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libm_error.c

//
// Copyright (C) 2000, 2001, Intel Corporation
// All rights reserved.
//
// Contributed 2/2/2000 by John Harrison, Ted Kubaska, Bob Norin, Shane Story, James
// Edwards, and Ping Tak Peter Tang of the Computational Software Lab, Intel Corporation.
//
// 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://developer.intel.com/opensource.
//
// 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.
//

#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include "libm_support.h"

#ifndef _LIBC
_LIB_VERSION_TYPE
#if defined( __POSIX__ )
_LIB_VERSION = _POSIX_;
#elif defined( __XOPEN__ )
_LIB_VERSION = _XOPEN_;
#elif defined( __SVID__ )
_LIB_VERSION = _SVID_;
#elif defined( __IEEE__ )
_LIB_VERSION = _IEEE_;
#else
_LIB_VERSION = _ISOC_;
#endif
#endif

/************************************************************/
/* matherrX function pointers and setusermatherrX functions */
/************************************************************/
#if 0
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

/***********************************************/
/* 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;

# if defined opensource || defined _LIBC
#define ALIGNIT
#define ALIGNATTR __attribute__ ((__aligned__ (16)))
# else
#define ALIGNIT __declspec(align(16))
#define ALIGNATTR
# endif

const char float_inf[4] = {0x00,0x00,0x80,0x7F};
const char float_huge[4] = {0xFF,0xFF,0x7F,0x7F};
const char float_zero[4] = {0x00,0x00,0x00,0x00};
const char float_neg_inf[4] = {0x00,0x00,0x80,0xFF};
const char float_neg_huge[4] = {0xFF,0xFF,0x7F,0xFF};
const char float_neg_zero[4] = {0x00,0x00,0x00,0x80};
ALIGNIT
const char double_inf[8] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0xF0,0x7F};
ALIGNIT
//const char double_huge[8] ALIGNATTR = {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xEF,0x7F};
ALIGNIT
const char double_zero[8] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
const char double_neg_inf[8] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0xF0,0xFF};
ALIGNIT
//const char double_neg_huge[8] ALIGNATTR = {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xEF,0xFF};
ALIGNIT
const char double_neg_zero[8] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80};
ALIGNIT
const char long_double_inf[16] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80,0xFF,0x7F,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
//const char long_double_huge[16] ALIGNATTR = {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFE,0x7F,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
const char long_double_zero[16] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
const char long_double_neg_inf[16] ALIGNATTR = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80,0xFF,0xFF,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
//const char long_double_neg_huge[16] ALIGNATTR = {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF, 0xFE,0xFF,0x00,0x00,0x00,0x00,0x00,0x00};
ALIGNIT
const char long_double_neg_zero[16] ALIGNATTR = {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 *)long_double_inf
#define RETVAL_NEG_HUGE_VALL *(long double *)retval = *(long double *)long_double_neg_inf
#define RETVAL_HUGEL *(long double *)retval = (long double)*(float *)float_huge
#define RETVAL_NEG_HUGEL *(long double *)retval =(long double)*(float*)float_neg_huge

#define RETVAL_HUGE_VALD *(double *)retval = *(double *) double_inf
#define RETVAL_NEG_HUGE_VALD *(double *)retval = *(double *) double_neg_inf
#define RETVAL_HUGED *(double *)retval = (double) *(float *)float_huge
#define RETVAL_NEG_HUGED *(double *)retval = (double) *(float *) float_neg_huge

#define RETVAL_HUGE_VALF *(float *)retval =  *(float *) float_inf
#define RETVAL_NEG_HUGE_VALF *(float *)retval = *(float *) float_neg_inf
#define RETVAL_HUGEF *(float *)retval = *(float *) float_huge
#define RETVAL_NEG_HUGEF *(float *)retval = *(float *) float_neg_huge

#define RETVAL_ZEROL *(long double *)retval = *(long double *)long_double_zero
#define RETVAL_ZEROD *(double *)retval = *(double *)double_zero
#define RETVAL_ZEROF *(float *)retval = *(float *)float_zero

