glibc/sysdeps/ieee754/ldbl-128/e_j1l.c

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2001-08-24 13:17:46 +00:00
/* j1l.c
*
* Bessel function of order one
*
*
*
* SYNOPSIS:
*
* long double x, y, j1l();
*
* y = j1l( x );
*
*
*
* DESCRIPTION:
*
* Returns Bessel function of first kind, order one of the argument.
*
* The domain is divided into two major intervals [0, 2] and
* (2, infinity). In the first interval the rational approximation is
* J1(x) = .5x + x x^2 R(x^2)
*
* The second interval is further partitioned into eight equal segments
* of 1/x.
* J1(x) = sqrt(2/(pi x)) (P1(x) cos(X) - Q1(x) sin(X)),
* X = x - 3 pi / 4,
*
* and the auxiliary functions are given by
*
* J1(x)cos(X) + Y1(x)sin(X) = sqrt( 2/(pi x)) P1(x),
* P1(x) = 1 + 1/x^2 R(1/x^2)
*
* Y1(x)cos(X) - J1(x)sin(X) = sqrt( 2/(pi x)) Q1(x),
* Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)).
*
*
*
* ACCURACY:
*
* Absolute error:
* arithmetic domain # trials peak rms
* IEEE 0, 30 100000 2.8e-34 2.7e-35
*
*
*/
/* y1l.c
*
* Bessel function of the second kind, order one
*
*
*
* SYNOPSIS:
*
* double x, y, y1l();
*
* y = y1l( x );
*
*
*
* DESCRIPTION:
*
* Returns Bessel function of the second kind, of order
* one, of the argument.
*
* The domain is divided into two major intervals [0, 2] and
* (2, infinity). In the first interval the rational approximation is
* Y1(x) = 2/pi * (log(x) * J1(x) - 1/x) + x R(x^2) .
* In the second interval the approximation is the same as for J1(x), and
* Y1(x) = sqrt(2/(pi x)) (P1(x) sin(X) + Q1(x) cos(X)),
* X = x - 3 pi / 4.
*
* ACCURACY:
*
* Absolute error, when y0(x) < 1; else relative error:
*
* arithmetic domain # trials peak rms
* IEEE 0, 30 100000 2.7e-34 2.9e-35
*
*/
2002-08-26 Brian Youmans <3diff@gnu.org> * crypt/crypt.c: Changed copying permission notice to Lesser GPL from Library GPL. * crypt/crypt_util.c: Likewise. * crypt/ufc.c: Likewise. * elf/dl-conflict.c: Likewise. * elf/dl-iteratephdr.c: Likewise. * iconv/iconvconfig.h: Likewise. * linuxthreads/Examples/ex10.c: Likewise. * linuxthreads/Examples/ex11.c: Likewise. * linuxthreads/Examples/ex13.c: Likewise. * linuxthreads/Examples/ex8.c: Likewise. * linuxthreads/Examples/ex9.c: Likewise. * linuxthreads/barrier.c: Likewise. * linuxthreads/events.c: Likewise. * linuxthreads/lockfile.c: Likewise. * linuxthreads/no-tsd.c: Likewise. * linuxthreads/pt-machine.c: Likewise. * linuxthreads/ptclock_gettime.c: Likewise. * linuxthreads/ptclock_settime.c: Likewise. * linuxthreads/rwlock.c: Likewise. * linuxthreads/sysdeps/alpha/pspinlock.c: Likewise. * linuxthreads/sysdeps/alpha/pt-machine.h: Likewise. * linuxthreads/sysdeps/arm/pspinlock.c: Likewise. * linuxthreads/sysdeps/arm/pt-machine.h: Likewise. * linuxthreads/sysdeps/cris/pspinlock.c: Likewise. * linuxthreads/sysdeps/cris/pt-machine.h: Likewise. * linuxthreads/sysdeps/hppa/pspinlock.c: Likewise. * linuxthreads/sysdeps/hppa/pt-machine.h: Likewise. * linuxthreads/sysdeps/i386/i686/pt-machine.h: Likewise. * linuxthreads/sysdeps/i386/pspinlock.c: Likewise. * linuxthreads/sysdeps/i386/pt-machine.h: