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The Android Open Source Project
2008-10-21 07:00:00 -07:00
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185
libm/include/alpha/fenv.h Normal file
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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/alpha/fenv.h,v 1.3 2005/03/16 19:03:44 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/_types.h>
typedef __uint64_t fenv_t;
typedef __uint16_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x02
#define FE_DIVBYZERO 0x04
#define FE_OVERFLOW 0x08
#define FE_UNDERFLOW 0x10
#define FE_INEXACT 0x20
#define FE_INTOVF 0x40 /* not maskable */
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_INEXACT | FE_INTOVF | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TOWARDZERO 0x00
#define FE_DOWNWARD 0x01
#define FE_TONEAREST 0x02
#define FE_UPWARD 0x03
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
#define _ROUND_SHIFT 58
#define _FPUSW_SHIFT 51
#define __excb() __asm __volatile("excb")
#define __mf_fpcr(__cw) __asm __volatile("mf_fpcr %0" : "=f" (*(__cw)))
#define __mt_fpcr(__cw) __asm __volatile("mt_fpcr %0" : : "f" (__cw))
union __fpcr {
double __d;
fenv_t __bits;
};
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
static __inline int
feclearexcept(int __excepts)
{
union __fpcr __r;
__excb();
__mf_fpcr(&__r.__d);
__r.__bits &= ~((fenv_t)__excepts << _FPUSW_SHIFT);
__mt_fpcr(__r.__d);
__excb();
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
union __fpcr __r;
__excb();
__mf_fpcr(&__r.__d);
__excb();
*__flagp = (__r.__bits >> _FPUSW_SHIFT) & __excepts;
return (0);
}
static __inline int
fesetexceptflag(const fexcept_t *__flagp, int __excepts)
{
union __fpcr __r;
fenv_t __xflag, __xexcepts;
__xflag = (fenv_t)*__flagp << _FPUSW_SHIFT;
__xexcepts = (fenv_t)__excepts << _FPUSW_SHIFT;
__excb();
__mf_fpcr(&__r.__d);
__r.__bits &= ~__xexcepts;
__r.__bits |= __xflag & __xexcepts;
__mt_fpcr(__r.__d);
__excb();
return (0);
}
static __inline int
feraiseexcept(int __excepts)
{
/*
* XXX Generating exceptions this way does not actually invoke
* a userland trap handler when enabled, but neither do
* arithmetic operations as far as I can tell. Perhaps there
* are more bugs in the kernel trap handler.
*/
fexcept_t __ex = __excepts;
fesetexceptflag(&__ex, __excepts);
return (0);
}
static __inline int
fetestexcept(int __excepts)
{
union __fpcr __r;
__excb();
__mf_fpcr(&__r.__d);
__excb();
return ((__r.__bits >> _FPUSW_SHIFT) & __excepts);
}
static __inline int
fegetround(void)
{
union __fpcr __r;
/*
* No exception barriers should be required here if we assume
* that only fesetround() can change the rounding mode.
*/
__mf_fpcr(&__r.__d);
return ((int)(__r.__bits >> _ROUND_SHIFT) & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
union __fpcr __r;
if (__round & ~_ROUND_MASK)
return (-1);
__excb();
__mf_fpcr(&__r.__d);
__r.__bits &= ~((fenv_t)_ROUND_MASK << _ROUND_SHIFT);
__r.__bits |= (fenv_t)__round << _ROUND_SHIFT;
__mt_fpcr(__r.__d);
__excb();
return (0);
}
int fegetenv(fenv_t *__envp);
int feholdexcept(fenv_t *__envp);
int fesetenv(const fenv_t *__envp);
int feupdateenv(const fenv_t *__envp);
#if __BSD_VISIBLE
int feenableexcept(int __mask);
int fedisableexcept(int __mask);
int fegetexcept(void);
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/amd64/fenv.h,v 1.5 2005/03/16 22:34:14 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/cdefs.h>
#include <sys/_types.h>
typedef struct {
struct {
__uint32_t __control;
__uint32_t __status;
__uint32_t __tag;
char __other[16];
} __x87;
__uint32_t __mxcsr;
} fenv_t;
typedef __uint16_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x01
#define FE_DENORMAL 0x02
#define FE_DIVBYZERO 0x04
#define FE_OVERFLOW 0x08
#define FE_UNDERFLOW 0x10
#define FE_INEXACT 0x20
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_DENORMAL | FE_INEXACT | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TONEAREST 0x0000
#define FE_DOWNWARD 0x0400
#define FE_UPWARD 0x0800
#define FE_TOWARDZERO 0x0c00
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
/*
* As compared to the x87 control word, the SSE unit's control word
* has the rounding control bits offset by 3 and the exception mask
* bits offset by 7.
*/
#define _SSE_ROUND_SHIFT 3
#define _SSE_EMASK_SHIFT 7
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
#define __fldcw(__cw) __asm __volatile("fldcw %0" : : "m" (__cw))
#define __fldenv(__env) __asm __volatile("fldenv %0" : : "m" (__env))
#define __fnclex() __asm __volatile("fnclex")
#define __fnstenv(__env) __asm __volatile("fnstenv %0" : "=m" (*(__env)))
#define __fnstcw(__cw) __asm __volatile("fnstcw %0" : "=m" (*(__cw)))
#define __fnstsw(__sw) __asm __volatile("fnstsw %0" : "=am" (*(__sw)))
#define __fwait() __asm __volatile("fwait")
#define __ldmxcsr(__csr) __asm __volatile("ldmxcsr %0" : : "m" (__csr))
#define __stmxcsr(__csr) __asm __volatile("stmxcsr %0" : "=m" (*(__csr)))
static __inline int
feclearexcept(int __excepts)
{
fenv_t __env;
if (__excepts == FE_ALL_EXCEPT) {
__fnclex();
} else {
__fnstenv(&__env.__x87);
__env.__x87.__status &= ~__excepts;
__fldenv(__env.__x87);
}
__stmxcsr(&__env.__mxcsr);
__env.__mxcsr &= ~__excepts;
__ldmxcsr(__env.__mxcsr);
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
int __mxcsr, __status;
__stmxcsr(&__mxcsr);
__fnstsw(&__status);
*__flagp = (__mxcsr | __status) & __excepts;
return (0);
}
int fesetexceptflag(const fexcept_t *__flagp, int __excepts);
int feraiseexcept(int __excepts);
static __inline int
fetestexcept(int __excepts)
{
int __mxcsr, __status;
__stmxcsr(&__mxcsr);
__fnstsw(&__status);
return ((__status | __mxcsr) & __excepts);
}
static __inline int
fegetround(void)
{
int __control;
/*
* We assume that the x87 and the SSE unit agree on the
* rounding mode. Reading the control word on the x87 turns
* out to be about 5 times faster than reading it on the SSE
* unit on an Opteron 244.
