// -*- C++ -*- // $Id$ #include "ace/OS_main.h" ACE_RCSID(ace, OS_main, "$Id$") #if defined (ACE_HAS_NONSTATIC_OBJECT_MANAGER) && !defined (ACE_DOESNT_INSTANTIATE_NONSTATIC_OBJECT_MANAGER) # if !defined (ACE_HAS_MINIMAL_ACE_OS) # include "ace/Object_Manager.h" # endif /* ! ACE_HAS_MINIMAL_ACE_OS */ // Rename "main ()" on platforms that don't allow it to be called "main ()". // Also, create ACE_Object_Manager static instance(s) in "main ()". // ACE_MAIN_OBJECT_MANAGER defines the ACE_Object_Manager(s) that will // be instantiated on the stack of main (). Note that it is only used // when compiling main (): its value does not affect the contents of // ace/OS.o. # if !defined (ACE_MAIN_OBJECT_MANAGER) # define ACE_MAIN_OBJECT_MANAGER \ ACE_OS_Object_Manager ace_os_object_manager; \ ACE_Object_Manager ace_object_manager; # endif /* ! ACE_MAIN_OBJECT_MANAGER */ # if !defined (ACE_WIN32) /* forward declaration */ extern int ace_main_i (int, char *[]); # if defined (ACE_PSOSIM) // PSOSIM root lacks the standard argc, argv command line parameters, // create dummy argc and argv in the "real" main and pass to "user" main. // NOTE: ACE_MAIN must be defined to give the return type as well as the // name of the entry point. ACE_MAIN () /* user's entry point, e.g., "main" w/out argc, argv */ { int argc = 1; /* dummy arg count */ char *argv[] = {"psosim"}; /* dummy arg list */ ACE_MAIN_OBJECT_MANAGER int ret_val = -1; /* assume the worst */ if (ACE_PSOS_Time_t::init_simulator_time ()) /* init simulator time */ { ACE_ERROR((LM_ERROR, "init_simulator_time failed\n")); /* report */ } else { ret_val = ace_main_i (argc, argv); /* call user main, save result */ } ACE_OS::exit (ret_val); /* pass code to simulator exit */ } # elif defined (ACE_PSOS) && defined (ACE_PSOS_LACKS_ARGC_ARGV) // PSOS root lacks the standard argc, argv command line parameters, // create dummy argc and argv in the "real" main and pass to "user" main. // Ignore return value from user main as well. NOTE: ACE_MAIN must be // defined to give the return type as well as the name of the entry point ACE_MAIN () /* user's entry point, e.g., "main" w/out argc, argv */ { int argc = 1; /* dummy arg count */ char *argv[] = {"root"}; /* dummy arg list */ ACE_MAIN_OBJECT_MANAGER ace_main_i (argc, argv); /* call user main, ignore result */ } # endif /* ACE_PSOSIM */ int ace_os_main_i (int argc, char *argv[]) /* user's entry point, e.g., main */ { ACE_MAIN_OBJECT_MANAGER return ace_main_i (argc, argv); /* what the user calls "main" */ } # elif !defined (ACE_HAS_WINCE) # if defined (ACE_WIN32) && defined (ACE_USES_WCHAR) int ACE_Main_Base::run (int argc, ACE_TCHAR *argv[]) { return this->run_i (argc, argv); } ACE_Export int ace_os_wmain_i (ACE_Main_Base &mbase, int argc, ACE_TCHAR *argv[]) /* user's entry point, e.g., main */ { ACE_MAIN_OBJECT_MANAGER return mbase.run (argc, argv); /* what the user calls "main" */ } # else /* ! (ACE_WIN32 && ACE_USES_WCHAR) */ int ACE_Main_Base::run (int argc, char *argv[]) { return this->run_i (argc, argv); } ACE_Export int ace_os_main_i (ACE_Main_Base &mbase, int argc, char *argv[]) /* user's entry point, e.g., main */ { ACE_MAIN_OBJECT_MANAGER return mbase.run (argc, argv); /* what the user calls "main" */ } # endif /* ACE_WIN32 && ACE_USES_WCHAR */ # else /* ACE_HAS_WINCE */ // CE only gets a command line string; no argv. So we need to convert it // when the main entrypoint expects argc/argv. ACE_ARGV supports this. # include "ace/OS_NS_string.h" # include "ace/ACE.h" # include "ace/ARGV.h" int ACE_Main_Base::run (HINSTANCE, HINSTANCE, LPWSTR lpCmdLine, int) { ACE_TCHAR cmdline[1024]; ACE_OS::strcpy (cmdline, ACE_LIB_TEXT ("program ")); ACE_OS::strcat (cmdline, lpCmdLine); ACE_ARGV ce_argv (cmdline); ACE::init (); ACE_MAIN_OBJECT_MANAGER int i = this->run_i (ce_argv.argc (), ce_argv.argv ()); ACE::fini (); return i; } # endif /* !ACE_HAS_WINCE */ # endif /* ACE_HAS_NONSTATIC_OBJECT_MANAGER && !ACE_HAS_WINCE && !ACE_DOESNT_INSTANTIATE_NONSTATIC_OBJECT_MANAGER */