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https://github.com/golang/go
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5fea2ccc77
The tree's pretty inconsistent about single space vs double space after a period in documentation. Make it consistently a single space, per earlier decisions. This means contributors won't be confused by misleading precedence. This CL doesn't use go/doc to parse. It only addresses // comments. It was generated with: $ perl -i -npe 's,^(\s*// .+[a-z]\.) +([A-Z]),$1 $2,' $(git grep -l -E '^\s*//(.+\.) +([A-Z])') $ go test go/doc -update Change-Id: Iccdb99c37c797ef1f804a94b22ba5ee4b500c4f7 Reviewed-on: https://go-review.googlesource.com/20022 Reviewed-by: Rob Pike <r@golang.org> Reviewed-by: Dave Day <djd@golang.org> Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
430 lines
14 KiB
Go
430 lines
14 KiB
Go
// Copyright 2010 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package math
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/*
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Bessel function of the first and second kinds of order zero.
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*/
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// The original C code and the long comment below are
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// from FreeBSD's /usr/src/lib/msun/src/e_j0.c and
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// came with this notice. The go code is a simplified
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// version of the original C.
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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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// __ieee754_j0(x), __ieee754_y0(x)
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// Bessel function of the first and second kinds of order zero.
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// Method -- j0(x):
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// 1. For tiny x, we use j0(x) = 1 - x**2/4 + x**4/64 - ...
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// 2. Reduce x to |x| since j0(x)=j0(-x), and
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// for x in (0,2)
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// j0(x) = 1-z/4+ z**2*R0/S0, where z = x*x;
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// (precision: |j0-1+z/4-z**2R0/S0 |<2**-63.67 )
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// for x in (2,inf)
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// j0(x) = sqrt(2/(pi*x))*(p0(x)*cos(x0)-q0(x)*sin(x0))
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// where x0 = x-pi/4. It is better to compute sin(x0),cos(x0)
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// as follow:
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// cos(x0) = cos(x)cos(pi/4)+sin(x)sin(pi/4)
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// = 1/sqrt(2) * (cos(x) + sin(x))
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// sin(x0) = sin(x)cos(pi/4)-cos(x)sin(pi/4)
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// = 1/sqrt(2) * (sin(x) - cos(x))
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// (To avoid cancelation, use
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// sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
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// to compute the worse one.)
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//
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// 3 Special cases
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// j0(nan)= nan
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// j0(0) = 1
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// j0(inf) = 0
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//
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// Method -- y0(x):
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// 1. For x<2.
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// Since
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// y0(x) = 2/pi*(j0(x)*(ln(x/2)+Euler) + x**2/4 - ...)
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// therefore y0(x)-2/pi*j0(x)*ln(x) is an even function.
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// We use the following function to approximate y0,
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// y0(x) = U(z)/V(z) + (2/pi)*(j0(x)*ln(x)), z= x**2
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// where
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// U(z) = u00 + u01*z + ... + u06*z**6
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// V(z) = 1 + v01*z + ... + v04*z**4
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// with absolute approximation error bounded by 2**-72.
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// Note: For tiny x, U/V = u0 and j0(x)~1, hence
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// y0(tiny) = u0 + (2/pi)*ln(tiny), (choose tiny<2**-27)
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// 2. For x>=2.
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// y0(x) = sqrt(2/(pi*x))*(p0(x)*cos(x0)+q0(x)*sin(x0))
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// where x0 = x-pi/4. It is better to compute sin(x0),cos(x0)
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// by the method mentioned above.
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// 3. Special cases: y0(0)=-inf, y0(x<0)=NaN, y0(inf)=0.
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//
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// J0 returns the order-zero Bessel function of the first kind.