#define RETVAL_NEG_ZEROL *(long double *)retval = *(long double *)long_double_neg_zero
#define RETVAL_NEG_ZEROD *(double *)retval = *(double *)double_neg_zero
#define RETVAL_NEG_ZEROF *(float *)retval = *(float *)float_neg_zero

#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(!matherrl(&excl))
#define NOT_MATHERRD exc.arg1=*(double *)arg1;exc.arg2=*(double *)arg2;exc.retval=*(double *)retval;if(!MATHERR_D(&exc))
#define NOT_MATHERRF excf.arg1=*(float *)arg1;excf.arg2=*(float *)arg2;excf.retval=*(float *)retval;if(!MATHERR_F(&excf))

#define ifSVID if(_LIB_VERSION==_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.arg1=*(long double*)arg2)
#define INPUT_YD (exc.arg1=*(double*)arg2)
#define INPUT_YF (excf.arg1=*(float*)arg2)
#define INPUT_RESL (*(long double *)retval)
#define INPUT_RESD (*(double *)retval)
#define INPUT_RESF (*(float *)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_NEGATIUE 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_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_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)

/***********************/
/* IEEE Path           */
/***********************/
if(_LIB_VERSION==_IEEE_) return;

/***********************/
/* C9X Path           */
/***********************/
else if(_LIB_VERSION==_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 powl_underflow:
    case pow_underflow:
    case powf_underflow:
    case expl_overflow:
    case exp_overflow:
    case expf_overflow:
    case expl_underflow:
    case exp_underflow:
    case expf_underflow:
    case exp2l_overflow:
    case exp2_overflow:
    case exp2f_overflow:
    case exp2l_underflow:
    case exp2_underflow:
    case exp2f_underflow:
    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 scalbl_underflow:
    case scalb_underflow:
    case scalbf_underflow:
    case coshl_overflow:
    case cosh_overflow:
    case coshf_overflow:
    case nextafterl_overflow:
    case nextafter_overflow:
    case nextafterf_overflow:
    case scalbnl_overflow:
    case scalbn_overflow:
    case scalbnf_overflow:
    case scalbnl_underflow:
    case scalbn_underflow:
    case scalbnf_underflow:
    case ldexpl_overflow:
    case ldexp_overflow:
    case ldexpf_overflow:
    case ldexpl_underflow:
    case ldexp_underflow:
    case ldexpf_underflow:
    case lgammal_overflow:
    case lgamma_overflow:
    case lgammaf_overflow:
    case lgammal_negative:
    case lgamma_negative:
    case lgammaf_negative:
    case gammal_overflow:
    case gamma_overflow:
    case gammaf_overflow:
    case gammal_negative:
    case gamma_negative:
    case gammaf_negative:
    case ilogbl_zero:
    case ilogb_zero:
    case ilogbf_zero:
    {
         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:
    {
         ERRNO_DOMAIN; break;
    }
    default:
      abort();
   }
   return;
}