*/
__fnstcw(&__control);
return (__control & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
int __mxcsr, __control;
if (__round & ~_ROUND_MASK)
return (-1);
__fnstcw(&__control);
__control &= ~_ROUND_MASK;
__control |= __round;
__fldcw(__control);
__stmxcsr(&__mxcsr);
__mxcsr &= ~(_ROUND_MASK << _SSE_ROUND_SHIFT);
__mxcsr |= __round << _SSE_ROUND_SHIFT;
__ldmxcsr(__mxcsr);
return (0);
}
int fegetenv(fenv_t *__envp);
int feholdexcept(fenv_t *__envp);
static __inline int
fesetenv(const fenv_t *__envp)
{
__fldenv(__envp->__x87);
__ldmxcsr(__envp->__mxcsr);
return (0);
}
int feupdateenv(const fenv_t *__envp);
#if __BSD_VISIBLE
int feenableexcept(int __mask);
int fedisableexcept(int __mask);
static __inline int
fegetexcept(void)
{
int __control;
/*
* We assume that the masks for the x87 and the SSE unit are
* the same.
*/
__fnstcw(&__control);
return (~__control & FE_ALL_EXCEPT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/arm/fenv.h,v 1.5 2005/03/16 19:03:45 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/_types.h>
typedef __uint32_t fenv_t;
typedef __uint32_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x0001
#define FE_DIVBYZERO 0x0002
#define FE_OVERFLOW 0x0004
#define FE_UNDERFLOW 0x0008
#define FE_INEXACT 0x0010
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_INEXACT | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TONEAREST 0x0000
#define FE_TOWARDZERO 0x0001
#define FE_UPWARD 0x0002
#define FE_DOWNWARD 0x0003
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
/* We need to be able to map status flag positions to mask flag positions */
#define _FPUSW_SHIFT 16
#define _ENABLE_MASK (FE_ALL_EXCEPT << _FPUSW_SHIFT)
#ifdef ARM_HARD_FLOAT
#define __rfs(__fpsr) __asm __volatile("rfs %0" : "=r" (*(__fpsr)))
#define __wfs(__fpsr) __asm __volatile("wfs %0" : : "r" (__fpsr))
#else
#define __rfs(__fpsr)
#define __wfs(__fpsr)
#endif
static __inline int
feclearexcept(int __excepts)
{
fexcept_t __fpsr;
__rfs(&__fpsr);
__fpsr &= ~__excepts;
__wfs(__fpsr);
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
fexcept_t __fpsr;
__rfs(&__fpsr);
*__flagp = __fpsr & __excepts;
return (0);
}
static __inline int
fesetexceptflag(const fexcept_t *__flagp, int __excepts)
{
fexcept_t __fpsr;
__rfs(&__fpsr);
__fpsr &= ~__excepts;
__fpsr |= *__flagp & __excepts;
__wfs(__fpsr);
return (0);
}
static __inline int
feraiseexcept(int __excepts)
{
fexcept_t __ex = __excepts;
fesetexceptflag(&__ex, __excepts); /* XXX */
return (0);
}
static __inline int
fetestexcept(int __excepts)
{
fexcept_t __fpsr;
__rfs(&__fpsr);
return (__fpsr & __excepts);
}
static __inline int
fegetround(void)
{
/*
* Apparently, the rounding mode is specified as part of the
* instruction format on ARM, so the dynamic rounding mode is
* indeterminate. Some FPUs may differ.
*/
return (-1);
}
static __inline int
fesetround(int __round)
{
return (-1);
}
static __inline int
fegetenv(fenv_t *__envp)
{
__rfs(__envp);
return (0);
}
static __inline int
feholdexcept(fenv_t *__envp)
{
fenv_t __env;
__rfs(&__env);
*__envp = __env;
__env &= ~(FE_ALL_EXCEPT | _ENABLE_MASK);
__wfs(__env);
return (0);
}
static __inline int
fesetenv(const fenv_t *__envp)
{
__wfs(*__envp);
return (0);
}
static __inline int
feupdateenv(const fenv_t *__envp)
{
fexcept_t __fpsr;
__rfs(&__fpsr);
__wfs(*__envp);
feraiseexcept(__fpsr & FE_ALL_EXCEPT);
return (0);
}
#if __BSD_VISIBLE
static __inline int
feenableexcept(int __mask)
{
fenv_t __old_fpsr, __new_fpsr;
__rfs(&__old_fpsr);
__new_fpsr = __old_fpsr | (__mask & FE_ALL_EXCEPT) << _FPUSW_SHIFT;
__wfs(__new_fpsr);
return ((__old_fpsr >> _FPUSW_SHIFT) & FE_ALL_EXCEPT);
}
static __inline int
fedisableexcept(int __mask)
{
fenv_t __old_fpsr, __new_fpsr;
__rfs(&__old_fpsr);
__new_fpsr = __old_fpsr & ~((__mask & FE_ALL_EXCEPT) << _FPUSW_SHIFT);
__wfs(__new_fpsr);
return ((__old_fpsr >> _FPUSW_SHIFT) & FE_ALL_EXCEPT);
}
static __inline int
fegetexcept(void)
{
fenv_t __fpsr;
__rfs(&__fpsr);
return ((__fpsr & _ENABLE_MASK) >> _FPUSW_SHIFT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/i387/fenv.h,v 1.4 2005/03/17 22:21:46 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/cdefs.h>
#include <sys/_types.h>
/*
* To preserve binary compatibility with FreeBSD 5.3, we pack the
* mxcsr into some reserved fields, rather than changing sizeof(fenv_t).
