Orocos Real-Time Toolkit
2.6.0
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The prototype of the application's ORO_main. More...
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Defines | |
#define | ORO_main |
Declare the function 'int ORO_main(int argc, char **argv)' instead of 'int main(int argc, char **argv)' such that the Real-Time Toolkit can setup the OS environment, prior to executing user code. | |
Functions | |
int | ORO_main_impl (int, char **) |
Forward declare this wrapper around the user code. |
The prototype of the application's ORO_main.
Definition in file main.h.
#define ORO_main |
main( int argc, char **argv) { \ int res = -1; \ std::string location(argv[0]); location += "::main()"; \ __os_init(argc, argv); { \ RTT::Logger::In in(location.c_str()); \ if ( __os_checkException(argc,argv) ) { \ try { \ res = ORO_main_impl(argc, argv); \ } catch( std::exception& arg ) \ { \ __os_printException(argv[0], arg); \ } catch( ... ) \ { \ __os_printFailure(argv[0]); \ } \ } else { \ res = ORO_main_impl(argc, argv); \ } \ } __os_exit(); \ return res; \ } \ int ORO_main_impl
Declare the function 'int ORO_main(int argc, char **argv)' instead of 'int main(int argc, char **argv)' such that the Real-Time Toolkit can setup the OS environment, prior to executing user code.
Using ORO_main is optional, but in some RTOS'es, you'll be required to call __os_init() and __os_exit() instead when not using ORO_main.
int ORO_main_impl | ( | int | , |
char ** | |||
) |
Forward declare this wrapper around the user code.