I have two C++ classes:
Sequence, which is just like
File, which is a
Sequence of strings that represents a file on the machine.
Sequence is a no-brainer. Its behavior is exactly the same, but with the added functionality of reading and writing files. The
File-specific functionality is implemented easily, without the need for
Sequence's data members to be marked as protected. Instead, they can be private, and
File can use
Sequence's public interface. Happy times all around.
I want to make an
Array class that internally manages dynamically-allocated memory. An
Array object cannot be resized; the size is specified in the constructor.*
Here's where things get arguable.
Concept-wise, it makes sense to derive
Array. Just as a
File is a
Sequence with the added functionality of reading and writing files,
Sequence is an
Array with the added functionality of resizing on-demand.
But there's a key difference: The resizing functions require direct access to the memory
Array is managing. In other words, the previously-private members must now be protected.
Using protected members instead of private ones destroys encapsulation. The link between
Sequence is the only one that requires it; other classes in the works can just use their parents' public interfaces. In this sense, it's a bad idea to derive.
You could argue that people who want arrays can just use
Sequence and ignore the resizing functionality. But then again, you could just use
File and ignore the read/write functionality. It would be like buying a laptop but never moving it from your desk. It simply doesn't make sense.
What's the best move: To derive, and potentially destroy encapsulation; to make
Array a completely free-standing class, and have to pointlessly re-implement a lot of functionality; or to forget about
Array completely and just make people use
*Note that this is a project for fun and education, so the practicality of having a non-resizable dynamically-allocated array is beside the point.