glibc/sysdeps/ia64/fpu/libm_error.c
Siddhesh Poyarekar 30891f35fa Remove "Contributed by" lines
We stopped adding "Contributed by" or similar lines in sources in 2012
in favour of git logs and keeping the Contributors section of the
glibc manual up to date.  Removing these lines makes the license
header a bit more consistent across files and also removes the
possibility of error in attribution when license blocks or files are
copied across since the contributed-by lines don't actually reflect
reality in those cases.

Move all "Contributed by" and similar lines (Written by, Test by,
etc.) into a new file CONTRIBUTED-BY to retain record of these
contributions.  These contributors are also mentioned in
manual/contrib.texi, so we just maintain this additional record as a
courtesy to the earlier developers.

The following scripts were used to filter a list of files to edit in
place and to clean up the CONTRIBUTED-BY file respectively.  These
were not added to the glibc sources because they're not expected to be
of any use in future given that this is a one time task:

https://gist.github.com/siddhesh/b5ecac94eabfd72ed2916d6d8157e7dc
https://gist.github.com/siddhesh/15ea1f5e435ace9774f485030695ee02

Reviewed-by: Carlos O'Donell <carlos@redhat.com>
2021-09-03 22:06:44 +05:30

4302 lines
95 KiB
C

/* file: libm_error.c */
// Copyright (c) 2000 - 2005, Intel Corporation
// All rights reserved.
//
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// * 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.
//
// * The name of Intel Corporation may not be used to endorse or promote
// products derived from this software without specific prior written
// permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 INTEL OR ITS
// 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.
//
// Intel Corporation is the author of this code, and requests that all
// problem reports or change requests be submitted to it directly at
// http://www.intel.com/software/products/opensource/libraries/num.htm.
//
// History
//==============================================================
// 2/02/00: Initial version
// 3/22/00: Updated to support flexible and dynamic error handling.
// 8/16/00: Changed all matherr function-calls to use the pmatherr
// function-pointers.
// 10/03/00: Corrected a scalb type.
// 11/28/00: Changed INPUT_XL to INPUT_XD for scalb_underflow case.
// 12/07/00: Added code to make scalbn error support equivalent to ldexp.
// 2/07/01: Added __declspec(align(16)) to long double constants to correct
// alignment problem.
// 4/23/01: Added code for remquo
// 6/07/01: Added code for fdim, lrint, lround, llrint, llround
// Deleted code for remquo
// 8/15/01: Added code for scalbln, nexttoward
// 12/10/01: Added code for erfc
// 12/27/01: Added code for degree argument functions
// 01/02/02: Added code for tand, cotd
// 01/15/02: Corrected SVID/XOPEN code for log1p, pow, and acosh
// 01/25/02: Corrected ISOC for lgamma and gamma to return EDOM for neg ints
// 01/28/02: Corrected SVID/XOPEN stderr message for log2
// 05/20/02: Added code for cot
// 07/01/02: Added code for sinhcosh
// 10/04/02: Underflow detection in ISOC path redefined to
// be zero rather than tiny and inexact
// 12/06/02: Added code for annuity and compound
// 01/30/03: Corrected test for underflow in ISOC path to not set denormal
// 04/10/03: Corrected ISOC branch for gamma/lgamma to return ERANGE for neg ints.
// Added code for tgamma
// 04/11/03: Corrected POSIX/SVID/XOPEN branches for gamma/lgamma
// to return EDOM for neg ints.
// 09/08/03: Corrected XOPEN/SVID result for pow overflow with neg x, pos y.
// 10/14/03: Added ILP32 ifdef
// 12/12/03: Corrected XOPEN/SVID results for powf_zero_to_negative,
// powl_neg_to_non_integer, atan2f_zero, atan2df_zero,
// acoshf_lt_one, acosh_lt_one.
// 12/07/04: Cast name strings as char *.
// 12/08/04: Corrected POSIX behavior for atan2_zero, acos_gt_one, asin_gt_one,
// log_negative, log10_negative, log1p_negative, and log2_negative.
// Added SVID and XOPEN case log2l_zero.
// 12/13/04: Corrected POSIX behavior for exp2_overflow, exp2_underflow,
// exp10_overflow, exp10_underflow. Added ISOC to set errno for
// exp10_underflow.
// 12/14/04: Corrected POSIX behavior for nextafter_overflow,
// nextafter_underflow, nexttoward_overflow, nexttoward_underflow.
// Added ISOC to set errno for nextafter and nexttoward underflow.
// 12/15/04: Corrected POSIX behavior for exp, exp2, and exp10 underflow.
// 03/31/05: Added missing ALIGNIT statement to 6 float constants.
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include "libm_support.h"
#include <math-svid-compat.h>
#ifdef _LIBC
# define pmatherr matherr
# define pmatherrf matherrf
# define pmatherrl matherrl
# if LIBM_SVID_COMPAT
compat_symbol_reference (libm, matherrf, matherrf, GLIBC_2_2_3);
compat_symbol_reference (libm, matherrl, matherrl, GLIBC_2_2_3);
# else
# define matherrf(EXC) ((void) (EXC), 0)
# define matherrl(EXC) ((void) (EXC), 0)
# endif
#else
_LIB_VERSION_TYPE
#if defined( __POSIX__ )
_LIB_VERSIONIMF = _POSIX_;
#elif defined( __XOPEN__ )
_LIB_VERSIONIMF = _XOPEN_;
#elif defined( __SVID__ )
_LIB_VERSIONIMF = _SVID_;
#elif defined( __IEEE__ )
_LIB_VERSIONIMF = _IEEE_;
#else
_LIB_VERSIONIMF = _ISOC_;
#endif
/************************************************************/
/* matherrX function pointers and setusermatherrX functions */
/************************************************************/
int (*pmatherrf)(struct exceptionf*) = MATHERR_F;
int (*pmatherr)(struct EXC_DECL_D*) = MATHERR_D;
int (*pmatherrl)(struct exceptionl*) = matherrl;
void __libm_setusermatherrf( int(*user_merrf)(struct exceptionf*) )
{ pmatherrf = ( (user_merrf==NULL)? (MATHERR_F) : (user_merrf) ); }
void __libm_setusermatherr( int(*user_merr)(struct EXC_DECL_D*) )
{ pmatherr = ( (user_merr==NULL)? (MATHERR_D) : (user_merr) ); }
void __libm_setusermatherrl( int(*user_merrl)(struct exceptionl*) )
{ pmatherrl = ( (user_merrl==NULL)? (matherrl) : (user_merrl) ); }
#endif /* !_LIBC */
/***********************************************/
/* error-handling function, libm_error_support */
/***********************************************/
void __libm_error_support(void *arg1,void *arg2,void *retval,error_types input_tag)
{
# ifdef __cplusplus
struct __exception exc;
# else
struct exception exc;
# endif
struct exceptionf excf;
struct exceptionl excl;
# ifdef __GNUC__
#define ALIGNIT __attribute__ ((__aligned__ (16)))
# elif defined opensource
#define ALIGNIT
# else
#define ALIGNIT __declspec(align(16))
# endif
# ifdef SIZE_LONG_INT_64
#define __INT_64__ signed long
# else
# if ILP32
#define __INT_64__ signed long long
# else
#define __INT_64__ __int64
# endif
# endif
#define _DECL_NUM(type, prefix, var, bytes...) \
ALIGNIT static const union { \
const char _bytes[sizeof (type)]; \
const type num; \
} prefix ## var = { \
._bytes = bytes, \
}
#define DECL_FLOAT(var, bytes...) \
_DECL_NUM (float, float_, var, ##bytes)
DECL_FLOAT(inf, {0x00,0x00,0x80,0x7F});
DECL_FLOAT(huge, {0xFF,0xFF,0x7F,0x7F});
DECL_FLOAT(zero, {0x00,0x00,0x00,0x00});
DECL_FLOAT(neg_inf, {0x00,0x00,0x80,0xFF});
DECL_FLOAT(neg_huge, {0xFF,0xFF,0x7F,0xFF});
DECL_FLOAT(neg_zero, {0x00,0x00,0x00,0x80});
#define DECL_DOUBLE(var, bytes...) \
_DECL_NUM (double, double_, var, ##bytes)
DECL_DOUBLE(inf, {0x00,0x00,0x00,0x00,0x00,0x00,0xF0,0x7F});
#ifndef _LIBC
DECL_DOUBLE(huge, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xEF,0x7F});
#endif
DECL_DOUBLE(zero, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00});
DECL_DOUBLE(neg_inf, {0x00,0x00,0x00,0x00,0x00,0x00,0xF0,0xFF});
#ifndef _LIBC
DECL_DOUBLE(neg_huge, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xEF,0xFF});
#endif
DECL_DOUBLE(neg_zero, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80});
#define DECL_LONG_DOUBLE(var, bytes...) \
_DECL_NUM (long double, long_double_, var, ##bytes)
DECL_LONG_DOUBLE(inf, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80,0xFF,0x7F,0x00,0x00,0x00,0x00,0x00,0x00});
#ifndef _LIBC
DECL_LONG_DOUBLE(huge, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFE,0x7F,0x00,0x00,0x00,0x00,0x00,0x00});
#endif
DECL_LONG_DOUBLE(zero, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00});
DECL_LONG_DOUBLE(neg_inf, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80,0xFF,0xFF,0x00,0x00,0x00,0x00,0x00,0x00});
#ifndef _LIBC
DECL_LONG_DOUBLE(neg_huge, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFE,0xFF,0x00,0x00,0x00,0x00,0x00,0x00});
#endif
DECL_LONG_DOUBLE(neg_zero, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80,0x00,0x00,0x00,0x00,0x00,0x00});
#define RETVAL_HUGE_VALL *(long double *)retval = long_double_inf.num
#define RETVAL_NEG_HUGE_VALL *(long double *)retval = long_double_neg_inf.num
#define RETVAL_HUGEL *(long double *)retval = (long double)float_huge.num
#define RETVAL_NEG_HUGEL *(long double *)retval = (long double)float_neg_huge.num
#define RETVAL_HUGE_VALD *(double *)retval = double_inf.num
#define RETVAL_NEG_HUGE_VALD *(double *)retval = double_neg_inf.num
#define RETVAL_HUGED *(double *)retval = (double)float_huge.num
#define RETVAL_NEG_HUGED *(double *)retval = (double)float_neg_huge.num
#define RETVAL_HUGE_VALF *(float *)retval = float_inf.num
#define RETVAL_NEG_HUGE_VALF *(float *)retval = float_neg_inf.num
#define RETVAL_HUGEF *(float *)retval = float_huge.num
#define RETVAL_NEG_HUGEF *(float *)retval = float_neg_huge.num
#define ZEROL_VALUE long_double_zero.num
#define ZEROD_VALUE double_zero.num
#define ZEROF_VALUE float_zero.num
#define RETVAL_ZEROL *(long double *)retval = long_double_zero.num
#define RETVAL_ZEROD *(double *)retval = double_zero.num
#define RETVAL_ZEROF *(float *)retval = float_zero.num
#define RETVAL_NEG_ZEROL *(long double *)retval = long_double_neg_zero.num
#define RETVAL_NEG_ZEROD *(double *)retval = double_neg_zero.num
#define RETVAL_NEG_ZEROF *(float *)retval = float_neg_zero.num
#define RETVAL_ONEL *(long double *)retval = (long double) 1.0
#define RETVAL_ONED *(double *)retval = 1.0
#define RETVAL_ONEF *(float *)retval = 1.0f
#define NOT_MATHERRL excl.arg1=*(long double *)arg1;excl.arg2=*(long double *)arg2;excl.retval=*(long double *)retval;if(!pmatherrl(&excl))
#define NOT_MATHERRD exc.arg1=*(double *)arg1;exc.arg2=*(double *)arg2;exc.retval=*(double *)retval;if(!pmatherr(&exc))
#define NOT_MATHERRF excf.arg1=*(float *)arg1;excf.arg2=*(float *)arg2;excf.retval=*(float *)retval;if(!pmatherrf(&excf))
#define ifSVID if(_LIB_VERSIONIMF==_SVID_)
#define NAMEL excl.name
#define NAMED exc.name
#define NAMEF excf.name
//
// These should work OK for MS because they are ints -
// leading underbars are not necessary.
