glibc/sysdeps/ieee754/ldbl-128/e_j0l.c
Paul Eggert 5a82c74822 Prefer https to http for gnu.org and fsf.org URLs
Also, change sources.redhat.com to sourceware.org.
This patch was automatically generated by running the following shell
script, which uses GNU sed, and which avoids modifying files imported
from upstream:

sed -ri '
  s,(http|ftp)(://(.*\.)?(gnu|fsf|sourceware)\.org($|[^.]|\.[^a-z])),https\2,g
  s,(http|ftp)(://(.*\.)?)sources\.redhat\.com($|[^.]|\.[^a-z]),https\2sourceware.org\4,g
' \
  $(find $(git ls-files) -prune -type f \
      ! -name '*.po' \
      ! -name 'ChangeLog*' \
      ! -path COPYING ! -path COPYING.LIB \
      ! -path manual/fdl-1.3.texi ! -path manual/lgpl-2.1.texi \
      ! -path manual/texinfo.tex ! -path scripts/config.guess \
      ! -path scripts/config.sub ! -path scripts/install-sh \
      ! -path scripts/mkinstalldirs ! -path scripts/move-if-change \
      ! -path INSTALL ! -path  locale/programs/charmap-kw.h \
      ! -path po/libc.pot ! -path sysdeps/gnu/errlist.c \
      ! '(' -name configure \
            -execdir test -f configure.ac -o -f configure.in ';' ')' \
      ! '(' -name preconfigure \
            -execdir test -f preconfigure.ac ';' ')' \
      -print)

and then by running 'make dist-prepare' to regenerate files built
from the altered files, and then executing the following to cleanup:

  chmod a+x sysdeps/unix/sysv/linux/riscv/configure
  # Omit irrelevant whitespace and comment-only changes,
  # perhaps from a slightly-different Autoconf version.
  git checkout -f \
    sysdeps/csky/configure \
    sysdeps/hppa/configure \
    sysdeps/riscv/configure \
    sysdeps/unix/sysv/linux/csky/configure
  # Omit changes that caused a pre-commit check to fail like this:
  # remote: *** error: sysdeps/powerpc/powerpc64/ppc-mcount.S: trailing lines
  git checkout -f \
    sysdeps/powerpc/powerpc64/ppc-mcount.S \
    sysdeps/unix/sysv/linux/s390/s390-64/syscall.S
  # Omit change that caused a pre-commit check to fail like this:
  # remote: *** error: sysdeps/sparc/sparc64/multiarch/memcpy-ultra3.S: last line does not end in newline
  git checkout -f sysdeps/sparc/sparc64/multiarch/memcpy-ultra3.S
2019-09-07 02:43:31 -07:00

938 lines
32 KiB
C

/* j0l.c
*
* Bessel function of order zero
*
*
*
* SYNOPSIS:
*
* long double x, y, j0l();
*
* y = j0l( x );
*
*
*
* DESCRIPTION:
*
* Returns Bessel function of first kind, order zero of the argument.
*
* The domain is divided into two major intervals [0, 2] and
* (2, infinity). In the first interval the rational approximation
* is J0(x) = 1 - x^2 / 4 + x^4 R(x^2)
* The second interval is further partitioned into eight equal segments
* of 1/x.
*
* J0(x) = sqrt(2/(pi x)) (P0(x) cos(X) - Q0(x) sin(X)),
* X = x - pi/4,
*
* and the auxiliary functions are given by
*
* J0(x)cos(X) + Y0(x)sin(X) = sqrt( 2/(pi x)) P0(x),
* P0(x) = 1 + 1/x^2 R(1/x^2)
*
* Y0(x)cos(X) - J0(x)sin(X) = sqrt( 2/(pi x)) Q0(x),
* Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
*
*
*
* ACCURACY:
*
* Absolute error:
* arithmetic domain # trials peak rms
* IEEE 0, 30 100000 1.7e-34 2.4e-35
*
*
*/
/* y0l.c
*
* Bessel function of the second kind, order zero
*
*
*
* SYNOPSIS:
*
* double x, y, y0l();
*
* y = y0l( x );
*
*
*
* DESCRIPTION:
*
* Returns Bessel function of the second kind, of order
* zero, of the argument.
*
* The approximation is the same as for J0(x), and
* Y0(x) = sqrt(2/(pi x)) (P0(x) sin(X) + Q0(x) cos(X)).
*
* ACCURACY:
*
* Absolute error, when y0(x) < 1; else relative error:
*
* arithmetic domain # trials peak rms
* IEEE 0, 30 100000 3.0e-34 2.7e-35
*
*/
/* Copyright 2001 by Stephen L. Moshier (moshier@na-net.ornl.gov).