*/
typedef struct {
__uint16_t __control;
__uint16_t __mxcsr_hi;
__uint16_t __status;
__uint16_t __mxcsr_lo;
__uint32_t __tag;
char __other[16];
} fenv_t;
#define __get_mxcsr(env) (((env).__mxcsr_hi << 16) | \
((env).__mxcsr_lo))
#define __set_mxcsr(env, x) do { \
(env).__mxcsr_hi = (__uint32_t)(x) >> 16; \
(env).__mxcsr_lo = (__uint16_t)(x); \
} while (0)
typedef __uint16_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x01
#define FE_DENORMAL 0x02
#define FE_DIVBYZERO 0x04
#define FE_OVERFLOW 0x08
#define FE_UNDERFLOW 0x10
#define FE_INEXACT 0x20
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_DENORMAL | FE_INEXACT | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TONEAREST 0x0000
#define FE_DOWNWARD 0x0400
#define FE_UPWARD 0x0800
#define FE_TOWARDZERO 0x0c00
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
/*
* As compared to the x87 control word, the SSE unit's control word
* has the rounding control bits offset by 3 and the exception mask
* bits offset by 7.
*/
#define _SSE_ROUND_SHIFT 3
#define _SSE_EMASK_SHIFT 7
/* After testing for SSE support once, we cache the result in __has_sse. */
enum __sse_support { __SSE_YES, __SSE_NO, __SSE_UNK };
extern enum __sse_support __has_sse;
int __test_sse(void);
#ifdef __SSE__
#define __HAS_SSE() 1
#else
#define __HAS_SSE() (__has_sse == __SSE_YES || \
(__has_sse == __SSE_UNK && __test_sse()))
#endif
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
#define __fldcw(__cw) __asm __volatile("fldcw %0" : : "m" (__cw))
#define __fldenv(__env) __asm __volatile("fldenv %0" : : "m" (__env))
#define __fnclex() __asm __volatile("fnclex")
#define __fnstenv(__env) __asm __volatile("fnstenv %0" : "=m" (*(__env)))
#define __fnstcw(__cw) __asm __volatile("fnstcw %0" : "=m" (*(__cw)))
#define __fnstsw(__sw) __asm __volatile("fnstsw %0" : "=am" (*(__sw)))
#define __fwait() __asm __volatile("fwait")
#define __ldmxcsr(__csr) __asm __volatile("ldmxcsr %0" : : "m" (__csr))
#define __stmxcsr(__csr) __asm __volatile("stmxcsr %0" : "=m" (*(__csr)))
static __inline int
feclearexcept(int __excepts)
{
fenv_t __env;
int __mxcsr;
if (__excepts == FE_ALL_EXCEPT) {
__fnclex();
} else {
__fnstenv(&__env);
__env.__status &= ~__excepts;
__fldenv(__env);
}
if (__HAS_SSE()) {
__stmxcsr(&__mxcsr);
__mxcsr &= ~__excepts;
__ldmxcsr(__mxcsr);
}
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
int __mxcsr, __status;
__fnstsw(&__status);
if (__HAS_SSE())
__stmxcsr(&__mxcsr);
else
__mxcsr = 0;
*__flagp = (__mxcsr | __status) & __excepts;
return (0);
}
int fesetexceptflag(const fexcept_t *__flagp, int __excepts);
int feraiseexcept(int __excepts);
static __inline int
fetestexcept(int __excepts)
{
int __mxcsr, __status;
__fnstsw(&__status);
if (__HAS_SSE())
__stmxcsr(&__mxcsr);
else
__mxcsr = 0;
return ((__status | __mxcsr) & __excepts);
}
static __inline int
fegetround(void)
{
int __control;
/*
* We assume that the x87 and the SSE unit agree on the
* rounding mode. Reading the control word on the x87 turns
* out to be about 5 times faster than reading it on the SSE
* unit on an Opteron 244.
*/
__fnstcw(&__control);
return (__control & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
int __mxcsr, __control;
if (__round & ~_ROUND_MASK)
return (-1);
__fnstcw(&__control);
__control &= ~_ROUND_MASK;
__control |= __round;
__fldcw(__control);
if (__HAS_SSE()) {
__stmxcsr(&__mxcsr);
__mxcsr &= ~(_ROUND_MASK << _SSE_ROUND_SHIFT);
__mxcsr |= __round << _SSE_ROUND_SHIFT;
__ldmxcsr(__mxcsr);
}
return (0);
}
int fegetenv(fenv_t *__envp);
int feholdexcept(fenv_t *__envp);
static __inline int
fesetenv(const fenv_t *__envp)
{
fenv_t __env = *__envp;
int __mxcsr;
__mxcsr = __get_mxcsr(__env);
__set_mxcsr(__env, 0xffffffff);
__fldenv(__env);
if (__HAS_SSE())
__ldmxcsr(__mxcsr);
return (0);
}
int feupdateenv(const fenv_t *__envp);
#if __BSD_VISIBLE
int feenableexcept(int __mask);
int fedisableexcept(int __mask);
static __inline int
fegetexcept(void)
{
int __control;
/*
* We assume that the masks for the x87 and the SSE unit are
* the same.
*/
__fnstcw(&__control);
return (~__control & FE_ALL_EXCEPT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/ia64/fenv.h,v 1.4 2005/03/16 19:03:45 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/_types.h>
typedef __uint64_t fenv_t;
typedef __uint16_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x01
#define FE_DENORMAL 0x02
#define FE_DIVBYZERO 0x04
#define FE_OVERFLOW 0x08
#define FE_UNDERFLOW 0x10
#define FE_INEXACT 0x20
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_DENORMAL | FE_INEXACT | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TONEAREST 0x0000
#define FE_DOWNWARD 0x0400
#define FE_UPWARD 0x0800
#define FE_TOWARDZERO 0x0c00
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
#define _FPUSW_SHIFT 13
#define __stfpsr(__r) __asm __volatile("mov %0=ar.fpsr" : "=r" (*(__r)))
#define __ldfpsr(__r) __asm __volatile("mov ar.fpsr=%0;;" : : "r" (__r))
static __inline int
feclearexcept(int __excepts)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
__fpsr &= ~((fenv_t)__excepts << _FPUSW_SHIFT);
__ldfpsr(__fpsr);
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
*__flagp = (fexcept_t)(__fpsr >> _FPUSW_SHIFT) & __excepts;
return (0);
}
static __inline int
fesetexceptflag(const fexcept_t *__flagp, int __excepts)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
__fpsr &= ~((fenv_t)__excepts << _FPUSW_SHIFT);
__fpsr |= (fenv_t)(__excepts & *__flagp) << _FPUSW_SHIFT;
__ldfpsr(__fpsr);
return (0);
}
/*
* It is worthwhile to use the inline version of this function iff it
* is called with arguments that are compile-time constants (due to
* dead code elimination). Unfortunately, gcc isn't smart enough to
* figure this out automatically, and there's no way to tell it.