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//
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// Special cases are:
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// J0(±Inf) = 0
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// J0(0) = 1
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// J0(NaN) = NaN
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func J0(x float64) float64 {
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const (
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Huge = 1e300
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TwoM27 = 1.0 / (1 << 27) // 2**-27 0x3e40000000000000
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TwoM13 = 1.0 / (1 << 13) // 2**-13 0x3f20000000000000
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Two129 = 1 << 129 // 2**129 0x4800000000000000
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// R0/S0 on [0, 2]
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R02 = 1.56249999999999947958e-02 // 0x3F8FFFFFFFFFFFFD
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R03 = -1.89979294238854721751e-04 // 0xBF28E6A5B61AC6E9
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R04 = 1.82954049532700665670e-06 // 0x3EBEB1D10C503919
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R05 = -4.61832688532103189199e-09 // 0xBE33D5E773D63FCE
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S01 = 1.56191029464890010492e-02 // 0x3F8FFCE882C8C2A4
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S02 = 1.16926784663337450260e-04 // 0x3F1EA6D2DD57DBF4
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S03 = 5.13546550207318111446e-07 // 0x3EA13B54CE84D5A9
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S04 = 1.16614003333790000205e-09 // 0x3E1408BCF4745D8F
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)
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// special cases
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switch {
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case IsNaN(x):
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return x
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case IsInf(x, 0):
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return 0
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case x == 0:
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return 1
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}
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if x < 0 {
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x = -x
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}
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if x >= 2 {
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s, c := Sincos(x)
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ss := s - c
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cc := s + c
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// make sure x+x does not overflow
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if x < MaxFloat64/2 {
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z := -Cos(x + x)
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if s*c < 0 {
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cc = z / ss
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} else {
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ss = z / cc
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}
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}
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// j0(x) = 1/sqrt(pi) * (P(0,x)*cc - Q(0,x)*ss) / sqrt(x)
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// y0(x) = 1/sqrt(pi) * (P(0,x)*ss + Q(0,x)*cc) / sqrt(x)
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var z float64
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if x > Two129 { // |x| > ~6.8056e+38
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z = (1 / SqrtPi) * cc / Sqrt(x)
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} else {
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u := pzero(x)
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v := qzero(x)
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z = (1 / SqrtPi) * (u*cc - v*ss) / Sqrt(x)
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}
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return z // |x| >= 2.0
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}
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if x < TwoM13 { // |x| < ~1.2207e-4
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if x < TwoM27 {
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return 1 // |x| < ~7.4506e-9
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}
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return 1 - 0.25*x*x // ~7.4506e-9 < |x| < ~1.2207e-4
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}
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z := x * x
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r := z * (R02 + z*(R03+z*(R04+z*R05)))
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s := 1 + z*(S01+z*(S02+z*(S03+z*S04)))
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if x < 1 {
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return 1 + z*(-0.25+(r/s)) // |x| < 1.00
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}
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u := 0.5 * x
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return (1+u)*(1-u) + z*(r/s) // 1.0 < |x| < 2.0
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}
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// Y0 returns the order-zero Bessel function of the second kind.
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//
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// Special cases are:
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// Y0(+Inf) = 0
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// Y0(0) = -Inf
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// Y0(x < 0) = NaN
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// Y0(NaN) = NaN
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func Y0(x float64) float64 {
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const (
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TwoM27 = 1.0 / (1 << 27) // 2**-27 0x3e40000000000000
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Two129 = 1 << 129 // 2**129 0x4800000000000000
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U00 = -7.38042951086872317523e-02 // 0xBFB2E4D699CBD01F
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U01 = 1.76666452509181115538e-01 // 0x3FC69D019DE9E3FC
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U02 = -1.38185671945596898896e-02 // 0xBF8C4CE8B16CFA97
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U03 = 3.47453432093683650238e-04 // 0x3F36C54D20B29B6B
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U04 = -3.81407053724364161125e-06 // 0xBECFFEA773D25CAD
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U05 = 1.95590137035022920206e-08 // 0x3E5500573B4EABD4
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U06 = -3.98205194132103398453e-11 // 0xBDC5E43D693FB3C8
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V01 = 1.27304834834123699328e-02 // 0x3F8A127091C9C71A
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V02 = 7.60068627350353253702e-05 // 0x3F13ECBBF578C6C1
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V03 = 2.59150851840457805467e-07 // 0x3E91642D7FF202FD
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V04 = 4.41110311332675467403e-10 // 0x3DFE50183BD6D9EF
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)
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// special cases
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switch {
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case x < 0 || IsNaN(x):
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return NaN()
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case IsInf(x, 1):
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return 0
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case x == 0:
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return Inf(-1)
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}
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if x >= 2 { // |x| >= 2.0
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// y0(x) = sqrt(2/(pi*x))*(p0(x)*sin(x0)+q0(x)*cos(x0))
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// where x0 = x-pi/4
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// Better formula:
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// cos(x0) = cos(x)cos(pi/4)+sin(x)sin(pi/4)
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// = 1/sqrt(2) * (sin(x) + cos(x))
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// sin(x0) = sin(x)cos(3pi/4)-cos(x)sin(3pi/4)
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// = 1/sqrt(2) * (sin(x) - cos(x))
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// To avoid cancelation, use
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// sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
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// to compute the worse one.