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see
<https://www.gnu.org/licenses/>. */
#include <math.h>
#include <math_private.h>
#include <float.h>
/* 1 / sqrt(pi) */
static const _Float128 ONEOSQPI = L(5.6418958354775628694807945156077258584405E-1);
/* 2 / pi */
static const _Float128 TWOOPI = L(6.3661977236758134307553505349005744813784E-1);
static const _Float128 zero = 0;
/* J0(x) = 1 - x^2/4 + x^2 x^2 R(x^2)
Peak relative error 3.4e-37
0 <= x <= 2 */
#define NJ0_2N 6
static const _Float128 J0_2N[NJ0_2N + 1] = {
L(3.133239376997663645548490085151484674892E16),
L(-5.479944965767990821079467311839107722107E14),
L(6.290828903904724265980249871997551894090E12),
L(-3.633750176832769659849028554429106299915E10),
L(1.207743757532429576399485415069244807022E8),
L(-2.107485999925074577174305650549367415465E5),
L(1.562826808020631846245296572935547005859E2),
};
#define NJ0_2D 6
static const _Float128 J0_2D[NJ0_2D + 1] = {
L(2.005273201278504733151033654496928968261E18),
L(2.063038558793221244373123294054149790864E16),
L(1.053350447931127971406896594022010524994E14),
L(3.496556557558702583143527876385508882310E11),
L(8.249114511878616075860654484367133976306E8),
L(1.402965782449571800199759247964242790589E6),
L(1.619910762853439600957801751815074787351E3),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2),
0 <= 1/x <= .0625
Peak relative error 3.3e-36 */
#define NP16_IN 9
static const _Float128 P16_IN[NP16_IN + 1] = {
L(-1.901689868258117463979611259731176301065E-16),
L(-1.798743043824071514483008340803573980931E-13),
L(-6.481746687115262291873324132944647438959E-11),
L(-1.150651553745409037257197798528294248012E-8),
L(-1.088408467297401082271185599507222695995E-6),
L(-5.551996725183495852661022587879817546508E-5),
L(-1.477286941214245433866838787454880214736E-3),
L(-1.882877976157714592017345347609200402472E-2),
L(-9.620983176855405325086530374317855880515E-2),
L(-1.271468546258855781530458854476627766233E-1),
};
#define NP16_ID 9
static const _Float128 P16_ID[NP16_ID + 1] = {
L(2.704625590411544837659891569420764475007E-15),
L(2.562526347676857624104306349421985403573E-12),
L(9.259137589952741054108665570122085036246E-10),
L(1.651044705794378365237454962653430805272E-7),
L(1.573561544138733044977714063100859136660E-5),
L(8.134482112334882274688298469629884804056E-4),
L(2.219259239404080863919375103673593571689E-2),
L(2.976990606226596289580242451096393862792E-1),
L(1.713895630454693931742734911930937246254E0),
L(3.231552290717904041465898249160757368855E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
0.0625 <= 1/x <= 0.125
Peak relative error 2.4e-35 */
#define NP8_16N 10
static const _Float128 P8_16N[NP8_16N + 1] = {
L(-2.335166846111159458466553806683579003632E-15),
L(-1.382763674252402720401020004169367089975E-12),
L(-3.192160804534716696058987967592784857907E-10),
L(-3.744199606283752333686144670572632116899E-8),
L(-2.439161236879511162078619292571922772224E-6),
L(-9.068436986859420951664151060267045346549E-5),
L(-1.905407090637058116299757292660002697359E-3),
L(-2.164456143936718388053842376884252978872E-2),
L(-1.212178415116411222341491717748696499966E-1),
L(-2.782433626588541494473277445959593334494E-1),
L(-1.670703190068873186016102289227646035035E-1),
};
#define NP8_16D 10
static const _Float128 P8_16D[NP8_16D + 1] = {
L(3.321126181135871232648331450082662856743E-14),
L(1.971894594837650840586859228510007703641E-11),
L(4.571144364787008285981633719513897281690E-9),
L(5.396419143536287457142904742849052402103E-7),
L(3.551548222385845912370226756036899901549E-5),
L(1.342353874566932014705609788054598013516E-3),
L(2.899133293006771317589357444614157734385E-2),
L(3.455374978185770197704507681491574261545E-1),
L(2.116616964297512311314454834712634820514E0),
L(5.850768316827915470087758636881584174432E0),
L(5.655273858938766830855753983631132928968E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
0.125 <= 1/x <= 0.1875
Peak relative error 2.7e-35 */