* We assume that constant arguments will be the common case.
*/
static __inline int
feraiseexcept(int __excepts)
{
volatile double d;
/*
* With a compiler that supports the FENV_ACCESS pragma
* properly, simple expressions like '0.0 / 0.0' should
* be sufficient to generate traps. Unfortunately, we
* need to bring a volatile variable into the equation
* to prevent incorrect optimizations.
*/
if (__excepts & FE_INVALID) {
d = 0.0;
d = 0.0 / d;
}
if (__excepts & FE_DIVBYZERO) {
d = 0.0;
d = 1.0 / d;
}
if (__excepts & FE_OVERFLOW) {
d = 0x1.ffp1023;
d *= 2.0;
}
if (__excepts & FE_UNDERFLOW) {
d = 0x1p-1022;
d /= 0x1p1023;
}
if (__excepts & FE_INEXACT) {
d = 0x1p-1022;
d += 1.0;
}
return (0);
}
static __inline int
fetestexcept(int __excepts)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
return ((__fpsr >> _FPUSW_SHIFT) & __excepts);
}
static __inline int
fegetround(void)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
return (__fpsr & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
fenv_t __fpsr;
if (__round & ~_ROUND_MASK)
return (-1);
__stfpsr(&__fpsr);
__fpsr &= ~_ROUND_MASK;
__fpsr |= __round;
__ldfpsr(__fpsr);
return (0);
}
static __inline int
fegetenv(fenv_t *__envp)
{
__stfpsr(__envp);
return (0);
}
static __inline int
feholdexcept(fenv_t *__envp)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
*__envp = __fpsr;
__fpsr &= ~((fenv_t)FE_ALL_EXCEPT << _FPUSW_SHIFT);
__fpsr |= FE_ALL_EXCEPT;
__ldfpsr(__fpsr);
return (0);
}
static __inline int
fesetenv(const fenv_t *__envp)
{
__ldfpsr(*__envp);
return (0);
}
int feupdateenv(const fenv_t *__envp);
#if __BSD_VISIBLE
static __inline int
feenableexcept(int __mask)
{
fenv_t __newfpsr, __oldfpsr;
__stfpsr(&__oldfpsr);
__newfpsr = __oldfpsr & ~(__mask & FE_ALL_EXCEPT);
__ldfpsr(__newfpsr);
return (~__oldfpsr & FE_ALL_EXCEPT);
}
static __inline int
fedisableexcept(int __mask)
{
fenv_t __newfpsr, __oldfpsr;
__stfpsr(&__oldfpsr);
__newfpsr = __oldfpsr | (__mask & FE_ALL_EXCEPT);
__ldfpsr(__newfpsr);
return (~__oldfpsr & FE_ALL_EXCEPT);
}
static __inline int
fegetexcept(void)
{
fenv_t __fpsr;
__stfpsr(&__fpsr);
return (~__fpsr & FE_ALL_EXCEPT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*
* ====================================================
* Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.
*
* Developed at SunPro, a Sun Microsystems, Inc. business.
* Permission to use, copy, modify, and distribute this
* software is freely granted, provided that this notice
* is preserved.
* ====================================================
*/
/*
* from: @(#)fdlibm.h 5.1 93/09/24
* $FreeBSD: src/lib/msun/src/math.h,v 1.61 2005/04/16 21:12:47 das Exp $
*/
#ifndef _MATH_H_
#define _MATH_H_
#include <sys/cdefs.h>
#include <sys/types.h>
#include <limits.h>
#define __pure2
/*
* ANSI/POSIX
*/
extern const union __infinity_un {
unsigned char __uc[8];
double __ud;
} __infinity;
extern const union __nan_un {
unsigned char __uc[sizeof(float)];
float __uf;
} __nan;
/* #if __GNUC_PREREQ__(3, 3) || (defined(__INTEL_COMPILER) && __INTEL_COMPILER >= 800) */
#if 1
#define __MATH_BUILTIN_CONSTANTS
#endif
/* #if __GNUC_PREREQ__(3, 0) && !defined(__INTEL_COMPILER) */
#if 1
#define __MATH_BUILTIN_RELOPS
#endif
/* #ifdef __MATH_BUILTIN_CONSTANTS */
#if 1
#define HUGE_VAL __builtin_huge_val()
#else
#define HUGE_VAL (__infinity.__ud)
#endif
/* #if __ISO_C_VISIBLE >= 1999 */
#if 0
#define FP_ILOGB0 (-__INT_MAX)
#define FP_ILOGBNAN __INT_MAX
#else
#define FP_ILOGB0 (-INT_MAX)
#define FP_ILOGBNAN INT_MAX
#endif
#ifdef __MATH_BUILTIN_CONSTANTS
#define HUGE_VALF __builtin_huge_valf()
#define HUGE_VALL __builtin_huge_vall()
#define INFINITY __builtin_inf()
#define NAN __builtin_nan("")
#else
#define HUGE_VALF (float)HUGE_VAL
#define HUGE_VALL (long double)HUGE_VAL
#define INFINITY HUGE_VALF
#define NAN (__nan.__uf)
#endif /* __MATH_BUILTIN_CONSTANTS */
#define MATH_ERRNO 1
#define MATH_ERREXCEPT 2
#define math_errhandling MATH_ERREXCEPT
/* XXX We need a <machine/math.h>. */
#if defined(__ia64__) || defined(__sparc64__)
#define FP_FAST_FMA
#endif
#ifdef __ia64__
#define FP_FAST_FMAL
#endif
#define FP_FAST_FMAF
/* Symbolic constants to classify floating point numbers. */
#define FP_INFINITE 0x01
#define FP_NAN 0x02