//
#define DOMAIN 1
#define SING 2
#define OVERFLOW 3
#define UNDERFLOW 4
#define TLOSS 5
#define PLOSS 6
#define SINGL excl.type = SING
#define DOMAINL excl.type = DOMAIN
#define OVERFLOWL excl.type = OVERFLOW
#define UNDERFLOWL excl.type = UNDERFLOW
#define TLOSSL excl.type = TLOSS
#define SINGD exc.type = SING
#define DOMAIND exc.type = DOMAIN
#define OVERFLOWD exc.type = OVERFLOW
#define UNDERFLOWD exc.type = UNDERFLOW
#define TLOSSD exc.type = TLOSS
#define SINGF excf.type = SING
#define DOMAINF excf.type = DOMAIN
#define OVERFLOWF excf.type = OVERFLOW
#define UNDERFLOWF excf.type = UNDERFLOW
#define TLOSSF excf.type = TLOSS
#define INPUT_XL (excl.arg1=*(long double*)arg1)
#define INPUT_XD (exc.arg1=*(double*)arg1)
#define INPUT_XF (excf.arg1=*(float*)arg1)
#define INPUT_YL (excl.arg2=*(long double*)arg2)
#define INPUT_YD (exc.arg2=*(double*)arg2)
#define INPUT_YF (excf.arg2=*(float*)arg2)
#define INPUT_RESL (*(long double *)retval)
#define INPUT_RESD (*(double *)retval)
#define INPUT_RESF (*(float *)retval)
#define INPUT_RESI64 (*(__INT_64__ *)retval)
#define WRITEL_LOG_ZERO fputs("logl: SING error\n",stderr)
#define WRITED_LOG_ZERO fputs("log: SING error\n",stderr)
#define WRITEF_LOG_ZERO fputs("logf: SING error\n",stderr)
#define WRITEL_LOG_NEGATIVE fputs("logl: DOMAIN error\n",stderr)
#define WRITED_LOG_NEGATIVE fputs("log: DOMAIN error\n",stderr)
#define WRITEF_LOG_NEGATIVE fputs("logf: DOMAIN error\n",stderr)
#define WRITEL_Y0_ZERO fputs("y0l: DOMAIN error\n",stderr)
#define WRITED_Y0_ZERO fputs("y0: DOMAIN error\n",stderr)
#define WRITEF_Y0_ZERO fputs("y0f: DOMAIN error\n",stderr)
#define WRITEL_Y0_NEGATIVE fputs("y0l: DOMAIN error\n",stderr)
#define WRITED_Y0_NEGATIVE fputs("y0: DOMAIN error\n",stderr)
#define WRITEF_Y0_NEGATIVE fputs("y0f: DOMAIN error\n",stderr)
#define WRITEL_Y1_ZERO fputs("y1l: DOMAIN error\n",stderr)
#define WRITED_Y1_ZERO fputs("y1: DOMAIN error\n",stderr)
#define WRITEF_Y1_ZERO fputs("y1f: DOMAIN error\n",stderr)
#define WRITEL_Y1_NEGATIVE fputs("y1l: DOMAIN error\n",stderr)
#define WRITED_Y1_NEGATIVE fputs("y1: DOMAIN error\n",stderr)
#define WRITEF_Y1_NEGATIVE fputs("y1f: DOMAIN error\n",stderr)
#define WRITEL_YN_ZERO fputs("ynl: DOMAIN error\n",stderr)
#define WRITED_YN_ZERO fputs("yn: DOMAIN error\n",stderr)
#define WRITEF_YN_ZERO fputs("ynf: DOMAIN error\n",stderr)
#define WRITEL_YN_NEGATIVE fputs("ynl: DOMAIN error\n",stderr)
#define WRITED_YN_NEGATIVE fputs("yn: DOMAIN error\n",stderr)
#define WRITEF_YN_NEGATIVE fputs("ynf: DOMAIN error\n",stderr)
#define WRITEL_LOG1P_ZERO fputs("log1pl: SING error\n",stderr)
#define WRITED_LOG1P_ZERO fputs("log1p: SING error\n",stderr)
#define WRITEF_LOG1P_ZERO fputs("log1pf: SING error\n",stderr)
#define WRITEL_LOG1P_NEGATIVE fputs("log1pl: DOMAIN error\n",stderr)
#define WRITED_LOG1P_NEGATIVE fputs("log1p: DOMAIN error\n",stderr)
#define WRITEF_LOG1P_NEGATIVE fputs("log1pf: DOMAIN error\n",stderr)
#define WRITEL_LOG10_ZERO fputs("log10l: SING error\n",stderr)
#define WRITED_LOG10_ZERO fputs("log10: SING error\n",stderr)
#define WRITEF_LOG10_ZERO fputs("log10f: SING error\n",stderr)
#define WRITEL_LOG10_NEGATIVE fputs("log10l: DOMAIN error\n",stderr)
#define WRITED_LOG10_NEGATIVE fputs("log10: DOMAIN error\n",stderr)
#define WRITEF_LOG10_NEGATIVE fputs("log10f: DOMAIN error\n",stderr)
#define WRITEL_LOG2_ZERO fputs("log2l: SING error\n",stderr)
#define WRITED_LOG2_ZERO fputs("log2: SING error\n",stderr)
#define WRITEF_LOG2_ZERO fputs("log2f: SING error\n",stderr)
#define WRITEL_LOG2_NEGATIVE fputs("log2l: DOMAIN error\n",stderr)
#define WRITED_LOG2_NEGATIVE fputs("log2: DOMAIN error\n",stderr)
#define WRITEF_LOG2_NEGATIVE fputs("log2f: DOMAIN error\n",stderr)
#define WRITEL_POW_ZERO_TO_ZERO fputs("powl(0,0): DOMAIN error\n",stderr)
#define WRITED_POW_ZERO_TO_ZERO fputs("pow(0,0): DOMAIN error\n",stderr)
#define WRITEF_POW_ZERO_TO_ZERO fputs("powf(0,0): DOMAIN error\n",stderr)
#define WRITEL_POW_ZERO_TO_NEGATIVE fputs("powl(0,negative): DOMAIN error\n",stderr)
#define WRITED_POW_ZERO_TO_NEGATIVE fputs("pow(0,negative): DOMAIN error\n",stderr)
#define WRITEF_POW_ZERO_TO_NEGATIVE fputs("powf(0,negative): DOMAIN error\n",stderr)
#define WRITEL_POW_NEG_TO_NON_INTEGER fputs("powl(negative,non-integer): DOMAIN error\n",stderr)
#define WRITED_POW_NEG_TO_NON_INTEGER fputs("pow(negative,non-integer): DOMAIN error\n",stderr)
#define WRITEF_POW_NEG_TO_NON_INTEGER fputs("powf(negative,non-integer): DOMAIN error\n",stderr)
#define WRITEL_ATAN2_ZERO_BY_ZERO fputs("atan2l: DOMAIN error\n",stderr)
#define WRITED_ATAN2_ZERO_BY_ZERO fputs("atan2: DOMAIN error\n",stderr)
#define WRITEF_ATAN2_ZERO_BY_ZERO fputs("atan2f: DOMAIN error\n",stderr)
#define WRITEL_SQRT fputs("sqrtl: DOMAIN error\n",stderr)
#define WRITED_SQRT fputs("sqrt: DOMAIN error\n",stderr)
#define WRITEF_SQRT fputs("sqrtf: DOMAIN error\n",stderr)
#define WRITEL_FMOD fputs("fmodl: DOMAIN error\n",stderr)
#define WRITED_FMOD fputs("fmod: DOMAIN error\n",stderr)
#define WRITEF_FMOD fputs("fmodf: DOMAIN error\n",stderr)
#define WRITEL_REM fputs("remainderl: DOMAIN error\n",stderr)
#define WRITED_REM fputs("remainder: DOMAIN error\n",stderr)
#define WRITEF_REM fputs("remainderf: DOMAIN error\n",stderr)
#define WRITEL_ACOS fputs("acosl: DOMAIN error\n",stderr)
#define WRITED_ACOS fputs("acos: DOMAIN error\n",stderr)
#define WRITEF_ACOS fputs("acosf: DOMAIN error\n",stderr)
#define WRITEL_ASIN fputs("asinl: DOMAIN error\n",stderr)
#define WRITED_ASIN fputs("asin: DOMAIN error\n",stderr)
#define WRITEF_ASIN fputs("asinf: DOMAIN error\n",stderr)
#define WRITEL_ACOSH fputs("acoshl: DOMAIN error\n",stderr)
#define WRITED_ACOSH fputs("acosh: DOMAIN error\n",stderr)
#define WRITEF_ACOSH fputs("acoshf: DOMAIN error\n",stderr)
#define WRITEL_ATANH_GT_ONE fputs("atanhl: DOMAIN error\n",stderr)
#define WRITED_ATANH_GT_ONE fputs("atanh: DOMAIN error\n",stderr)
#define WRITEF_ATANH_GT_ONE fputs("atanhf: DOMAIN error\n",stderr)
#define WRITEL_ATANH_EQ_ONE fputs("atanhl: SING error\n",stderr)
#define WRITED_ATANH_EQ_ONE fputs("atanh: SING error\n",stderr)
#define WRITEF_ATANH_EQ_ONE fputs("atanhf: SING error\n",stderr)
#define WRITEL_LGAMMA_NEGATIVE fputs("lgammal: SING error\n",stderr)
#define WRITED_LGAMMA_NEGATIVE fputs("lgamma: SING error\n",stderr)
#define WRITEF_LGAMMA_NEGATIVE fputs("lgammaf: SING error\n",stderr)
#define WRITEL_GAMMA_NEGATIVE fputs("gammal: SING error\n",stderr)
#define WRITED_GAMMA_NEGATIVE fputs("gamma: SING error\n",stderr)
#define WRITEF_GAMMA_NEGATIVE fputs("gammaf: SING error\n",stderr)
#define WRITEL_TGAMMA_NEGATIVE fputs("tgammal: SING error\n",stderr)
#define WRITED_TGAMMA_NEGATIVE fputs("tgamma: SING error\n",stderr)
#define WRITEF_TGAMMA_NEGATIVE fputs("tgammaf: SING error\n",stderr)
#define WRITEL_J0_TLOSS fputs("j0l: TLOSS error\n",stderr)
#define WRITEL_Y0_TLOSS fputs("y0l: TLOSS error\n",stderr)
#define WRITEL_J1_TLOSS fputs("j1l: TLOSS error\n",stderr)
#define WRITEL_Y1_TLOSS fputs("y1l: TLOSS error\n",stderr)
#define WRITEL_JN_TLOSS fputs("jnl: TLOSS error\n",stderr)
#define WRITEL_YN_TLOSS fputs("ynl: TLOSS error\n",stderr)
#define WRITED_J0_TLOSS fputs("j0: TLOSS error\n",stderr)
#define WRITED_Y0_TLOSS fputs("y0: TLOSS error\n",stderr)
#define WRITED_J1_TLOSS fputs("j1: TLOSS error\n",stderr)
#define WRITED_Y1_TLOSS fputs("y1: TLOSS error\n",stderr)
#define WRITED_JN_TLOSS fputs("jn: TLOSS error\n",stderr)
#define WRITED_YN_TLOSS fputs("yn: TLOSS error\n",stderr)
#define WRITEF_J0_TLOSS fputs("j0f: TLOSS error\n",stderr)
#define WRITEF_Y0_TLOSS fputs("y0f: TLOSS error\n",stderr)
#define WRITEF_J1_TLOSS fputs("j1f: TLOSS error\n",stderr)
#define WRITEF_Y1_TLOSS fputs("y1f: TLOSS error\n",stderr)
#define WRITEF_JN_TLOSS fputs("jnf: TLOSS error\n",stderr)
#define WRITEF_YN_TLOSS fputs("ynf: TLOSS error\n",stderr)
#define WRITEL_ACOSD fputs("acosdl: DOMAIN error\n",stderr)
#define WRITED_ACOSD fputs("acosd: DOMAIN error\n",stderr)
#define WRITEF_ACOSD fputs("acosdf: DOMAIN error\n",stderr)
