static int foo(int bar);

static int foo(int bar)
{
   for (;;)
   {
      break;
   };;
   if (a)
   {
      foo();;
   };

   if (b)
      if (c)
        bar();
      else
         ;

   else
   {
      foo();;;;;
   };
   switch (a)
   {
   case 1: break;
   case 2: break;
   default: break;;
   };;
   while (b-->0)
   {
      bar();;
   };
   do
   {
      bar();
   } while (b-->0  );
};

enum FPP {
   FPP_ONE = 1,
   FPP_TWO = 2,
};;

struct narg {
   int abc;  ;  ;
   char def;  ;   ;
   ;
   ;const char *ghi;
};

class CFooRun {
   long stick();
   int bar() { m_ick++; };

   CFooRun();;
   ~CFooRun() {};
};

void f()
{
             if (tmp[0] == "disk")
             {
                 tmp = split (tmp[1], ",");
                DiskEntry entry = { tmp[0], tmp[2],
                                    stxxl::int64 (str2int (tmp[1])) *
                                    stxxl::int64 (1024 * 1024) };
                 disks_props.push_back (entry);
             }
}

template < class > struct type;

template < class T >
class X {
  typedef type < T > base ;
  void f () {
    ( base :: operator * () ) ;;
  };
};

namespace N
{
class C
{
#define NOP(x) { }
};
}

namespace N
{
   class C
   {
   };
}

void deallocate2(S **s_ptr)
{
    {
       void *stopper_for_apply = (int[]){0};
       void **list_for_apply = (void *[]){(*s_ptr)->arr, *s_ptr, stopper_for_apply};
       for (int i = 0; list_for_apply[i] != stopper_for_apply; i++) {
          saferFree((void *) & (list_for_apply[i]));
          }
           };
}