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* Makeconfig ($(common-objpfx)config.make): Depend on config.h.in. Mon Mar 4 17:35:09 1996 Roland McGrath <roland@charlie-brown.gnu.ai.mit.edu> * hurd/catch-signal.c (hurd_safe_memmove): New function. (hurd_safe_copyin, hurd_safe_copyout): New functions. * hurd/hurd/sigpreempt.h: Declare them. Sun Mar 3 08:43:44 1996 Roland McGrath <roland@charlie-brown.gnu.ai.mit.edu> Replace math code with fdlibm from Sun as modified for netbsd by JT Conklin and Ian Taylor, including x86 FPU support. * sysdeps/libm-ieee754, sysdeps/libm-i387: New directories. * math/math_private.h: New file. * sysdeps/i386/fpu/Implies: New file. * sysdeps/ieee754/Implies: New file. * math/machine/asm.h, math/machine/endian.h: New files. * math/Makefile, math/math.h: Rewritten. * mathcalls.h, math/mathcalls.h: New file, broken out of math.h. * math/finite.c: File removed. * sysdeps/generic/Makefile [$(subdir)=math]: Frobnication removed. * math/test-math.c: Include errno.h and string.h. * sysdeps/unix/bsd/dirstream.h: File removed. * sysdeps/unix/bsd/readdir.c: File removed.
213 lines
5.0 KiB
C
213 lines
5.0 KiB
C
/* e_jnf.c -- float version of e_jn.c.
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* Conversion to float by Ian Lance Taylor, Cygnus Support, ian@cygnus.com.
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*/
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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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#if defined(LIBM_SCCS) && !defined(lint)
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static char rcsid[] = "$NetBSD: e_jnf.c,v 1.5 1995/05/10 20:45:37 jtc Exp $";
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#endif
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#include "math.h"
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#include "math_private.h"
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#ifdef __STDC__
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static const float
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#else
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static float
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#endif
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invsqrtpi= 5.6418961287e-01, /* 0x3f106ebb */
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two = 2.0000000000e+00, /* 0x40000000 */
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one = 1.0000000000e+00; /* 0x3F800000 */
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#ifdef __STDC__
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static const float zero = 0.0000000000e+00;
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#else
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static float zero = 0.0000000000e+00;
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#endif
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#ifdef __STDC__
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float __ieee754_jnf(int n, float x)
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#else
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float __ieee754_jnf(n,x)
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int n; float x;
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#endif
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{
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int32_t i,hx,ix, sgn;
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float a, b, temp, di;
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float z, w;
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/* J(-n,x) = (-1)^n * J(n, x), J(n, -x) = (-1)^n * J(n, x)
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* Thus, J(-n,x) = J(n,-x)
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*/
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GET_FLOAT_WORD(hx,x);
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ix = 0x7fffffff&hx;
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/* if J(n,NaN) is NaN */
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if(ix>0x7f800000) return x+x;
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if(n<0){
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n = -n;
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x = -x;
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hx ^= 0x80000000;
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}
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if(n==0) return(__ieee754_j0f(x));
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if(n==1) return(__ieee754_j1f(x));
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sgn = (n&1)&(hx>>31); /* even n -- 0, odd n -- sign(x) */
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x = fabsf(x);
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if(ix==0||ix>=0x7f800000) /* if x is 0 or inf */
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b = zero;
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else if((float)n<=x) {
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/* Safe to use J(n+1,x)=2n/x *J(n,x)-J(n-1,x) */
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a = __ieee754_j0f(x);
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b = __ieee754_j1f(x);
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for(i=1;i<n;i++){
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temp = b;
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b = b*((float)(i+i)/x) - a; /* avoid underflow */
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a = temp;
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}
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} else {
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if(ix<0x30800000) { /* x < 2**-29 */
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/* x is tiny, return the first Taylor expansion of J(n,x)
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* J(n,x) = 1/n!*(x/2)^n - ...