#define WRITEL_ASIND fputs("asindl: DOMAIN error\n",stderr)
#define WRITED_ASIND fputs("asind: DOMAIN error\n",stderr)
#define WRITEF_ASIND fputs("asindf: DOMAIN error\n",stderr)
#define WRITEL_ATAN2D_ZERO_BY_ZERO fputs("atan2dl: DOMAIN error\n",stderr)
#define WRITED_ATAN2D_ZERO_BY_ZERO fputs("atan2d: DOMAIN error\n",stderr)
#define WRITEF_ATAN2D_ZERO_BY_ZERO fputs("atan2df: DOMAIN error\n",stderr)
/***********************/
/* IEEE Path */
/***********************/
if(_LIB_VERSIONIMF==_IEEE_) return;
/***********************/
/* C9X Path */
/***********************/
else if(_LIB_VERSIONIMF==_ISOC_)
{
switch(input_tag)
{
case logl_zero:
case log_zero:
case logf_zero:
case log10l_zero:
case log10_zero:
case log10f_zero:
case log2l_zero:
case log2_zero:
case log2f_zero:
case log1pl_zero:
case log1p_zero:
case log1pf_zero:
case powl_overflow:
case pow_overflow:
case powf_overflow:
case expl_overflow:
case exp_overflow:
case expf_overflow:
case exp2l_overflow:
case exp2_overflow:
case exp2f_overflow:
case exp10l_overflow:
case exp10_overflow:
case exp10f_overflow:
case expm1l_overflow:
case expm1_overflow:
case expm1f_overflow:
case hypotl_overflow:
case hypot_overflow:
case hypotf_overflow:
case sinhl_overflow:
case sinh_overflow:
case sinhf_overflow:
case atanhl_eq_one:
case atanh_eq_one:
case atanhf_eq_one:
case scalbl_overflow:
case scalb_overflow:
case scalbf_overflow:
case coshl_overflow:
case cosh_overflow:
case coshf_overflow:
case nextafterl_overflow:
case nextafter_overflow:
case nextafterf_overflow:
case nextafterl_underflow:
case nextafter_underflow:
case nextafterf_underflow:
case nexttowardl_overflow:
case nexttoward_overflow:
case nexttowardf_overflow:
case nexttowardl_underflow:
case nexttoward_underflow:
case nexttowardf_underflow:
case scalbnl_overflow:
case scalbn_overflow:
case scalbnf_overflow:
case scalblnl_overflow:
case scalbln_overflow:
case scalblnf_overflow:
case ldexpl_overflow:
case ldexp_overflow:
case ldexpf_overflow:
case lgammal_overflow:
case lgamma_overflow:
case lgammaf_overflow:
case gammal_overflow:
case gamma_overflow:
case gammaf_overflow:
case lgammal_negative:
case lgamma_negative:
case lgammaf_negative:
case gammal_negative:
case gamma_negative:
case gammaf_negative:
case ilogbl_zero:
case ilogb_zero:
case ilogbf_zero:
case fdiml_overflow:
case fdim_overflow:
case fdimf_overflow:
case llrintl_large:
case llrint_large:
case llrintf_large:
case llroundl_large:
case llround_large:
case llroundf_large:
case lrintl_large:
case lrint_large:
case lrintf_large:
case lroundl_large:
case lround_large:
case lroundf_large:
case tandl_overflow:
case tand_overflow:
case tandf_overflow:
case cotdl_overflow:
case cotd_overflow:
case cotdf_overflow:
case cotl_overflow:
case cot_overflow:
case cotf_overflow:
case sinhcoshl_overflow:
case sinhcosh_overflow:
case sinhcoshf_overflow:
case annuityl_overflow:
case annuity_overflow:
case annuityf_overflow:
case compoundl_overflow:
case compound_overflow:
case compoundf_overflow:
case tgammal_overflow:
case tgamma_overflow:
case tgammaf_overflow:
{
ERRNO_RANGE; break;
}
case powl_underflow:
case expl_underflow:
case exp10l_underflow:
case exp2l_underflow:
case scalbl_underflow:
case scalbnl_underflow:
case scalblnl_underflow:
case ldexpl_underflow:
case erfcl_underflow:
case annuityl_underflow:
case compoundl_underflow:
{
/* Test for zero by testing 64 significand bits for zero. An integer
test is needed so denormal flag is not set by a floating-point test */
if ( INPUT_RESI64 == 0 ) ERRNO_RANGE;
break;
}
case pow_underflow:
case exp_underflow:
case exp10_underflow:
case exp2_underflow:
case scalb_underflow:
case scalbn_underflow:
case scalbln_underflow:
case ldexp_underflow:
case erfc_underflow:
case annuity_underflow:
case compound_underflow:
{
/* Test for zero by testing exp and significand bits for zero. An integer
test is needed so denormal flag is not set by a floating-point test */
if ( (INPUT_RESI64 << 1) == 0 ) ERRNO_RANGE;
break;
}
case powf_underflow:
case expf_underflow:
case exp10f_underflow:
case exp2f_underflow:
case scalbf_underflow:
case scalbnf_underflow:
case scalblnf_underflow:
case ldexpf_underflow:
case erfcf_underflow:
case annuityf_underflow:
case compoundf_underflow:
{
/* Test for zero by testing exp and significand bits for zero. An integer
test is needed so denormal flag is not set by a floating-point test */
if ( (INPUT_RESI64 << 33) == 0 ) ERRNO_RANGE;
break;
}
case logl_negative:
case log_negative:
case logf_negative:
case log10l_negative:
case log10_negative:
case log10f_negative:
case log2l_negative:
case log2_negative:
case log2f_negative:
case log1pl_negative:
case log1p_negative:
case log1pf_negative:
case sqrtl_negative:
case sqrt_negative:
case sqrtf_negative:
case atan2l_zero:
case atan2_zero:
case atan2f_zero:
case powl_zero_to_negative:
case powl_neg_to_non_integer:
case pow_zero_to_negative:
case pow_neg_to_non_integer:
case powf_zero_to_negative:
case powf_neg_to_non_integer:
case fmodl_by_zero:
case fmod_by_zero:
case fmodf_by_zero:
case atanhl_gt_one:
case atanh_gt_one:
case atanhf_gt_one:
case acosl_gt_one:
case acos_gt_one:
case acosf_gt_one:
case asinl_gt_one:
case asin_gt_one:
case asinf_gt_one:
case logbl_zero:
case logb_zero:
case logbf_zero:
case acoshl_lt_one:
case acosh_lt_one:
case acoshf_lt_one:
case y0l_zero:
case y0_zero:
case y0f_zero:
case y1l_zero:
case y1_zero:
case y1f_zero:
case ynl_zero:
case yn_zero:
case ynf_zero:
case y0l_negative:
case y0_negative:
case y0f_negative:
case y1l_negative:
case y1_negative:
case y1f_negative:
case ynl_negative:
case yn_negative:
case ynf_negative:
case acosdl_gt_one:
case acosd_gt_one:
case acosdf_gt_one:
case asindl_gt_one:
case asind_gt_one:
case asindf_gt_one:
case atan2dl_zero:
case atan2d_zero:
case atan2df_zero:
case annuityl_by_zero:
case annuity_by_zero:
case annuityf_by_zero:
case annuityl_less_m1:
case annuity_less_m1:
case annuityf_less_m1:
case compoundl_by_zero:
case compound_by_zero:
case compoundf_by_zero:
case compoundl_less_m1:
case compound_less_m1:
case compoundf_less_m1:
case tgammal_negative:
case tgamma_negative:
case tgammaf_negative:
{
ERRNO_DOMAIN; break;
}
default:
break;
}
return;
}
/***********************/
/* _POSIX_ Path */
/***********************/
else if(_LIB_VERSIONIMF==_POSIX_)
{
switch(input_tag)
{
case gammal_overflow:
case lgammal_overflow:
case tgammal_overflow:
{
RETVAL_HUGE_VALL; ERRNO_RANGE; break;
}
case gamma_overflow:
case lgamma_overflow:
case tgamma_overflow:
{
RETVAL_HUGE_VALD; ERRNO_RANGE; break;
}
case gammaf_overflow:
case lgammaf_overflow:
case tgammaf_overflow:
{
RETVAL_HUGE_VALF; ERRNO_RANGE; break;
}
case gammal_negative:
case gamma_negative:
case gammaf_negative:
case lgammal_negative:
case lgamma_negative:
case lgammaf_negative:
case tgammal_negative:
case tgamma_negative:
case tgammaf_negative:
{
ERRNO_DOMAIN; break;
}
case ldexpl_overflow:
case ldexpl_underflow:
case ldexp_overflow:
case ldexp_underflow:
case ldexpf_overflow:
case ldexpf_underflow:
case scalbnl_overflow:
case scalbnl_underflow:
case scalbn_overflow:
case scalbn_underflow:
case scalbnf_overflow:
case scalbnf_underflow:
case scalblnl_overflow:
case scalblnl_underflow:
case scalbln_overflow:
case scalbln_underflow:
case scalblnf_overflow:
case scalblnf_underflow:
case tandl_overflow:
case tand_overflow:
case tandf_overflow:
case cotdl_overflow:
case cotd_overflow:
case cotdf_overflow:
case cotl_overflow:
case cot_overflow:
case cotf_overflow:
case sinhcoshl_overflow:
case sinhcosh_overflow:
case sinhcoshf_overflow:
case nextafterl_overflow:
case nextafter_overflow:
case nextafterf_overflow:
case nextafterl_underflow:
case nextafter_underflow:
case nextafterf_underflow:
case nexttowardl_overflow:
case nexttoward_overflow:
case nexttowardf_overflow:
case nexttowardl_underflow:
case nexttoward_underflow:
case nexttowardf_underflow:
{
ERRNO_RANGE; break;
}
case atanhl_gt_one:
case atanhl_eq_one:
/* atanhl(|x| >= 1) */
