwise it would be impossible to link together different object modules.