#define NP5_8N 10
static const _Float128 P5_8N[NP5_8N + 1] = {
L(-1.270478335089770355749591358934012019596E-12),
L(-4.007588712145412921057254992155810347245E-10),
L(-4.815187822989597568124520080486652009281E-8),
L(-2.867070063972764880024598300408284868021E-6),
L(-9.218742195161302204046454768106063638006E-5),
L(-1.635746821447052827526320629828043529997E-3),
L(-1.570376886640308408247709616497261011707E-2),
L(-7.656484795303305596941813361786219477807E-2),
L(-1.659371030767513274944805479908858628053E-1),
L(-1.185340550030955660015841796219919804915E-1),
L(-8.920026499909994671248893388013790366712E-3),
};
#define NP5_8D 9
static const _Float128 P5_8D[NP5_8D + 1] = {
L(1.806902521016705225778045904631543990314E-11),
L(5.728502760243502431663549179135868966031E-9),
L(6.938168504826004255287618819550667978450E-7),
L(4.183769964807453250763325026573037785902E-5),
L(1.372660678476925468014882230851637878587E-3),
L(2.516452105242920335873286419212708961771E-2),
L(2.550502712902647803796267951846557316182E-1),
L(1.365861559418983216913629123778747617072E0),
L(3.523825618308783966723472468855042541407E0),
L(3.656365803506136165615111349150536282434E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
Peak relative error 3.5e-35
0.1875 <= 1/x <= 0.25 */
#define NP4_5N 9
static const _Float128 P4_5N[NP4_5N + 1] = {
L(-9.791405771694098960254468859195175708252E-10),
L(-1.917193059944531970421626610188102836352E-7),
L(-1.393597539508855262243816152893982002084E-5),
L(-4.881863490846771259880606911667479860077E-4),
L(-8.946571245022470127331892085881699269853E-3),
L(-8.707474232568097513415336886103899434251E-2),
L(-4.362042697474650737898551272505525973766E-1),
L(-1.032712171267523975431451359962375617386E0),
L(-9.630502683169895107062182070514713702346E-1),
L(-2.251804386252969656586810309252357233320E-1),
};
#define NP4_5D 9
static const _Float128 P4_5D[NP4_5D + 1] = {
L(1.392555487577717669739688337895791213139E-8),
L(2.748886559120659027172816051276451376854E-6),
L(2.024717710644378047477189849678576659290E-4),
L(7.244868609350416002930624752604670292469E-3),
L(1.373631762292244371102989739300382152416E-1),
L(1.412298581400224267910294815260613240668E0),
L(7.742495637843445079276397723849017617210E0),
L(2.138429269198406512028307045259503811861E1),
L(2.651547684548423476506826951831712762610E1),
L(1.167499382465291931571685222882909166935E1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
Peak relative error 2.3e-36
0.25 <= 1/x <= 0.3125 */
#define NP3r2_4N 9
static const _Float128 P3r2_4N[NP3r2_4N + 1] = {
L(-2.589155123706348361249809342508270121788E-8),
L(-3.746254369796115441118148490849195516593E-6),
L(-1.985595497390808544622893738135529701062E-4),
L(-5.008253705202932091290132760394976551426E-3),
L(-6.529469780539591572179155511840853077232E-2),
L(-4.468736064761814602927408833818990271514E-1),
L(-1.556391252586395038089729428444444823380E0),
L(-2.533135309840530224072920725976994981638E0),
L(-1.605509621731068453869408718565392869560E0),
L(-2.518966692256192789269859830255724429375E-1),
};
#define NP3r2_4D 9
static const _Float128 P3r2_4D[NP3r2_4D + 1] = {
L(3.682353957237979993646169732962573930237E-7),
L(5.386741661883067824698973455566332102029E-5),
L(2.906881154171822780345134853794241037053E-3),
L(7.545832595801289519475806339863492074126E-2),
L(1.029405357245594877344360389469584526654E0),
L(7.565706120589873131187989560509757626725E0),
L(2.951172890699569545357692207898667665796E1),
L(5.785723537170311456298467310529815457536E1),
L(5.095621464598267889126015412522773474467E1),
L(1.602958484169953109437547474953308401442E1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
Peak relative error 1.0e-35
0.3125 <= 1/x <= 0.375 */
#define NP2r7_3r2N 9
static const _Float128 P2r7_3r2N[NP2r7_3r2N + 1] = {
L(-1.917322340814391131073820537027234322550E-7),
L(-1.966595744473227183846019639723259011906E-5),
L(-7.177081163619679403212623526632690465290E-4),