{
ERRNO_DOMAIN; break;
}
case atanh_gt_one:
case atanh_eq_one:
/* atanh(|x| >= 1) */
{
ERRNO_DOMAIN; break;
}
case atanhf_gt_one:
case atanhf_eq_one:
/* atanhf(|x| >= 1) */
{
ERRNO_DOMAIN; break;
}
case sqrtl_negative:
/* sqrtl(x < 0) */
{
ERRNO_DOMAIN; break;
}
case sqrt_negative:
/* sqrt(x < 0) */
{
ERRNO_DOMAIN; break;
}
case sqrtf_negative:
/* sqrtf(x < 0) */
{
ERRNO_DOMAIN; break;
}
case y0l_zero:
case y1l_zero:
case ynl_zero:
/* y0l(0) */
/* y1l(0) */
/* ynl(0) */
{
RETVAL_NEG_HUGE_VALL; ERRNO_DOMAIN; break;
}
case y0_zero:
case y1_zero:
case yn_zero:
/* y0(0) */
/* y1(0) */
/* yn(0) */
{
RETVAL_NEG_HUGE_VALD; ERRNO_DOMAIN; break;
}
case y0f_zero:
case y1f_zero:
case ynf_zero:
/* y0f(0) */
/* y1f(0) */
/* ynf(0) */
{
RETVAL_NEG_HUGE_VALF; ERRNO_DOMAIN; break;
}
case y0l_negative:
case y1l_negative:
case ynl_negative:
/* y0l(x < 0) */
/* y1l(x < 0) */
/* ynl(x < 0) */
{
#ifndef _LIBC
RETVAL_NEG_HUGE_VALL;
#endif
ERRNO_DOMAIN; break;
}
case y0_negative:
case y1_negative:
case yn_negative:
/* y0(x < 0) */
/* y1(x < 0) */
/* yn(x < 0) */
{
RETVAL_NEG_HUGE_VALD; ERRNO_DOMAIN; break;
}
case y0f_negative:
case y1f_negative:
case ynf_negative:
/* y0f(x < 0) */
/* y1f(x < 0) */
/* ynf(x < 0) */
{
RETVAL_NEG_HUGE_VALF; ERRNO_DOMAIN; break;
}
case logl_zero:
case log1pl_zero:
case log10l_zero:
case log2l_zero:
/* logl(0) */
/* log1pl(-1) */
/* log10l(0) */
/* log2l(0) */
{
RETVAL_NEG_HUGE_VALL; ERRNO_RANGE; break;
}
case log_zero:
case log1p_zero:
case log10_zero:
case log2_zero:
/* log(0) */
/* log1p(-1) */
/* log10(0) */
/* log2(0) */
{
RETVAL_NEG_HUGE_VALD; ERRNO_RANGE; break;
}
case logf_zero:
case log1pf_zero:
case log10f_zero:
case log2f_zero:
/* logf(0) */
/* log1pf(-1) */
/* log10f(0) */
/* log2f(0) */
{
RETVAL_NEG_HUGE_VALF; ERRNO_RANGE; break;
}
case logl_negative:
case log1pl_negative:
case log10l_negative:
case log2l_negative:
/* logl(x < 0) */
/* log1pl(x < -1) */
/* log10l(x < 0) */
/* log2l(x < 0) */
{
ERRNO_DOMAIN; break;
}
case log_negative:
case log1p_negative:
case log10_negative:
case log2_negative:
/* log(x < 0) */
/* log1p(x < -1) */
/* log10(x < 0) */
/* log2(x < 0) */
{
ERRNO_DOMAIN; break;
}
case logf_negative:
case log1pf_negative:
case log10f_negative:
case log2f_negative:
/* logf(x < 0) */
/* log1pf(x < -1) */
/* log10f(x < 0) */
/* log2f(x < 0) */
{
ERRNO_DOMAIN; break;
}
case expl_overflow:
case exp10l_overflow:
case exp2l_overflow:
/* expl overflow */
/* exp10l overflow */
/* exp2l overflow */
{
RETVAL_HUGE_VALL; ERRNO_RANGE; break;
}
case exp_overflow:
case exp10_overflow:
case exp2_overflow:
/* exp overflow */
/* exp10 overflow */
/* exp2 overflow */
{
RETVAL_HUGE_VALD; ERRNO_RANGE; break;
}
case expf_overflow:
case exp10f_overflow:
case exp2f_overflow:
/* expf overflow */
{
RETVAL_HUGE_VALF; ERRNO_RANGE; break;
}
case expl_underflow:
case exp10l_underflow:
case exp2l_underflow:
/* expl underflow */
/* exp10l underflow */
/* exp2l underflow */
{
ERRNO_RANGE; break;
}
case exp_underflow:
case exp10_underflow:
case exp2_underflow:
/* exp underflow */
/* exp10 underflow */
/* exp2 underflow */
{
ERRNO_RANGE; break;
}
case expf_underflow:
case exp10f_underflow:
case exp2f_underflow:
/* expf underflow */
/* exp10f underflow */
/* exp2f underflow */
{
ERRNO_RANGE; break;
}
case j0l_gt_loss:
case y0l_gt_loss:
case j1l_gt_loss:
case y1l_gt_loss:
case jnl_gt_loss:
case ynl_gt_loss:
/* jn and yn doubl-extended> XLOSS */
{
RETVAL_ZEROL; ERRNO_RANGE; break;
}
case j0_gt_loss:
case y0_gt_loss:
case j1_gt_loss:
case y1_gt_loss:
case jn_gt_loss:
case yn_gt_loss:
/* jn and yn double > XLOSS */
{
RETVAL_ZEROD; ERRNO_RANGE; break;
}
case j0f_gt_loss:
case y0f_gt_loss:
case j1f_gt_loss:
case y1f_gt_loss:
case jnf_gt_loss:
case ynf_gt_loss:
/* j0n and y0n > XLOSS */
{
RETVAL_ZEROF; ERRNO_RANGE; break;
}
case powl_zero_to_zero:
/* powl 0**0 */
{
break;
}
case pow_zero_to_zero:
/* pow 0**0 */
{
break;
}
case powf_zero_to_zero:
/* powf 0**0 */
{
break;
}
case powl_overflow:
case annuityl_overflow:
case compoundl_overflow:
/* powl(x,y) overflow */
{
if (INPUT_RESL < ZEROL_VALUE /*0*/) RETVAL_NEG_HUGE_VALL;
else RETVAL_HUGE_VALL;
ERRNO_RANGE; break;
}
case pow_overflow:
case annuity_overflow:
case compound_overflow:
/* pow(x,y) overflow */
{
if (INPUT_RESD < ZEROD_VALUE /*0*/) RETVAL_NEG_HUGE_VALD;
else RETVAL_HUGE_VALD;
ERRNO_RANGE; break;
}
case powf_overflow:
case annuityf_overflow:
case compoundf_overflow:
/* powf(x,y) overflow */
{
if (INPUT_RESF < ZEROF_VALUE /*0*/) RETVAL_NEG_HUGE_VALF;
else RETVAL_HUGE_VALF;
ERRNO_RANGE; break;
}
case powl_underflow:
case annuityl_underflow:
case compoundl_underflow:
/* powl(x,y) underflow */
{
RETVAL_ZEROL; ERRNO_RANGE; break;
}
case pow_underflow:
case annuity_underflow:
case compound_underflow:
/* pow(x,y) underflow */
{
RETVAL_ZEROD; ERRNO_RANGE; break;
}
case powf_underflow:
case annuityf_underflow:
case compoundf_underflow:
/* powf(x,y) underflow */
{
RETVAL_ZEROF; ERRNO_RANGE; break;
}
case annuityl_by_zero:
case annuityl_less_m1:
case compoundl_by_zero:
case compoundl_less_m1:
case annuity_by_zero:
case annuity_less_m1:
case compound_by_zero:
case compound_less_m1:
case annuityf_by_zero:
case annuityf_less_m1:
case compoundf_by_zero:
case compoundf_less_m1:
{
ERRNO_DOMAIN; break;
}
case powl_zero_to_negative:
/* 0**neg */
{
ERRNO_DOMAIN; break;
}
case pow_zero_to_negative:
/* 0**neg */
{
ERRNO_DOMAIN; break;
}
case powf_zero_to_negative:
/* 0**neg */
{
ERRNO_DOMAIN; break;
}
case powl_neg_to_non_integer:
/* neg**non_integral */
{
ERRNO_DOMAIN; break;
}
case pow_neg_to_non_integer:
/* neg**non_integral */
{
ERRNO_DOMAIN; break;
}
case powf_neg_to_non_integer:
/* neg**non-integral */
{
ERRNO_DOMAIN; break;
}
case powl_nan_to_zero:
/* powl(NaN,0.0) */
/* Special Error */
{
break;
}
case pow_nan_to_zero:
/* pow(NaN,0.0) */
{
break;
}
case powf_nan_to_zero:
/* powf(NaN,0.0) */
{
break;
}
case atan2l_zero:
case atan2dl_zero:
/* atan2l(0,0) */
/* atan2dl(0,0) */
{
break;
}
case atan2_zero:
case atan2d_zero:
/* atan2(0,0) */
/* atan2d(0,0) */
{
break;
}
case atan2f_zero:
case atan2df_zero:
/* atan2f(0,0) */
/* atan2df(0,0) */
{
break;
}
case expm1l_overflow:
/* expm1 overflow */
{
ERRNO_RANGE; break;
}
case expm1_overflow:
/* expm1 overflow */
{
ERRNO_RANGE; break;
}
case expm1f_overflow:
/* expm1f overflow */
{
ERRNO_RANGE; break;
}
case expm1l_underflow:
/* expm1 underflow */
{
ERRNO_RANGE; break;
}
case expm1_underflow:
/* expm1 underflow */
{
ERRNO_RANGE; break;
}
case expm1f_underflow:
/* expm1f underflow */
{
ERRNO_RANGE; break;
}
case hypotl_overflow:
/* hypotl overflow */
{
RETVAL_HUGE_VALL; ERRNO_RANGE; break;
}
case hypot_overflow:
/* hypot overflow */
{
RETVAL_HUGE_VALD; ERRNO_RANGE; break;
}
case hypotf_overflow:
/* hypotf overflow */
{
RETVAL_HUGE_VALF; ERRNO_RANGE; break;
}
case scalbl_underflow:
/* scalbl underflow */
{
if (INPUT_XL < ZEROL_VALUE /*0*/) RETVAL_NEG_ZEROL;
else RETVAL_ZEROL;
ERRNO_RANGE; break;
}
case scalb_underflow:
/* scalb underflow */
{
if (INPUT_XD < ZEROD_VALUE /*0*/) RETVAL_NEG_ZEROD;
else RETVAL_ZEROD;
ERRNO_RANGE; break;
}
case scalbf_underflow:
/* scalbf underflow */
{
if (INPUT_XF < ZEROF_VALUE /*0*/) RETVAL_NEG_ZEROF;
else RETVAL_ZEROF;
ERRNO_RANGE; break;
}
case scalbl_overflow:
/* scalbl overflow */
{
if (INPUT_XL < ZEROL_VALUE /*0*/) RETVAL_NEG_HUGE_VALL;
else RETVAL_HUGE_VALL;
ERRNO_RANGE; break;
}
case scalb_overflow:
/* scalb overflow */
{
if (INPUT_XD < ZEROD_VALUE /*0*/) RETVAL_NEG_HUGE_VALD;
else RETVAL_HUGE_VALD;
ERRNO_RANGE; break;
}
case scalbf_overflow:
/* scalbf overflow */
{
if (INPUT_XF < ZEROF_VALUE /*0*/) RETVAL_NEG_HUGE_VALF;
else RETVAL_HUGE_VALF;
ERRNO_RANGE; break;
}
case acoshl_lt_one:
/* acoshl(x < 1) */
{
ERRNO_DOMAIN; break;
}
case acosh_lt_one:
/* acosh(x < 1) */
{
ERRNO_DOMAIN; break;
}
case acoshf_lt_one:
/* acoshf(x < 1) */
{
ERRNO_DOMAIN; break;
}
case acosl_gt_one:
case acosdl_gt_one:
/* acosl(x > 1) */
/* acosdl(x > 1) */
{
ERRNO_DOMAIN; break;
}
case acos_gt_one:
case acosd_gt_one:
