66451d9590
* mingwex/math/powl.c: Adjust declaration and call to __powil. Remove comment on powil. * mingwex/math/powi.c: New file. * mingwex/math/powif.c: New file. * mingwex/math/pow.c: New file. * mingwex/math/cephes_mconf.h. Add double and float versions of constants. (polevl): Add double precision function. (p1evl): Likewise. * mingwex/Makefile.in (MATH_DISTFILES): Add pow.c, powi.c, powif.c. (MATH_OBJS): Add pow.o, powi.o, powif.o.
199 lines
3.2 KiB
C
199 lines
3.2 KiB
C
/* powi.c
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*
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* Real raised to integer power
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*
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*
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*
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* SYNOPSIS:
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*
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* float x, y, __powif();
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* int n;
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*
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* y = powi( x, n );
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*
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*
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*
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* DESCRIPTION:
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*
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* Returns argument x raised to the nth power.
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* The routine efficiently decomposes n as a sum of powers of
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* two. The desired power is a product of two-to-the-kth
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* powers of x. Thus to compute the 32767 power of x requires
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* 28 multiplications instead of 32767 multiplications.
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*
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*
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*
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* ACCURACY:
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*
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*
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* Relative error:
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* arithmetic x domain n domain # trials peak rms
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* DEC .04,26 -26,26 100000 2.7e-16 4.3e-17
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* IEEE .04,26 -26,26 50000 2.0e-15 3.8e-16
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* IEEE 1,2 -1022,1023 50000 8.6e-14 1.6e-14
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*
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* Returns MAXNUM on overflow, zero on underflow.
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*
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*/
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/* powi.c */
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/*
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Cephes Math Library Release 2.8: June, 2000
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Copyright 1984, 1995, 2000 by Stephen L. Moshier
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*/
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/*
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Modified for float from powi.c and adapted to mingw
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2002-10-01 Danny Smith <dannysmith@users.sourceforge.net>
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*/
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#ifdef __MINGW32__
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#include "cephes_mconf.h"
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#else
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#include "mconf.h"
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#ifdef ANSIPROT
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extern float logf ( float );
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extern float frexpf ( float, int * );
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extern int signbitf ( float );
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#else
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float logf(), frexpf();
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int signbitf();
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#endif
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extern float NEGZEROF, INFINITYF, MAXNUMF, MAXLOGF, MINLOGF, LOGE2F;
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#endif /* __MINGW32__ */
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#ifndef _SET_ERRNO
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#define _SET_ERRNO(x)
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#endif
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float __powif( float x, int nn )
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{
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int n, e, sign, asign, lx;
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float w, y, s;
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/* See pow.c for these tests. */
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if( x == 0.0F )
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{
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if( nn == 0 )
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return( 1.0F );
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else if( nn < 0 )
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return( INFINITYF );
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else
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{
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if( nn & 1 )
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return( x );
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else
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return( 0.0 );
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}
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}
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if( nn == 0 )
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return( 1.0 );
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if( nn == -1 )
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return( 1.0/x );
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if( x < 0.0 )
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{
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asign = -1;
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x = -x;
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}
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else
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asign = 0;
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if( nn < 0 )
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{
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sign = -1;
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n = -nn;
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}
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else
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{
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sign = 1;
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n = nn;
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}
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/* Even power will be positive. */
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if( (n & 1) == 0 )
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asign = 0;
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/* Overflow detection */
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/* Calculate approximate logarithm of answer */
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s = frexpf( x, &lx );
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e = (lx - 1)*n;
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if( (e == 0) || (e > 64) || (e < -64) )
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{
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s = (s - 7.0710678118654752e-1) / (s + 7.0710678118654752e-1);
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s = (2.9142135623730950 * s - 0.5 + lx) * nn * LOGE2F;
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}
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else
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{
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s = LOGE2F * e;
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}
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if( s > MAXLOGF )
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{
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mtherr( "__powif", OVERFLOW );
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_SET_ERRNO(ERANGE);
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y = INFINITYF;
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goto done;
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}
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#if DENORMAL
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if( s < MINLOGF )
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{
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y = 0.0;
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goto done;
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}
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/* Handle tiny denormal answer, but with less accuracy
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* since roundoff error in 1.0/x will be amplified.
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* The precise demarcation should be the gradual underflow threshold.
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*/
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if( (s < (-MAXLOGF+2.0)) && (sign < 0) )
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{
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x = 1.0/x;
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sign = -sign;
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}
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#else
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/* do not produce denormal answer */
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if( s < -MAXLOGF )
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return(0.0);
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#endif
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/* First bit of the power */
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if( n & 1 )
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y = x;
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else
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y = 1.0;
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w = x;
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n >>= 1;
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while( n )
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{
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w = w * w; /* arg to the 2-to-the-kth power */
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if( n & 1 ) /* if that bit is set, then include in product */
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y *= w;
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n >>= 1;
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}
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if( sign < 0 )
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y = 1.0/y;
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done:
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if( asign )
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{
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/* odd power of negative number */
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if( y == 0.0 )
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y = NEGZEROF;
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else
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y = -y;
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}
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return(y);
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}
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