#define FP_NORMAL 0x04
#define FP_SUBNORMAL 0x08
#define FP_ZERO 0x10
#define fpclassify(x) \
((sizeof (x) == sizeof (float)) ? __fpclassifyf(x) \
: (sizeof (x) == sizeof (double)) ? __fpclassifyd(x) \
: __fpclassifyl(x))
#define isfinite(x) \
((sizeof (x) == sizeof (float)) ? __isfinitef(x) \
: (sizeof (x) == sizeof (double)) ? __isfinite(x) \
: __isfinitel(x))
#define isinf(x) \
((sizeof (x) == sizeof (float)) ? __isinff(x) \
: (sizeof (x) == sizeof (double)) ? __isinf(x) \
: __isinfl(x))
#define isnan(x) \
((sizeof (x) == sizeof (float)) ? isnanf(x) \
: (sizeof (x) == sizeof (double)) ? isnan(x) \
: __isnanl(x))
#define isnormal(x) \
((sizeof (x) == sizeof (float)) ? __isnormalf(x) \
: (sizeof (x) == sizeof (double)) ? __isnormal(x) \
: __isnormall(x))
#ifdef __MATH_BUILTIN_RELOPS
#define isgreater(x, y) __builtin_isgreater((x), (y))
#define isgreaterequal(x, y) __builtin_isgreaterequal((x), (y))
#define isless(x, y) __builtin_isless((x), (y))
#define islessequal(x, y) __builtin_islessequal((x), (y))
#define islessgreater(x, y) __builtin_islessgreater((x), (y))
#define isunordered(x, y) __builtin_isunordered((x), (y))
#else
#define isgreater(x, y) (!isunordered((x), (y)) && (x) > (y))
#define isgreaterequal(x, y) (!isunordered((x), (y)) && (x) >= (y))
#define isless(x, y) (!isunordered((x), (y)) && (x) < (y))
#define islessequal(x, y) (!isunordered((x), (y)) && (x) <= (y))
#define islessgreater(x, y) (!isunordered((x), (y)) && \
((x) > (y) || (y) > (x)))
#define isunordered(x, y) (isnan(x) || isnan(y))
#endif /* __MATH_BUILTIN_RELOPS */
#define signbit(x) \
((sizeof (x) == sizeof (float)) ? __signbitf(x) \
: (sizeof (x) == sizeof (double)) ? __signbit(x) \
: __signbitl(x))
#if 0
typedef __double_t double_t;
typedef __float_t float_t;
#endif
/* #endif */ /* __ISO_C_VISIBLE >= 1999 */
/*
* XOPEN/SVID
*/
/* #if __BSD_VISIBLE || __XSI_VISIBLE */
#define M_E 2.7182818284590452354 /* e */
#define M_LOG2E 1.4426950408889634074 /* log 2e */
#define M_LOG10E 0.43429448190325182765 /* log 10e */
#define M_LN2 0.69314718055994530942 /* log e2 */
#define M_LN10 2.30258509299404568402 /* log e10 */
#define M_PI 3.14159265358979323846 /* pi */
#define M_PI_2 1.57079632679489661923 /* pi/2 */
#define M_PI_4 0.78539816339744830962 /* pi/4 */
#define M_1_PI 0.31830988618379067154 /* 1/pi */
#define M_2_PI 0.63661977236758134308 /* 2/pi */
#define M_2_SQRTPI 1.12837916709551257390 /* 2/sqrt(pi) */
#define M_SQRT2 1.41421356237309504880 /* sqrt(2) */
#define M_SQRT1_2 0.70710678118654752440 /* 1/sqrt(2) */
#define MAXFLOAT ((float)3.40282346638528860e+38)
extern int signgam;
/* #endif */ /* __BSD_VISIBLE || __XSI_VISIBLE */
#if __BSD_VISIBLE
#if 0
/* Old value from 4.4BSD-Lite math.h; this is probably better. */
#define HUGE HUGE_VAL
#else
#define HUGE MAXFLOAT
#endif
#endif /* __BSD_VISIBLE */
/*
* Most of these functions depend on the rounding mode and have the side
* effect of raising floating-point exceptions, so they are not declared
* as __pure2. In C99, FENV_ACCESS affects the purity of these functions.
*/
__BEGIN_DECLS
/*
* ANSI/POSIX
*/
int __fpclassifyd(double) __pure2;
int __fpclassifyf(float) __pure2;
int __fpclassifyl(long double) __pure2;
int __isfinitef(float) __pure2;
int __isfinite(double) __pure2;
int __isfinitel(long double) __pure2;
int __isinff(float) __pure2;
int __isinf(double) __pure2;
int __isinfl(long double) __pure2;
int __isnanl(long double) __pure2;
int __isnormalf(float) __pure2;
int __isnormal(double) __pure2;
int __isnormall(long double) __pure2;
int __signbit(double) __pure2;
int __signbitf(float) __pure2;
int __signbitl(long double) __pure2;
double acos(double);
double asin(double);
double atan(double);
double atan2(double, double);
double cos(double);
double sin(double);
double tan(double);
double cosh(double);
double sinh(double);
double tanh(double);
double exp(double);
double frexp(double, int *); /* fundamentally !__pure2 */
double ldexp(double, int);
double log(double);
double log10(double);
double modf(double, double *); /* fundamentally !__pure2 */
double pow(double, double);
double sqrt(double);
double ceil(double);
double fabs(double) __pure2;
double floor(double);
double fmod(double, double);
/*
* These functions are not in C90.
