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[/] [openrisc/] [trunk/] [gnu-old/] [newlib-1.17.0/] [newlib/] [libm/] [common/] [fdlibm.h] - Blame information for rev 855

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1 148 jeremybenn
 
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/* @(#)fdlibm.h 5.1 93/09/24 */
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/*
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 * ====================================================
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 * Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.
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 *
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 * Developed at SunPro, a Sun Microsystems, Inc. business.
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 * Permission to use, copy, modify, and distribute this
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 * software is freely granted, provided that this notice
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 * is preserved.
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 * ====================================================
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 */
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/* REDHAT LOCAL: Include files.  */
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#include <math.h>
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#include <sys/types.h>
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#include <machine/ieeefp.h>
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/* REDHAT LOCAL: Default to XOPEN_MODE.  */
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#define _XOPEN_MODE
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/* Most routines need to check whether a float is finite, infinite, or not a
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   number, and many need to know whether the result of an operation will
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   overflow.  These conditions depend on whether the largest exponent is
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   used for NaNs & infinities, or whether it's used for finite numbers.  The
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   macros below wrap up that kind of information:
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   FLT_UWORD_IS_FINITE(X)
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        True if a positive float with bitmask X is finite.
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   FLT_UWORD_IS_NAN(X)
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        True if a positive float with bitmask X is not a number.
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   FLT_UWORD_IS_INFINITE(X)
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        True if a positive float with bitmask X is +infinity.
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   FLT_UWORD_MAX
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        The bitmask of FLT_MAX.
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   FLT_UWORD_HALF_MAX
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        The bitmask of FLT_MAX/2.
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   FLT_UWORD_EXP_MAX
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        The bitmask of the largest finite exponent (129 if the largest
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        exponent is used for finite numbers, 128 otherwise).
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   FLT_UWORD_LOG_MAX
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        The bitmask of log(FLT_MAX), rounded down.  This value is the largest
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        input that can be passed to exp() without producing overflow.
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   FLT_UWORD_LOG_2MAX
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        The bitmask of log(2*FLT_MAX), rounded down.  This value is the
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        largest input than can be passed to cosh() without producing
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        overflow.
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   FLT_LARGEST_EXP
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        The largest biased exponent that can be used for finite numbers
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        (255 if the largest exponent is used for finite numbers, 254
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        otherwise) */
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#ifdef _FLT_LARGEST_EXPONENT_IS_NORMAL
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#define FLT_UWORD_IS_FINITE(x) 1
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#define FLT_UWORD_IS_NAN(x) 0
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#define FLT_UWORD_IS_INFINITE(x) 0
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#define FLT_UWORD_MAX 0x7fffffff
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#define FLT_UWORD_EXP_MAX 0x43010000
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#define FLT_UWORD_LOG_MAX 0x42b2d4fc
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#define FLT_UWORD_LOG_2MAX 0x42b437e0
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#define HUGE ((float)0X1.FFFFFEP128)
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#else
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#define FLT_UWORD_IS_FINITE(x) ((x)<0x7f800000L)
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#define FLT_UWORD_IS_NAN(x) ((x)>0x7f800000L)
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#define FLT_UWORD_IS_INFINITE(x) ((x)==0x7f800000L)
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#define FLT_UWORD_MAX 0x7f7fffffL
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#define FLT_UWORD_EXP_MAX 0x43000000
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#define FLT_UWORD_LOG_MAX 0x42b17217
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#define FLT_UWORD_LOG_2MAX 0x42b2d4fc
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#define HUGE ((float)3.40282346638528860e+38)
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#endif
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#define FLT_UWORD_HALF_MAX (FLT_UWORD_MAX-(1L<<23))
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#define FLT_LARGEST_EXP (FLT_UWORD_MAX>>23)
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/* Many routines check for zero and subnormal numbers.  Such things depend
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   on whether the target supports denormals or not:
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   FLT_UWORD_IS_ZERO(X)
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        True if a positive float with bitmask X is +0.  Without denormals,
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        any float with a zero exponent is a +0 representation.  With
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        denormals, the only +0 representation is a 0 bitmask.
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   FLT_UWORD_IS_SUBNORMAL(X)
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        True if a non-zero positive float with bitmask X is subnormal.
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        (Routines should check for zeros first.)
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   FLT_UWORD_MIN
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        The bitmask of the smallest float above +0.  Call this number
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        REAL_FLT_MIN...
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   FLT_UWORD_EXP_MIN
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        The bitmask of the float representation of REAL_FLT_MIN's exponent.
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   FLT_UWORD_LOG_MIN
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        The bitmask of |log(REAL_FLT_MIN)|, rounding down.
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   FLT_SMALLEST_EXP
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        REAL_FLT_MIN's exponent - EXP_BIAS (1 if denormals are not supported,
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        -22 if they are).
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*/
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#ifdef _FLT_NO_DENORMALS
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#define FLT_UWORD_IS_ZERO(x) ((x)<0x00800000L)
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#define FLT_UWORD_IS_SUBNORMAL(x) 0
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#define FLT_UWORD_MIN 0x00800000
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#define FLT_UWORD_EXP_MIN 0x42fc0000
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#define FLT_UWORD_LOG_MIN 0x42aeac50
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#define FLT_SMALLEST_EXP 1
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#else
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#define FLT_UWORD_IS_ZERO(x) ((x)==0)
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#define FLT_UWORD_IS_SUBNORMAL(x) ((x)<0x00800000L)
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#define FLT_UWORD_MIN 0x00000001
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#define FLT_UWORD_EXP_MIN 0x43160000
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#define FLT_UWORD_LOG_MIN 0x42cff1b5
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#define FLT_SMALLEST_EXP -22
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#endif
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126
#ifdef __STDC__
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#undef __P
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#define __P(p)  p
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#else
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#define __P(p)  ()
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#endif
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133
/*
134
 * set X_TLOSS = pi*2**52, which is possibly defined in <values.h>
135
 * (one may replace the following line by "#include <values.h>")
136
 */
137
 
