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Writing an Exception Filter

 

The latest version of this topic can be found at Writing an Exception Filter.

You can handle an exception either by jumping to the level of the exception handler or by continuing execution. Instead of using the exception handler code to handle the exception and falling through, you can use filter to clean up the problem and then, by returning –1, resume normal flow without clearing the stack.

Note

Some exceptions cannot be continued. If filter evaluates to –1 for such an exception, the system raises a new exception. When you call RaiseException, you determine whether the exception will continue.

For example, the following code uses a function call in the filter expression: this function handles the problem and then returns –1 to resume normal flow of control:

// exceptions_Writing_an_Exception_Filter.cpp  
#include <windows.h>  
int main() {  
   int Eval_Exception( int );  
  
   __try {}  
  
   __except ( Eval_Exception( GetExceptionCode( ))) {  
      ;  
   }  
  
}  
void ResetVars( int ) {}  
int Eval_Exception ( int n_except ) {  
   if ( n_except != STATUS_INTEGER_OVERFLOW &&   
      n_except != STATUS_FLOAT_OVERFLOW )   // Pass on most exceptions  
   return EXCEPTION_CONTINUE_SEARCH;  
  
   // Execute some code to clean up problem  
   ResetVars( 0 );   // initializes data to 0  
   return EXCEPTION_CONTINUE_EXECUTION;  
}  

It is a good idea to use a function call in the filter expression whenever filter needs to do anything complex. Evaluating the expression causes execution of the function, in this case, Eval_Exception.

Note the use of GetExceptionCode to determine the exception. You must call this function inside the filter itself. Eval_Exception cannot call GetExceptionCode, but it must have the exception code passed to it.

This handler passes control to another handler unless the exception is an integer or floating-point overflow. If it is, the handler calls a function (ResetVars is only an example, not an API function) to reset some global variables. Statement-block-2, which in this example is empty, can never be executed because Eval_Exception never returns EXCEPTION_EXECUTE_HANDLER (1).

Using a function call is a good general-purpose technique for dealing with complex filter expressions. Two other C language features that are useful are:

  • The conditional operator

  • The comma operator

The conditional operator is frequently useful, because it can be used to check for a specific return code and then return one of two different values. For example, the filter in the following code recognizes the exception only if the exception is STATUS_INTEGER_OVERFLOW:

__except( GetExceptionCode() == STATUS_INTEGER_OVERFLOW ? 1 : 0 ) {  

The purpose of the conditional operator in this case is mainly to provide clarity, because the following code produces the same results:

__except( GetExceptionCode() == STATUS_INTEGER_OVERFLOW ) {  

The conditional operator is more useful in situations where you might want the filter to evaluate to –1, EXCEPTION_CONTINUE_EXECUTION.

The comma operator enables you to perform multiple, independent operations inside a single expression. The effect is roughly that of executing multiple statements and then returning the value of the last expression. For example, the following code stores the exception code in a variable and then tests it:

__except( nCode = GetExceptionCode(), nCode == STATUS_INTEGER_OVERFLOW )  

See Also

Writing an Exception Handler
Structured Exception Handling (C/C++)