/* acos(x > 1) */
/* acosd(x > 1) */
{
ERRNO_DOMAIN; break;
}
case acosf_gt_one:
case acosdf_gt_one:
/* acosf(x > 1) */
/* acosdf(x > 1) */
{
ERRNO_DOMAIN; break;
}
case asinl_gt_one:
case asindl_gt_one:
/* asinl(x > 1) */
/* asindl(x > 1) */
{
ERRNO_DOMAIN; break;
}
case asin_gt_one:
case asind_gt_one:
/* asin(x > 1) */
/* asind(x > 1) */
{
ERRNO_DOMAIN; break;
}
case asinf_gt_one:
case asindf_gt_one:
/* asinf(x > 1) */
/* asindf(x > 1) */
{
ERRNO_DOMAIN; break;
}
case remainderl_by_zero:
case fmodl_by_zero:
/* fmodl(x,0) */
{
ERRNO_DOMAIN; break;
}
case remainder_by_zero:
case fmod_by_zero:
/* fmod(x,0) */
{
ERRNO_DOMAIN; break;
}
case remainderf_by_zero:
case fmodf_by_zero:
/* fmodf(x,0) */
{
ERRNO_DOMAIN; break;
}
case coshl_overflow:
/* coshl overflows */
{
RETVAL_HUGE_VALL; ERRNO_RANGE; break;
}
case cosh_overflow:
/* cosh overflows */
{
RETVAL_HUGE_VALD; ERRNO_RANGE; break;
}
case coshf_overflow:
/* coshf overflows */
{
RETVAL_HUGE_VALF; ERRNO_RANGE; break;
}
case sinhl_overflow:
/* sinhl overflows */
{
if (INPUT_XL > ZEROL_VALUE /*0*/) RETVAL_HUGE_VALL;
else RETVAL_NEG_HUGE_VALL;
ERRNO_RANGE; break;
}
case sinh_overflow:
/* sinh overflows */
{
if (INPUT_XD > ZEROD_VALUE /*0*/) RETVAL_HUGE_VALD;
else RETVAL_NEG_HUGE_VALD;
ERRNO_RANGE; break;
}
case sinhf_overflow:
/* sinhf overflows */
{
if (INPUT_XF > ZEROF_VALUE /*0*/) RETVAL_HUGE_VALF;
else RETVAL_NEG_HUGE_VALF;
ERRNO_RANGE; break;
}
case logbl_zero:
/* logbl(0) */
{
ERRNO_DOMAIN; break;
}
case logb_zero:
/* logb(0) */
{
ERRNO_DOMAIN; break;
}
case logbf_zero:
/* logbf(0) */
{
ERRNO_DOMAIN; break;
}
case ilogbl_zero:
/* ilogbl(0) */
{
ERRNO_RANGE; break;
}
case ilogb_zero:
/* ilogb(0) */
{
ERRNO_RANGE; break;
}
case ilogbf_zero:
/* ilogbf(0) */
{
ERRNO_RANGE; break;
}
default:
break;
}
return;
/* _POSIX_ */
}
/*******************************/
/* __SVID__ and __XOPEN__ Path */
/*******************************/
else
{
switch(input_tag)
{
case ldexpl_overflow:
case ldexpl_underflow:
case ldexp_overflow:
case ldexp_underflow:
case ldexpf_overflow:
case ldexpf_underflow:
case scalbnl_overflow:
case scalbnl_underflow:
case scalbn_overflow:
case scalbn_underflow:
case scalbnf_overflow:
case scalbnf_underflow:
case scalblnl_overflow:
case scalblnl_underflow:
case scalbln_overflow:
case scalbln_underflow:
case scalblnf_overflow:
case scalblnf_underflow:
case tandl_overflow:
case tand_overflow:
case tandf_overflow:
case cotdl_overflow:
case cotd_overflow:
case cotdf_overflow:
case cotl_overflow:
case cot_overflow:
case cotf_overflow:
case annuityl_overflow:
case annuityl_underflow:
case annuity_overflow:
case annuity_underflow:
case annuityf_overflow:
case annuityf_underflow:
case compoundl_overflow:
case compoundl_underflow:
case compound_overflow:
case compound_underflow:
case compoundf_overflow:
case compoundf_underflow:
{
ERRNO_RANGE; break;
}
case annuityl_by_zero:
case annuityl_less_m1:
case annuity_by_zero:
case annuity_less_m1:
case annuityf_by_zero:
case annuityf_less_m1:
case compoundl_by_zero:
case compoundl_less_m1:
case compound_by_zero:
case compound_less_m1:
case compoundf_by_zero:
case compoundf_less_m1:
{
ERRNO_DOMAIN; break;
}
case sqrtl_negative:
/* sqrtl(x < 0) */
{
DOMAINL; NAMEL = (char *) "sqrtl";
ifSVID
{
RETVAL_ZEROL;
NOT_MATHERRL
{
WRITEL_SQRT;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case sqrt_negative:
/* sqrt(x < 0) */
{
DOMAIND; NAMED = (char *) "sqrt";
ifSVID
{
RETVAL_ZEROD;
NOT_MATHERRD
{
WRITED_SQRT;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case sqrtf_negative:
/* sqrtf(x < 0) */
{
DOMAINF; NAMEF = (char *) "sqrtf";
ifSVID
{
RETVAL_ZEROF;
NOT_MATHERRF
{
WRITEF_SQRT;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case logl_zero:
/* logl(0) */
{
SINGL; NAMEL = (char *) "logl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log_zero:
/* log(0) */
{
SINGD; NAMED = (char *) "log";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case logf_zero:
/* logf(0) */
{
SINGF; NAMEF = (char *) "logf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case logl_negative:
/* logl(x < 0) */
{
DOMAINL; NAMEL = (char *) "logl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log_negative:
/* log(x < 0) */
{
DOMAIND; NAMED = (char *) "log";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case logf_negative:
/* logf(x < 0) */
{
DOMAINF; NAMEF = (char *) "logf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF{ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log1pl_zero:
/* log1pl(-1) */
{
SINGL; NAMEL = (char *) "log1pl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG1P_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log1p_zero:
/* log1p(-1) */
{
SINGD; NAMED = (char *) "log1p";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG1P_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log1pf_zero:
/* log1pf(-1) */
{
SINGF; NAMEF = (char *) "log1pf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG1P_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log1pl_negative:
/* log1pl(x < -1) */
{
DOMAINL; NAMEL = (char *) "log1pl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG1P_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log1p_negative:
/* log1p(x < -1) */
{
DOMAIND; NAMED = (char *) "log1p";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG1P_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log1pf_negative:
/* log1pf(x < -1) */
{
DOMAINF; NAMEF = (char *) "log1pf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG1P_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log10l_zero:
/* log10l(0) */
{
SINGL; NAMEL = (char *) "log10l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG10_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log10_zero:
/* log10(0) */
{
SINGD; NAMED = (char *) "log10";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG10_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log10f_zero:
/* log10f(0) */
{
SINGF; NAMEF = (char *) "log10f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG10_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log10l_negative:
/* log10l(x < 0) */
{
DOMAINL; NAMEL = (char *) "log10l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG10_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log10_negative:
/* log10(x < 0) */
{
DOMAIND; NAMED = (char *) "log10";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG10_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log10f_negative:
/* log10f(x < 0) */
{
DOMAINF; NAMEF = (char *) "log10f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG10_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log2l_zero:
/* log2l(0) */
{
SINGL; NAMEL = (char *) "log2l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG2_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log2_zero:
/* log2(0) */
{
SINGD; NAMED = (char *) "log2";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG2_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log2f_zero:
/* log2f(0) */
{
SINGF; NAMEF = (char *) "log2f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG2_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case log2l_negative:
/* log2l(x < 0) */
{
DOMAINL; NAMEL = (char *) "log2l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_LOG2_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case log2_negative:
/* log2(x < 0) */
{
DOMAIND; NAMED = (char *) "log2";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_LOG2_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case log2f_negative:
/* log2f(x < 0) */
{
DOMAINF; NAMEF = (char *) "log2f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_LOG2_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case expl_overflow:
/* expl overflow */
{
OVERFLOWL; NAMEL = (char *) "expl";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case exp_overflow:
/* exp overflow */
{
OVERFLOWD; NAMED = (char *) "exp";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case expf_overflow:
/* expf overflow */
{