138
#define X_TLOSS         1.41484755040568800000e+16 
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140
/* Functions that are not documented, and are not in <math.h>.  */
141
 
142
extern double logb __P((double));
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#ifdef _SCALB_INT
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extern double scalb __P((double, int));
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#else
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extern double scalb __P((double, double));
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#endif
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extern double significand __P((double));
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150
/* ieee style elementary functions */
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extern double __ieee754_sqrt __P((double));
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extern double __ieee754_acos __P((double));
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extern double __ieee754_acosh __P((double));
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extern double __ieee754_log __P((double));
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extern double __ieee754_atanh __P((double));
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extern double __ieee754_asin __P((double));
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extern double __ieee754_atan2 __P((double,double));
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extern double __ieee754_exp __P((double));
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extern double __ieee754_cosh __P((double));
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extern double __ieee754_fmod __P((double,double));
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extern double __ieee754_pow __P((double,double));
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extern double __ieee754_lgamma_r __P((double,int *));
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extern double __ieee754_gamma_r __P((double,int *));
164
extern double __ieee754_log10 __P((double));
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extern double __ieee754_sinh __P((double));
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extern double __ieee754_hypot __P((double,double));
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extern double __ieee754_j0 __P((double));
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extern double __ieee754_j1 __P((double));
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extern double __ieee754_y0 __P((double));
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extern double __ieee754_y1 __P((double));
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extern double __ieee754_jn __P((int,double));
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extern double __ieee754_yn __P((int,double));
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extern double __ieee754_remainder __P((double,double));
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extern __int32_t __ieee754_rem_pio2 __P((double,double*));
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#ifdef _SCALB_INT
176
extern double __ieee754_scalb __P((double,int));
177
#else
178
extern double __ieee754_scalb __P((double,double));
179
#endif
180
 
181
/* fdlibm kernel function */
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extern double __kernel_standard __P((double,double,int));
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extern double __kernel_sin __P((double,double,int));
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extern double __kernel_cos __P((double,double));
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extern double __kernel_tan __P((double,double,int));
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extern int    __kernel_rem_pio2 __P((double*,double*,int,int,int,const __int32_t*));
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/* Undocumented float functions.  */
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extern float logbf __P((float));
190
#ifdef _SCALB_INT
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extern float scalbf __P((float, int));
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#else
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extern float scalbf __P((float, float));
194
#endif
195
extern float significandf __P((float));
196
 
197
/* ieee style elementary float functions */
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extern float __ieee754_sqrtf __P((float));
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extern float __ieee754_acosf __P((float));
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extern float __ieee754_acoshf __P((float));
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extern float __ieee754_logf __P((float));
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extern float __ieee754_atanhf __P((float));
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extern float __ieee754_asinf __P((float));
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extern float __ieee754_atan2f __P((float,float));
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extern float __ieee754_expf __P((float));
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extern float __ieee754_coshf __P((float));
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extern float __ieee754_fmodf __P((float,float));
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extern float __ieee754_powf __P((float,float));
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extern float __ieee754_lgammaf_r __P((float,int *));
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extern float __ieee754_gammaf_r __P((float,int *));
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extern float __ieee754_log10f __P((float));
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extern float __ieee754_sinhf __P((float));
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extern float __ieee754_hypotf __P((float,float));
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extern float __ieee754_j0f __P((float));
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extern float __ieee754_j1f __P((float));
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extern float __ieee754_y0f __P((float));
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extern float __ieee754_y1f __P((float));
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extern float __ieee754_jnf __P((int,float));
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extern float __ieee754_ynf __P((int,float));
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extern float __ieee754_remainderf __P((float,float));
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extern __int32_t __ieee754_rem_pio2f __P((float,float*));
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#ifdef _SCALB_INT
223
extern float __ieee754_scalbf __P((float,int));
224
#else
225
extern float __ieee754_scalbf __P((float,float));
226
#endif
227
 