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*/
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if(n>33) /* underflow */
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b = zero;
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else {
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temp = x*(float)0.5; b = temp;
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for (a=one,i=2;i<=n;i++) {
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a *= (float)i; /* a = n! */
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b *= temp; /* b = (x/2)^n */
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}
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b = b/a;
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}
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} else {
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/* use backward recurrence */
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/* x x^2 x^2
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* J(n,x)/J(n-1,x) = ---- ------ ------ .....
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* 2n - 2(n+1) - 2(n+2)
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*
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* 1 1 1
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* (for large x) = ---- ------ ------ .....
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* 2n 2(n+1) 2(n+2)
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* -- - ------ - ------ -
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* x x x
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*
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* Let w = 2n/x and h=2/x, then the above quotient
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* is equal to the continued fraction:
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* 1
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* = -----------------------
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* 1
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* w - -----------------
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* 1
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* w+h - ---------
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* w+2h - ...
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*
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* To determine how many terms needed, let
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* Q(0) = w, Q(1) = w(w+h) - 1,
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* Q(k) = (w+k*h)*Q(k-1) - Q(k-2),
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* When Q(k) > 1e4 good for single
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* When Q(k) > 1e9 good for double
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* When Q(k) > 1e17 good for quadruple
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*/
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/* determine k */
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float t,v;
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float q0,q1,h,tmp; int32_t k,m;
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w = (n+n)/(float)x; h = (float)2.0/(float)x;
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q0 = w; z = w+h; q1 = w*z - (float)1.0; k=1;
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while(q1<(float)1.0e9) {
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k += 1; z += h;
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tmp = z*q1 - q0;
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q0 = q1;
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q1 = tmp;
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}
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m = n+n;
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for(t=zero, i = 2*(n+k); i>=m; i -= 2) t = one/(i/x-t);
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a = t;
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b = one;
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/* estimate log((2/x)^n*n!) = n*log(2/x)+n*ln(n)
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* Hence, if n*(log(2n/x)) > ...
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* single 8.8722839355e+01
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* double 7.09782712893383973096e+02
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* long double 1.1356523406294143949491931077970765006170e+04
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* then recurrent value may overflow and the result is
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* likely underflow to zero
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*/
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tmp = n;
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v = two/x;
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tmp = tmp*__ieee754_logf(fabsf(v*tmp));
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if(tmp<(float)8.8721679688e+01) {
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for(i=n-1,di=(float)(i+i);i>0;i--){
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temp = b;
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b *= di;
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b = b/x - a;
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a = temp;
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di -= two;
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}
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} else {
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for(i=n-1,di=(float)(i+i);i>0;i--){
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temp = b;
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b *= di;
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b = b/x - a;
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a = temp;
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di -= two;
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/* scale b to avoid spurious overflow */
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if(b>(float)1e10) {
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a /= b;
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t /= b;
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b = one;
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}
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}
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}
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b = (t*__ieee754_j0f(x)/b);
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}
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}
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if(sgn==1) return -b; else return b;
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}
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#ifdef __STDC__
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float __ieee754_ynf(int n, float x)
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#else
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float __ieee754_ynf(n,x)
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int n; float x;
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#endif
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{
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int32_t i,hx,ix,ib;
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int32_t sign;
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float a, b, temp;
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GET_FLOAT_WORD(hx,x);
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ix = 0x7fffffff&hx;
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/* if Y(n,NaN) is NaN */
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if(ix>0x7f800000) return x+x;
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if(ix==0) return -one/zero;
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if(hx<0) return zero/zero;
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sign = 1;
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if(n<0){
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n = -n;
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sign = 1 - ((n&1)<<1);
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}
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if(n==0) return(__ieee754_y0f(x));
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if(n==1) return(sign*__ieee754_y1f(x));
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if(ix==0x7f800000) return zero;
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a = __ieee754_y0f(x);
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b = __ieee754_y1f(x);
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/* quit if b is -inf */
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GET_FLOAT_WORD(ib,b);
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for(i=1;i<n&&ib!=0xff800000;i++){
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temp = b;
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b = ((float)(i+i)/x)*b - a;
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GET_FLOAT_WORD(ib,b);
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a = temp;
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}
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if(sign>0) return b; else return -b;
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}
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