OVERFLOWF; NAMEF = (char *) "expf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case expl_underflow:
/* expl underflow */
{
UNDERFLOWL; NAMEL = (char *) "expl"; RETVAL_ZEROL;
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case exp_underflow:
/* exp underflow */
{
UNDERFLOWD; NAMED = (char *) "exp"; RETVAL_ZEROD;
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case expf_underflow:
/* expf underflow */
{
UNDERFLOWF; NAMEF = (char *) "expf"; RETVAL_ZEROF;
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case powl_zero_to_zero:
/* powl 0**0 */
{
DOMAINL; NAMEL = (char *) "powl";
ifSVID
{
RETVAL_ZEROL;
NOT_MATHERRL
{
WRITEL_POW_ZERO_TO_ZERO;
ERRNO_DOMAIN;
}
*(long double *)retval = excl.retval;
}
else RETVAL_ONEL;
break;
}
case pow_zero_to_zero:
/* pow 0**0 */
{
DOMAIND; NAMED = (char *) "pow";
ifSVID
{
RETVAL_ZEROD;
NOT_MATHERRD
{
WRITED_POW_ZERO_TO_ZERO;
ERRNO_DOMAIN;
}
*(double *)retval = exc.retval;
}
else RETVAL_ONED;
break;
}
case powf_zero_to_zero:
/* powf 0**0 */
{
DOMAINF; NAMEF = (char *) "powf";
ifSVID
{
RETVAL_ZEROF;
NOT_MATHERRF
{
WRITEF_POW_ZERO_TO_ZERO;
ERRNO_DOMAIN;
}
*(float *)retval = excf.retval;
}
else RETVAL_ONEF;
break;
}
case powl_overflow:
/* powl(x,y) overflow */
{
OVERFLOWL; NAMEL = (char *) "powl";
ifSVID
{
if (INPUT_RESL < ZEROL_VALUE /*0*/) RETVAL_NEG_HUGEL;
else RETVAL_HUGEL;
}
else
{
if (INPUT_RESL < ZEROL_VALUE /*0*/) RETVAL_NEG_HUGE_VALL;
else RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case pow_overflow:
/* pow(x,y) overflow */
{
OVERFLOWD; NAMED = (char *) "pow";
ifSVID
{
if (INPUT_RESD < ZEROD_VALUE /*0*/) RETVAL_NEG_HUGED;
else RETVAL_HUGED;
}
else
{
if (INPUT_RESD < ZEROD_VALUE /*0*/) RETVAL_NEG_HUGE_VALD;
else RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case powf_overflow:
/* powf(x,y) overflow */
{
OVERFLOWF; NAMEF = (char *) "powf";
ifSVID
{
if (INPUT_RESF < ZEROF_VALUE /*0*/) RETVAL_NEG_HUGEF;
else RETVAL_HUGEF;
}
else
{
if (INPUT_RESF < ZEROF_VALUE /*0*/) RETVAL_NEG_HUGE_VALF;
else RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case powl_underflow:
/* powl(x,y) underflow */
{
UNDERFLOWL; NAMEL = (char *) "powl"; RETVAL_ZEROL;
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case pow_underflow:
/* pow(x,y) underflow */
{
UNDERFLOWD; NAMED = (char *) "pow"; RETVAL_ZEROD;
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case powf_underflow:
/* powf(x,y) underflow */
{
UNDERFLOWF; NAMEF = (char *) "powf"; RETVAL_ZEROF;
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case powl_zero_to_negative:
/* 0 to neg */
{
DOMAINL; NAMEL = (char *) "powl";
ifSVID
{
RETVAL_ZEROL;
NOT_MATHERRL
{
WRITEL_POW_ZERO_TO_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case pow_zero_to_negative:
/* 0**neg */
{
DOMAIND; NAMED = (char *) "pow";
ifSVID
{
RETVAL_ZEROD;
NOT_MATHERRD
{
WRITED_POW_ZERO_TO_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case powf_zero_to_negative:
/* 0**neg */
{
DOMAINF; NAMEF = (char *) "powf";
ifSVID
{
RETVAL_ZEROF;
NOT_MATHERRF
{
WRITEF_POW_ZERO_TO_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case powl_neg_to_non_integer:
/* neg**non_integral */
{
DOMAINL; NAMEL = (char *) "powl";
ifSVID
{
RETVAL_ZEROL;
NOT_MATHERRL
{
WRITEL_POW_NEG_TO_NON_INTEGER;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case pow_neg_to_non_integer:
/* neg**non_integral */
{
DOMAIND; NAMED = (char *) "pow";
ifSVID
{
RETVAL_ZEROD;
NOT_MATHERRD
{
WRITED_POW_NEG_TO_NON_INTEGER;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case powf_neg_to_non_integer:
/* neg**non-integral */
{
DOMAINF; NAMEF = (char *) "powf";
ifSVID
{
RETVAL_ZEROF;
NOT_MATHERRF
{
WRITEF_POW_NEG_TO_NON_INTEGER;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case powl_nan_to_zero:
/* pow(NaN,0.0) */
/* Special Error */
{
DOMAINL; NAMEL = (char *) "powl";
*(long double *)retval = *(long double *)arg1;
NOT_MATHERRL {ERRNO_DOMAIN;}
*(long double *)retval = excl.retval;
break;
}
case pow_nan_to_zero:
/* pow(NaN,0.0) */
/* Special Error */
{
DOMAIND; NAMED = (char *) "pow";
*(double *)retval = *(double *)arg1;
NOT_MATHERRD {ERRNO_DOMAIN;}
*(double *)retval = exc.retval;
break;
}
case powf_nan_to_zero:
/* powf(NaN,0.0) */
/* Special Error */
{
DOMAINF; NAMEF = (char *) "powf";
*(float *)retval = *(float *)arg1;
NOT_MATHERRF {ERRNO_DOMAIN;}
*(float *)retval = excf.retval;
break;
}
case atan2l_zero:
/* atan2l(0.0,0.0) */
{
DOMAINL; NAMEL = (char *) "atan2l";
RETVAL_ZEROL;
NOT_MATHERRL
{
ifSVID
{
WRITEL_ATAN2_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(long double *)retval = excl.retval;
break;
}
case atan2_zero:
/* atan2(0.0,0.0) */
{
DOMAIND; NAMED = (char *) "atan2";
RETVAL_ZEROD;
NOT_MATHERRD
{
ifSVID
{
WRITED_ATAN2_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(double *)retval = exc.retval;
break;
}
case atan2f_zero:
/* atan2f(0.0,0.0) */
{
DOMAINF; NAMEF = (char *) "atan2f";
RETVAL_ZEROF;
NOT_MATHERRF
{
ifSVID
{
WRITEF_ATAN2_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(float *)retval = excf.retval;
break;
}
case atan2dl_zero:
/* atan2dl(0.0,0.0) */
{
DOMAINL; NAMEL = (char *) "atan2dl";
RETVAL_ZEROL;
NOT_MATHERRL
{
ifSVID
{
WRITEL_ATAN2D_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(long double *)retval = excl.retval;
break;
}
case atan2d_zero:
/* atan2d(0.0,0.0) */
{
DOMAIND; NAMED = (char *) "atan2d";
RETVAL_ZEROD;
NOT_MATHERRD
{
ifSVID
{
WRITED_ATAN2D_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(double *)retval = exc.retval;
break;
}
case atan2df_zero:
/* atan2df(0.0,0.0) */
{
DOMAINF; NAMEF = (char *) "atan2df";
RETVAL_ZEROF;
NOT_MATHERRF
{
ifSVID
{
WRITEF_ATAN2D_ZERO_BY_ZERO;
}
ERRNO_DOMAIN;
}
*(float *)retval = excf.retval;
break;
}
case expm1_overflow:
/* expm1(finite) overflow */
/* Overflow is the only documented */
/* special value. */
{
ERRNO_RANGE;
break;
}
case expm1f_overflow:
/* expm1f(finite) overflow */
{
ERRNO_RANGE;
break;
}
case expm1_underflow:
/* expm1(finite) underflow */
/* Underflow is not documented */
/* special value. */
{
ERRNO_RANGE;
break;
}
case expm1f_underflow:
/* expm1f(finite) underflow */
{
ERRNO_RANGE;
break;
}
case scalbl_underflow:
/* scalbl underflow */
{
UNDERFLOWL; NAMEL = (char *) "scalbl";
if (INPUT_XL < ZEROL_VALUE /*0.0L*/) RETVAL_NEG_ZEROL;
else RETVAL_ZEROL;
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case scalb_underflow:
/* scalb underflow */
{
UNDERFLOWD; NAMED = (char *) "scalb";
if (INPUT_XD < ZEROD_VALUE /*0.0*/) RETVAL_NEG_ZEROD;
else RETVAL_ZEROD;
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case scalbf_underflow:
/* scalbf underflow */
{
UNDERFLOWF; NAMEF = (char *) "scalbf";
if (INPUT_XF < ZEROF_VALUE /*0.0*/) RETVAL_NEG_ZEROF;
else RETVAL_ZEROF;
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case scalbl_overflow:
/* scalbl overflow */
{
OVERFLOWL; NAMEL = (char *) "scalbl";
if (INPUT_XL < ZEROL_VALUE /*0*/) RETVAL_NEG_HUGE_VALL;
else RETVAL_HUGE_VALL;
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case scalb_overflow:
/* scalb overflow */
{
OVERFLOWD; NAMED = (char *) "scalb";
if (INPUT_XD < ZEROD_VALUE /*0*/) RETVAL_NEG_HUGE_VALD;
else RETVAL_HUGE_VALD;
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case scalbf_overflow:
/* scalbf overflow */
{
OVERFLOWF; NAMEF = (char *) "scalbf";
if (INPUT_XF < ZEROF_VALUE /*0*/) RETVAL_NEG_HUGE_VALF;
else RETVAL_HUGE_VALF;
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case hypotl_overflow:
/* hypotl overflow */
{
OVERFLOWL; NAMEL = (char *) "hypotl";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case hypot_overflow:
/* hypot overflow */
{
OVERFLOWD; NAMED = (char *) "hypot";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case hypotf_overflow:
/* hypotf overflow */
{
OVERFLOWF; NAMEF = (char *) "hypotf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case acosl_gt_one:
/* acosl(x > 1) */
{
DOMAINL; NAMEL = (char *) "acosl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_ACOS;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case acos_gt_one:
/* acos(x > 1) */
{
