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I would like to create a wrapper class for a matrix library that supports, for instance, matrix multiplication:

MyMatrix MyMatrix::operator* (const MyMatrix & other) const { ... }

My first idea was that it would be cool if I create an abstact class MyMatrix that contains the above signature as a pure virtual function (and derive my wrappers from this), but as it turned out this is not possible because the function has an abstract return type. I'm wondering what a clean solution for this problem would look like. Or is the abstract class approach the wrong one and should I just use concrete wrapper classes?

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you can return a pointer, or better a smart pointer –  Andrew May 30 '12 at 17:45
Ah yes, C++. The language without proper polymorphism support :) –  Richard J. Ross III May 30 '12 at 17:46
If you just want to wrap a matrix type and provide it with proper value semantics, you can take a look at the proposed Boost.QVM revergestudios.com/boost-qvm –  K-ballo May 30 '12 at 17:48
@Andrew: yes but I'm trying to avoid non-automatic objects. Any ideas? –  zero-divisor May 30 '12 at 17:49

3 Answers 3

I would go with:

class Matrix
   //all the methods here

    Implementation *_impl;

So the user of the class will use just Matrix class anywhere and you will use 'Implementaion' to implement the interface easily.

Also if you need to change the implementation later - it will not affect your client's code. Just the implementation of Matrix class

Note, that _impl can easy be everything, not just a pointer.

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And what advantage does this give in regards to the OP's question? –  Richard J. Ross III May 30 '12 at 17:49
@RichardJ.RossIII: you don't have to return pointers. For the user of the class there will a transparent class Matrix. Implementation is for internal use only –  Andrew May 30 '12 at 17:50
I think he suggests to use Bridge pattern here. Which is a good way to transparently handle memory handling, etc. –  Hakan Serce May 30 '12 at 17:54
that's exactly my current implementation but the problem here is that in case we want to switch to another implementation we would have to modify our code (by replacing the class definition) and can not just extend it (by adding another derived class). –  zero-divisor May 30 '12 at 18:27

Use the Pimpl Idiom.

In your case, Matrixis a concrete class, that owns (holds a pointer to) an abstract MatrixImpltype object, and forwards all methods to it.

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The following should work:

virtual MyMatrix* MyMatrix::operator* (const MyMatrix & other) const = 0;
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But then one would have to do c = *( a * b ) to operate... and who will delete the temporary? –  K-ballo May 30 '12 at 17:47
Returning pointers is a bad idea. This would be dependent upon the caller to delete the pointer later... –  Richard J. Ross III May 30 '12 at 17:47
But if you want to return a new object then this is the way to go in C++. You cannot return a value object because the subclasses would be trimmmed down in that case, if it worked. You can either use smart pointers, or better yet you can use Bridge (Handle/Body) design pattern to simplify the API –  Hakan Serce May 30 '12 at 17:50
Yes I already thought about that pointer solution but I don't like it that much because from a user's perspective it's weird that mat1 * mat2 is a pointer to the product, and one has always to delete it later. –  zero-divisor May 30 '12 at 18:22
Then, using Handle/Body (or Bridge) pattern would do the job, as I mentioned, and also presented in the other answer. –  Hakan Serce May 30 '12 at 18:24

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