228
/* float versions of fdlibm kernel functions */
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extern float __kernel_sinf __P((float,float,int));
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extern float __kernel_cosf __P((float,float));
231
extern float __kernel_tanf __P((float,float,int));
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extern int   __kernel_rem_pio2f __P((float*,float*,int,int,int,const __int32_t*));
233
 
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/* The original code used statements like
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        n0 = ((*(int*)&one)>>29)^1;             * index of high word *
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        ix0 = *(n0+(int*)&x);                   * high word of x *
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        ix1 = *((1-n0)+(int*)&x);               * low word of x *
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   to dig two 32 bit words out of the 64 bit IEEE floating point
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   value.  That is non-ANSI, and, moreover, the gcc instruction
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   scheduler gets it wrong.  We instead use the following macros.
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   Unlike the original code, we determine the endianness at compile
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   time, not at run time; I don't see much benefit to selecting
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   endianness at run time.  */
244
 
245
#ifndef __IEEE_BIG_ENDIAN
246
#ifndef __IEEE_LITTLE_ENDIAN
247
 #error Must define endianness
248
#endif
249
#endif
250
 
251
/* A union which permits us to convert between a double and two 32 bit
252
   ints.  */
253
 
254
#ifdef __IEEE_BIG_ENDIAN
255
 
256
typedef union
257
{
258
  double value;
259
  struct
260
  {
261
    __uint32_t msw;
262
    __uint32_t lsw;
263
  } parts;
264
} ieee_double_shape_type;
265
 
266
#endif
267
 
268
#ifdef __IEEE_LITTLE_ENDIAN
269
 
270
typedef union
271
{
272
  double value;
273
  struct
274
  {
275
    __uint32_t lsw;
276
    __uint32_t msw;
277
  } parts;
278
} ieee_double_shape_type;
279
 
280
#endif
281
 
282
/* Get two 32 bit ints from a double.  */
283
 
284
#define EXTRACT_WORDS(ix0,ix1,d)                                \
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do {                                                            \
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  ieee_double_shape_type ew_u;                                  \
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  ew_u.value = (d);                                             \
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  (ix0) = ew_u.parts.msw;                                       \
289
  (ix1) = ew_u.parts.lsw;                                       \
290
} while (0)
291
 
292
/* Get the more significant 32 bit int from a double.  */
293
 
294
#define GET_HIGH_WORD(i,d)                                      \
295
do {                                                            \
296
  ieee_double_shape_type gh_u;                                  \
297
  gh_u.value = (d);                                             \
298
  (i) = gh_u.parts.msw;                                         \
299
} while (0)
300
 
301
/* Get the less significant 32 bit int from a double.  */
302
 
303
#define GET_LOW_WORD(i,d)                                       \
304
do {                                                            \
305
  ieee_double_shape_type gl_u;                                  \
306
  gl_u.value = (d);                                             \
307
  (i) = gl_u.parts.lsw;                                         \
308
} while (0)
309
 
310
/* Set a double from two 32 bit ints.  */
311
 
312
#define INSERT_WORDS(d,ix0,ix1)                                 \
313
do {                                                            \
314
  ieee_double_shape_type iw_u;                                  \
315
  iw_u.parts.msw = (ix0);                                       \
316
  iw_u.parts.lsw = (ix1);                                       \
317
  (d) = iw_u.value;                                             \
318
} while (0)
319
 
320
/* Set the more significant 32 bits of a double from an int.  */
321
 
322
#define SET_HIGH_WORD(d,v)                                      \
323
do {                                                            \
324
  ieee_double_shape_type sh_u;                                  \
325
  sh_u.value = (d);                                             \
326
  sh_u.parts.msw = (v);                                         \
327
  (d) = sh_u.value;                                             \
328
} while (0)
329
 
330
/* Set the less significant 32 bits of a double from an int.  */
331
 
332
#define SET_LOW_WORD(d,v)                                       \
333
do {                                                            \
334
  ieee_double_shape_type sl_u;                                  \
335
  sl_u.value = (d);                                             \
336
  sl_u.parts.lsw = (v);                                         \
337
  (d) = sl_u.value;                                             \
338
} while (0)
339
 
340
/* A union which permits us to convert between a float and a 32 bit
341
   int.  */
342
 
343
typedef union
344
{
345
  float value;
346
  __uint32_t word;
347
} ieee_float_shape_type;
348
 
349
/* Get a 32 bit int from a float.  */
350
 
351
#define GET_FLOAT_WORD(i,d)                                     \
352
do {                                                            \
353
  ieee_float_shape_type gf_u;                                   \
354
  gf_u.value = (d);                                             \
355
  (i) = gf_u.word;                                              \
356
} while (0)
357
 
358
/* Set a float from a 32 bit int.  */
359
 
360
#define SET_FLOAT_WORD(d,i)                                     \
361
do {                                                            \
362
  ieee_float_shape_type sf_u;                                   \
363
  sf_u.word = (i);                                              \
364
  (d) = sf_u.value;                                             \
365
} while (0)

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