Likewise. * linuxthreads/sysdeps/i386/useldt.h: Likewise. * linuxthreads/sysdeps/ia64/pspinlock.c: Likewise. * linuxthreads/sysdeps/ia64/pt-machine.h: Likewise. * linuxthreads/sysdeps/m68k/pspinlock.c: Likewise. * linuxthreads/sysdeps/m68k/pt-machine.h: Likewise. * linuxthreads/sysdeps/mips/pspinlock.c: Likewise. * linuxthreads/sysdeps/mips/pt-machine.h: Likewise. * linuxthreads/sysdeps/powerpc/pspinlock.c: Likewise. * linuxthreads/sysdeps/powerpc/pt-machine.h: Likewise. * linuxthreads/sysdeps/pthread/bits/initspin.h: Likewise. * linuxthreads/sysdeps/pthread/bits/libc-lock.h: Likewise. * linuxthreads/sysdeps/pthread/bits/libc-tsd.h: Likewise. * linuxthreads/sysdeps/pthread/getcpuclockid.c: Likewise. * linuxthreads/sysdeps/pthread/posix-timer.h: Likewise. * linuxthreads/sysdeps/pthread/timer_create.c: Likewise. * linuxthreads/sysdeps/pthread/timer_delete.c: Likewise. * linuxthreads/sysdeps/pthread/timer_getoverr.c: Likewise. * linuxthreads/sysdeps/pthread/timer_gettime.c: Likewise. * linuxthreads/sysdeps/pthread/timer_routines.c: Likewise. * linuxthreads/sysdeps/pthread/timer_settime.c: Likewise. * linuxthreads/sysdeps/pthread/tst-timer.c: Likewise. * linuxthreads/sysdeps/s390/pspinlock.c: Likewise. * linuxthreads/sysdeps/s390/s390-32/pt-machine.h: Likewise. * linuxthreads/sysdeps/s390/s390-64/pt-machine.h: Likewise. * linuxthreads/sysdeps/sh/pspinlock.c: Likewise. * linuxthreads/sysdeps/sh/pt-machine.h: Likewise. * linuxthreads/sysdeps/sparc/sparc32/pspinlock.c: Likewise. * linuxthreads/sysdeps/sparc/sparc32/pt-machine.h: Likewise. * linuxthreads/sysdeps/sparc/sparc32/sparcv9/pspinlock.c: Likewise. * linuxthreads/sysdeps/sparc/sparc64/pspinlock.c: Likewise. * linuxthreads/sysdeps/sparc/sparc64/pt-machine.h: Likewise. * linuxthreads/sysdeps/unix/sysv/linux/bits/local_lim.h: Likewise. * linuxthreads/sysdeps/unix/sysv/linux/bits/posix_opt.h: Likewise. * linuxthreads/sysdeps/unix/sysv/linux/bits/sigthread.h: Likewise. * linuxthreads/sysdeps/unix/sysv/linux/hppa/bits/initspin.h: Likewise. * linuxthreads/sysdeps/unix/sysv/linux/i386/bits/posix_opt.h: Likewise. * linuxthreads/tststack.c: Likewise. * linuxthreads/unload.c: Likewise. * linuxthreads/weaks.c: Likewise. * linuxthreads/wrapsyscall.c: Likewise. * malloc/arena.c: Likewise. * malloc/hooks.c: Likewise. * malloc/malloc.c: Likewise. * posix/glob/Makefile.ami: Likewise. * posix/glob/Makefile.in: Likewise. * stdlib/gmp-impl.h: Likewise. * stdlib/gmp.h: Likewise. * sysdeps/generic/dl-iteratephdr-static.c: Likewise. * sysdeps/generic/strnlen.c: Likewise. * sysdeps/mach/hurd/powerpc/bits/sigcontext.h: Likewise. * sysdeps/mach/hurd/recvmsg.c: Likewise. * sysdeps/mach/hurd/sendmsg.c: Likewise. * sysdeps/mach/hurd/spawni.c: Likewise. * sysdeps/mach/powerpc/machine-sp.h: Likewise. * sysdeps/mach/powerpc/sysdep.h: Likewise. * sysdeps/mach/powerpc/thread_state.h: Likewise. * sysdeps/unix/bsd/bsd4.4/bits/socket.h: Likewise. * sysdeps/unix/sysv/linux/ia64/dl-iteratephdr-static.c: Likewise. * sysdeps/x86_64/gmp-mparam.h: Likewise.
