/* Error handling -- see also run.c */ /* New error handling interface. The following problem exists (existed): methods of built-in modules are called with 'self' and 'args' arguments, but without a context argument, so they have no way to raise a specific exception. The same is true for the object implementations: no context argument. The old convention was to set 'errno' and to return NULL. The caller (usually call_function() in eval.c) detects the NULL return value and then calls puterrno(ctx) to turn the errno value into a true exception. Problems with this approach are: - it used standard errno values to indicate Python-specific errors, but this means that when such an error code is reported by UNIX the user gets a confusing message - errno is a global variable, which makes extensions to a multi- threading environment difficult; e.g., in IRIX, multi-threaded programs must use the function getoserror() (sp.?) instead of looking in errno - there is no portable way to add new error numbers for specic situations -- the value space for errno is reserved to the OS, yet the way to turn module-specific errors into a module-specific exception requires module-specific values for errno - there is no way to add a more situation-specific message to an error. The new interface solves all these problems. To return an error, a built-in function calls err_set(exception), err_set(valexception, value) or err_setstr(exception, string), and returns NULL. These functions save the value for later use by puterrno(). To adapt this scheme to a multi-threaded environment, only the implementation of err_setval() has to be changed. */ #include #include "PROTO.h" #include "object.h" #include "stringobject.h" #include "errors.h" /* Last exception stored by err_setval() */ static object *last_exception; static object *last_exc_val; void err_setval(exception, value) object *exception; object *value; { if (last_exception != NULL) DECREF(last_exception); if (exception != NULL) INCREF(exception); last_exception = exception; if (last_exc_val != NULL) DECREF(last_exc_val); if (value != NULL) INCREF(value); last_exc_val = value; } void err_set(exception) object *exception; { err_setval(exception, (object *)NULL); } void err_setstr(exception, string) object *exception; char *string; { object *value = newstringobject(string); err_setval(exception, value); if (value != NULL) DECREF(value); } int err_occurred() { return last_exception != NULL; } void err_get(p_exc, p_val) object **p_exc; object **p_val; { *p_exc = last_exception; last_exception = NULL; *p_val = last_exc_val; last_exc_val = NULL; } void err_clear() { if (last_exception != NULL) { DECREF(last_exception); last_exception = NULL; } if (last_exc_val != NULL) { DECREF(last_exc_val); last_exc_val = NULL; } } /* Convenience functions to set a type error exception and return 0 */ int err_badarg() { err_setstr(TypeError, "illegal argument type for built-in function"); return 0; } object * err_nomem() { err_setstr(MemoryError, "in built-in function"); return NULL; } object * err_errno(exc) object *exc; { object *v = newtupleobject(2); if (v != NULL) { settupleitem(v, 0, newintobject((long)errno)); settupleitem(v, 1, newstringobject(strerror(errno))); } err_setval(exc, v); if (v != NULL) DECREF(v); return NULL; } void err_badcall() { err_setstr(SystemError, "bad argument to internal function"); }