United States |
|
|
||
Chapter 7
|
typedef int Objection_action(const char*); |
Objection_action
Is the type of an action routine that can be called by the function Objection::raise .
Provides the capability to handle and report errors.
#include <objection.hxx>#include <Objection.h>
class Objection { public: Objection(); Objection(Objection_action *); int raise(const char * = ""); Objection_action *appoint(Objection_action *); Objection_action *appoint(); Objection_action *ignore(); };
This class provides ways to handle objections. An objection is a potential error condition that your program can encounter. The user appoints an error-handling function. An Objection object's raise() function invokes the appointed function by passing it a character string that contains an error message. At any point in your program, you can appoint a new error-handling function, reappoint the original function, or specify that an objection be ignored.
Objection()
Constructs an Objection object with no default action (error handler).Objection(Objection_action *new_action)
Constructs an Objection object with a pointer to the default error handler. The handler is a function that takes one parameter of type const char *msg and returns an int . See the raise() member function for more information.
Objection_action *appoint()
Specifies that the handler for the objection is the default error handler (if one exists) and returns the previous action associated with the specified objection. Specifies that the objection not be ignored.Objection_action *appoint(Objection_action *new_action)
Specifies a new handler for the objection and returns the previous action associated with the specified objection. Specifies that the objection not be ignored.Objection_action *ignore()
Specifies that the objection be ignored (no error handler is invoked if the objection is raised). This function returns the previous action associated with the specified objection.int raise(const char *msg = "")
Raises a specified objection, passing a string (error message) to an error handler (if one exists). If no handler exists, or if the handler returns a 0, the default handler is called. The raise function returns the value returned by the last handler it called.If no default handler exists, then the function returns 0. A 0 is also returned if the objection is ignored. Generally, the return of a nonzero value means that the error handling succeeded, and the return of a 0 value means the error handling failed.
The following example changes the default error handler for the
stack(int)::overflow_error
objection:
#include <stdlib.h> #include <vector.hxx> #include <objection.hxx> vectordeclare(int) stackdeclare(int) vectorimplement(int) stackimplement(int) stack(int) s(10); int error(const char *errmsg) { cerr << "ERROR TRAPPED: " << errmsg << " -- ABORTING\n"; cerr.flush(); abort(); return 0; } void main() { Objection_action *save_action; save_action = stack(int)::overflow_error.appoint(error); for(int i=0; i<100; i++) //push too many things onto stack s.push(i); stack(int)::overflow_error.appoint(save_action); } |
When this example executes, the following message prints out:
ERROR TRAPPED: Stack underflow -- ABORTING %SYSTEM-F-OPCCUS, opcode reserved to customer fault at PC=00010BE5, PSL=03C00000 %TRACE-F-TRACEBACK, symbolic stack dump follows module name routine name line rel PC abs PC 0000012D 00010BE5 0000000E 00009346 OBJECTION_EXAMP error 5984 00000045 00003D29 CXXL_OBJECTION Objection::raise 779 00000026 00008F5A OBJECTION_EXAMP main 5993 0000005B 00003D87 00000072 0002DB5E |
The message printed on your system differs somewhat from that shown here. |
Previous | Next | Contents | Index |
privacy statement and legal notices |