There's a very real problem with shared libraries that the pimpl idiom circumvents neatly that pure virtuals can't: you cannot safely modify/remove data members of a class without forcing users of the class to recompile their code. That may be acceptable under some circumstances, but not e.g. for system libraries.
To explain the problem in detail, consider the following code in your shared library/header:
// more public interface, some of which uses the int below
The compiler emits code in the shared library that calculates the address of the integer to be initialized to be a certain offset (probably zero in this case, because it's the only member) from the pointer to the A object it knows to be
On the user side of the code, a
new A will first allocate
sizeof(A) bytes of memory, then hand a pointer to that memory to the
A::A() constructor as
If in a later revision of your library you decide to drop the integer, make it larger, smaller, or add members, there'll be a mismatch between the amount of memory user's code allocates, and the offsets the constructor code expects. The likely result is a crash, if you're lucky - if you're less lucky, your software behaves oddly.
By pimpl'ing, you can safely add and remove data members to the inner class, as the memory allocation and constructor call happen in the shared library:
// more public interface, all of which delegates to the impl
void * impl;
: impl(new A_impl())
All you need to do now is keep your public interface free of data members other than the pointer to the implementation object, and you're safe from this class of errors.
Edit: I should maybe add that the only reason I'm talking about the constructor here is that I didn't want to provide more code - the same argumentation applies to all functions that access data members.