L(-1.206467373860974695661544653741899755695E-2),
L(-1.008656452188539812154551482286328107316E-1),
L(-4.216016116408810856620947307438823892707E-1),
L(-8.378631013025721741744285026537009814161E-1),
L(-6.973895635309960850033762745957946272579E-1),
L(-1.797864718878320770670740413285763554812E-1),
L(-4.098025357743657347681137871388402849581E-3),
};
#define NP2r7_3r2D 8
static const _Float128 P2r7_3r2D[NP2r7_3r2D + 1] = {
L(2.726858489303036441686496086962545034018E-6),
L(2.840430827557109238386808968234848081424E-4),
L(1.063826772041781947891481054529454088832E-2),
L(1.864775537138364773178044431045514405468E-1),
L(1.665660052857205170440952607701728254211E0),
L(7.723745889544331153080842168958348568395E0),
L(1.810726427571829798856428548102077799835E1),
L(1.986460672157794440666187503833545388527E1),
L(8.645503204552282306364296517220055815488E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
Peak relative error 1.3e-36
0.3125 <= 1/x <= 0.4375 */
#define NP2r3_2r7N 9
static const _Float128 P2r3_2r7N[NP2r3_2r7N + 1] = {
L(-1.594642785584856746358609622003310312622E-6),
L(-1.323238196302221554194031733595194539794E-4),
L(-3.856087818696874802689922536987100372345E-3),
L(-5.113241710697777193011470733601522047399E-2),
L(-3.334229537209911914449990372942022350558E-1),
L(-1.075703518198127096179198549659283422832E0),
L(-1.634174803414062725476343124267110981807E0),
L(-1.030133247434119595616826842367268304880E0),
L(-1.989811539080358501229347481000707289391E-1),
L(-3.246859189246653459359775001466924610236E-3),
};
#define NP2r3_2r7D 8
static const _Float128 P2r3_2r7D[NP2r3_2r7D + 1] = {
L(2.267936634217251403663034189684284173018E-5),
L(1.918112982168673386858072491437971732237E-3),
L(5.771704085468423159125856786653868219522E-2),
L(8.056124451167969333717642810661498890507E-1),
L(5.687897967531010276788680634413789328776E0),
L(2.072596760717695491085444438270778394421E1),
L(3.801722099819929988585197088613160496684E1),
L(3.254620235902912339534998592085115836829E1),
L(1.104847772130720331801884344645060675036E1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* J0(x)cosX + Y0(x)sinX = sqrt( 2/(pi x)) P0(x), P0(x) = 1 + 1/x^2 R(1/x^2)
Peak relative error 1.2e-35
0.4375 <= 1/x <= 0.5 */
#define NP2_2r3N 8
static const _Float128 P2_2r3N[NP2_2r3N + 1] = {
L(-1.001042324337684297465071506097365389123E-4),
L(-6.289034524673365824853547252689991418981E-3),
L(-1.346527918018624234373664526930736205806E-1),
L(-1.268808313614288355444506172560463315102E0),
L(-5.654126123607146048354132115649177406163E0),
L(-1.186649511267312652171775803270911971693E1),
L(-1.094032424931998612551588246779200724257E1),
L(-3.728792136814520055025256353193674625267E0),
L(-3.000348318524471807839934764596331810608E-1),
};
#define NP2_2r3D 8
static const _Float128 P2_2r3D[NP2_2r3D + 1] = {
L(1.423705538269770974803901422532055612980E-3),
L(9.171476630091439978533535167485230575894E-2),
L(2.049776318166637248868444600215942828537E0),
L(2.068970329743769804547326701946144899583E1),
L(1.025103500560831035592731539565060347709E2),
L(2.528088049697570728252145557167066708284E2),
L(2.992160327587558573740271294804830114205E2),
L(1.540193761146551025832707739468679973036E2),
L(2.779516701986912132637672140709452502650E1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 2.2e-35
0 <= 1/x <= .0625 */
#define NQ16_IN 10
static const _Float128 Q16_IN[NQ16_IN + 1] = {
L(2.343640834407975740545326632205999437469E-18),
L(2.667978112927811452221176781536278257448E-15),
L(1.178415018484555397390098879501969116536E-12),
L(2.622049767502719728905924701288614016597E-10),
L(3.196908059607618864801313380896308968673E-8),
L(2.179466154171673958770030655199434798494E-6),
L(8.139959091628545225221976413795645177291E-5),
L(1.563900725721039825236927137885747138654E-3),
L(1.355172364265825167113562519307194840307E-2),
L(3.928058355906967977269780046844768588532E-2),
L(1.107891967702173292405380993183694932208E-2),
};
#define NQ16_ID 9
