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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2011 Nexenta Systems, Inc. All rights reserved.
*/
/*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/* long double function erf,erfc (long double x)
* K.C. Ng, September, 1989.
* x
* 2 |\
* erf(x) = --------- | exp(-t*t)dt
* sqrt(pi) \|
* 0
*
* erfc(x) = 1-erf(x)
*
* method:
* Since erf(-x) = -erf(x), we assume x>=0.
* For x near 0, we have the expansion
*
* erf(x) = (2/sqrt(pi))*(x - x^3/3 + x^5/10 - x^7/42 + ....).
*
* Since 2/sqrt(pi) = 1.128379167095512573896158903121545171688,
* we use x + x*P(x^2) to approximate erf(x). This formula will
* guarantee the error less than one ulp where x is not too far
* away from 0. We note that erf(x)=x at x = 0.6174...... After
* some experiment, we choose the following approximation on
* interval [0,0.84375].
*
* For x in [0,0.84375]
* 2 2 4 40
* P = P(x ) = (p0 + p1 * x + p2 * x + ... + p20 * x )
*
* erf(x) = x + x*P
* erfc(x) = 1 - erf(x) if x<=0.25
* = 0.5 + ((0.5-x)-x*P) if x in [0.25,0.84375]
* precision: |P(x^2)-(erf(x)-x)/x| <= 2**-122.50
*
* For x in [0.84375,1.25], let s = x - 1, and
* c = 0.84506291151 rounded to single (24 bits)
* erf(x) = c + P1(s)/Q1(s)
* erfc(x) = (1-c) - P1(s)/Q1(s)
* precision: |P1/Q1 - (erf(x)-c)| <= 2**-118.41
*
*
* For x in [1.25,1.75], let s = x - 1.5, and
* c = 0.95478588343 rounded to single (24 bits)
* erf(x) = c + P2(s)/Q2(s)
* erfc(x) = (1-c) - P2(s)/Q2(s)
* precision: |P1/Q1 - (erf(x)-c)| <= 2**-123.83
*
*
* For x in [1.75,16/3]
* erfc(x) = exp(-x*x)*(1/x)*R1(1/x)/S1(1/x)
* erf(x) = 1 - erfc(x)
* precision: absolute error of R1/S1 is bounded by 2**-124.03
*
* For x in [16/3,107]
* erfc(x) = exp(-x*x)*(1/x)*R2(1/x)/S2(1/x)
* erf(x) = 1 - erfc(x) (if x>=9 simple return erf(x)=1 with inexact)
* precision: absolute error of R2/S2 is bounded by 2**-120.07
*
* Else if inf > x >= 107
* erf(x) = 1 with inexact
* erfc(x) = 0 with underflow
*
* Special case:
* erf(inf) = 1
* erfc(inf) = 0
*/
#pragma weak __erfl = erfl
#pragma weak __erfcl = erfcl
#include "libm.h"
#include "longdouble.h"
static long double
tiny = 1e-40L,
nearunfl = 1e-4000L,
half = 0.5L,
one = 1.0L,
onehalf = 1.5L,
L16_3 = 16.0L/3.0L;
/*
* Coefficients for even polynomial P for erf(x)=x+x*P(x^2) on [0,0.84375]
*/
static long double P[] = { /* 21 coeffs */
1.283791670955125738961589031215451715556e-0001L,
-3.761263890318375246320529677071815594603e-0001L,
1.128379167095512573896158903121205899135e-0001L,
-2.686617064513125175943235483344625046092e-0002L,
5.223977625442187842111846652980454568389e-0003L,
-8.548327023450852832546626271083862724358e-0004L,
1.205533298178966425102164715902231976672e-0004L,
-1.492565035840625097674944905027897838996e-0005L,
1.646211436588924733604648849172936692024e-0006L,
-1.636584469123491976815834704799733514987e-0007L,
1.480719281587897445302529007144770739305e-0008L,
-1.229055530170782843046467986464722047175e-0009L,
9.422759064320307357553954945760654341633e-0011L,
-6.711366846653439036162105104991433380926e-0012L,
4.463224090341893165100275380693843116240e-0013L,
-2.783513452582658245422635662559779162312e-0014L,
1.634227412586960195251346878863754661546e-0015L,
-9.060782672889577722765711455623117802795e-0017L,
4.741341801266246873412159213893613602354e-0018L,
-2.272417596497826188374846636534317381203e-0019L,
8.069088733716068462496835658928566920933e-0021L,
};
/*
* Rational erf(x) = ((float)0.84506291151) + P1(x-1)/Q1(x-1) on [0.84375,1.25]
*/
static long double C1 = (long double)((float)0.84506291151);
static long double P1[] = { /* 12 top coeffs */
-2.362118560752659955654364917390741930316e-0003L,
4.129623379624420034078926610650759979146e-0001L,
-3.973857505403547283109417923182669976904e-0002L,
