newlib-cygwin/winsup/cygwin/include/fenv.h

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/* fenv.h
This file is part of Cygwin.
This software is a copyrighted work licensed under the terms of the
Cygwin license. Please consult the file "CYGWIN_LICENSE" for
details. */
#ifndef _FENV_H
#define _FENV_H 1
#include <sys/cdefs.h>
#ifdef __cplusplus
extern "C" {
#endif
/* Primary sources:
The Open Group Base Specifications Issue 6:
http://www.opengroup.org/onlinepubs/000095399/basedefs/fenv.h.html
C99 Language spec (draft n1256):
<url unknown>
Intel(R) 64 and IA-32 Architectures Software Developer's Manuals:
http://www.intel.com/products/processor/manuals/
GNU C library manual pages:
http://www.gnu.org/software/libc/manual/html_node/Control-Functions.html
http://www.gnu.org/software/libc/manual/html_node/Rounding.html
http://www.gnu.org/software/libc/manual/html_node/FP-Exceptions.html
http://www.gnu.org/software/libc/manual/html_node/Status-bit-operations.html
Linux online man page(s):
http://linux.die.net/man/3/fegetexcept
The documentation quotes these sources for reference. All definitions and
code have been developed solely based on the information from these specs.
*/
/* Represents the entire floating-point environment. The floating-point
environment refers collectively to any floating-point status flags and
control modes supported by the implementation.
In this implementation, the struct contains the state information from
the fstenv/fnstenv instructions and a copy of the SSE MXCSR, since GCC
uses SSE for a lot of floating-point operations. (Cygwin assumes i686
or above these days, as does the compiler.) */
typedef struct _fenv_t
{
struct _fpu_env_info {
unsigned int _fpu_cw; /* low 16 bits only. */
unsigned int _fpu_sw; /* low 16 bits only. */
unsigned int _fpu_tagw; /* low 16 bits only. */
unsigned int _fpu_ipoff;
unsigned int _fpu_ipsel;
unsigned int _fpu_opoff;
unsigned int _fpu_opsel; /* low 16 bits only. */
} _fpu;
unsigned int _sse_mxcsr;
} fenv_t;
/* Represents the floating-point status flags collectively, including
any status the implementation associates with the flags. A floating-point
status flag is a system variable whose value is set (but never cleared)
when a floating-point exception is raised, which occurs as a side effect
of exceptional floating-point arithmetic to provide auxiliary information.
A floating-point control mode is a system variable whose value may be
set by the user to affect the subsequent behavior of floating-point
arithmetic. */
typedef __uint32_t fexcept_t;
/* The <fenv.h> header shall define the following constants if and only
if the implementation supports the floating-point exception by means
of the floating-point functions feclearexcept(), fegetexceptflag(),
feraiseexcept(), fesetexceptflag(), and fetestexcept(). Each expands to
an integer constant expression with values such that bitwise-inclusive
ORs of all combinations of the constants result in distinct values. */
#define FE_DIVBYZERO (1 << 2)
#define FE_INEXACT (1 << 5)
#define FE_INVALID (1 << 0)
#define FE_OVERFLOW (1 << 3)
#define FE_UNDERFLOW (1 << 4)
/* The <fenv.h> header shall define the following constant, which is
simply the bitwise-inclusive OR of all floating-point exception
constants defined above: */
Keep the denormal-operand exception masked; modify FE_ALL_EXCEPT accordingly. By excluding the denormal-operand exception from FE_ALL_EXCEPT, it will not be possible anymore to UNmask this exception by means of the API defined by /usr/include/fenv.h Note: terminology has changed since IEEE Std 854-1987; denormalized numbers are called subnormal numbers nowadays. This modification has basically been motivated by the fact that it is also not possible on Linux to manipulate the denormal-operand exception by means of the interface as defined by /usr/include/fenv.h. This has been the state of affairs on