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I’m using a C library (from C++) which provides the following interface:

void register_callback(void* f, void* data);
void invoke_callback();


Now, I need to register a function template as a callback and this is causing me problems. Consider the following code:

template <typename T> void my_callback(void* data) { … }

int main() {
    int ft = 42;
    register_callback(reinterpret_cast<void*>(&my_callback<int>), &ft);

This gives me the following linker error (using g++ (GCC) 4.5.1 on OS X but works on most other combinations of compiler version / platform):

Undefined symbols for architecture x86_64:

"void my_callback<int>(void*)", referenced from:  
  _main in ccYLXc5w.o

which I find understandable.

First “solution”

This is easily fixed by explicitly instantiating the template:

template void my_callback<int>(void* data);

Unfortunately, this isn’t applicable in my real code since the callback is registered inside a function template, and I don’t know for which set of template arguments this function will be called, so I can’t provide explicit instantiations for all of them (I’m programming a library). So my real code looks a bit like this:

template <typename T>
void do_register_callback(T& value) {
    register_callback(reinterpret_cast<void*>(my_callback<T>), &value);
    // Other things …

int main() {
    int ft = 42;

Second “solution”

A function template is implicitly instantiated by calling the function. So let’s do that, but make sure that the call isn’t actually performed (the function has got side-effects):

template <typename T>
void do_register_callback(T& value) {
    if (false) { my_callback<T>(0); }
    register_callback(reinterpret_cast<void*>(my_callback<T>), &value);

This seems to work, even with optimisations enabled (so that the dead branch is removed by the compiler). But I’m not sure if this won’t some day break down. I also find this a very ugly solution that requires a length explanatory comment lest some future maintainer remove this obviously unnecessary code.


How do I instantiate a template for which I don’t know the template arguments? This question is obviously nonsense: I can’t. – But is there a sneaky way around this?

Barring that, is my workaround guaranteed to succeed?

Bonus question

The code (specifically, the fact that I cast a function pointer to void*) also produces the following warning:

ISO C++ forbids casting between pointer-to-function and pointer-to-object

when compiling with -pedantic. Can I somehow get rid of the warning, without writing a strongly-typed C wrapper for the library (which is impossible in my situation)?

Running code on ideone (with an added cast to make it compile)

share|improve this question
Why isn't the callback signature void (*)(void*) in register callback? – David Rodríguez - dribeas Jul 18 '11 at 14:46
@David Don’t ask me, I haven’t the slightest inkling. This is from a third-party C library. – Konrad Rudolph Jul 18 '11 at 14:47
Why not use if(false) { my_callback<T>(value); } instead of assuming that all callbacks will use pointer values? It's at least slightly less ugly. – Chris Lutz Jul 18 '11 at 14:49
@Chris: given that the callback is invoked with a void*, I guess it will always use a pointer argument. – Matthieu M. Jul 18 '11 at 14:51
Also, using (void *) instead of reinterpret_cast<void *> may get rid of the warning. If it doesn't you could always use a union. – Chris Lutz Jul 18 '11 at 14:53
up vote 4 down vote accepted

POSIX recommends the following way to cast between function pointer types and object pointer types (which is undefined in C99):

typedef void function_type(void*);
function_type *p_to_function = &my_callback<T>;
void* p_to_data = *(void**)&p_to_function;

// Undefined:
// void* p_to_data = (void*)p_to_function;

Notice that in C++-land, this would perform a reinterpret_cast<void**>(&p_to_function) from function_type**. This is not undefined but instead implementation-defined, unlike reinterpret_cast<void*>(p_to_function). So it's probably your best bet to write C++-conformant code that relies on the implementation.

share|improve this answer
So the pointer-to-pointer-to-function cast is to be de-referenced and passed to the callback registration? i.e. *reinterpret_cast<void**>(&p_to_function) - and this is implementation defined? – Nim Jul 18 '11 at 16:17
..the above generates warnings about type punned pointer de-referencing – Nim Jul 18 '11 at 16:19
@Nim Yes, reinterpret_cast's between unrelated pointer types is implementation-defined. – Luc Danton Jul 18 '11 at 16:20
must be late in the day, I don't get the difference between that extra step through the additional indirection and simply reinterpret_casting the function pointer to void* (it is effectively a cast between two different pointer types - is it not?) and therefore should be implementation defined? – Nim Jul 18 '11 at 16:24
@Nim When I use 'pointer type' it excludes 'pointer to function type' from its meaning (parse the latter as (pointer to function) type by the way). The Standard terminology is actually 'object pointer type', 'function pointer type' and 'member pointer type'. I'm going to amend my answer. – Luc Danton Jul 18 '11 at 16:25

Apparently, the real problem was the missing static_cast in my original code:

register_callback(reinterpret_cast<void*>(&my_callback<int>), &ft);

This compiles fine, but triggers the liker error when using GCC 4.5. It doesn’t even compile when using GCC 4.2, instead giving the following compile error:

insufficient contextual information to determine type

Once this “contextual information” is provided, the code compiles and links:

    static_cast<void(*)(void*)>(my_callback<int>)), &value);

I’ve got no idea whether the cast is actually required and (if so) why GCC 4.5 allows me to leave it off, and then fails to instantiate the template. But at least I got the code to compile without resorting to hacks.

share|improve this answer
Does that mean that you have more than one overload for the templated function? If there is a single template, there should be no need for the extra "contextual information" to determine the type (i.e. the type would be uniquely defined by the type parameter to the template) – David Rodríguez - dribeas Jul 18 '11 at 15:08
@David I haven’t. The code is exactly as-is in the code. – Konrad Rudolph Jul 18 '11 at 15:11
@Konrad: now that you mention the fix, I realize I have already have to use a static_cast in a similar situation. I didn't dwelled on it... but never really understood WHY it was necessary. – Matthieu M. Jul 18 '11 at 15:34 the last line actually works on your platform/compiler combination? and what I posted doesn't? interesting... – Nim Jul 18 '11 at 15:34
@Nim Let me re-evaluate this. I think you’re right, this is effectively equivalent to the static_cast. I don’t have time right now but I’ll do this first thing tomorrow. – Konrad Rudolph Jul 18 '11 at 15:38

This should work:

template <typename T>
void do_register_callback(T& value) {
   void (*callback)(void*) = my_callback<T>;
   register_callback(reinterpret_cast<void*>(callback), &value);

The first line forces the compiler to instantiate that function to generate the address - which you can then happily pass.

EDIT: Let me throw another option in to this mix. Make my_callback a static member of a class template - something like the following:

template <typename T>
struct foo
static void my_callback(void* data) {
    T& x = *static_cast<T*>(data);
    std:: cout << "Call[T] with " << x << std::endl;

Now, in your register guy, you don't even need the "cast".

template <typename T>
void do_register_callback(T& value) {
   register_callback(reinterpret_cast<void*>(&foo<int>::my_callback), &value);

It appears that the rule for instantiating class templates is different to function templates - i.e. to take the address of a member of a class, the type is instantiated.

share|improve this answer
I think you mean my_callback<T> – zennehoy Jul 18 '11 at 14:47
This sounds reasonable. Unfortunately, it definitely doesn’t work on my compiler/platform combination. For reference, your code also works on my platform with a different compiler version (4.2), and it works with my compiler version (4.5.1) on a different platform. – Konrad Rudolph Jul 18 '11 at 14:50
@zennehoy, @Nim: seems obvious, I patched it. – Matthieu M. Jul 18 '11 at 14:52
@Matthieu, @zennehoy - oops - yes - thanks! – Nim Jul 18 '11 at 15:21

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