*/
/* #if __BSD_VISIBLE || __ISO_C_VISIBLE >= 1999 || __XSI_VISIBLE */
double acosh(double);
double asinh(double);
double atanh(double);
double cbrt(double);
double erf(double);
double erfc(double);
double exp2(double);
double expm1(double);
double fma(double, double, double);
double hypot(double, double);
int ilogb(double) __pure2;
/* int (isinf)(double) __pure2; */
int (isnan)(double) __pure2;
double lgamma(double);
long long llrint(double);
long long llround(double);
double log1p(double);
double logb(double);
long lrint(double);
long lround(double);
double nextafter(double, double);
double remainder(double, double);
double remquo(double, double, int *);
double rint(double);
/* #endif */ /* __BSD_VISIBLE || __ISO_C_VISIBLE >= 1999 || __XSI_VISIBLE */
/* #if __BSD_VISIBLE || __XSI_VISIBLE */
double j0(double);
double j1(double);
double jn(int, double);
double scalb(double, double);
double y0(double);
double y1(double);
double yn(int, double);
/* #if __XSI_VISIBLE <= 500 || __BSD_VISIBLE */
double gamma(double);
/* #endif */
/* #endif */ /* __BSD_VISIBLE || __XSI_VISIBLE */
/* #if __BSD_VISIBLE || __ISO_C_VISIBLE >= 1999 */
double copysign(double, double) __pure2;
double fdim(double, double);
double fmax(double, double) __pure2;
double fmin(double, double) __pure2;
double nearbyint(double);
double round(double);
double scalbln(double, long);
double scalbn(double, int);
double tgamma(double);
double trunc(double);
/* #endif */
/*
* BSD math library entry points
*/
/* #if __BSD_VISIBLE */
double drem(double, double);
int finite(double) __pure2;
int isnanf(float) __pure2;
/*
* Reentrant version of gamma & lgamma; passes signgam back by reference
* as the second argument; user must allocate space for signgam.
*/
double gamma_r(double, int *);
double lgamma_r(double, int *);
/*
* IEEE Test Vector
*/
double significand(double);
/* #endif */ /* __BSD_VISIBLE */
/* float versions of ANSI/POSIX functions */
/*#if __ISO_C_VISIBLE >= 1999 */
float acosf(float);
float asinf(float);
float atanf(float);
float atan2f(float, float);
float cosf(float);
float sinf(float);
float tanf(float);
float coshf(float);
float sinhf(float);
float tanhf(float);
float exp2f(float);
float expf(float);
float expm1f(float);
float frexpf(float, int *); /* fundamentally !__pure2 */
int ilogbf(float) __pure2;
float ldexpf(float, int);
float log10f(float);
float log1pf(float);
float logf(float);
float modff(float, float *); /* fundamentally !__pure2 */
float powf(float, float);
float sqrtf(float);
float ceilf(float);
float fabsf(float) __pure2;
float floorf(float);
float fmodf(float, float);
float roundf(float);
float erff(float);
float erfcf(float);
float hypotf(float, float);
float lgammaf(float);
float acoshf(float);
float asinhf(float);
float atanhf(float);
float cbrtf(float);
float logbf(float);
float copysignf(float, float) __pure2;
long long llrintf(float);
long long llroundf(float);
long lrintf(float);
long lroundf(float);
float nearbyintf(float);
float nextafterf(float, float);
float remainderf(float, float);
float remquof(float, float, int *);
float rintf(float);
float scalblnf(float, long);
float scalbnf(float, int);
float truncf(float);
float fdimf(float, float);
float fmaf(float, float, float);
float fmaxf(float, float) __pure2;
float fminf(float, float) __pure2;
/* #endif */
/*
* float versions of BSD math library entry points
*/
/* #if __BSD_VISIBLE */
float dremf(float, float);
int finitef(float) __pure2;
float gammaf(float);
float j0f(float);
float j1f(float);
float jnf(int, float);
float scalbf(float, float);
float y0f(float);
float y1f(float);
float ynf(int, float);
/*
* Float versions of reentrant version of gamma & lgamma; passes
* signgam back by reference as the second argument; user must
* allocate space for signgam.
*/
float gammaf_r(float, int *);
float lgammaf_r(float, int *);
/*
* float version of IEEE Test Vector
*/
float significandf(float);
/* #endif */ /* __BSD_VISIBLE */
/*
* long double versions of ISO/POSIX math functions
*/
/* #if __ISO_C_VISIBLE >= 1999 */
#if 0
long double acoshl(long double);
long double acosl(long double);
long double asinhl(long double);
long double asinl(long double);
long double atan2l(long double, long double);
long double atanhl(long double);
long double atanl(long double);
long double cbrtl(long double);
#endif
long double ceill(long double);
long double copysignl(long double, long double) __pure2;
#if 0
long double coshl(long double);
long double cosl(long double);
long double erfcl(long double);
long double erfl(long double);
long double exp2l(long double);
long double expl(long double);
long double expm1l(long double);
#endif
long double fabsl(long double) __pure2;
long double fdiml(long double, long double);
long double floorl(long double);
long double fmal(long double, long double, long double);
long double fmaxl(long double, long double) __pure2;
long double fminl(long double, long double) __pure2;
#if 0
long double fmodl(long double, long double);
#endif
long double frexpl(long double value, int *); /* fundamentally !__pure2 */
#if 0
long double hypotl(long double, long double);
#endif
int ilogbl(long double) __pure2;
long double ldexpl(long double, int);
#if 0
long double lgammal(long double);
long long llrintl(long double);
#endif
long long llroundl(long double);
#if 0
long double log10l(long double);
long double log1pl(long double);
long double log2l(long double);
long double logbl(long double);
long double logl(long double);
long lrintl(long double);
#endif
long lroundl(long double);
#if 0
long double modfl(long double, long double *); /* fundamentally !__pure2 */
long double nanl(const char *) __pure2;
long double nearbyintl(long double);
#endif
long double nextafterl(long double, long double);
double nexttoward(double, long double);
float nexttowardf(float, long double);
long double nexttowardl(long double, long double);
#if 0
long double powl(long double, long double);
long double remainderl(long double, long double);
long double remquol(long double, long double, int *);
long double rintl(long double);
#endif
long double roundl(long double);
long double scalblnl(long double, long);
long double scalbnl(long double, int);
#if 0
long double sinhl(long double);
long double sinl(long double);
long double sqrtl(long double);
long double tanhl(long double);
long double tanl(long double);
long double tgammal(long double);
#endif
long double truncl(long double);
/* #endif */ /* __ISO_C_VISIBLE >= 1999 */
__END_DECLS
#endif /* !_MATH_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/powerpc/fenv.h,v 1.3 2005/03/16 19:03:45 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/_types.h>
typedef __uint32_t fenv_t;
typedef __uint32_t fexcept_t;
/* Exception flags */
#define FE_INEXACT 0x02000000
#define FE_DIVBYZERO 0x04000000
#define FE_UNDERFLOW 0x08000000
#define FE_OVERFLOW 0x10000000
#define FE_INVALID 0x20000000 /* all types of invalid FP ops */
/*
* The PowerPC architecture has extra invalid flags that indicate the
* specific type of invalid operation occurred. These flags may be
* tested, set, and cleared---but not masked---separately. All of
* these bits are cleared when FE_INVALID is cleared, but only
* FE_VXSOFT is set when FE_INVALID is explicitly set in software.