static const _Float128 Q16_ID[NQ16_ID + 1] = {
L(3.199850952578356211091219295199301766718E-17),
L(3.652601488020654842194486058637953363918E-14),
L(1.620179741394865258354608590461839031281E-11),
L(3.629359209474609630056463248923684371426E-9),
L(4.473680923894354600193264347733477363305E-7),
L(3.106368086644715743265603656011050476736E-5),
L(1.198239259946770604954664925153424252622E-3),
L(2.446041004004283102372887804475767568272E-2),
L(2.403235525011860603014707768815113698768E-1),
L(9.491006790682158612266270665136910927149E-1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 5.1e-36
0.0625 <= 1/x <= 0.125 */
#define NQ8_16N 11
static const _Float128 Q8_16N[NQ8_16N + 1] = {
L(1.001954266485599464105669390693597125904E-17),
L(7.545499865295034556206475956620160007849E-15),
L(2.267838684785673931024792538193202559922E-12),
L(3.561909705814420373609574999542459912419E-10),
L(3.216201422768092505214730633842924944671E-8),
L(1.731194793857907454569364622452058554314E-6),
L(5.576944613034537050396518509871004586039E-5),
L(1.051787760316848982655967052985391418146E-3),
L(1.102852974036687441600678598019883746959E-2),
L(5.834647019292460494254225988766702933571E-2),
L(1.290281921604364618912425380717127576529E-1),
L(7.598886310387075708640370806458926458301E-2),
};
#define NQ8_16D 11
static const _Float128 Q8_16D[NQ8_16D + 1] = {
L(1.368001558508338469503329967729951830843E-16),
L(1.034454121857542147020549303317348297289E-13),
L(3.128109209247090744354764050629381674436E-11),
L(4.957795214328501986562102573522064468671E-9),
L(4.537872468606711261992676606899273588899E-7),
L(2.493639207101727713192687060517509774182E-5),
L(8.294957278145328349785532236663051405805E-4),
L(1.646471258966713577374948205279380115839E-2),
L(1.878910092770966718491814497982191447073E-1),
L(1.152641605706170353727903052525652504075E0),
L(3.383550240669773485412333679367792932235E0),
L(3.823875252882035706910024716609908473970E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 3.9e-35
0.125 <= 1/x <= 0.1875 */
#define NQ5_8N 10
static const _Float128 Q5_8N[NQ5_8N + 1] = {
L(1.750399094021293722243426623211733898747E-13),
L(6.483426211748008735242909236490115050294E-11),
L(9.279430665656575457141747875716899958373E-9),
L(6.696634968526907231258534757736576340266E-7),
L(2.666560823798895649685231292142838188061E-5),
L(6.025087697259436271271562769707550594540E-4),
L(7.652807734168613251901945778921336353485E-3),
L(5.226269002589406461622551452343519078905E-2),
L(1.748390159751117658969324896330142895079E-1),
L(2.378188719097006494782174902213083589660E-1),
L(8.383984859679804095463699702165659216831E-2),
};
#define NQ5_8D 10
static const _Float128 Q5_8D[NQ5_8D + 1] = {
L(2.389878229704327939008104855942987615715E-12),
L(8.926142817142546018703814194987786425099E-10),
L(1.294065862406745901206588525833274399038E-7),
L(9.524139899457666250828752185212769682191E-6),
L(3.908332488377770886091936221573123353489E-4),
L(9.250427033957236609624199884089916836748E-3),
L(1.263420066165922645975830877751588421451E-1),
L(9.692527053860420229711317379861733180654E-1),
L(3.937813834630430172221329298841520707954E0),
L(7.603126427436356534498908111445191312181E0),
L(5.670677653334105479259958485084550934305E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 3.2e-35
0.1875 <= 1/x <= 0.25 */
#define NQ4_5N 10
static const _Float128 Q4_5N[NQ4_5N + 1] = {
L(2.233870042925895644234072357400122854086E-11),
L(5.146223225761993222808463878999151699792E-9),
L(4.459114531468296461688753521109797474523E-7),
L(1.891397692931537975547242165291668056276E-5),
L(4.279519145911541776938964806470674565504E-4),
L(5.275239415656560634702073291768904783989E-3),
L(3.468698403240744801278238473898432608887E-2),
L(1.138773146337708415188856882915457888274E-1),
L(1.622717518946443013587108598334636458955E-1),
L(7.249040006390586123760992346453034628227E-2),
L(1.941595365256460232175236758506411486667E-3),
};
#define NQ4_5D 9