/***********************/
/* _POSIX_ Path        */
/***********************/

else if(_LIB_VERSION==_POSIX_)
{
switch(input_tag)
  {
  case gammal_overflow:
  case lgammal_overflow:
  {
       RETVAL_HUGE_VALL; ERRNO_RANGE; break;
  }
  case gamma_overflow:
  case lgamma_overflow:
  {
       RETVAL_HUGE_VALD; ERRNO_RANGE; break;
  }
  case gammaf_overflow:
  case lgammaf_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:
  {
       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:
  {
       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) */
    {
       RETVAL_NEG_HUGE_VALL; 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:
    /* logl(0) */
    /* log1pl(0) */
    /* log10l(0) */
    {
       RETVAL_NEG_HUGE_VALL; ERRNO_RANGE; break;
    }
  case log_zero:
  case log1p_zero:
  case log10_zero:
  case log2l_zero:
   /* log(0) */
   /* log1p(0) */
   /* log10(0) */
    {
       RETVAL_NEG_HUGE_VALD; ERRNO_RANGE; break;
    }
  case logf_zero:
  case log1pf_zero:
  case log10f_zero:
    /* logf(0) */
    /* log1pf(0) */
    /* log10f(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 < 0) */
    /* log10l(x < 0) */
    {
       ERRNO_DOMAIN; break;
    }
  case log_negative:
  case log1p_negative:
  case log10_negative:
  case log2_negative:
    /* log(x < 0) */
    /* log1p(x < 0) */
    /* log10(x < 0) */
    {
       ERRNO_DOMAIN; break;
    }
  case logf_negative:
  case log1pf_negative:
  case log10f_negative:
  case log2f_negative:
    /* logf(x < 0) */
    /* log1pf(x < 0) */
    /* log10f(x < 0) */
    {
       ERRNO_DOMAIN; break;
    }
  case expl_overflow:
    /* expl overflow */
    {
       RETVAL_HUGE_VALL; ERRNO_RANGE; break;
    }
  case exp_overflow:
    /* exp overflow */
    {
       RETVAL_HUGE_VALD; ERRNO_RANGE; break;
    }
  case expf_overflow:
    /* expf overflow */
    {
       RETVAL_HUGE_VALF; ERRNO_RANGE; break;
    }
  case expl_underflow:
    /* expl underflow */
    {
       RETVAL_ZEROL; ERRNO_RANGE; break;
    }
  case exp_underflow:
    /* exp underflow */
    {
       RETVAL_ZEROD; ERRNO_RANGE; break;
    }
  case expf_underflow:
    /* expf underflow */
    {
       RETVAL_ZEROF; 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:
    /* powl(x,y) overflow */
    {
       if (INPUT_RESL < 0) RETVAL_NEG_HUGE_VALL;
       else RETVAL_HUGE_VALL;
       ERRNO_RANGE; break;
    }
  case pow_overflow:
    /* pow(x,y) overflow */
    {
       if (INPUT_RESD < 0) RETVAL_NEG_HUGE_VALD;
       else RETVAL_HUGE_VALD;
       ERRNO_RANGE; break;
    }
  case powf_overflow:
    /* powf(x,y) overflow */
    {
       if (INPUT_RESF < 0) RETVAL_NEG_HUGE_VALF;
       else RETVAL_HUGE_VALF;
       ERRNO_RANGE; break;
    }
  case powl_underflow:
    /* powl(x,y) underflow */
    {
       RETVAL_ZEROL; ERRNO_RANGE; break;
    }
  case pow_underflow:
    /* pow(x,y) underflow */
    {
       RETVAL_ZEROD; ERRNO_RANGE; break;
    }
  case  powf_underflow:
    /* powf(x,y) underflow */
    {
       RETVAL_ZEROF; ERRNO_RANGE; 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:
    /* atan2l(0,0) */
    {
      /* XXX  arg1 and arg2 are switched!!!!  */
       if (signbit (*(long double *) arg1))
       /* y == -0 */
       *(long double *) retval = copysignl (M_PIl, *(long double *) arg2);
       else
       *(long double *) retval = *(long double *) arg2;
       ERRNO_DOMAIN; break;
    }
  case atan2_zero:
    /* atan2(0,0) */
    {
      /* XXX  arg1 and arg2 are switched!!!!  */
       if (signbit (*(double *) arg1))
       /* y == -0 */
       *(double *) retval = copysign (M_PI, *(double *) arg2);
       else
       *(double *) retval = *(double *) arg2;
       ERRNO_DOMAIN; break;
    }
  case
    atan2f_zero:
    /* atan2f(0,0) */
    {
       if (signbit (*(float *) arg2))
       /* y == -0 */
       *(float *) retval = copysignf (M_PI, *(float *) arg1);
       else
       *(float *) retval = *(float *) arg1;
       ERRNO_DOMAIN; 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 < 0) RETVAL_NEG_ZEROL;
       else RETVAL_ZEROL;
       ERRNO_RANGE; break;
    }
  case scalb_underflow:
    /* scalb underflow */
    {
       if (INPUT_XD < 0) RETVAL_NEG_ZEROD;
       else RETVAL_ZEROD;
       ERRNO_RANGE; break;
    }
  case scalbf_underflow:
    /* scalbf underflow */
    {
       if (INPUT_XF < 0) RETVAL_NEG_ZEROF;
       else RETVAL_ZEROF;
       ERRNO_RANGE; break;
    }
  case scalbl_overflow:
    /* scalbl overflow */
    {
       if (INPUT_XL < 0) RETVAL_NEG_HUGE_VALL;
       else RETVAL_HUGE_VALL;
       ERRNO_RANGE; break;
    }
  case scalb_overflow:
    /* scalb overflow */
    {
