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I'm faced with a design issue. Basically, I have a 3D-engine that started out as a relatively small toy project. I'm writing it in C++ (for the moment in VS2012 if that matters). As the project grew, I factored it into a couple of DLL-files. One of these files contains the following structure:

struct DLLDIR GeometryDescription
{       
    VertexBuffer*                        SourceBuffer;
    IndexBuffer*                         IndexBuffer;
    std::vector<VertexFormatDescription> Layout;
    int                                  VertexRenderOffset;
    int                                  VertexRenderCount;
    ShaderProgram*                       Shader;
};

So, basically an aggregate I suppose... The DLLDIR is a __declspec declaration for the DLL export. Reference of instances of this struct gets passed to a number of methods, such as mesh classes, as well as the renderer. The classes VertexBuffer, IndexBuffer and ShaderProgram are all forward declared and implemented in another part of the program. The VertexFormatDescription is also a simple data structure, defined as:

struct DLLDIR VertexFormatDescription
{
    std::string Semantic;
    int         MemoryOffset;
    int         Index;
    VertexType  Type;
};

Now, the problem is that as soon as I moved this struct to the DLL, the compiler (rightfully so) complained that both the std::vector<VertexFormatDescription> in the first struct, as well as the std::string in the second one lacked a DLL-interface (warning C4251). This is expected, so that's not really a problem in itself.

For most of my "real" classes (meaning, classes with behaviour as well) I simply use a pImpl to hide things such as this, but that feels like overkill for these structs. I see a couple of ways to rewrite them, and none of these ways feels that attractive:

  1. Create a private implementation and toss all the members into it. The drawback is that I would have to write a bunch of getters/setters (which frankly just bloats the code - I don't really care about data encapsulation on classes such as these since they're just supposed to be quite simple, stupid data vessels)

  2. Rewrite the methods in other classes that gets passed a const GeometryDescription& to just take everything as arguments instead. This will also bloat the code by craving huge parameter lists on a number of methods - as well as forcing me to update my code in a number of places if I would like to add/remove something as a parameter (right now I only have to change the relevant struct and make sure to populate it in the correct place)

  3. Instead of a std::vector<VertexFormatDescription>, define a VertexFormatDescription* pointer and use a plain old C-style array, as well as using a char* instead of a std::string (which means more complex iteration as well as resource handling issues)

  4. The final stretch of my imagination was something like "Uh, I guess I could write a private implementation with a public vector and have ONE getter on the outer class which returns a reference to the encapsulated vector".... But that just feels silly, so at that point I would much rather see if someone else had a fresh idea ;)

More or less, I'm trying to find out a good way to design this - classes/structs which can be populated in one module and sent as an argument to another one. Any good design ideas?

Let me know if something relevant is missing, and I'll add it!

PS: English isn't exactly my first language, but hopefully just a couple of grammar errors and nothing that makes the post too hard to follow ;)

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1 Answer 1

In general ...

  • Be sure that you use same compiler version and options for DLL and client.
  • Avoid using struct, use class, make members private.
  • Avoid having inline member functions in DLL header, that makes sure that DLL code only accesses the members.
  • To cut down the count of externally visible members in headers use envelopes like PIMPL.
  • For members which must be used by clients create a DLL-export wrapper or create indirection methods.
  • If the member is not and can not be used by client then switch off the warning.

Additionally ...

  • A std::vector I have experienced to be safe to use between app and dll so you may just locally turn off the warning for that one.
  • Others like std::map are not safe, there are static members in map that are separate for dll and main app and it breaks the behavior.
  • When something feels unclear then make some tests to try it out.
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