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From what I've read so far, using the FFI with C++ is very hard to accomplish. One of the biggest reasons seems to be converting C++ objects to Haskell. My problem now is that I don't have any experience with C, but a few years with C++, and also I prefer OOP. Therefore, I would naturally like to benefit from C++.

So can I write C++ programs designed to be used by the Haskell FFI to get around these problems? C++ could do anything under the hood, but the API would be C-like, i.e. I'm not exchanging objects, don't have overloaded top-level functions and so on. Are there any pitfalls to look out for?

(To compare my project with something you may be familiar with: Think of using SciPy's Weave to speed up Python code.)

share|improve this question
If you want to use C++, then use C++, not Haskell. Otherwise reserve FFI for interfacing with native libraries and maaaaaybe really-performance-critical code. – Cat Plus Plus Sep 18 '12 at 11:11
@CatPlusPlus Performance-critical code would be exactly what I'd be using C++ for. – David Sep 18 '12 at 11:13
Except FFI is used as last resort in that. – Cat Plus Plus Sep 18 '12 at 11:14
Yes. Can we focus on my question now? – David Sep 18 '12 at 11:19
The answer is 'yes, you can use extern "C"-d functions if you're careful', and not really related to Haskell. – Cat Plus Plus Sep 18 '12 at 11:30
up vote 12 down vote accepted

Yes, you can use C++ code via the FFI if you expose a C API on top of that C++ code.

A common pattern is to simply wrap all of a class's "methods" as C procedures, such that objects of that class can be treated as opaque pointers that those functions can be applied to.

For example, given the code (foo.h):

class foo
  foo(int a) : _a(a) {}
  ~foo() { _a = 0; } // Not really necessary, just an example

  int get_a() { return _a; }
  void set_a(int a) { _a = a; }

  int _a;

...you can easily create C versions of all of these methods (foo_c.h):

#ifdef __cplusplus
typedef foo *foo_ptr;
extern "C"
typedef void *foo_ptr;

foo_ptr foo_ctor(int a);
void foo_dtor(foo_ptr self);

int foo_get_a(foo_ptr self);
void foo_set_a(foo_ptr self, int a);
#ifdef __cplusplus
} /* extern "C" */

Then, there must be some adapter code that implements the C interface via the C++ interface (foo_c.cpp):

#include "foo.h"
#include "foo_c.h"

foo_ptr foo_ctor(int a) { return new foo(a); }
void foo_dtor(foo_ptr self) { delete self; }

int foo_get_a(foo_ptr self) { return self->get_a(); }
void foo_set_a(foo_ptr self, int a) { self->set_a(a); }

The header foo_c.h can now be included in a Haskell FFI definition.

share|improve this answer
why void * in C? typedef struct foo* foo_ptr; works in both. – Öö Tiib Sep 18 '12 at 23:50
Because foo is a class and not a struct, and if you have a C++-aware C-compiler that lets you do that, it's extremely non-standard. – dflemstr Oct 7 '12 at 14:19
Every standard-compliant C++ compiler has to compile it when you address class foo as struct foo in some typedef. – Öö Tiib Oct 8 '12 at 6:11
Yes, but I won't be compiling C code with a C++ compiler, especially not when the C compiler is automatically invoked by Cabal. – dflemstr Oct 8 '12 at 9:38
You apparently have #ifdef __cplusplus in code so you apparently compile it with both compilers and typedef struct foo* foo_ptr; compiles into a pointer of foo in both compilers. You can not define foo in C and so you can not dereference the pointer to foo in C (or to do pointer arithmetics with it) but that you can't do with void* either. – Öö Tiib Oct 8 '12 at 15:10

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