       if (INPUT_XD < 0) RETVAL_NEG_HUGE_VALD;
       else RETVAL_HUGE_VALD;
       ERRNO_RANGE; break;
    }
  case scalbf_overflow:
    /* scalbf overflow */
    {
       if (INPUT_XF < 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:
    /* acosl(x > 1) */
    {
       ERRNO_DOMAIN; break;
    }
  case acos_gt_one:
    /* acos(x > 1) */
    {
      ERRNO_DOMAIN; break;
    }
  case acosf_gt_one:
    /* acosf(x > 1) */
    {
      ERRNO_DOMAIN; break;
    }
  case asinl_gt_one:
    /* asinl(x > 1) */
    {
       ERRNO_DOMAIN; break;
    }
  case asin_gt_one:
    /* asin(x > 1) */
    {
       ERRNO_DOMAIN; break;
    }
  case asinf_gt_one:
    /* asinf(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 > 0) RETVAL_HUGE_VALL;
       else RETVAL_NEG_HUGE_VALL;
       ERRNO_RANGE; break;
    }
  case sinh_overflow:
    /* sinh overflows */
    {
       if (INPUT_XD > 0) RETVAL_HUGE_VALD;
       else RETVAL_NEG_HUGE_VALD;
       ERRNO_RANGE; break;
    }
  case sinhf_overflow:
    /* sinhf overflows */
    {
       if (INPUT_XF > 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:
    abort();
}
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:
  {
       ERRNO_RANGE; 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:
  case log2l_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:
  case log2_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:
  case log2f_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:
  case log2l_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:
  case log2_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:
  case log2f_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 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_RANGE;
         }
         *(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_RANGE;
         }
         *(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_RANGE;
         }
         *(float *)retval = excf.retval;
       }
       else RETVAL_ONEF;
       break;
    }
  case powl_overflow:
    /* powl(x,y) overflow */
    {
       OVERFLOWL; NAMEL = (char *) "powl";
       ifSVID
       {
         if (INPUT_XL < 0)  RETVAL_NEG_HUGEL;
         else RETVAL_HUGEL;
       }
       else
       {
         if (INPUT_XL < 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_XD < 0) RETVAL_NEG_HUGED;
         else RETVAL_HUGED;
       }
       else
       {
         if (INPUT_XD < 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_XF < 0) RETVAL_NEG_HUGEF;
         else RETVAL_HUGEF;
       }
       else
       {
         if (INPUT_XF < 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";
       RETVAL_NEG_HUGE_VALF;
       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_ZEROF;
         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"; INPUT_XL; INPUT_YL;
       excl.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"; INPUT_XD; INPUT_YD;
       exc.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"; INPUT_XF; INPUT_YF;
       excf.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 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 < 0.0L) RETVAL_NEG_ZEROL;
       else  RETVAL_ZEROL;
       NOT_MATHERRL {ERRNO_RANGE;}
       *(long double *)retval = excf.retval;
       break;
    }
  case scalb_underflow:
    /* scalb underflow */
    {
       UNDERFLOWD; NAMED = (char *) "scalb";
       if (INPUT_XD < 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 < 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 < 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 < 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 < 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 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 > 0.0) RETVAL_HUGEL;
        else RETVAL_NEG_HUGEL;
      }
      else
      {
        if (INPUT_XL > 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 > 0.0) RETVAL_HUGED;
        else RETVAL_NEG_HUGED;
      }
      else
      {
        if (INPUT_XD > 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 > 0.0) RETVAL_HUGEF;
        else RETVAL_NEG_HUGEF;
      }
      else
      {
        if (INPUT_XF > 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
         {
          WRITEL_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;
       ERRNO_DOMAIN; 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 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 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 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_NEGATIUE;
           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:
    abort();
   }
   return;
   }
}

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