2002-08-26 22:40:48 +00:00
/* Copyright 2001 by Stephen L. Moshier (moshier@na-net.onrl.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
<http://www.gnu.org/licenses/>. */
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#include <errno.h>
#include <math.h>
#include <math_private.h>
#include <float.h>
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/* 1 / sqrt(pi) */
static const _Float128 ONEOSQPI = L(5.6418958354775628694807945156077258584405E-1);
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/* 2 / pi */
static const _Float128 TWOOPI = L(6.3661977236758134307553505349005744813784E-1);
static const _Float128 zero = 0;
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/* J1(x) = .5x + x x^2 R(x^2)
Peak relative error 1.9e-35
0 <= x <= 2 */
#define NJ0_2N 6
static const _Float128 J0_2N[NJ0_2N + 1] = {
L(-5.943799577386942855938508697619735179660E16),
L(1.812087021305009192259946997014044074711E15),
L(-2.761698314264509665075127515729146460895E13),
L(2.091089497823600978949389109350658815972E11),
L(-8.546413231387036372945453565654130054307E8),
L(1.797229225249742247475464052741320612261E6),
L(-1.559552840946694171346552770008812083969E3)
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};
#define NJ0_2D 6
static const _Float128 J0_2D[NJ0_2D + 1] = {
L(9.510079323819108569501613916191477479397E17),
L(1.063193817503280529676423936545854693915E16),
L(5.934143516050192600795972192791775226920E13),
L(2.168000911950620999091479265214368352883E11),
L(5.673775894803172808323058205986256928794E8),
L(1.080329960080981204840966206372671147224E6),
L(1.411951256636576283942477881535283304912E3),
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/* 1.000000000000000000000000000000000000000E0L */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
0 <= 1/x <= .0625
Peak relative error 3.6e-36 */
#define NP16_IN 9
static const _Float128 P16_IN[NP16_IN + 1] = {
L(5.143674369359646114999545149085139822905E-16),
L(4.836645664124562546056389268546233577376E-13),
L(1.730945562285804805325011561498453013673E-10),
L(3.047976856147077889834905908605310585810E-8),
L(2.855227609107969710407464739188141162386E-6),
L(1.439362407936705484122143713643023998457E-4),
L(3.774489768532936551500999699815873422073E-3),
L(4.723962172984642566142399678920790598426E-2),
L(2.359289678988743939925017240478818248735E-1),
L(3.032580002220628812728954785118117124520E-1),
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};
#define NP16_ID 9
static const _Float128 P16_ID[NP16_ID + 1] = {
L(4.389268795186898018132945193912677177553E-15),
L(4.132671824807454334388868363256830961655E-12),
L(1.482133328179508835835963635130894413136E-9),
L(2.618941412861122118906353737117067376236E-7),
L(2.467854246740858470815714426201888034270E-5),
L(1.257192927368839847825938545925340230490E-3),
L(3.362739031941574274949719324644120720341E-2),
L(4.384458231338934105875343439265370178858E-1),
L(2.412830809841095249170909628197264854651E0),
L(4.176078204111348059102962617368214856874E0),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
0.0625 <= 1/x <= 0.125
Peak relative error 1.9e-36 */
#define NP8_16N 11
static const _Float128 P8_16N[NP8_16N + 1] = {
L(2.984612480763362345647303274082071598135E-16),
L(1.923651877544126103941232173085475682334E-13),
L(4.881258879388869396043760693256024307743E-11),
L(6.368866572475045408480898921866869811889E-9),
L(4.684818344104910450523906967821090796737E-7),
L(2.005177298271593587095982211091300382796E-5),
L(4.979808067163957634120681477207147536182E-4),
L(6.946005761642579085284689047091173581127E-3),
L(5.074601112955765012750207555985299026204E-2),
