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[/] [openrisc/] [trunk/] [gnu-src/] [newlib-1.18.0/] [newlib/] [libm/] [mathfp/] [w_jn.c] - Blame information for rev 326

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Line No. Rev Author Line
1 207 jeremybenn
 
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/* @(#)w_jn.c 5.1 93/09/24 */
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/*
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 * ====================================================
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 * Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.
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 *
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 * Developed at SunPro, a Sun Microsystems, Inc. business.
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 * Permission to use, copy, modify, and distribute this
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 * software is freely granted, provided that this notice
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 * is preserved.
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 * ====================================================
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 */
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/*
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FUNCTION
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<<jN>>, <<jNf>>, <<yN>>, <<yNf>>---Bessel functions
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INDEX
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j0
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INDEX
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j0f
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INDEX
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j1
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INDEX
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j1f
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INDEX
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jn
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INDEX
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jnf
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INDEX
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y0
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INDEX
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y0f
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INDEX
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y1
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INDEX
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y1f
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INDEX
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yn
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INDEX
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ynf
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ANSI_SYNOPSIS
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#include <math.h>
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double j0(double <[x]>);
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float j0f(float <[x]>);
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double j1(double <[x]>);
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float j1f(float <[x]>);
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double jn(int <[n]>, double <[x]>);
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float jnf(int <[n]>, float <[x]>);
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double y0(double <[x]>);
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float y0f(float <[x]>);
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double y1(double <[x]>);
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float y1f(float <[x]>);
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double yn(int <[n]>, double <[x]>);
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float ynf(int <[n]>, float <[x]>);
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TRAD_SYNOPSIS
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#include <math.h>
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double j0(<[x]>)
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double <[x]>;
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float j0f(<[x]>)
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float <[x]>;
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double j1(<[x]>)
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double <[x]>;
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float j1f(<[x]>)
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float <[x]>;
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double jn(<[n]>, <[x]>)
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int <[n]>;
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double <[x]>;
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float jnf(<[n]>, <[x]>)
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int <[n]>;
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float <[x]>;
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double y0(<[x]>)
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double <[x]>;
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float y0f(<[x]>)
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float <[x]>;
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double y1(<[x]>)
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double <[x]>;
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float y1f(<[x]>)
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float <[x]>;
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double yn(<[n]>, <[x]>)
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int <[n]>;
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double <[x]>;
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float ynf(<[n]>, <[x]>)
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int <[n]>;
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float <[x]>;
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DESCRIPTION
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The Bessel functions are a family of functions that solve the
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differential equation
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@ifnottex
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.  2               2    2
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. x  y'' + xy' + (x  - p )y  = 0
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@end ifnottex
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@tex
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$$x^2{d^2y\over dx^2} + x{dy\over dx} + (x^2-p^2)y = 0$$
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@end tex
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These functions have many applications in engineering and physics.
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<<jn>> calculates the Bessel function of the first kind of order
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<[n]>.  <<j0>> and <<j1>> are special cases for order 0 and order
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1 respectively.
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Similarly, <<yn>> calculates the Bessel function of the second kind of
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order <[n]>, and <<y0>> and <<y1>> are special cases for order 0 and
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1.
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<<jnf>>, <<j0f>>, <<j1f>>, <<ynf>>, <<y0f>>, and <<y1f>> perform the
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same calculations, but on <<float>> rather than <<double>> values.
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RETURNS
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The value of each Bessel function at <[x]> is returned.
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PORTABILITY
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None of the Bessel functions are in ANSI C.
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*/
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/*
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 * wrapper jn(int n, double x), yn(int n, double x)
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 * floating point Bessel's function of the 1st and 2nd kind
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 * of order n
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 *
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 * Special cases:
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 *      y0(0)=y1(0)=yn(n,0) = -inf with division by zero signal;
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 *      y0(-ve)=y1(-ve)=yn(n,-ve) are NaN with invalid signal.
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 * Note 2. About jn(n,x), yn(n,x)
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 *      For n=0, j0(x) is called,
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 *      for n=1, j1(x) is called,