4.357503184084022439763567513078036755183e-0002L,
8.015593623388421371247676683754171456950e-0002L,
-1.034459310403352486685467221776778474602e-0002L,
5.671850295381046679675355719017720821383e-0003L,
1.219262563232763998351452194968781174318e-0003L,
5.390833481581033423020320734201065475098e-0004L,
-1.978853912815115495053119023517805528300e-0004L,
6.184234513953600118335017885706420552487e-0005L,
-5.331802711697810861017518515816271808286e-0006L,
};
static long double Q1[] = { /* 12 bottom coeffs with leading 1.0 hidden */
9.081506296064882195280178373107623196655e-0001L,
6.821049531968204097604392183650687642520e-0001L,
4.067869178233539502315055970743271822838e-0001L,
1.702332233546316765818144723063881095577e-0001L,
7.498098377690553934266423088708614219356e-0002L,
2.050154396918178697056927234366372760310e-0002L,
7.012988534031999899054782333851905939379e-0003L,
1.149904787014400354649843451234570731076e-0003L,
3.185620255011299476196039491205159718620e-0004L,
1.273405072153008775426376193374105840517e-0005L,
4.753866999959432971956781228148402971454e-0006L,
-1.002287602111660026053981728549540200683e-0006L,
};
/*
* Rational erf(x) = ((float)0.95478588343) + P2(x-1.5)/Q2(x-1.5)
* on [1.25,1.75]
*/
static long double C2 = (long double)((float)0.95478588343);
static long double P2[] = { /* 12 top coeffs */
1.131926304864446730135126164594785863512e-0002L,
1.273617996967754151544330055186210322832e-0001L,
-8.169980734667512519897816907190281143423e-0002L,
9.512267486090321197833634271787944271746e-0002L,
-2.394251569804872160005274999735914368170e-0002L,
1.108768660227528667525252333184520222905e-0002L,
3.527435492933902414662043314373277494221e-0004L,
4.946116273341953463584319006669474625971e-0004L,
-4.289851942513144714600285769022420962418e-0005L,
8.304719841341952705874781636002085119978e-0005L,
-1.040460226177309338781902252282849903189e-0005L,
2.122913331584921470381327583672044434087e-0006L,
};
static long double Q2[] = { /* 13 bottom coeffs with leading 1.0 hidden */
7.448815737306992749168727691042003832150e-0001L,
7.161813850236008294484744312430122188043e-0001L,
3.603134756584225766144922727405641236121e-0001L,
1.955811609133766478080550795194535852653e-0001L,
7.253059963716225972479693813787810711233e-0002L,
2.752391253757421424212770221541238324978e-0002L,
7.677654852085240257439050673446546828005e-0003L,
2.141102244555509687346497060326630061069e-0003L,
4.342123013830957093949563339130674364271e-0004L,
8.664587895570043348530991997272212150316e-0005L,
1.109201582511752087060167429397033701988e-0005L,
1.357834375781831062713347000030984364311e-0006L,
4.957746280594384997273090385060680016451e-0008L,
};
/*
* erfc(x) = exp(-x*x)/x * R1(1/x)/S1(1/x) on [1.75, 16/3]
*/
static long double R1[] = { /* 14 top coeffs */
4.630195122654315016370705767621550602948e+0006L,
1.257949521746494830700654204488675713628e+0007L,
1.704153822720260272814743497376181625707e+0007L,
1.502600568706061872381577539537315739943e+0007L,
9.543710793431995284827024445387333922861e+0006L,
4.589344808584091011652238164935949522427e+0006L,
1.714660662941745791190907071920671844289e+0006L,
5.034802147768798894307672256192466283867e+0005L,
1.162286400443554670553152110447126850725e+0005L,
2.086643834548901681362757308058660399137e+0004L,
2.839793161868140305907004392890348777338e+0003L,
2.786687241658423601778258694498655680778e+0002L,
1.779177837102695602425897452623985786464e+0001L,
5.641895835477470769043614623819144434731e-0001L,
};
static long double S1[] = { /* 15 bottom coeffs with leading 1.0 hidden */
4.630195122654331529595606896287596843110e+0006L,
1.780411093345512024324781084220509055058e+0007L,
3.250113097051800703707108623715776848283e+0007L,