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s, c := Sincos(x)
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ss := s - c
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cc := s + c
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// j0(x) = 1/sqrt(pi) * (P(0,x)*cc - Q(0,x)*ss) / sqrt(x)
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// y0(x) = 1/sqrt(pi) * (P(0,x)*ss + Q(0,x)*cc) / sqrt(x)
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// make sure x+x does not overflow
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if x < MaxFloat64/2 {
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z := -Cos(x + x)
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if s*c < 0 {
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cc = z / ss
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} else {
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ss = z / cc
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}
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}
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var z float64
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if x > Two129 { // |x| > ~6.8056e+38
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z = (1 / SqrtPi) * ss / Sqrt(x)
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} else {
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u := pzero(x)
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v := qzero(x)
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z = (1 / SqrtPi) * (u*ss + v*cc) / Sqrt(x)
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}
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return z // |x| >= 2.0
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}
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if x <= TwoM27 {
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return U00 + (2/Pi)*Log(x) // |x| < ~7.4506e-9
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}
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z := x * x
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u := U00 + z*(U01+z*(U02+z*(U03+z*(U04+z*(U05+z*U06)))))
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v := 1 + z*(V01+z*(V02+z*(V03+z*V04)))
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return u/v + (2/Pi)*J0(x)*Log(x) // ~7.4506e-9 < |x| < 2.0
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}
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// The asymptotic expansions of pzero is
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// 1 - 9/128 s**2 + 11025/98304 s**4 - ..., where s = 1/x.
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// For x >= 2, We approximate pzero by
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// pzero(x) = 1 + (R/S)
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// where R = pR0 + pR1*s**2 + pR2*s**4 + ... + pR5*s**10
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// S = 1 + pS0*s**2 + ... + pS4*s**10
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// and
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// | pzero(x)-1-R/S | <= 2 ** ( -60.26)
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// for x in [inf, 8]=1/[0,0.125]
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var p0R8 = [6]float64{
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0.00000000000000000000e+00, // 0x0000000000000000
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-7.03124999999900357484e-02, // 0xBFB1FFFFFFFFFD32
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-8.08167041275349795626e+00, // 0xC02029D0B44FA779
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-2.57063105679704847262e+02, // 0xC07011027B19E863
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-2.48521641009428822144e+03, // 0xC0A36A6ECD4DCAFC
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-5.25304380490729545272e+03, // 0xC0B4850B36CC643D
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}
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var p0S8 = [5]float64{
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1.16534364619668181717e+02, // 0x405D223307A96751
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3.83374475364121826715e+03, // 0x40ADF37D50596938
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4.05978572648472545552e+04, // 0x40E3D2BB6EB6B05F
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1.16752972564375915681e+05, // 0x40FC810F8F9FA9BD
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4.76277284146730962675e+04, // 0x40E741774F2C49DC
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}
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// for x in [8,4.5454]=1/[0.125,0.22001]
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var p0R5 = [6]float64{
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-1.14125464691894502584e-11, // 0xBDA918B147E495CC
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-7.03124940873599280078e-02, // 0xBFB1FFFFE69AFBC6
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-4.15961064470587782438e+00, // 0xC010A370F90C6BBF
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-6.76747652265167261021e+01, // 0xC050EB2F5A7D1783
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-3.31231299649172967747e+02, // 0xC074B3B36742CC63