L(1.698599455896180893191766195194231825379E-1),
L(1.957536905259237627737222775573623779638E-1),
L(2.991314703282528370270179989044994319374E-2),
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};
#define NP8_16D 10
static const _Float128 P8_16D[NP8_16D + 1] = {
L(2.546869316918069202079580939942463010937E-15),
L(1.644650111942455804019788382157745229955E-12),
L(4.185430770291694079925607420808011147173E-10),
L(5.485331966975218025368698195861074143153E-8),
L(4.062884421686912042335466327098932678905E-6),
L(1.758139661060905948870523641319556816772E-4),
L(4.445143889306356207566032244985607493096E-3),
L(6.391901016293512632765621532571159071158E-2),
L(4.933040207519900471177016015718145795434E-1),
L(1.839144086168947712971630337250761842976E0),
L(2.715120873995490920415616716916149586579E0),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
0.125 <= 1/x <= 0.1875
Peak relative error 1.3e-36 */
#define NP5_8N 10
static const _Float128 P5_8N[NP5_8N + 1] = {
L(2.837678373978003452653763806968237227234E-12),
L(9.726641165590364928442128579282742354806E-10),
L(1.284408003604131382028112171490633956539E-7),
L(8.524624695868291291250573339272194285008E-6),
L(3.111516908953172249853673787748841282846E-4),
L(6.423175156126364104172801983096596409176E-3),
L(7.430220589989104581004416356260692450652E-2),
L(4.608315409833682489016656279567605536619E-1),
L(1.396870223510964882676225042258855977512E0),
L(1.718500293904122365894630460672081526236E0),
L(5.465927698800862172307352821870223855365E-1)
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};
#define NP5_8D 10
static const _Float128 P5_8D[NP5_8D + 1] = {
L(2.421485545794616609951168511612060482715E-11),
L(8.329862750896452929030058039752327232310E-9),
L(1.106137992233383429630592081375289010720E-6),
L(7.405786153760681090127497796448503306939E-5),
L(2.740364785433195322492093333127633465227E-3),
L(5.781246470403095224872243564165254652198E-2),
L(6.927711353039742469918754111511109983546E-1),
L(4.558679283460430281188304515922826156690E0),
L(1.534468499844879487013168065728837900009E1),
L(2.313927430889218597919624843161569422745E1),
L(1.194506341319498844336768473218382828637E1),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
Peak relative error 1.4e-36
0.1875 <= 1/x <= 0.25 */
#define NP4_5N 10
static const _Float128 P4_5N[NP4_5N + 1] = {
L(1.846029078268368685834261260420933914621E-10),
L(3.916295939611376119377869680335444207768E-8),
L(3.122158792018920627984597530935323997312E-6),
L(1.218073444893078303994045653603392272450E-4),
L(2.536420827983485448140477159977981844883E-3),
L(2.883011322006690823959367922241169171315E-2),
L(1.755255190734902907438042414495469810830E-1),
L(5.379317079922628599870898285488723736599E-1),
L(7.284904050194300773890303361501726561938E-1),
L(3.270110346613085348094396323925000362813E-1),
L(1.804473805689725610052078464951722064757E-2),
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};
#define NP4_5D 9
static const _Float128 P4_5D[NP4_5D + 1] = {
L(1.575278146806816970152174364308980863569E-9),
L(3.361289173657099516191331123405675054321E-7),
L(2.704692281550877810424745289838790693708E-5),
L(1.070854930483999749316546199273521063543E-3),
L(2.282373093495295842598097265627962125411E-2),
L(2.692025460665354148328762368240343249830E-1),
L(1.739892942593664447220951225734811133759E0),
L(5.890727576752230385342377570386657229324E0),
L(9.517442287057841500750256954117735128153E0),
L(6.100616353935338240775363403030137736013E0),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
Peak relative error 3.0e-36
0.25 <= 1/x <= 0.3125 */
#define NP3r2_4N 9
static const _Float128 P3r2_4N[NP3r2_4N + 1] = {
