NAME  LIBRARY  SYNOPSIS  DESCRIPTION  RETURN VALUE  ATTRIBUTES  STANDARDS  HISTORY  NOTES  BUGS  SEE ALSO  COLOPHON 


fenv(3) Library Functions Manual fenv(3)
feclearexcept, fegetexceptflag, feraiseexcept, fesetexceptflag, fetestexcept, fegetenv, fegetround, feholdexcept, fesetround, fesetenv, feupdateenv, feenableexcept, fedisableexcept, fegetexcept  floatingpoint rounding and exception handling
Math library (libm, lm)
#include <fenv.h> int feclearexcept(int excepts); int fegetexceptflag(fexcept_t *flagp, int excepts); int feraiseexcept(int excepts); int fesetexceptflag(const fexcept_t *flagp, int excepts); int fetestexcept(int excepts); int fegetround(void); int fesetround(int rounding_mode); int fegetenv(fenv_t *envp); int feholdexcept(fenv_t *envp); int fesetenv(const fenv_t *envp); int feupdateenv(const fenv_t *envp);
These eleven functions were defined in C99, and describe the handling of floatingpoint rounding and exceptions (overflow, zerodivide, etc.). Exceptions The dividebyzero exception occurs when an operation on finite numbers produces infinity as exact answer. The overflow exception occurs when a result has to be represented as a floatingpoint number, but has (much) larger absolute value than the largest (finite) floatingpoint number that is representable. The underflow exception occurs when a result has to be represented as a floatingpoint number, but has smaller absolute value than the smallest positive normalized floatingpoint number (and would lose much accuracy when represented as a denormalized number). The inexact exception occurs when the rounded result of an operation is not equal to the infinite precision result. It may occur whenever overflow or underflow occurs. The invalid exception occurs when there is no welldefined result for an operation, as for 0/0 or infinity  infinity or sqrt(1). Exception handling Exceptions are represented in two ways: as a single bit (exception present/absent), and these bits correspond in some implementationdefined way with bit positions in an integer, and also as an opaque structure that may contain more information about the exception (perhaps the code address where it occurred). Each of the macros FE_DIVBYZERO, FE_INEXACT, FE_INVALID, FE_OVERFLOW, FE_UNDERFLOW is defined when the implementation supports handling of the corresponding exception, and if so then defines the corresponding bit(s), so that one can call exception handling functions, for example, using the integer argument FE_OVERFLOWFE_UNDERFLOW. Other exceptions may be supported. The macro FE_ALL_EXCEPT is the bitwise OR of all bits corresponding to supported exceptions. The feclearexcept() function clears the supported exceptions represented by the bits in its argument. The fegetexceptflag() function stores a representation of the state of the exception flags represented by the argument excepts in the opaque object *flagp. The feraiseexcept() function raises the supported exceptions represented by the bits in excepts. The fesetexceptflag() function sets the complete status for the exceptions represented by excepts to the value *flagp. This value must have been obtained by an earlier call of fegetexceptflag() with a last argument that contained all bits in excepts. The fetestexcept() function returns a word in which the bits are set that were set in the argument excepts and for which the corresponding exception is currently set. Rounding mode The rounding mode determines how the result of floatingpoint operations is treated when the result cannot be exactly represented in the significand. Various rounding modes may be provided: round to nearest (the default), round up (toward positive infinity), round down (toward negative infinity), and round toward zero. Each of the macros FE_TONEAREST, FE_UPWARD, FE_DOWNWARD, and FE_TOWARDZERO is defined when the implementation supports getting and setting the corresponding rounding direction. The fegetround() function returns the macro corresponding to the current rounding mode. The fesetround() function sets the rounding mode as specified by its argument and returns zero when it was successful. C99 and POSIX.12008 specify an identifier, FLT_ROUNDS, defined in <float.h>, which indicates the implementationdefined rounding behavior for floatingpoint addition. This identifier has one of the following values: 1 The rounding mode is not determinable. 0 Rounding is toward 0. 1 Rounding is toward nearest number. 2 Rounding is toward positive infinity. 3 Rounding is toward negative infinity. Other values represent machinedependent, nonstandard rounding modes. The value of FLT_ROUNDS should reflect the current rounding mode as set by fesetround() (but see BUGS). Floatingpoint environment The entire floatingpoint environment, including control modes and status flags, can be handled as one opaque object, of type fenv_t. The default environment is denoted by FE_DFL_ENV (of type const fenv_t *). This is the environment setup at program start and it is defined by ISO C to have round to nearest, all exceptions cleared and a nonstop (continue on exceptions) mode. The fegetenv() function saves the current floatingpoint environment in the object *envp. The feholdexcept() function does the same, then clears all exception flags, and sets a nonstop (continue on exceptions) mode, if available. It returns zero when successful. The fesetenv() function restores the floatingpoint environment from the object *envp. This object must be known to be valid, for example, the result of a call to fegetenv() or feholdexcept() or equal to FE_DFL_ENV. This call does not raise exceptions. The feupdateenv() function installs the floatingpoint environment represented by the object *envp, except that currently raised exceptions are not cleared. After calling this function, the raised exceptions will be a bitwise OR of those previously set with those in *envp. As before, the object *envp must be known to be valid.
These functions return zero on success and nonzero if an error occurred.
For an explanation of the terms used in this section, see attributes(7). ┌─────────────────────────────────────┬───────────────┬─────────┐ │ Interface │ Attribute │ Value │ ├─────────────────────────────────────┼───────────────┼─────────┤ │ feclearexcept(), fegetexceptflag(), │ Thread safety │ MTSafe │ │ feraiseexcept(), fesetexceptflag(), │ │ │ │ fetestexcept(), fegetround(), │ │ │ │ fesetround(), fegetenv(), │ │ │ │ feholdexcept(), fesetenv(), │ │ │ │ feupdateenv(), feenableexcept(), │ │ │ │ fedisableexcept(), fegetexcept() │ │ │ └─────────────────────────────────────┴───────────────┴─────────┘
C11, POSIX.12008, IEC 60559 (IEC 559:1989), ANSI/IEEE 854.
C99, POSIX.12001. glibc 2.1.
glibc notes If possible, the GNU C Library defines a macro FE_NOMASK_ENV which represents an environment where every exception raised causes a trap to occur. You can test for this macro using #ifdef. It is defined only if _GNU_SOURCE is defined. The C99 standard does not define a way to set individual bits in the floatingpoint mask, for example, to trap on specific flags. Since glibc 2.2, glibc supports the functions feenableexcept() and fedisableexcept() to set individual floatingpoint traps, and fegetexcept() to query the state. #define _GNU_SOURCE /* See feature_test_macros(7) */ #include <fenv.h> int feenableexcept(int excepts); int fedisableexcept(int excepts); int fegetexcept(void); The feenableexcept() and fedisableexcept() functions enable (dis‐ able) traps for each of the exceptions represented by excepts and return the previous set of enabled exceptions when successful, and 1 otherwise. The fegetexcept() function returns the set of all currently enabled exceptions.
C99 specifies that the value of FLT_ROUNDS should reflect changes to the current rounding mode, as set by fesetround(). Currently, this does not occur: FLT_ROUNDS always has the value 1.
math_error(7)
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Linux manpages 6.9.1 20240502 fenv(3)
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