DOMAIND; NAMED = (char *) "acos";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_ACOS;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case acosf_gt_one:
/* acosf(x > 1) */
{
DOMAINF; NAMEF = (char *) "acosf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_ACOS;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case asinl_gt_one:
/* asinl(x > 1) */
{
DOMAINL; NAMEL = (char *) "asinl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_ASIN;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case asin_gt_one:
/* asin(x > 1) */
{
DOMAIND; NAMED = (char *) "asin";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_ASIN;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case asinf_gt_one:
/* asinf(x > 1) */
{
DOMAINF; NAMEF = (char *) "asinf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_ASIN;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case acosdl_gt_one:
/* acosdl(x > 1) */
{
DOMAINL; NAMEL = (char *) "acosdl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_ACOSD;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case acosd_gt_one:
/* acosd(x > 1) */
{
DOMAIND; NAMED = (char *) "acosd";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_ACOSD;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case acosdf_gt_one:
/* acosdf(x > 1) */
{
DOMAINF; NAMEF = (char *) "acosdf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_ACOSD;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case asindl_gt_one:
/* asindl(x > 1) */
{
DOMAINL; NAMEL = (char *) "asindl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_ASIND;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case asind_gt_one:
/* asind(x > 1) */
{
DOMAIND; NAMED = (char *) "asind";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_ASIND;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case asindf_gt_one:
/* asindf(x > 1) */
{
DOMAINF; NAMEF = (char *) "asindf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_ASIND;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case coshl_overflow:
/* coshl overflow */
{
OVERFLOWL; NAMEL = (char *) "coshl";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case cosh_overflow:
/* cosh overflow */
{
OVERFLOWD; NAMED = (char *) "cosh";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case coshf_overflow:
/* coshf overflow */
{
OVERFLOWF; NAMEF = (char *) "coshf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case sinhl_overflow:
/* sinhl overflow */
{
OVERFLOWL; NAMEL = (char *) "sinhl";
ifSVID
{
if (INPUT_XL > ZEROL_VALUE /*0.0*/) RETVAL_HUGEL;
else RETVAL_NEG_HUGEL;
}
else
{
if (INPUT_XL > ZEROL_VALUE /*0.0*/) RETVAL_HUGE_VALL;
else RETVAL_NEG_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case sinh_overflow:
/* sinh overflow */
{
OVERFLOWD; NAMED = (char *) "sinh";
ifSVID
{
if (INPUT_XD > ZEROD_VALUE /*0.0*/) RETVAL_HUGED;
else RETVAL_NEG_HUGED;
}
else
{
if (INPUT_XD > ZEROD_VALUE /*0.0*/) RETVAL_HUGE_VALD;
else RETVAL_NEG_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case sinhf_overflow:
/* sinhf overflow */
{
OVERFLOWF; NAMEF = (char *) "sinhf";
ifSVID
{
if (INPUT_XF > ZEROF_VALUE /*0.0*/) RETVAL_HUGEF;
else RETVAL_NEG_HUGEF;
}
else
{
if (INPUT_XF > ZEROF_VALUE /*0.0*/) RETVAL_HUGE_VALF;
else RETVAL_NEG_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case acoshl_lt_one:
/* acoshl(x < 1) */
{
DOMAINL; NAMEL = (char *) "acoshl";
ifSVID
{
NOT_MATHERRL
{
WRITEL_ACOSH;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case acosh_lt_one:
/* acosh(x < 1) */
{
DOMAIND; NAMED = (char *) "acosh";
ifSVID
{
NOT_MATHERRD
{
WRITED_ACOSH;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case acoshf_lt_one:
/* acoshf(x < 1) */
{
DOMAINF; NAMEF = (char *) "acoshf";
ifSVID
{
NOT_MATHERRF
{
WRITEF_ACOSH;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case atanhl_gt_one:
/* atanhl(|x| > 1) */
{
DOMAINL; NAMEL = (char *) "atanhl";
ifSVID
{
NOT_MATHERRL
{
WRITEL_ATANH_GT_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
break;
}
case atanh_gt_one:
/* atanh(|x| > 1) */
{
DOMAIND; NAMED = (char *) "atanh";
ifSVID
{
NOT_MATHERRD
{
WRITED_ATANH_GT_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
break;
}
case atanhf_gt_one:
/* atanhf(|x| > 1) */
{
DOMAINF; NAMEF = (char *) "atanhf";
ifSVID
{
NOT_MATHERRF
{
WRITEF_ATANH_GT_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
break;
}
case atanhl_eq_one:
/* atanhl(|x| == 1) */
{
SINGL; NAMEL = (char *) "atanhl";
ifSVID
{
NOT_MATHERRL
{
WRITEL_ATANH_EQ_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
break;
}
case atanh_eq_one:
/* atanh(|x| == 1) */
{
SINGD; NAMED = (char *) "atanh";
ifSVID
{
NOT_MATHERRD
{
WRITED_ATANH_EQ_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
break;
}
case atanhf_eq_one:
/* atanhf(|x| == 1) */
{
SINGF; NAMEF = (char *) "atanhf";
ifSVID
{
NOT_MATHERRF
{
WRITEF_ATANH_EQ_ONE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
break;
}
case gammal_overflow:
/* gammal overflow */
{
OVERFLOWL; NAMEL = (char *) "gammal";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case gamma_overflow:
/* gamma overflow */
{
OVERFLOWD; NAMED = (char *) "gamma";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case gammaf_overflow:
/* gammaf overflow */
{
OVERFLOWF; NAMEF = (char *) "gammaf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case gammal_negative:
/* gammal -int or 0 */
{
SINGL; NAMEL = (char *) "gammal";
ifSVID
{
RETVAL_HUGEL;
NOT_MATHERRL
{
WRITEL_GAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case gamma_negative:
/* gamma -int or 0 */
{
SINGD; NAMED = (char *) "gamma";
ifSVID
{
RETVAL_HUGED;
NOT_MATHERRD
{
WRITED_GAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case gammaf_negative:
/* gammaf -int or 0 */
{
SINGF; NAMEF = (char *) "gammaf";
ifSVID
{
RETVAL_HUGEF;
NOT_MATHERRF
{
WRITEF_GAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case lgammal_overflow:
/* lgammal overflow */
{
OVERFLOWL; NAMEL = (char *) "lgammal";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case lgamma_overflow:
/* lgamma overflow */
{
OVERFLOWD; NAMED = (char *) "lgamma";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case lgammaf_overflow:
/* lgammaf overflow */
{
OVERFLOWF; NAMEF = (char *) "lgammaf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case lgammal_negative:
/* lgammal -int or 0 */
{
SINGL; NAMEL = (char *) "lgammal";
ifSVID
{
RETVAL_HUGEL;
NOT_MATHERRL
{
WRITEL_LGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case lgamma_negative:
/* lgamma -int or 0 */
{
SINGD; NAMED = (char *) "lgamma";
ifSVID
{
RETVAL_HUGED;
NOT_MATHERRD
{
WRITED_LGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case lgammaf_negative:
/* lgammaf -int or 0 */
{
SINGF; NAMEF = (char *) "lgammaf";
ifSVID
{
RETVAL_HUGEF;
NOT_MATHERRF
{
WRITEF_LGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case tgammal_overflow:
/* tgammal overflow */
{
OVERFLOWL; NAMEL = (char *) "tgammal";
ifSVID
{
RETVAL_HUGEL;
}
else
{
RETVAL_HUGE_VALL;
}
NOT_MATHERRL {ERRNO_RANGE;}
*(long double *)retval = excl.retval;
break;
}
case tgamma_overflow:
/* tgamma overflow */
{
OVERFLOWD; NAMED = (char *) "tgamma";
ifSVID
{
RETVAL_HUGED;
}
else
{
RETVAL_HUGE_VALD;
}
NOT_MATHERRD {ERRNO_RANGE;}
*(double *)retval = exc.retval;
break;
}
case tgammaf_overflow:
/* tgammaf overflow */
{
OVERFLOWF; NAMEF = (char *) "tgammaf";
ifSVID
{
RETVAL_HUGEF;
}
else
{
RETVAL_HUGE_VALF;
}
NOT_MATHERRF {ERRNO_RANGE;}
*(float *)retval = excf.retval;
break;
}
case tgammal_negative:
/* tgammal -int or 0 */
{
SINGL; NAMEL = (char *) "tgammal";
ifSVID
{
NOT_MATHERRL
{
WRITEL_TGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case tgamma_negative:
/* tgamma -int or 0 */
{
SINGD; NAMED = (char *) "tgamma";
ifSVID
{
NOT_MATHERRD
{
WRITED_TGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case tgammaf_negative:
/* tgammaf -int or 0 */
{
SINGF; NAMEF = (char *) "tgammaf";
ifSVID
{
NOT_MATHERRF
{
WRITEF_TGAMMA_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case j0l_gt_loss:
/* j0l > loss */
{
