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I have to classes, A and B, and B inherits members from A publicly.

class A {
public:
    int a;
};

class B : A {
};

Is there a way to make all of the inherited members from A static under B, or creating them static in A is the only way through?


Context:

I'm building a memory manager, and this manager would control the memory used by instances of a particular class.

I'd have something like:

template <class T>
class Memory {
public:
    operator new;
    operator delete;
private:
    memory_pool_for<T>;
};

class Data : Memory<Data> {
};

And so, when I got to do something like:

new Data;
delete Data;

The operation would be called from the function defined in Memory, that would allocate/deallocate some memory space.

The allocation/deallocation should be static among Data instances, and I'd like to be sure no extra bytes would be added to each instance of Data due to the inheritance from Memory. That's why I thought of static'lizing the inheritance.

I'm not sure if this is the best way to do what I'm doing, but this is quite the most elegant approach I could think of so far.

share|improve this question
    
Short answer: no. You'd need to instance a static A inside B. –  WhozCraig Mar 29 '13 at 16:59
1  
There is no such a feature in C++, and I fail to see a concrete use case that would necessarily require it. Why do you think you need it? –  Andy Prowl Mar 29 '13 at 16:59
    
If you present a real use case, we might think of a better solution. Right now it's really unclear what you might need it for. –  Bartek Banachewicz Mar 29 '13 at 17:03
    
@AndyProwl,BartekBanachewics I've added some context to my question. –  Rubens Mar 29 '13 at 17:08
    
@WhozCraig Instantiate*! –  Lightness Races in Orbit Mar 30 '13 at 20:10

1 Answer 1

up vote 4 down vote accepted

I would use composition instead of inheritance:

class B { 
    static A a;
};

Since you won't probably satisfy LSP with B anyway, if you want to make inherited members static.


Regarding context, I would just make a static protected allocators in Memory:

class Memory {
protected:
    static void* allocate();
    static void destroy (void*);

And use them in new and delete operators:

public:
    void* operator new (size_t) { return allocate(); }
    void operator delete (void* mem) { return destroy(mem); }
}

This way, when you inherit from Memory, you can use its static allocators.

Anyway, I am not sure if it's a good approach. It obviously limits you to one memory pool (but that's what you wanted to anyway, no?). If you wanted to have one memory allocator instance per type, just add a template tag to Memory and inherit with CRTP:

template<typename Tag> class Memory { ...

class Data : Memory<Data> {
};

You might want to look at how Standard Library container allocators are used, though. Being compatible with stdlib is always a nice thing.

share|improve this answer
    
Yep, that's one common memory pool per type. Templates look awesome (: I'll try out your suggestions. Thanks very much! 5555 Interstella! (: –  Rubens Mar 29 '13 at 17:20

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