L(8.240803130988044478595580300846665863782E-8),
L(1.179418958381961224222969866406483744580E-5),
L(6.179787320956386624336959112503824397755E-4),
L(1.540270833608687596420595830747166658383E-2),
L(1.983904219491512618376375619598837355076E-1),
L(1.341465722692038870390470651608301155565E0),
L(4.617865326696612898792238245990854646057E0),
L(7.435574801812346424460233180412308000587E0),
L(4.671327027414635292514599201278557680420E0),
L(7.299530852495776936690976966995187714739E-1),
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};
#define NP3r2_4D 9
static const _Float128 P3r2_4D[NP3r2_4D + 1] = {
L(7.032152009675729604487575753279187576521E-7),
L(1.015090352324577615777511269928856742848E-4),
L(5.394262184808448484302067955186308730620E-3),
L(1.375291438480256110455809354836988584325E-1),
L(1.836247144461106304788160919310404376670E0),
L(1.314378564254376655001094503090935880349E1),
L(4.957184590465712006934452500894672343488E1),
L(9.287394244300647738855415178790263465398E1),
L(7.652563275535900609085229286020552768399E1),
L(2.147042473003074533150718117770093209096E1),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(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(4.599033469240421554219816935160627085991E-7),
L(4.665724440345003914596647144630893997284E-5),
L(1.684348845667764271596142716944374892756E-3),
L(2.802446446884455707845985913454440176223E-2),
L(2.321937586453963310008279956042545173930E-1),
L(9.640277413988055668692438709376437553804E-1),
L(1.911021064710270904508663334033003246028E0),
L(1.600811610164341450262992138893970224971E0),
L(4.266299218652587901171386591543457861138E-1),
L(1.316470424456061252962568223251247207325E-2),
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};
#define NP2r7_3r2D 8
static const _Float128 P2r7_3r2D[NP2r7_3r2D + 1] = {
L(3.924508608545520758883457108453520099610E-6),
L(4.029707889408829273226495756222078039823E-4),
L(1.484629715787703260797886463307469600219E-2),
L(2.553136379967180865331706538897231588685E-1),
L(2.229457223891676394409880026887106228740E0),
L(1.005708903856384091956550845198392117318E1),
L(2.277082659664386953166629360352385889558E1),
L(2.384726835193630788249826630376533988245E1),
L(9.700989749041320895890113781610939632410E0),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
Peak relative error 1.7e-36
0.3125 <= 1/x <= 0.4375 */
#define NP2r3_2r7N 9
static const _Float128 P2r3_2r7N[NP2r3_2r7N + 1] = {
L(3.916766777108274628543759603786857387402E-6),
L(3.212176636756546217390661984304645137013E-4),
L(9.255768488524816445220126081207248947118E-3),
L(1.214853146369078277453080641911700735354E-1),
L(7.855163309847214136198449861311404633665E-1),
L(2.520058073282978403655488662066019816540E0),
L(3.825136484837545257209234285382183711466E0),
L(2.432569427554248006229715163865569506873E0),
L(4.877934835018231178495030117729800489743E-1),
L(1.109902737860249670981355149101343427885E-2),
2001-08-24 13:17:46 +00:00
};
#define NP2r3_2r7D 8
static const _Float128 P2r3_2r7D[NP2r3_2r7D + 1] = {
L(3.342307880794065640312646341190547184461E-5),
L(2.782182891138893201544978009012096558265E-3),
L(8.221304931614200702142049236141249929207E-2),
L(1.123728246291165812392918571987858010949E0),
L(7.740482453652715577233858317133423434590E0),
L(2.737624677567945952953322566311201919139E1),
L(4.837181477096062403118304137851260715475E1),
L(3.941098643468580791437772701093795299274E1),
L(1.245821247166544627558323920382547533630E1),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* J1(x)cosX + Y1(x)sinX = sqrt( 2/(pi x)) P1(x), P1(x) = 1 + 1/x^2 R(1/x^2),
Peak relative error 1.7e-35
