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I am writing a "filesystem" abstraction in C++, with the following inheritance hierarchy:


Where Node defines all the behavior identical to both (Name, time last modified, etc.) however, I have a Node method called getParent() that returns a type Dir *. This works fine, because although Dir.h obviously needs to know the implementation specification in Node.h, Node.h doesn't need to know about what's in Dir.h so I can use a forward declaration. Great.

However, I recently decided to add in multiple inheritance so I can support "snapshots" of the filesystem at a certain time. These are read-only versions of the "live" Node File and Dir classes, and since the live versions can be read from as well as written to, I have each live version inherit from its snapshot dual:

[NodeSnapshot] <------ [Node]
    ^                    ^
    |                    |
    |                    |

Therefore, Dir inherits from both Node and DirSnapshot, and File inherits from both FileSnapshot and Node. Everything looks good to be so far, until we get to the declaration of getParent(). In NodeSnapshot, I return a DirSnapshot *. No problem, I can use a forward declaration again. However, in Node, I want to return Dir *. I, as a programmer, know that Dir is a subtype of DirSnapshot, however the compiler has no way of knowing this because a forward declaration doesn't have any of this useful information embedded in it.

Is it possible to inform the compiler that this forward declaration is a subclass and therefore it shouldn't tell me that the return type of Dir::getParent() does not covary with that of DirSnapshot::getParent()?

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"since the live versions can be read from as well as written to, I have each live version inherit from its snapshot dual". I am not convinced you need to inherit here. –  Alexander Chertov Dec 20 '12 at 8:58
Great! I would love to hear alternative solutions here, as I'm not convinced either, but I would really like to be able to write generic code that can process either a Node or a NodeSnapshot, and inheritance is the best way I can think of to do that –  staticfloat Dec 20 '12 at 9:01
I am not sure I understand what is the difference between a File and a FileSnapshot. Is FileSnapshot an object with file contents loaded into memory or is it rather const File? –  Alexander Chertov Dec 20 '12 at 9:09
It sounds like you certainly don't want multiple inheritance, at least conceptually; if you must, you'll surely want at least virtual inheritance so you don't have several copies of Node in the object. –  Nicholas Wilson Dec 20 '12 at 9:22
As a tangentially-related note, "parent" is not a good thing for a File to have. With many filesystems, a file may be in several directories at once, or in none at all. Same goes for the "filename" concept. Files don't necessarily have names. Rather, directories link filenames and files. –  n.m. Dec 20 '12 at 9:23

2 Answers 2

up vote 2 down vote accepted

It is possible to implement/emulate return type covariance without any language support, though solutions tend to be verbose. On the other hand, mutually recursive definitions are no problem. One needs to use non-virtual public (inline) functions that call virtual private functions. It is a useful technique, some even argue that all interfaces should be implemented like this.

Here's an example:

// forward declare classes
class A;
class B;
class AA;
class BB;

// parents
class A
    virtual B* getB_impl();
    B* getB() { return getB_impl(); }
class B
    virtual A* getA_impl();
    A* getA() { return getA_impl(); }

// kids
class AA : public A
    virtual BB* getBB_impl();
    B* getB_impl();
    BB* getB() { return getBB_impl(); }
class BB : public B
    virtual AA* getAA_impl();
    A* getA_impl();
    AA* getA() { return getAA_impl(); }

// implement parents
B* A::getB_impl() { return new B; }
A* B::getA_impl() { return new A; }

// implement kids
B* AA::getB_impl() { return getBB_impl(); }
BB* AA::getBB_impl() { return new BB; }
A* BB::getA_impl() { return getAA_impl(); }
AA* BB::getAA_impl() { return new AA; }

// check
A a; B b;
A* pa; B* pb;
AA aa; BB bb;
AA* paa; BB* pbb;

pa = b.getA();
pb = a.getB();

pa = bb.getA();
pb = aa.getB();

paa = bb.getA();
pbb = aa.getB();
share|improve this answer
Exactly what I needed, thanks. It turns out that what I really needed was a reminder of when NOT to make a function virtual! Thank you! –  staticfloat Dec 23 '12 at 17:33

You should exclude multiple inheritance from your project. Snapshot is associated with current state of filesystem/dir/file, so it's data. You need inheritance when you don't want to replicate functional and inherit file and dir from node is acceptable. However since snapshot is data it is likely you need to move node data to some struct, special file/dir data to other structs, all of them will be returned or saved/restored on some functions callings, that will be overloaded due inheritance.

   [Node]       [Node Data]
   +----[Dir]   [Node Data][Dir Special Data]
   +----[File]  [Node Data][File Special Data]

virtual void Node::Snapshot()
//some code operating with Node Data (saving on disk for ex)
virtual void Dir::Snapshot()
//some code operating with Special Dir Data (saving on disk for ex)
virtual void File::Snapshot()
//some code operating with Special File Data (saving on disk for ex)
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