static const _Float128 Q4_5D[NQ4_5D + 1] = {
L(3.049977232266999249626430127217988047453E-10),
L(7.120883230531035857746096928889676144099E-8),
L(6.301786064753734446784637919554359588859E-6),
L(2.762010530095069598480766869426308077192E-4),
L(6.572163250572867859316828886203406361251E-3),
L(8.752566114841221958200215255461843397776E-2),
L(6.487654992874805093499285311075289932664E-1),
L(2.576550017826654579451615283022812801435E0),
L(5.056392229924022835364779562707348096036E0),
L(4.179770081068251464907531367859072157773E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 1.4e-36
0.25 <= 1/x <= 0.3125 */
#define NQ3r2_4N 10
static const _Float128 Q3r2_4N[NQ3r2_4N + 1] = {
L(6.126167301024815034423262653066023684411E-10),
L(1.043969327113173261820028225053598975128E-7),
L(6.592927270288697027757438170153763220190E-6),
L(2.009103660938497963095652951912071336730E-4),
L(3.220543385492643525985862356352195896964E-3),
L(2.774405975730545157543417650436941650990E-2),
L(1.258114008023826384487378016636555041129E-1),
L(2.811724258266902502344701449984698323860E-1),
L(2.691837665193548059322831687432415014067E-1),
L(7.949087384900985370683770525312735605034E-2),
L(1.229509543620976530030153018986910810747E-3),
};
#define NQ3r2_4D 9
static const _Float128 Q3r2_4D[NQ3r2_4D + 1] = {
L(8.364260446128475461539941389210166156568E-9),
L(1.451301850638956578622154585560759862764E-6),
L(9.431830010924603664244578867057141839463E-5),
L(3.004105101667433434196388593004526182741E-3),
L(5.148157397848271739710011717102773780221E-2),
L(4.901089301726939576055285374953887874895E-1),
L(2.581760991981709901216967665934142240346E0),
L(7.257105880775059281391729708630912791847E0),
L(1.006014717326362868007913423810737369312E1),
L(5.879416600465399514404064187445293212470E0),
/* 1.000000000000000000000000000000000000000E0*/
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 3.8e-36
0.3125 <= 1/x <= 0.375 */
#define NQ2r7_3r2N 9
static const _Float128 Q2r7_3r2N[NQ2r7_3r2N + 1] = {
L(7.584861620402450302063691901886141875454E-8),
L(9.300939338814216296064659459966041794591E-6),
L(4.112108906197521696032158235392604947895E-4),
L(8.515168851578898791897038357239630654431E-3),
L(8.971286321017307400142720556749573229058E-2),
L(4.885856732902956303343015636331874194498E-1),
L(1.334506268733103291656253500506406045846E0),
L(1.681207956863028164179042145803851824654E0),
L(8.165042692571721959157677701625853772271E-1),
L(9.805848115375053300608712721986235900715E-2),
};
#define NQ2r7_3r2D 9
static const _Float128 Q2r7_3r2D[NQ2r7_3r2D + 1] = {
L(1.035586492113036586458163971239438078160E-6),
L(1.301999337731768381683593636500979713689E-4),
L(5.993695702564527062553071126719088859654E-3),
L(1.321184892887881883489141186815457808785E-1),
L(1.528766555485015021144963194165165083312E0),
L(9.561463309176490874525827051566494939295E0),
L(3.203719484883967351729513662089163356911E1),
L(5.497294687660930446641539152123568668447E1),
L(4.391158169390578768508675452986948391118E1),
L(1.347836630730048077907818943625789418378E1),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 2.2e-35
0.375 <= 1/x <= 0.4375 */
#define NQ2r3_2r7N 9
static const _Float128 Q2r3_2r7N[NQ2r3_2r7N + 1] = {
L(4.455027774980750211349941766420190722088E-7),
L(4.031998274578520170631601850866780366466E-5),
L(1.273987274325947007856695677491340636339E-3),
L(1.818754543377448509897226554179659122873E-2),
L(1.266748858326568264126353051352269875352E-1),
L(4.327578594728723821137731555139472880414E-1),
L(6.892532471436503074928194969154192615359E-1),
L(4.490775818438716873422163588640262036506E-1),
L(8.649615949297322440032000346117031581572E-2),
L(7.261345286655345047417257611469066147561E-4),
};
#define NQ2r3_2r7D 8
static const _Float128 Q2r3_2r7D[NQ2r3_2r7D + 1] = {
L(6.082600739680555266312417978064954793142E-6),
L(5.693622538165494742945717226571441747567E-4),
L(1.901625907009092204458328768129666975975E-2),
L(2.958689532697857335456896889409923371570E-1),