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 *      for n<x, forward recursion us used starting
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 *      from values of j0(x) and j1(x).
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 *      for n>x, a continued fraction approximation to
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 *      j(n,x)/j(n-1,x) is evaluated and then backward
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 *      recursion is used starting from a supposed value
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 *      for j(n,x). The resulting value of j(0,x) is
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 *      compared with the actual value to correct the
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 *      supposed value of j(n,x).
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 *
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 *      yn(n,x) is similar in all respects, except
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 *      that forward recursion is used for all
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 *      values of n>1.
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 *
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 */
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#include "fdlibm.h"
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#include <errno.h>
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#ifndef _DOUBLE_IS_32BITS
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#ifdef __STDC__
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        double jn(int n, double x)      /* wrapper jn */
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#else
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        double jn(n,x)                  /* wrapper jn */
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        double x; int n;
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#endif
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{
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#ifdef _IEEE_LIBM
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        return jn(n,x);
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#else
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        double z;
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        struct exception exc;
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        z = jn(n,x);
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        if(_LIB_VERSION == _IEEE_ || isnan(x) ) return z;
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        if(fabs(x)>X_TLOSS) {
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            /* jn(|x|>X_TLOSS) */
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            exc.type = TLOSS;
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            exc.name = "jn";
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            exc.err = 0;
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            exc.arg1 = n;
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            exc.arg2 = x;
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            exc.retval = 0.0;
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            if (_LIB_VERSION == _POSIX_)
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                errno = ERANGE;
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            else if (!matherr(&exc)) {
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               errno = ERANGE;
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            }
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            if (exc.err != 0)
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               errno = exc.err;
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            return exc.retval;
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        } else
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            return z;
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#endif
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}
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#ifdef __STDC__
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        double yn(int n, double x)      /* wrapper yn */
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#else
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        double yn(n,x)                  /* wrapper yn */
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        double x; int n;
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#endif
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{
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#ifdef _IEEE_LIBM
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        return yn(n,x);
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#else
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        double z;
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        struct exception exc;
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        z = yn(n,x);
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        if(_LIB_VERSION == _IEEE_ || isnan(x) ) return z;
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        if(x <= 0.0){
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            /* yn(n,0) = -inf or yn(x<0) = NaN */
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#ifndef HUGE_VAL 
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#define HUGE_VAL inf
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            double inf = 0.0;
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            SET_HIGH_WORD(inf,0x7ff00000);      /* set inf to infinite */
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#endif
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            exc.type = DOMAIN;  /* should be SING for IEEE */
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            exc.name = "yn";
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            exc.err = 0;
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            exc.arg1 = n;
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            exc.arg2 = x;
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            if (_LIB_VERSION == _SVID_)
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                exc.retval = -HUGE;
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            else
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                exc.retval = -HUGE_VAL;
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            if (_LIB_VERSION == _POSIX_)
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                errno = EDOM;
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            else if (!matherr(&exc)) {
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                errno = EDOM;
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            }
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            if (exc.err != 0)
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               errno = exc.err;
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            return exc.retval;
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        }
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        if(x>X_TLOSS) {
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            /* yn(x>X_TLOSS) */
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            exc.type = TLOSS;
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            exc.name = "yn";
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            exc.err = 0;
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            exc.arg1 = n;
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            exc.arg2 = x;
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            exc.retval = 0.0;
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            if (_LIB_VERSION == _POSIX_)
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                errno = ERANGE;
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            else if (!matherr(&exc)) {
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                errno = ERANGE;
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            }
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            if (exc.err != 0)
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               errno = exc.err;
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            return exc.retval;
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        } else
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            return z;
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#endif
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}
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#endif /* defined(_DOUBLE_IS_32BITS) */

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