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[/] [or1k/] [trunk/] [newlib/] [newlib/] [libm/] [math/] [w_gamma.c] - Blame information for rev 1774

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1 39 lampret
 
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/* @(#)w_gamma.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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/*
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FUNCTION
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        <<gamma>>, <<gammaf>>, <<lgamma>>, <<lgammaf>>, <<gamma_r>>,
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        <<gammaf_r>>, <<lgamma_r>>, <<lgammaf_r>>---logarithmic gamma
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        function
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INDEX
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gamma
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INDEX
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gammaf
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INDEX
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lgamma
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INDEX
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lgammaf
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INDEX
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gamma_r
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INDEX
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gammaf_r
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INDEX
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lgamma_r
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INDEX
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lgammaf_r
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ANSI_SYNOPSIS
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#include <math.h>
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double gamma(double <[x]>);
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float gammaf(float <[x]>);
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double lgamma(double <[x]>);
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float lgammaf(float <[x]>);
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double gamma_r(double <[x]>, int *<[signgamp]>);
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float gammaf_r(float <[x]>, int *<[signgamp]>);
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double lgamma_r(double <[x]>, int *<[signgamp]>);
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float lgammaf_r(float <[x]>, int *<[signgamp]>);
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TRAD_SYNOPSIS
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#include <math.h>
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double gamma(<[x]>)
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double <[x]>;
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float gammaf(<[x]>)
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float <[x]>;
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double lgamma(<[x]>)
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double <[x]>;
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float lgammaf(<[x]>)
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float <[x]>;
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double gamma_r(<[x]>, <[signgamp]>)
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double <[x]>;
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int <[signgamp]>;
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float gammaf_r(<[x]>, <[signgamp]>)
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float <[x]>;
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int <[signgamp]>;
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double lgamma_r(<[x]>, <[signgamp]>)
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double <[x]>;
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int <[signgamp]>;
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float lgammaf_r(<[x]>, <[signgamp]>)
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float <[x]>;
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int <[signgamp]>;
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DESCRIPTION
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<<gamma>> calculates
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@tex
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$\mit ln\bigl(\Gamma(x)\bigr)$,
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@end tex
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the natural logarithm of the gamma function of <[x]>.  The gamma function
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(<<exp(gamma(<[x]>))>>) is a generalization of factorial, and retains
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the property that
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@ifinfo
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<<exp(gamma(N))>> is equivalent to <<N*exp(gamma(N-1))>>.
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@end ifinfo
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@tex
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$\mit \Gamma(N)\equiv N\times\Gamma(N-1)$.
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@end tex
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Accordingly, the results of the gamma function itself grow very
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quickly.  <<gamma>> is defined as
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@tex
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$\mit ln\bigl(\Gamma(x)\bigr)$ rather than simply $\mit \Gamma(x)$
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@end tex
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@ifinfo
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the natural log of the gamma function, rather than the gamma function
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itself,
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@end ifinfo
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to extend the useful range of results representable.
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The sign of the result is returned in the global variable <<signgam>>,
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which is declared in math.h.
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<<gammaf>> performs the same calculation as <<gamma>>, but uses and
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returns <<float>> values.
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<<lgamma>> and <<lgammaf>> are alternate names for <<gamma>> and
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<<gammaf>>.  The use of <<lgamma>> instead of <<gamma>> is a reminder
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that these functions compute the log of the gamma function, rather
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than the gamma function itself.
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The functions <<gamma_r>>, <<gammaf_r>>, <<lgamma_r>>, and
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<<lgammaf_r>> are just like <<gamma>>, <<gammaf>>, <<lgamma>>, and
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<<lgammaf>>, respectively, but take an additional argument.  This
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additional argument is a pointer to an integer.  This additional
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argument is used to return the sign of the result, and the global
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variable <<signgam>> is not used.  These functions may be used for
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reentrant calls (but they will still set the global variable <<errno>>
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if an error occurs).
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RETURNS
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Normally, the computed result is returned.
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When <[x]> is a nonpositive integer, <<gamma>> returns <<HUGE_VAL>>
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and <<errno>> is set to <<EDOM>>.  If the result overflows, <<gamma>>
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returns <<HUGE_VAL>> and <<errno>> is set to <<ERANGE>>.
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You can modify this error treatment using <<matherr>>.
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PORTABILITY
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Neither <<gamma>> nor <<gammaf>> is ANSI C.  */
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/* double gamma(double x)
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 * Return the logarithm of the Gamma function of x.
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 *
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 * Method: call gamma_r
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 */
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#include "fdlibm.h"
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#include <reent.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 gamma(double x)
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#else
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        double gamma(x)
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        double x;
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#endif
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{
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#ifdef _IEEE_LIBM
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        return __ieee754_gamma_r(x,&(_REENT->_new._reent._gamma_signgam));
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#else
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        double y;
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        struct exception exc;
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        y = __ieee754_gamma_r(x,&(_REENT->_new._reent._gamma_signgam));
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        if(_LIB_VERSION == _IEEE_) return y;
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        if(!finite(y)&&finite(x)) {
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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.name = "gamma";
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            exc.err = 0;
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            exc.arg1 = 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(floor(x)==x&&x<=0.0) {
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                /* gamma(-integer) or gamma(0) */
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                exc.type = SING;
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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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            } else {
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                /* gamma(finite) overflow */
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                exc.type = OVERFLOW;
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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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            }
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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 y;
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#endif
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}
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#endif /* defined(_DOUBLE_IS_32BITS) */

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