L(2.343124711045660081603809437993368799568E0),
L(9.665894032187458293568704885528192804376E0),
L(2.035273104990617136065743426322454881353E1),
L(2.044102010478792896815088858740075165531E1),
L(8.445937177863155827844146643468706599304E0),
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y0(x)cosX - J0(x)sinX = sqrt( 2/(pi x)) Q0(x),
Q0(x) = 1/x (-.125 + 1/x^2 R(1/x^2))
Peak relative error 3.1e-36
0.4375 <= 1/x <= 0.5 */
#define NQ2_2r3N 9
static const _Float128 Q2_2r3N[NQ2_2r3N + 1] = {
L(2.817566786579768804844367382809101929314E-6),
L(2.122772176396691634147024348373539744935E-4),
L(5.501378031780457828919593905395747517585E-3),
L(6.355374424341762686099147452020466524659E-2),
L(3.539652320122661637429658698954748337223E-1),
L(9.571721066119617436343740541777014319695E-1),
L(1.196258777828426399432550698612171955305E0),
L(6.069388659458926158392384709893753793967E-1),
L(9.026746127269713176512359976978248763621E-2),
L(5.317668723070450235320878117210807236375E-4),
};
#define NQ2_2r3D 8
static const _Float128 Q2_2r3D[NQ2_2r3D + 1] = {
L(3.846924354014260866793741072933159380158E-5),
L(3.017562820057704325510067178327449946763E-3),
L(8.356305620686867949798885808540444210935E-2),
L(1.068314930499906838814019619594424586273E0),
L(6.900279623894821067017966573640732685233E0),
L(2.307667390886377924509090271780839563141E1),
L(3.921043465412723970791036825401273528513E1),
L(3.167569478939719383241775717095729233436E1),
L(1.051023841699200920276198346301543665909E1),
/* 1.000000000000000000000000000000000000000E0*/
};
/* Evaluate P[n] x^n + P[n-1] x^(n-1) + ... + P[0] */
static _Float128
neval (_Float128 x, const _Float128 *p, int n)
{
_Float128 y;
p += n;
y = *p--;
do
{
y = y * x + *p--;
}
while (--n > 0);
return y;
}
/* Evaluate x^n+1 + P[n] x^(n) + P[n-1] x^(n-1) + ... + P[0] */
static _Float128
deval (_Float128 x, const _Float128 *p, int n)
{
_Float128 y;
p += n;
y = x + *p--;
do
{
y = y * x + *p--;
}
while (--n > 0);
return y;
}
/* Bessel function of the first kind, order zero. */
_Float128
__ieee754_j0l (_Float128 x)
{
_Float128 xx, xinv, z, p, q, c, s, cc, ss;
if (! isfinite (x))
{
if (x != x)
return x + x;
else
return 0;
}
if (x == 0)
return 1;
xx = fabsl (x);
if (xx <= 2)
{
if (xx < L(0x1p-57))
return 1;
/* 0 <= x <= 2 */
z = xx * xx;
p = z * z * neval (z, J0_2N, NJ0_2N) / deval (z, J0_2D, NJ0_2D);
p -= L(0.25) * z;
p += 1;
return p;
}
/* X = x - pi/4
cos(X) = cos(x) cos(pi/4) + sin(x) sin(pi/4)
= 1/sqrt(2) * (cos(x) + sin(x))
sin(X) = sin(x) cos(pi/4) - cos(x) sin(pi/4)
= 1/sqrt(2) * (sin(x) - cos(x))
sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
cf. Fdlibm. */
__sincosl (xx, &s, &c);
ss = s - c;
cc = s + c;
if (xx <= LDBL_MAX / 2)
{
z = -__cosl (xx + xx);
if ((s * c) < 0)
cc = z / ss;
else
ss = z / cc;
}
if (xx > L(0x1p256))
return ONEOSQPI * cc / sqrtl (xx);
xinv = 1 / xx;
z = xinv * xinv;
if (xinv <= 0.25)
{
if (xinv <= 0.125)
{
if (xinv <= 0.0625)
{
p = neval (z, P16_IN, NP16_IN) / deval (z, P16_ID, NP16_ID);
q = neval (z, Q16_IN, NQ16_IN) / deval (z, Q16_ID, NQ16_ID);
}
else
{
p = neval (z, P8_16N, NP8_16N) / deval (z, P8_16D, NP8_16D);
q = neval (z, Q8_16N, NQ8_16N) / deval (z, Q8_16D, NQ8_16D);
}
}
else if (xinv <= 0.1875)
{
p = neval (z, P5_8N, NP5_8N) / deval (z, P5_8D, NP5_8D);
q = neval (z, Q5_8N, NQ5_8N) / deval (z, Q5_8D, NQ5_8D);
}
else
{
p = neval (z, P4_5N, NP4_5N) / deval (z, P4_5D, NP4_5D);
q = neval (z, Q4_5N, NQ4_5N) / deval (z, Q4_5D, NQ4_5D);
}
} /* .25 */
else /* if (xinv <= 0.5) */
{
if (xinv <= 0.375)
{
if (xinv <= 0.3125)
{
p = neval (z, P3r2_4N, NP3r2_4N) / deval (z, P3r2_4D, NP3r2_4D);
q = neval (z, Q3r2_4N, NQ3r2_4N) / deval (z, Q3r2_4D, NQ3r2_4D);
}
else
{
p = neval (z, P2r7_3r2N, NP2r7_3r2N)
/ deval (z, P2r7_3r2D, NP2r7_3r2D);
q = neval (z, Q2r7_3r2N, NQ2r7_3r2N)
/ deval (z, Q2r7_3r2D, NQ2r7_3r2D);
}
}
else if (xinv <= 0.4375)
{
p = neval (z, P2r3_2r7N, NP2r3_2r7N)
/ deval (z, P2r3_2r7D, NP2r3_2r7D);
q = neval (z, Q2r3_2r7N, NQ2r3_2r7N)