*/
#define FE_VXCVI 0x00000100 /* invalid integer convert */
#define FE_VXSQRT 0x00000200 /* square root of a negative */
#define FE_VXSOFT 0x00000400 /* software-requested exception */
#define FE_VXVC 0x00080000 /* ordered comparison involving NaN */
#define FE_VXIMZ 0x00100000 /* inf * 0 */
#define FE_VXZDZ 0x00200000 /* 0 / 0 */
#define FE_VXIDI 0x00400000 /* inf / inf */
#define FE_VXISI 0x00800000 /* inf - inf */
#define FE_VXSNAN 0x01000000 /* operation on a signalling NaN */
#define FE_ALL_INVALID (FE_VXCVI | FE_VXSQRT | FE_VXSOFT | FE_VXVC | \
FE_VXIMZ | FE_VXZDZ | FE_VXIDI | FE_VXISI | \
FE_VXSNAN | FE_INVALID)
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_INEXACT | \
FE_ALL_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/* Rounding modes */
#define FE_TONEAREST 0x0000
#define FE_TOWARDZERO 0x0001
#define FE_UPWARD 0x0002
#define FE_DOWNWARD 0x0003
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
/* We need to be able to map status flag positions to mask flag positions */
#define _FPUSW_SHIFT 22
#define _ENABLE_MASK ((FE_DIVBYZERO | FE_INEXACT | FE_INVALID | \
FE_OVERFLOW | FE_UNDERFLOW) >> _FPUSW_SHIFT)
#define __mffs(__env) __asm __volatile("mffs %0" : "=f" (*(__env)))
#define __mtfsf(__env) __asm __volatile("mtfsf 255,%0" : : "f" (__env))
union __fpscr {
double __d;
struct {
__uint32_t __junk;
fenv_t __reg;
} __bits;
};
static __inline int
feclearexcept(int __excepts)
{
union __fpscr __r;
if (__excepts & FE_INVALID)
__excepts |= FE_ALL_INVALID;
__mffs(&__r.__d);
__r.__bits.__reg &= ~__excepts;
__mtfsf(__r.__d);
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
union __fpscr __r;
__mffs(&__r.__d);
*__flagp = __r.__bits.__reg & __excepts;
return (0);
}
static __inline int
fesetexceptflag(const fexcept_t *__flagp, int __excepts)
{
union __fpscr __r;
if (__excepts & FE_INVALID)
__excepts |= FE_ALL_EXCEPT;
__mffs(&__r.__d);
__r.__bits.__reg &= ~__excepts;
__r.__bits.__reg |= *__flagp & __excepts;
__mtfsf(__r.__d);
return (0);
}
static __inline int
feraiseexcept(int __excepts)
{
union __fpscr __r;
if (__excepts & FE_INVALID)
__excepts |= FE_VXSOFT;
__mffs(&__r.__d);
__r.__bits.__reg |= __excepts;
__mtfsf(__r.__d);
return (0);
}
static __inline int
fetestexcept(int __excepts)
{
union __fpscr __r;
__mffs(&__r.__d);
return (__r.__bits.__reg & __excepts);
}
static __inline int
fegetround(void)
{
union __fpscr __r;
__mffs(&__r.__d);
return (__r.__bits.__reg & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
union __fpscr __r;
if (__round & ~_ROUND_MASK)
return (-1);
__mffs(&__r.__d);
__r.__bits.__reg &= ~_ROUND_MASK;
__r.__bits.__reg |= __round;
__mtfsf(__r.__d);
return (0);
}
static __inline int
fegetenv(fenv_t *__envp)
{
union __fpscr __r;
__mffs(&__r.__d);
*__envp = __r.__bits.__reg;
return (0);
}
static __inline int
feholdexcept(fenv_t *__envp)
{
union __fpscr __r;
__mffs(&__r.__d);
*__envp = __r.__d;
__r.__bits.__reg &= ~(FE_ALL_EXCEPT | _ENABLE_MASK);
__mtfsf(__r.__d);
return (0);
}
static __inline int
fesetenv(const fenv_t *__envp)
{
union __fpscr __r;
__r.__bits.__reg = *__envp;
__mtfsf(__r.__d);
return (0);
}
static __inline int
feupdateenv(const fenv_t *__envp)
{
union __fpscr __r;
__mffs(&__r.__d);
__r.__bits.__reg &= FE_ALL_EXCEPT;
__r.__bits.__reg |= *__envp;
__mtfsf(__r.__d);
return (0);
}
#if __BSD_VISIBLE
static __inline int
feenableexcept(int __mask)
{
union __fpscr __r;
fenv_t __oldmask;
__mffs(&__r.__d);
__oldmask = __r.__bits.__reg;
__r.__bits.__reg |= (__mask & FE_ALL_EXCEPT) >> _FPUSW_SHIFT;
__mtfsf(__r.__d);
return ((__oldmask & _ENABLE_MASK) << _FPUSW_SHIFT);
}
static __inline int
fedisableexcept(int __mask)
{
union __fpscr __r;
fenv_t __oldmask;
__mffs(&__r.__d);
__oldmask = __r.__bits.__reg;
__r.__bits.__reg &= ~((__mask & FE_ALL_EXCEPT) >> _FPUSW_SHIFT);
__mtfsf(__r.__d);
return ((__oldmask & _ENABLE_MASK) << _FPUSW_SHIFT);
}
static __inline int
fegetexcept(void)
{
union __fpscr __r;
__mffs(&__r.__d);
return ((__r.__bits.__reg & _ENABLE_MASK) << _FPUSW_SHIFT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */

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/*-
* Copyright (c) 2004-2005 David Schultz <das@FreeBSD.ORG>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/lib/msun/sparc64/fenv.h,v 1.3 2005/03/16 19:03:46 das Exp $
*/
#ifndef _FENV_H_
#define _FENV_H_
#include <sys/_types.h>
typedef __uint64_t fenv_t;
typedef __uint64_t fexcept_t;
/* Exception flags */
#define FE_INVALID 0x00000200
#define FE_DIVBYZERO 0x00000040
#define FE_OVERFLOW 0x00000100
#define FE_UNDERFLOW 0x00000080
#define FE_INEXACT 0x00000020
#define FE_ALL_EXCEPT (FE_DIVBYZERO | FE_INEXACT | \
FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW)
/*
* Rounding modes
*
* We can't just use the hardware bit values here, because that would
* make FE_UPWARD and FE_DOWNWARD negative, which is not allowed.
