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Today I had a little chat with Michiel on #gnome-nl regarding the use of C++ classes in C code (he started learning C again ;-)).

I was fascinated (well, sort of) by this, and tried to get something working. Here's the result:

• First we need a C++ class, using one header file (Test.hh)

  class Test {
          public:
                  void testfunc();
                  Test(int i);
  
          private:
                  int testint;
  };
  

  and one implementation file (Test.cc)

  #include <iostream>
  #include "Test.hh"
  
  using namespace std;
  
  Test::Test(int i) {
          this->testint = i;
  }
  
  void Test::testfunc() {
          cout << "test " << this->testint << endl;
  }

  This is just basic C++ code.

• Then we need some glue code. This code is something in-between C and C++. Again, we got one header file (TestWrapper.h, just .h as it doesn't contain any C++ code)

  typedef void CTest;
  
  #ifdef __cplusplus
  extern "C" {
  #endif
  CTest * test_new(int i);
  void test_testfunc(const CTest *t);
  void test_delete(CTest *t);
  #ifdef __cplusplus
  }
  #endif
  

  and the function implementations (TestWrapper.cc, .cc as it contains C++ code):

  #include "TestWrapper.h"
  #include "Test.hh"
  
  extern "C" {
  
  CTest * test_new(int i) {
         Test *t = new Test(i);
  
         return (CTest *)t;
  }
  
  void test_testfunc(const CTest *test) {
          Test *t = (Test *)test;
          t->testfunc();
  }
  
  void test_delete(CTest *test) {
          Test *t = (Test *)test;
  
          delete t;
  }
  }
  

  Some things you should notice:

  1. typedef void CTest
     We typedef CTest to void. This way we can use "CTest *" in our C code as if it's a normal C type, whilst we have compile-time type checks (sort of at least :-)), and it's cleaner than always using "void *"
  
  

  2. The use of "extern "C" { }" around all functions (both definitions and implementations). We need this so the compiler won't name-mangle the resulting binaries. If you want to see what name-mangling is:

     $ cat test.c
     #include <iostream>
     using namespace std;
     
     void test() {
             cout << "test" << endl;
     }
     
     int main(int argc, char *argv[]) {
             test();
             return 0;
     }
     $ g++ -o nmtest test.c
     $ ./nmtest
     test
     $ nm nmtest
     ***blablabla***
     08048818 t _Z41__static_initialization_and_destruction_0ii
     080487c4 T _Z4testv
              U _ZNKSs4sizeEv@@GLIBCXX_3.4
              U _ZNKSsixEj@@GLIBCXX_3.4
     ***blablabla***

     As you can see, our "test()" function has been renamed to "_Z4testv" by the compiler. This is needed to allow polyphormism in C++, but we don't want this in our C wrapper of course, as we want to know the name of the function we will call!
     This implies we need another function name for every polyphormistic (SP?) class function of our C++ class in the C wrapper.

• At last, we need some code to test our work (main.c):

  #include <stdio.h>
  #include "TestWrapper.h"
  
  int main() {
          CTest *t = NULL;
  
          t = test_new(5);
          test_testfunc(t);
          test_delete(t);
          t = NULL;
  
          return 0;
  }
  

  This is, once more, braindead simple (C) code, where we use the functions defined in TestWrapper.h.

• Last but not least, we need to compile everything. I made a basic Makefile to do this (Makefile):

  CFLAGS=-Wall -Werror -g -ansi -pedantic -std=c89
  CCFLAGS=-Wall -Werror -g
  LDFLAGS=-g -Wall -lstdc++
  
  OBJS=Test.o TestWrapper.o main.o
  PROG=test
  
  all: $(PROG)
  default: all
  
  %.o: %.cc
          $(CC) $(CCFLAGS) -c $<
  
  %.o: %.c
          $(CC) $(CFLAGS) -c $<
  
  $(PROG): $(OBJS)
          $(CC) $(OBJS) $(LDFLAGS) -o $@
  
  clean:
          rm -f $(OBJS)
          rm -f $(PROG)
  

Now we can simply call "make" to build the project:

$ make
cc -Wall -Werror -g -c Test.cc
cc -Wall -Werror -g -c TestWrapper.cc
cc -Wall -Werror -g -ansi -pedantic -std=c89 -c main.c
cc Test.o TestWrapper.o main.o -g -Wall -lstdc++ -o test

Finally, we test the resulting binary:

$ ./test
test 5

which is the expected result.

Obviously, writing a wrapper like this by hand can be a boring task. It might be possible to automate/script this, but I don't know whether the result is worth the time one puts into it. Just use plain C, we don't need C++ ;-)

Thanks to Bram (and VTK Computer) I got an old 20Gb hard drive, which I needed to be able to install a Scratchbox environment and play around with the Maemo platform.
I managed to install everything by now (although I had one crash again :-(), so I hope I'll be able to start hacking on some apps/libs soon. One of the things I'd love to get working is Avahi, the GPL'ed mDNS stack.

The obligatory shot:

I just followed these steps. They contain one error though: when editing your ~/.bash_profile, you got to add a line containing