/ deval (z, Q2r3_2r7D, NQ2r3_2r7D);
}
else
{
p = neval (z, P2_2r3N, NP2_2r3N) / deval (z, P2_2r3D, NP2_2r3D);
q = neval (z, Q2_2r3N, NQ2_2r3N) / deval (z, Q2_2r3D, NQ2_2r3D);
}
}
p = 1 + z * p;
q = z * xinv * q;
q = q - L(0.125) * xinv;
z = ONEOSQPI * (p * cc - q * ss) / sqrtl (xx);
return z;
}
strong_alias (__ieee754_j0l, __j0l_finite)
/* Y0(x) = 2/pi * log(x) * J0(x) + R(x^2)
Peak absolute error 1.7e-36 (relative where Y0 > 1)
0 <= x <= 2 */
#define NY0_2N 7
static const _Float128 Y0_2N[NY0_2N + 1] = {
L(-1.062023609591350692692296993537002558155E19),
L(2.542000883190248639104127452714966858866E19),
L(-1.984190771278515324281415820316054696545E18),
L(4.982586044371592942465373274440222033891E16),
L(-5.529326354780295177243773419090123407550E14),
L(3.013431465522152289279088265336861140391E12),
L(-7.959436160727126750732203098982718347785E9),
L(8.230845651379566339707130644134372793322E6),
};
#define NY0_2D 7
static const _Float128 Y0_2D[NY0_2D + 1] = {
L(1.438972634353286978700329883122253752192E20),
L(1.856409101981569254247700169486907405500E18),
L(1.219693352678218589553725579802986255614E16),
L(5.389428943282838648918475915779958097958E13),
L(1.774125762108874864433872173544743051653E11),
L(4.522104832545149534808218252434693007036E8),
L(8.872187401232943927082914504125234454930E5),
L(1.251945613186787532055610876304669413955E3),
/* 1.000000000000000000000000000000000000000E0 */
};
static const _Float128 U0 = L(-7.3804295108687225274343927948483016310862e-02);
/* Bessel function of the second kind, order zero. */
_Float128
__ieee754_y0l(_Float128 x)
{
_Float128 xx, xinv, z, p, q, c, s, cc, ss;
if (! isfinite (x))
return 1 / (x + x * x);
if (x <= 0)
{
if (x < 0)
return (zero / (zero * x));
return -1 / zero; /* -inf and divide by zero exception. */
}
xx = fabsl (x);
if (xx <= 0x1p-57)
return U0 + TWOOPI * __ieee754_logl (x);
if (xx <= 2)
{
/* 0 <= x <= 2 */
z = xx * xx;
p = neval (z, Y0_2N, NY0_2N) / deval (z, Y0_2D, NY0_2D);
p = TWOOPI * __ieee754_logl (x) * __ieee754_j0l (x) + p;
return p;
}
/* X = x - pi/4
cos(X) = cos(x) cos(pi/4) + sin(x) sin(pi/4)
= 1/sqrt(2) * (cos(x) + sin(x))
sin(X) = sin(x) cos(pi/4) - cos(x) sin(pi/4)
= 1/sqrt(2) * (sin(x) - cos(x))
sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
cf. Fdlibm. */
__sincosl (x, &s, &c);
ss = s - c;
cc = s + c;
if (xx <= LDBL_MAX / 2)
{
z = -__cosl (x + x);
if ((s * c) < 0)
cc = z / ss;
else
ss = z / cc;
}
if (xx > L(0x1p256))
return ONEOSQPI * ss / sqrtl (x);
xinv = 1 / xx;
z = xinv * xinv;
if (xinv <= 0.25)
{
if (xinv <= 0.125)
{
if (xinv <= 0.0625)
{
p = neval (z, P16_IN, NP16_IN) / deval (z, P16_ID, NP16_ID);
q = neval (z, Q16_IN, NQ16_IN) / deval (z, Q16_ID, NQ16_ID);
}
else
{
p = neval (z, P8_16N, NP8_16N) / deval (z, P8_16D, NP8_16D);
q = neval (z, Q8_16N, NQ8_16N) / deval (z, Q8_16D, NQ8_16D);
}
}
else if (xinv <= 0.1875)
{
p = neval (z, P5_8N, NP5_8N) / deval (z, P5_8D, NP5_8D);
q = neval (z, Q5_8N, NQ5_8N) / deval (z, Q5_8D, NQ5_8D);
}
else
{
p = neval (z, P4_5N, NP4_5N) / deval (z, P4_5D, NP4_5D);
q = neval (z, Q4_5N, NQ4_5N) / deval (z, Q4_5D, NQ4_5D);
}
} /* .25 */
else /* if (xinv <= 0.5) */
{
if (xinv <= 0.375)
{
if (xinv <= 0.3125)
{
p = neval (z, P3r2_4N, NP3r2_4N) / deval (z, P3r2_4D, NP3r2_4D);
q = neval (z, Q3r2_4N, NQ3r2_4N) / deval (z, Q3r2_4D, NQ3r2_4D);
}
else
{
p = neval (z, P2r7_3r2N, NP2r7_3r2N)
/ deval (z, P2r7_3r2D, NP2r7_3r2D);
q = neval (z, Q2r7_3r2N, NQ2r7_3r2N)
/ deval (z, Q2r7_3r2D, NQ2r7_3r2D);
}
}
else if (xinv <= 0.4375)
{
p = neval (z, P2r3_2r7N, NP2r3_2r7N)
/ deval (z, P2r3_2r7D, NP2r3_2r7D);
q = neval (z, Q2r3_2r7N, NQ2r3_2r7N)
/ deval (z, Q2r3_2r7D, NQ2r3_2r7D);
}
else
{
p = neval (z, P2_2r3N, NP2_2r3N) / deval (z, P2_2r3D, NP2_2r3D);
q = neval (z, Q2_2r3N, NQ2_2r3N) / deval (z, Q2_2r3D, NQ2_2r3D);
}
}
p = 1 + z * p;
q = z * xinv * q;
q = q - L(0.125) * xinv;
z = ONEOSQPI * (p * ss + q * cc) / sqrtl (x);
return z;
}
strong_alias (__ieee754_y0l, __y0l_finite)