*/
#define FE_TONEAREST 0x0
#define FE_TOWARDZERO 0x1
#define FE_UPWARD 0x2
#define FE_DOWNWARD 0x3
#define _ROUND_MASK (FE_TONEAREST | FE_DOWNWARD | \
FE_UPWARD | FE_TOWARDZERO)
#define _ROUND_SHIFT 30
__BEGIN_DECLS
/* Default floating-point environment */
extern const fenv_t __fe_dfl_env;
#define FE_DFL_ENV (&__fe_dfl_env)
/* We need to be able to map status flag positions to mask flag positions */
#define _FPUSW_SHIFT 18
#define _ENABLE_MASK (FE_ALL_EXCEPT << _FPUSW_SHIFT)
#define __ldxfsr(__r) __asm __volatile("ldx %0, %%fsr" : : "m" (__r))
#define __stxfsr(__r) __asm __volatile("stx %%fsr, %0" : "=m" (*(__r)))
static __inline int
feclearexcept(int __excepts)
{
fexcept_t __r;
__stxfsr(&__r);
__r &= ~__excepts;
__ldxfsr(__r);
return (0);
}
static __inline int
fegetexceptflag(fexcept_t *__flagp, int __excepts)
{
fexcept_t __r;
__stxfsr(&__r);
*__flagp = __r & __excepts;
return (0);
}
static __inline int
fesetexceptflag(const fexcept_t *__flagp, int __excepts)
{
fexcept_t __r;
__stxfsr(&__r);
__r &= ~__excepts;
__r |= *__flagp & __excepts;
__ldxfsr(__r);
return (0);
}
/*
* In contrast with the ia64 platform, it seems to be worthwhile to
* inline this function on sparc64 even when the arguments are not
* compile-time constants. Perhaps this depends on the register window.
*/
static __inline int
feraiseexcept(int __excepts)
{
volatile double d;
/*
* With a compiler that supports the FENV_ACCESS pragma
* properly, simple expressions like '0.0 / 0.0' should
* be sufficient to generate traps. Unfortunately, we
* need to bring a volatile variable into the equation
* to prevent incorrect optimizations.
*/
if (__excepts & FE_INVALID) {
d = 0.0;
d = 0.0 / d;
}
if (__excepts & FE_DIVBYZERO) {
d = 0.0;
d = 1.0 / d;
}
if (__excepts & FE_OVERFLOW) {
d = 0x1.ffp1023;
d *= 2.0;
}
if (__excepts & FE_UNDERFLOW) {
d = 0x1p-1022;
d /= 0x1p1023;
}
if (__excepts & FE_INEXACT) {
d = 0x1p-1022;
d += 1.0;
}
return (0);
}
static __inline int
fetestexcept(int __excepts)
{
fexcept_t __r;
__stxfsr(&__r);
return (__r & __excepts);
}
static __inline int
fegetround(void)
{
fenv_t __r;
__stxfsr(&__r);
return ((__r >> _ROUND_SHIFT) & _ROUND_MASK);
}
static __inline int
fesetround(int __round)
{
fenv_t __r;
if (__round & ~_ROUND_MASK)
return (-1);
__stxfsr(&__r);
__r &= ~(_ROUND_MASK << _ROUND_SHIFT);
__r |= __round << _ROUND_SHIFT;
__ldxfsr(__r);
return (0);
}
static __inline int
fegetenv(fenv_t *__envp)
{
__stxfsr(__envp);
return (0);
}
static __inline int
feholdexcept(fenv_t *__envp)
{
fenv_t __r;
__stxfsr(&__r);
*__envp = __r;
__r &= ~(FE_ALL_EXCEPT | _ENABLE_MASK);
__ldxfsr(__r);
return (0);
}
static __inline int
fesetenv(const fenv_t *__envp)
{
__ldxfsr(*__envp);
return (0);
}
static __inline int
feupdateenv(const fenv_t *__envp)
{
fexcept_t __r;
__stxfsr(&__r);
__ldxfsr(*__envp);
feraiseexcept(__r & FE_ALL_EXCEPT);
return (0);
}
#if __BSD_VISIBLE
static __inline int
feenableexcept(int __mask)
{
fenv_t __old_r, __new_r;
__stxfsr(&__old_r);
__new_r = __old_r | ((__mask & FE_ALL_EXCEPT) << _FPUSW_SHIFT);
__ldxfsr(__new_r);
return ((__old_r >> _FPUSW_SHIFT) & FE_ALL_EXCEPT);
}
static __inline int
fedisableexcept(int __mask)
{
fenv_t __old_r, __new_r;
__stxfsr(&__old_r);
__new_r = __old_r & ~((__mask & FE_ALL_EXCEPT) << _FPUSW_SHIFT);
__ldxfsr(__new_r);
return ((__old_r >> _FPUSW_SHIFT) & FE_ALL_EXCEPT);
}
static __inline int
fegetexcept(void)
{
fenv_t __r;
__stxfsr(&__r);
return ((__r & _ENABLE_MASK) >> _FPUSW_SHIFT);
}
#endif /* __BSD_VISIBLE */
__END_DECLS
#endif /* !_FENV_H_ */