3.737857099176755050912193712123489115755e+0007L,
3.029787497516578821459174055870781168593e+0007L,
1.833850619965384765005769632103205777227e+0007L,
8.562719999736915722210391222639186586498e+0006L,
3.139684562074658971315545539760008136973e+0006L,
9.106421313731384880027703627454366930945e+0005L,
2.085108342384266508613267136003194920001e+0005L,
3.723126272693120340730491416449539290600e+0004L,
5.049169878567344046145695360784436929802e+0003L,
4.944274532748010767670150730035392093899e+0002L,
3.153510608818213929982940249162268971412e+0001L,
1.0e00L,
};
/*
* erfc(x) = exp(-x*x)/x * R2(1/x)/S2(1/x) on [16/3, 107]
*/
static long double R2[] = { /* 15 top coeffs in reverse order!!*/
2.447288012254302966796326587537136931669e+0005L,
8.768592567189861896653369912716538739016e+0005L,
1.552293152581780065761497908005779524953e+0006L,
1.792075924835942935864231657504259926729e+0006L,
1.504001463155897344947500222052694835875e+0006L,
9.699485556326891411801230186016013019935e+0005L,
4.961449933661807969863435013364796037700e+0005L,
2.048726544693474028061176764716228273791e+0005L,
6.891532964330949722479061090551896886635e+0004L,
1.888014709010307507771964047905823237985e+0004L,
4.189692064988957745054734809642495644502e+0003L,
7.362346487427048068212968889642741734621e+0002L,
9.980359714211411423007641056580813116207e+0001L,
9.426910895135379181107191962193485174159e+0000L,
5.641895835477562869480794515623601280429e-0001L,
};
static long double S2[] = { /* 16 coefficients */
2.447282203601902971246004716790604686880e+0005L,
1.153009852759385309367759460934808489833e+0006L,
2.608580649612639131548966265078663384849e+0006L,
3.766673917346623308850202792390569025740e+0006L,
3.890566255138383910789924920541335370691e+0006L,
3.052882073900746207613166259994150527732e+0006L,
1.885574519970380988460241047248519418407e+0006L,
9.369722034759943185851450846811445012922e+0005L,
3.792278350536686111444869752624492443659e+0005L,
1.257750606950115799965366001773094058720e+0005L,
3.410830600242369370645608634643620355058e+0004L,
7.513984469742343134851326863175067271240e+0003L,
1.313296320593190002554779998138695507840e+0003L,
1.773972700887629157006326333696896516769e+0002L,
1.670876451822586800422009013880457094162e+0001L,
1.000L,
};
long double erfl(x)
long double x;
{
long double erfcl(long double),s,y,t;
if (!finitel(x)) {
if (x != x) return x+x; /* NaN */
return copysignl(one,x); /* return +-1.0 is x=Inf */
}
y = fabsl(x);
if (y <= 0.84375L) {
if (y<=tiny) return x+P[0]*x;
s = y*y;
t = __poly_libmq(s,21,P);
return x+x*t;
}
if (y<=1.25L) {
s = y-one;
t = C1+__poly_libmq(s,12,P1)/(one+s*__poly_libmq(s,12,Q1));
return (signbitl(x))? -t: t;
} else if (y<=1.75L) {
s = y-onehalf;
t = C2+__poly_libmq(s,12,P2)/(one+s*__poly_libmq(s,13,Q2));
return (signbitl(x))? -t: t;
}
if (y<=9.0L) t = erfcl(y); else t = tiny;
return (signbitl(x))? t-one: one-t;
}
long double erfcl(x)
long double x;
{
long double erfl(long double),s,y,t;
if (!finitel(x)) {
if (x != x) return x+x; /* NaN */
/* return 2.0 if x= -inf
0.0 if x= +inf */
if (x<0.0L) return 2.0L; else return 0.0L;
}
if (x <= 0.84375L) {
if (x<=0.25) return one-erfl(x);
s = x*x;
t = half-x;
t = t - x*__poly_libmq(s,21,P);
return half+t;
}
if (x<=1.25L) {
s = x-one;
t = one-C1;
return t - __poly_libmq(s,12,P1)/(one+s*__poly_libmq(s,12,Q1));
} else if (x<=1.75L) {
s = x-onehalf;
t = one-C2;
return t - __poly_libmq(s,12,P2)/(one+s*__poly_libmq(s,13,Q2));
}
if (x>=107.0L) return nearunfl*nearunfl; /* underflow */
else if (x >= L16_3) {
y = __poly_libmq(x,15,R2);
t = y/__poly_libmq(x,16,S2);
} else {
y = __poly_libmq(x,14,R1);
t = y/__poly_libmq(x,15,S1);
}
/* see comment in ../Q/erfl.c */
y = x;
*(int*)&y = 0;
t *= expl(-y*y)*expl(-(x-y)*(x+y));
return t;
}
|