Linux since 2001 (Andreas Jaeger). The exceptions required by the standard (IEEE Std 754), in case they can be supported by the implementation, are: FE_INEXACT, FE_UNDERFLOW, FE_OVERFLOW, FE_DIVBYZERO and FE_INVALID. Although it is allowed to define additional exceptions, there is no reason to support the "denormal-operand exception" in this case (fenv.h), because the subnormal numbers can be handled almost as fast the normalized numbers by the hardware of the x86/x86_64 architecture. Said differently, a reason to trap on the input of subnormal numbers does not exist. At least that is what William Kahan and others at Intel asserted around 2000. (that is William Kahan of the K-C-S draft, the precursor to the standard) This commit modifies winsup/cygwin/include/fenv.h as follows: - redefines FE_ALL_EXCEPT from 0x3f to 0x3d - removes the definition for FE_DENORMAL - introduces __FE_DENORM (0x2) (enum in Linux also uses __FE_DENORM) - introduces FE_ALL_EXCEPT_X86 (0x3f), i.e. ALL x86/x86_64 FP exceptions
2018-08-15 18:59:23 +08:00
/* in agreement w/ Linux the subnormal exception will always be masked */
#define FE_ALL_EXCEPT \
(FE_INEXACT | FE_UNDERFLOW | FE_OVERFLOW | FE_DIVBYZERO | FE_INVALID)
/* The <fenv.h> header shall define the following constants if and only
if the implementation supports getting and setting the represented
rounding direction by means of the fegetround() and fesetround()
functions. Each expands to an integer constant expression whose values
are distinct non-negative vales. */
#define FE_DOWNWARD (1)
#define FE_TONEAREST (0)
#define FE_TOWARDZERO (3)
#define FE_UPWARD (2)
/* Only Solaris and QNX implement fegetprec/fesetprec. As Solaris, use the
values defined by http://www.open-std.org/jtc1/sc22//WG14/www/docs/n752.htm
QNX defines different values. */
#if __MISC_VISIBLE
#define FE_FLTPREC (0)
#define FE_DBLPREC (2)
#define FE_LDBLPREC (3)
#endif
/* The <fenv.h> header shall define the following constant, which
represents the default floating-point environment (that is, the one
installed at program startup) and has type pointer to const-qualified
fenv_t. It can be used as an argument to the functions within the
<fenv.h> header that manage the floating-point environment. */
extern const fenv_t *_fe_dfl_env;
#define FE_DFL_ENV (_fe_dfl_env)
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/* Additional implementation-defined environments, with macro
definitions beginning with FE_ and an uppercase letter,and having
type "pointer to const-qualified fenv_t",may also be specified by
the implementation. */
#if __GNU_VISIBLE
/* 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 only defined
if _GNU_SOURCE is defined. */
extern const fenv_t *_fe_nomask_env;
#define FE_NOMASK_ENV (_fe_nomask_env)
#endif /* __GNU_VISIBLE */
/* The following shall be declared as functions and may also be
defined as macros. Function prototypes shall be provided. */
extern int feclearexcept (int __excepts);
extern int fegetexceptflag (fexcept_t *__flagp, int __excepts);
extern int feraiseexcept (int __excepts);
extern int fesetexceptflag (const fexcept_t *__flagp, int __excepts);
extern int fetestexcept (int __excepts);
extern int fegetround (void);
extern int fesetround (int __round);
extern int fegetenv (fenv_t *__envp);
extern int feholdexcept (fenv_t *__envp);
extern int fesetenv (const fenv_t *__envp);
extern int feupdateenv (const fenv_t *__envp);
#if __GNU_VISIBLE
/* These are GNU extensions defined in glibc. */
extern int feenableexcept (int __excepts);
extern int fedisableexcept (int __excepts);
extern int fegetexcept (void);
#endif
#if __MISC_VISIBLE
extern int fegetprec (void);
extern int fesetprec (int __prec);
#endif
#ifdef __INSIDE_CYGWIN__
/* This is Cygwin-custom, not from the standard, for use in the Cygwin CRT. */
extern void _feinitialise ();
#endif
#ifdef __cplusplus
}
#endif
#endif /* _FENV_H */