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Suppose I have a C-Programm that calls some code written in C++. To make it a bit more concrete, this could look similar to the following:

// C++:
extern "C" void * pluginFunction(void * input) {
    result = (SomeObject *) input;
    if (! result)
        SomeObject * result = new SomeObject();

    // Do something really intelligent here.
    return (void*) result;
}

For the calling C-programm:

int main() {
    void * result;
    while (something) {
        result = pluginFunction(result);
        // some more things
    }

    // Cleanup memory
}

Furthermore suppose that the C-Programm provides a custom memory management. Thus, the C-Programm alway knows which memory has been allocated using the provided function custom_alloc, custom_free and custom_realloc.

On the C++-side, the operators new, new[], delete and delete[] have been overloaded globally both in the standard and in the throw () version.

Now my questions:

  • If the C-part would free all memory allocated over the custom functions during the call of pluginFunction, would it free all memory actually allocated, or is there something more than the memory provided by the variants of new?
  • What further harm would be done by bypassing the call to a proper destructor? Could that harm be avoided purly on the C++-side, e.g. within pluginFunction?
  • Do you see any potential pitfalls or side-effects?

Please note that I have no access to the calling C-Program, but have to use the interface provided. Thus, I have no other option as to arrange my memory in a way that it gets freed properly and hope for the best.

share|improve this question
  1. C++ functions can also call malloc() or any other standard C library that might call malloc(), so overriding new and delete might not be enough. You would also need to override malloc, calloc, etc.

  2. The C++ code might do some other initialization that needs deinitialization in the destructor, like opening hardware, sockets, files, etc. So yes, there can be side effects.

  3. See 2.

share|improve this answer
    
Yep, I see both of your points. +1. Might there be anything else? – Thilo Mar 5 '13 at 7:40

The rule is very simple: you have to destroy memory where you allocate one. So your plugin interface must provide both allocate and deallocate functions.

share|improve this answer
    
Honestly I can't follow your argument. Do you have sources for that rather strict claim? Reasoning where exactly the problems may arise if done otherwise? – Thilo Mar 5 '13 at 7:42
    
Usually module/plugin is black box for clients, so if you have not to do any intromissions how this black box works and how it manages allocation/deallocation. For example, plugin developer decides to change implementation of the pluginFunction function and supplies new version does the following: static SomeObject object; ... return &object. How do you know that you should not deallocate the memory anymor? – AnatolyS Mar 5 '13 at 7:54
    
Okay, that is the typical reasoning from a software design perspective. There are quite a lot of reasons why I have to cope with this, the maine one that changing the interface is no option. However, design rules for me are there to be broken if you have a reason to do so. What I'm asking about is technical limitations, thus what can't be done the way I describe abvoe, assuming all-knowing, faultless developers. – Thilo Mar 5 '13 at 8:21
    
@AnatolyS: I think you mean "you have to destroy memory where you allocate it". (I'd edit, but it's less than the 6 character minimum.) – MatthewD Mar 5 '13 at 22:46
    
the reason is, that each module gets its own copy of the CRT, and memory must be freed by the same CRT that allocated it. See e.g.this blog post. – Michael Wild Mar 6 '13 at 5:55

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