_fpreset
Resets the floating-point package.
void _fpreset( void );
Comentarios
The _fpreset function reinitializes the floating-point math package. _fpreset is usually used with signal, system, or the _exec or _spawn functions. If a program traps floating-point error signals (SIGFPE) with signal, it can safely recover from floating-point errors by invoking _fpreset and using longjmp.
This function is deprecated when compiling with /clr (Compilación de Common Language Runtime) or /clr:pure because the common language runtime only supports the default floating-point precision.
Requisitos
Function |
Required header |
|---|---|
_fpreset |
<float.h> |
For more compatibility information, see Compatibility in the Introduction.
Ejemplo
// crt_fpreset.c
// This program uses signal to set up a
// routine for handling floating-point errors. #include <stdio.h>
#include <signal.h>
#include <setjmp.h>
#include <stdlib.h>
#include <float.h>
#include <math.h>
#include <string.h>
jmp_buf mark; // Address for long jump to jump to
int fperr; // Global error number
void __cdecl fphandler( int sig, int num ); // Prototypes
void fpcheck( void );
int main( void )
{
double n1 = 5.0;
double n2 = 0.0;
double r;
int jmpret;
// Unmask all floating-point exceptions. _control87( 0, _MCW_EM );
// Set up floating-point error handler. The compiler
// will generate a warning because it expects
// signal-handling functions to take only one argument. if( signal( SIGFPE, (void (__cdecl *)(int)) fphandler ) == SIG_ERR )
{
fprintf( stderr, "Couldn't set SIGFPE\n" );
abort();
}
// Save stack environment for return in case of error. First
// time through, jmpret is 0, so true conditional is executed. // If an error occurs, jmpret will be set to -1 and false
// conditional will be executed. jmpret = setjmp( mark );
if( jmpret == 0 )
{
printf( "Dividing %4.3g by %4.3g... \n", n1, n2 );
r = n1 / n2;
// This won't be reached if error occurs. printf( "\n\n%4.3g / %4.3g = %4.3g\n", n1, n2, r );
r = n1 * n2;
// This won't be reached if error occurs. printf( "\n\n%4.3g * %4.3g = %4.3g\n", n1, n2, r );
}
else
fpcheck();
}
// fphandler handles SIGFPE (floating-point error) interrupt. Note
// that this prototype accepts two arguments and that the
// prototype for signal in the run-time library expects a signal
// handler to have only one argument. //
// The second argument in this signal handler allows processing of
// _FPE_INVALID, _FPE_OVERFLOW, _FPE_UNDERFLOW, and
// _FPE_ZERODIVIDE, all of which are Microsoft-specific symbols
// that augment the information provided by SIGFPE. The compiler
// will generate a warning, which is harmless and expected. void fphandler( int sig, int num )
{
// Set global for outside check since we don't want
// to do I/O in the handler. fperr = num;
// Initialize floating-point package. */
_fpreset();
// Restore calling environment and jump back to setjmp. Return
// -1 so that setjmp will return false for conditional test. longjmp( mark, -1 );
}
void fpcheck( void )
{
char fpstr[30];
switch( fperr )
{
case _FPE_INVALID:
strcpy_s( fpstr, sizeof(fpstr), "Invalid number" );
break;
case _FPE_OVERFLOW:
strcpy_s( fpstr, sizeof(fpstr), "Overflow" );
break;
case _FPE_UNDERFLOW:
strcpy_s( fpstr, sizeof(fpstr), "Underflow" );
break;
case _FPE_ZERODIVIDE:
strcpy_s( fpstr, sizeof(fpstr), "Divide by zero" );
break;
default:
strcpy_s( fpstr, sizeof(fpstr), "Other floating point error" );
break;
}
printf( "Error %d: %s\n", fperr, fpstr );
}
Dividing 5 by 0... Error 131: Divide by zero