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-3.46433388365604912451e+02, // 0xC075A6EF28A38BD7
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}
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var p0S5 = [5]float64{
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6.07539382692300335975e+01, // 0x404E60810C98C5DE
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1.05125230595704579173e+03, // 0x40906D025C7E2864
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5.97897094333855784498e+03, // 0x40B75AF88FBE1D60
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9.62544514357774460223e+03, // 0x40C2CCB8FA76FA38
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2.40605815922939109441e+03, // 0x40A2CC1DC70BE864
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}
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// for x in [4.547,2.8571]=1/[0.2199,0.35001]
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var p0R3 = [6]float64{
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-2.54704601771951915620e-09, // 0xBE25E1036FE1AA86
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-7.03119616381481654654e-02, // 0xBFB1FFF6F7C0E24B
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-2.40903221549529611423e+00, // 0xC00345B2AEA48074
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-2.19659774734883086467e+01, // 0xC035F74A4CB94E14
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-5.80791704701737572236e+01, // 0xC04D0A22420A1A45
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-3.14479470594888503854e+01, // 0xC03F72ACA892D80F
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}
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var p0S3 = [5]float64{
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3.58560338055209726349e+01, // 0x4041ED9284077DD3
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3.61513983050303863820e+02, // 0x40769839464A7C0E
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1.19360783792111533330e+03, // 0x4092A66E6D1061D6
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1.12799679856907414432e+03, // 0x40919FFCB8C39B7E
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1.73580930813335754692e+02, // 0x4065B296FC379081
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}
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// for x in [2.8570,2]=1/[0.3499,0.5]
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var p0R2 = [6]float64{
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-8.87534333032526411254e-08, // 0xBE77D316E927026D
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-7.03030995483624743247e-02, // 0xBFB1FF62495E1E42
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-1.45073846780952986357e+00, // 0xBFF736398A24A843
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-7.63569613823527770791e+00, // 0xC01E8AF3EDAFA7F3
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-1.11931668860356747786e+01, // 0xC02662E6C5246303
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-3.23364579351335335033e+00, // 0xC009DE81AF8FE70F
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}
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var p0S2 = [5]float64{
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2.22202997532088808441e+01, // 0x40363865908B5959
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1.36206794218215208048e+02, // 0x4061069E0EE8878F
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2.70470278658083486789e+02, // 0x4070E78642EA079B
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1.53875394208320329881e+02, // 0x40633C033AB6FAFF
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1.46576176948256193810e+01, // 0x402D50B344391809
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}
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func pzero(x float64) float64 {
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var p [6]float64
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var q [5]float64
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if x >= 8 {
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p = p0R8
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q = p0S8
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} else if x >= 4.5454 {
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p = p0R5
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q = p0S5
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} else if x >= 2.8571 {
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p = p0R3
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q = p0S3
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} else if x >= 2 {
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p = p0R2
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q = p0S2
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}
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z := 1 / (x * x)
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r := p[0] + z*(p[1]+z*(p[2]+z*(p[3]+z*(p[4]+z*p[5]))))
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s := 1 + z*(q[0]+z*(q[1]+z*(q[2]+z*(q[3]+z*q[4]))))
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return 1 + r/s
