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I am writing a C++ wrapper for a C library. There is an initializer function of the C library that I need to ensure is always executed first before any other function. I want to make it so that the user of my C++ wrapper need not manually do the initialization.

AFAICS one way to ensure this happens is to encapsulate the library functions within a singleton class and have the initializer function executed in the constructor of the class:

class Engine {
private:
    static const Engine _instance ;
    Engine() { c_library_initializer() ; }
    // ... prevent copy construction and copy assignment
public:
    static const Engine & handle () const { return _instance ; }
    // ... non-static const wrappers for other c library functions
} ;

One minus point to this approach is that it requires some extra coding: within the library for preventing the copying and for the user of the library since all the library methods have to be called via the instance handle:

const Engine & lib = Engine::handle() ;
lib.this_function() ;
lib.that_function() ;

Another pedantic minus point is that all the wrapper functions are being silently passed a this pointer which is never used. I realize this is not really a big issue with today's memory/processors, but it's there nevertheless IIUC. Perhaps optimizing compilers look for such unused variables and avoid passing them at all? I don't know.

I thought of a simpler approach using an internal class with a single instance within the library's CPP file which would not be visible to the user of my wrapper (and hence does not require copy-protection or returning a handle or calling via that handle):

struct EngineInit {
    EngineInit() { c_library_initializer() ; }
} _EngineInit ;

The wrapper functions would then just be ordinary (non-member) functions exposed to the user of my wrapper via the H/HPP file.

Do people find any problems with the above method and/or can people suggest any other simpler ways for what I seek to achieve?

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If c_library_initializer() has a return value, you could use an anonymous class with one instance instead, and have a private member initialized with the return value of c_library_initializer(). That would make it safer for developers using your library. –  CoffeeandCode Jun 22 '14 at 9:29
5  
Please notice _Uppercase is reserved for the compiler –  Dieter Lücking Jun 22 '14 at 9:29
    
Does the C library not "want" to be split into multiple C++ types? For example, if it has lib_widget_create and lib_widget_frob then you 'd want to have a class ::Lib::Widget, which makes the singleton entry point approach very bad. I would expect that to be the case most of the time, is it the case here? –  Jon Jun 22 '14 at 9:31
    
Does the C initializer function have the signature you describe here? No arguments and no (useful) return value? If it takes some kind of context argument, then your wrapper should just be a plain constructor, not a singleton, and each class instance should wrap a single context. But if the C initializer function is global and should only be called once for the entire program (ew), that's not an option –  jalf Jun 22 '14 at 9:53
    
@jalf: It is not a context like Cairo context etc. It is indeed a single initializer for the whole library. To be more specific, the C library I am wrapping is related to astronomy and before execution of any functions that compute astronomical data (planet positions etc), the location of the JPL ephemeris files needs to be provided to the library. –  jamadagni Jun 23 '14 at 0:18

5 Answers 5

I want to make it so that the user of my C++ wrapper need not manually do the initialization.

This is a bad idea. What if your user decides to use your library from a static variable's constructor? What if you inadvertently do it yourself? Asking the user to initialize a library is a common and sensible practice.

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As a user, it's really horrible when projects try to do this. If your program has startup issues you want to be able to control what is going on. –  Matt McNabb Jun 22 '14 at 12:55
    
@DonReba: Can you please clarify what you mean by "using from a static variable's constructor"? –  jamadagni Jun 23 '14 at 0:14
    
@MattMcNabb: Actually the c_library_initializer is something that reads a .ini file under the user's home directory and does the initialization accordingly. So all one needs to do to control the behaviour is to modify the .ini appropriately. –  jamadagni Jun 23 '14 at 0:16
    
@jamadagni, what you have in your code sample. Now, imagine another one of those using functions from your library. –  Don Reba Jun 23 '14 at 8:03

If the library doesn't have many functions another approach is to wrap every function in another one that checks if the initialisation was made (using a static variable). You lose some time for the check but you don't need to bother with a singleton.

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Hello. What you say is true but does not really help to reduce code. For every library function I would have to keep checking. If I forget to do so, then the result would not be as expected. –  jamadagni Jun 23 '14 at 0:26
    
You'd have to do that anyway as there is no way of guaranteeing that your functions will not be called before the initialization of a static object. –  Matt McNabb Jun 23 '14 at 0:35
    
@MattMcNabb: Are you saying that the standard does not guarantee that static objects which are part of a class or library are not necessarily initialized at load up of a program using that library? –  jamadagni Jun 24 '14 at 9:17
    
the problem with static is that it's not thread safe –  meneldal Jun 24 '14 at 9:20
    
@jamadagni Yes that's correct. In fact you can construct an example where a static object in a class is always used before it is constructed (causing UB). –  Matt McNabb Jun 24 '14 at 9:31

You might use a base class to initialize the library once:

#include <iostream>
#include <mutex>

void c_library_initializer() {
    std::cout << "c_library_initializer\n";
}

class Base
{
    protected:
    Base();
};

Base::Base() {
    static std::once_flag once;
    std::call_once(once, [] { c_library_initializer(); });
}

class Derived : public Base
{};


int main() {
    Derived d0;
    Derived d1;
}

Without C++11 you may use boost::call_once: http://www.boost.org/doc/libs/1_32_0/doc/html/call_once.html.

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I don't know if it can cleanly solve your problem, but there's one thing that came to my mind when reading your question.

You could wrap your library into a shared object (.so). That way you could use the __attribute__((constructor)) on your c_library_initializer() function.

The constructor attribute causes the function to be called automatically before execution enters main ().

Note that this is a GCC extension.

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Surely the simple solution is a static constructor?

Declare in your program a non-local static variable of class type, and a constructor for that class will be called to initialise the variable at a very early stage. You can put any code you like in that constructor, such as initialising your C library.

Exactly when the constructor gets called depends on whether it is static or dynamic initialisation, but it will always be before any other code in the same translation unit gets executed.

Or did I miss something?


I think this may have been the direction you were heading in your second example, but you didn't go quite far enough. I would write the code something like this.

// EngineWrapper.cpp

struct EngineInit {
    EngineInit() { c_library_initializer(); }
};

EngineInit do_not_use; // this static definition triggers initialisation

// Wrapper functions. Note that only wrapper functions contained in this translation unit
// will guarantee to trigger initialisation.
struct EngineWrapper {
    // wrapper 1
    // wrapper 2
};
share|improve this answer
    
It seems what you are suggesting is practically the same as the second option I mentioned in my OP. Or is there anything different? –  jamadagni Jun 23 '14 at 0:25
    
Very similar. See edit. I was just astonished at the complexity and variety of other solutions proposed for a simple and familiar problem. –  david.pfx Jun 23 '14 at 10:40

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