I am writing a "filesystem" abstraction in C++, with the following inheritance hierarchy:
[Node] ^ | +----[Dir] | +----[File]
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 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"
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] ^ ^ | | +---[DirSnapshot]<---+---[Dir] | | +---[FileSnapshot]<--+---[File]
Dir inherits from both
File inherits from both
Node. Everything looks good to be so far, until we get to the declaration of
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