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}
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// For x >= 8, the asymptotic expansions of qzero is
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// -1/8 s + 75/1024 s**3 - ..., where s = 1/x.
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// We approximate pzero by
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// qzero(x) = s*(-1.25 + (R/S))
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// where R = qR0 + qR1*s**2 + qR2*s**4 + ... + qR5*s**10
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// S = 1 + qS0*s**2 + ... + qS5*s**12
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// and
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// | qzero(x)/s +1.25-R/S | <= 2**(-61.22)
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// for x in [inf, 8]=1/[0,0.125]
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var q0R8 = [6]float64{
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0.00000000000000000000e+00, // 0x0000000000000000
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7.32421874999935051953e-02, // 0x3FB2BFFFFFFFFE2C
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1.17682064682252693899e+01, // 0x402789525BB334D6
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5.57673380256401856059e+02, // 0x40816D6315301825
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8.85919720756468632317e+03, // 0x40C14D993E18F46D
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3.70146267776887834771e+04, // 0x40E212D40E901566
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}
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var q0S8 = [6]float64{
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1.63776026895689824414e+02, // 0x406478D5365B39BC
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8.09834494656449805916e+03, // 0x40BFA2584E6B0563
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1.42538291419120476348e+05, // 0x4101665254D38C3F
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8.03309257119514397345e+05, // 0x412883DA83A52B43
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8.40501579819060512818e+05, // 0x4129A66B28DE0B3D
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-3.43899293537866615225e+05, // 0xC114FD6D2C9530C5
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}
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// for x in [8,4.5454]=1/[0.125,0.22001]
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var q0R5 = [6]float64{
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1.84085963594515531381e-11, // 0x3DB43D8F29CC8CD9
|
|
7.32421766612684765896e-02, // 0x3FB2BFFFD172B04C
|
|
5.83563508962056953777e+00, // 0x401757B0B9953DD3
|
|
1.35111577286449829671e+02, // 0x4060E3920A8788E9
|
|
1.02724376596164097464e+03, // 0x40900CF99DC8C481
|
|
1.98997785864605384631e+03, // 0x409F17E953C6E3A6
|
|
}
|
|
var q0S5 = [6]float64{
|
|
8.27766102236537761883e+01, // 0x4054B1B3FB5E1543
|
|
2.07781416421392987104e+03, // 0x40A03BA0DA21C0CE
|
|
1.88472887785718085070e+04, // 0x40D267D27B591E6D
|
|
5.67511122894947329769e+04, // 0x40EBB5E397E02372
|
|
3.59767538425114471465e+04, // 0x40E191181F7A54A0
|
|
-5.35434275601944773371e+03, // 0xC0B4EA57BEDBC609
|
|
}
|
|
|
|
// for x in [4.547,2.8571]=1/[0.2199,0.35001]
|
|
var q0R3 = [6]float64{
|
|
4.37741014089738620906e-09, // 0x3E32CD036ADECB82
|
|
7.32411180042911447163e-02, // 0x3FB2BFEE0E8D0842
|
|
3.34423137516170720929e+00, // 0x400AC0FC61149CF5
|
|
4.26218440745412650017e+01, // 0x40454F98962DAEDD
|
|
1.70808091340565596283e+02, // 0x406559DBE25EFD1F
|
|
1.66733948696651168575e+02, // 0x4064D77C81FA21E0
|
|
}
|
|
var q0S3 = [6]float64{
|
|
4.87588729724587182091e+01, // 0x40486122BFE343A6
|
|
7.09689221056606015736e+02, // 0x40862D8386544EB3
|
|
3.70414822620111362994e+03, // 0x40ACF04BE44DFC63
|
|
6.46042516752568917582e+03, // 0x40B93C6CD7C76A28
|
|
2.51633368920368957333e+03, // 0x40A3A8AAD94FB1C0
|
|
-1.49247451836156386662e+02, // 0xC062A7EB201CF40F
|
|
}
|
|
|
|
// for x in [2.8570,2]=1/[0.3499,0.5]
|
|
var q0R2 = [6]float64{
|
|
1.50444444886983272379e-07, // 0x3E84313B54F76BDB
|
|
7.32234265963079278272e-02, // 0x3FB2BEC53E883E34
|
|
1.99819174093815998816e+00, // 0x3FFFF897E727779C
|
|
1.44956029347885735348e+01, // 0x402CFDBFAAF96FE5
|
|
3.16662317504781540833e+01, // 0x403FAA8E29FBDC4A
|
|
1.62527075710929267416e+01, // 0x403040B171814BB4
|
|
}
|
|
var q0S2 = [6]float64{
|
|
3.03655848355219184498e+01, // 0x403E5D96F7C07AED
|
|
2.69348118608049844624e+02, // 0x4070D591E4D14B40
|
|
8.44783757595320139444e+02, // 0x408A664522B3BF22
|
|
8.82935845112488550512e+02, // 0x408B977C9C5CC214
|
|
2.12666388511798828631e+02, // 0x406A95530E001365
|
|
-5.31095493882666946917e+00, // 0xC0153E6AF8B32931
|
|
}
|
|
|
|
func qzero(x float64) float64 {
|
|
var p, q [6]float64
|
|
if x >= 8 {
|
|
p = q0R8
|
|
q = q0S8
|
|
} else if x >= 4.5454 {
|
|
p = q0R5
|
|
q = q0S5
|
|
} else if x >= 2.8571 {
|
|
p = q0R3
|
|
q = q0S3
|
|
} else if x >= 2 {
|
|
p = q0R2
|
|
q = q0S2
|
|
}
|
|
z := 1 / (x * x)
|
|
r := p[0] + z*(p[1]+z*(p[2]+z*(p[3]+z*(p[4]+z*p[5]))))
|
|
s := 1 + z*(q[0]+z*(q[1]+z*(q[2]+z*(q[3]+z*(q[4]+z*q[5])))))
|
|
return (-0.125 + r/s) / x
|
|
}
|