TLOSSL; NAMEL = (char *) "j0l";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_J0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case j0_gt_loss:
/* j0 > loss */
{
TLOSSD; NAMED = (char *) "j0";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_J0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case j0f_gt_loss:
/* j0f > loss */
{
TLOSSF; NAMEF = (char *) "j0f";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_J0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case j1l_gt_loss:
/* j1l > loss */
{
TLOSSL; NAMEL = (char *) "j1l";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_J1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case j1_gt_loss:
/* j1 > loss */
{
TLOSSD; NAMED = (char *) "j1";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_J1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case j1f_gt_loss:
/* j1f > loss */
{
TLOSSF; NAMEF = (char *) "j1f";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_J1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case jnl_gt_loss:
/* jnl > loss */
{
TLOSSL; NAMEL = (char *) "jnl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_JN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case jn_gt_loss:
/* jn > loss */
{
TLOSSD; NAMED = (char *) "jn";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_JN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case jnf_gt_loss:
/* jnf > loss */
{
TLOSSF; NAMEF = (char *) "jnf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_JN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case y0l_gt_loss:
/* y0l > loss */
{
TLOSSL; NAMEL = (char *) "y0l";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_Y0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case y0_gt_loss:
/* y0 > loss */
{
TLOSSD; NAMED = (char *) "y0";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_Y0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case y0f_gt_loss:
/* y0f > loss */
{
TLOSSF; NAMEF = (char *) "y0f";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_Y0_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case y0l_zero:
/* y0l(0) */
{
DOMAINL; NAMEL = (char *) "y0l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_Y0_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case y0_zero:
/* y0(0) */
{
DOMAIND; NAMED = (char *) "y0";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_Y0_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case y0f_zero:
/* y0f(0) */
{
DOMAINF; NAMEF = (char *) "y0f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_Y0_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case y1l_gt_loss:
/* y1l > loss */
{
TLOSSL; NAMEL = (char *) "y1l";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_Y1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case y1_gt_loss:
/* y1 > loss */
{
TLOSSD; NAMED = (char *) "y1";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_Y1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case y1f_gt_loss:
/* y1f > loss */
{
TLOSSF; NAMEF = (char *) "y1f";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_Y1_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case y1l_zero:
/* y1l(0) */
{
DOMAINL; NAMEL = (char *) "y1l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_Y1_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case y1_zero:
/* y1(0) */
{
DOMAIND; NAMED = (char *) "y1";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_Y1_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case y1f_zero:
/* y1f(0) */
{
DOMAINF; NAMEF = (char *) "y1f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_Y1_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case ynl_gt_loss:
/* ynl > loss */
{
TLOSSL; NAMEL = (char *) "ynl";
RETVAL_ZEROL;
ifSVID
{
NOT_MATHERRL
{
WRITEL_YN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRL {ERRNO_RANGE;}
}
*(long double *)retval = excl.retval;
break;
}
case yn_gt_loss:
/* yn > loss */
{
TLOSSD; NAMED = (char *) "yn";
RETVAL_ZEROD;
ifSVID
{
NOT_MATHERRD
{
WRITED_YN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRD {ERRNO_RANGE;}
}
*(double*)retval = exc.retval;
break;
}
case ynf_gt_loss:
/* ynf > loss */
{
TLOSSF; NAMEF = (char *) "ynf";
RETVAL_ZEROF;
ifSVID
{
NOT_MATHERRF
{
WRITEF_YN_TLOSS;
ERRNO_RANGE;
}
}
else
{
NOT_MATHERRF {ERRNO_RANGE;}
}
*(float*)retval = excf.retval;
break;
}
case ynl_zero:
/* ynl(0) */
{
DOMAINL; NAMEL = (char *) "ynl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_YN_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case yn_zero:
/* yn(0) */
{
DOMAIND; NAMED = (char *) "yn";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_YN_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case ynf_zero:
/* ynf(0) */
{
DOMAINF; NAMEF = (char *) "ynf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_YN_ZERO;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case y0l_negative:
/* y0l(x<0) */
{
DOMAINL; NAMEL = (char *) "y0l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_Y0_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case y0_negative:
/* y0(x<0) */
{
DOMAIND; NAMED = (char *) "y0";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_Y0_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case y0f_negative:
/* y0f(x<0) */
{
DOMAINF; NAMEF = (char *) "y0f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_Y0_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case y1l_negative:
/* y1l(x<0) */
{
DOMAINL; NAMEL = (char *) "y1l";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_Y1_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case y1_negative:
/* y1(x<0) */
{
DOMAIND; NAMED = (char *) "y1";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_Y1_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case y1f_negative:
/* y1f(x<0) */
{
DOMAINF; NAMEF = (char *) "y1f";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_Y1_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case ynl_negative:
/* ynl(x<0) */
{
DOMAINL; NAMEL = (char *) "ynl";
ifSVID
{
RETVAL_NEG_HUGEL;
NOT_MATHERRL
{
WRITEL_YN_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALL;
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case yn_negative:
/* yn(x<0) */
{
DOMAIND; NAMED = (char *) "yn";
ifSVID
{
RETVAL_NEG_HUGED;
NOT_MATHERRD
{
WRITED_YN_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALD;
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case ynf_negative:
/* ynf(x<0) */
{
DOMAINF; NAMEF = (char *) "ynf";
ifSVID
{
RETVAL_NEG_HUGEF;
NOT_MATHERRF
{
WRITEF_YN_NEGATIVE;
ERRNO_DOMAIN;
}
}
else
{
RETVAL_NEG_HUGE_VALF;
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case fmodl_by_zero:
/* fmodl(x,0) */
{
DOMAINL; NAMEL = (char *) "fmodl";
ifSVID
{
*(long double *)retval = *(long double *)arg1;
NOT_MATHERRL
{
WRITEL_FMOD;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case fmod_by_zero:
/* fmod(x,0) */
{
DOMAIND; NAMED = (char *) "fmod";
ifSVID
{
*(double *)retval = *(double *)arg1;
NOT_MATHERRD
{
WRITED_FMOD;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case fmodf_by_zero:
/* fmodf(x,0) */
{
DOMAINF; NAMEF = (char *) "fmodf";
ifSVID
{
*(float *)retval = *(float *)arg1;
NOT_MATHERRF
{
WRITEF_FMOD;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
case remainderl_by_zero:
/* remainderl(x,0) */
{
DOMAINL; NAMEL = (char *) "remainderl";
ifSVID
{
NOT_MATHERRL
{
WRITEL_REM;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRL {ERRNO_DOMAIN;}
}
*(long double *)retval = excl.retval;
break;
}
case remainder_by_zero:
/* remainder(x,0) */
{
DOMAIND; NAMED = (char *) "remainder";
ifSVID
{
NOT_MATHERRD
{
WRITED_REM;
ERRNO_DOMAIN;
}
}
else
{ /* NaN already computed */
NOT_MATHERRD {ERRNO_DOMAIN;}
}
*(double *)retval = exc.retval;
break;
}
case remainderf_by_zero:
/* remainderf(x,0) */
{
DOMAINF; NAMEF = (char *) "remainderf";
ifSVID
{
NOT_MATHERRF
{
WRITEF_REM;
ERRNO_DOMAIN;
}
}
else
{
NOT_MATHERRF {ERRNO_DOMAIN;}
}
*(float *)retval = excf.retval;
break;
}
default:
/* We don't want to abort () since SVID doesn't cover all math
library functions. */
break;
}
return;
}
}