0.4375 <= 1/x <= 0.5 */
#define NP2_2r3N 8
static const _Float128 P2_2r3N[NP2_2r3N + 1] = {
L(3.397930802851248553545191160608731940751E-4),
L(2.104020902735482418784312825637833698217E-2),
L(4.442291771608095963935342749477836181939E-1),
L(4.131797328716583282869183304291833754967E0),
L(1.819920169779026500146134832455189917589E1),
L(3.781779616522937565300309684282401791291E1),
L(3.459605449728864218972931220783543410347E1),
L(1.173594248397603882049066603238568316561E1),
L(9.455702270242780642835086549285560316461E-1),
2001-08-24 13:17:46 +00:00
};
#define NP2_2r3D 8
static const _Float128 P2_2r3D[NP2_2r3D + 1] = {
L(2.899568897241432883079888249845707400614E-3),
L(1.831107138190848460767699919531132426356E-1),
L(3.999350044057883839080258832758908825165E0),
L(3.929041535867957938340569419874195303712E1),
L(1.884245613422523323068802689915538908291E2),
L(4.461469948819229734353852978424629815929E2),
L(5.004998753999796821224085972610636347903E2),
L(2.386342520092608513170837883757163414100E2),
L(3.791322528149347975999851588922424189957E1),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 8.0e-36
0 <= 1/x <= .0625 */
#define NQ16_IN 10
static const _Float128 Q16_IN[NQ16_IN + 1] = {
L(-3.917420835712508001321875734030357393421E-18),
L(-4.440311387483014485304387406538069930457E-15),
L(-1.951635424076926487780929645954007139616E-12),
L(-4.318256438421012555040546775651612810513E-10),
L(-5.231244131926180765270446557146989238020E-8),
L(-3.540072702902043752460711989234732357653E-6),
L(-1.311017536555269966928228052917534882984E-4),
L(-2.495184669674631806622008769674827575088E-3),
L(-2.141868222987209028118086708697998506716E-2),
L(-6.184031415202148901863605871197272650090E-2),
L(-1.922298704033332356899546792898156493887E-2),
2001-08-24 13:17:46 +00:00
};
#define NQ16_ID 9
static const _Float128 Q16_ID[NQ16_ID + 1] = {
L(3.820418034066293517479619763498400162314E-17),
L(4.340702810799239909648911373329149354911E-14),
L(1.914985356383416140706179933075303538524E-11),
L(4.262333682610888819476498617261895474330E-9),
L(5.213481314722233980346462747902942182792E-7),
L(3.585741697694069399299005316809954590558E-5),
L(1.366513429642842006385029778105539457546E-3),
L(2.745282599850704662726337474371355160594E-2),
L(2.637644521611867647651200098449903330074E-1),
L(1.006953426110765984590782655598680488746E0),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 1.9e-36
0.0625 <= 1/x <= 0.125 */
#define NQ8_16N 11
static const _Float128 Q8_16N[NQ8_16N + 1] = {
L(-2.028630366670228670781362543615221542291E-17),
L(-1.519634620380959966438130374006858864624E-14),
L(-4.540596528116104986388796594639405114524E-12),
L(-7.085151756671466559280490913558388648274E-10),
L(-6.351062671323970823761883833531546885452E-8),
L(-3.390817171111032905297982523519503522491E-6),
L(-1.082340897018886970282138836861233213972E-4),
L(-2.020120801187226444822977006648252379508E-3),
L(-2.093169910981725694937457070649605557555E-2),
L(-1.092176538874275712359269481414448063393E-1),
L(-2.374790947854765809203590474789108718733E-1),
L(-1.365364204556573800719985118029601401323E-1),
2001-08-24 13:17:46 +00:00
};
#define NQ8_16D 11
static const _Float128 Q8_16D[NQ8_16D + 1] = {
L(1.978397614733632533581207058069628242280E-16),
L(1.487361156806202736877009608336766720560E-13),
L(4.468041406888412086042576067133365913456E-11),
L(7.027822074821007443672290507210594648877E-9),
L(6.375740580686101224127290062867976007374E-7),
L(3.466887658320002225888644977076410421940E-5),
L(1.138625640905289601186353909213719596986E-3),
L(2.224470799470414663443449818235008486439E-2),
L(2.487052928527244907490589787691478482358E-1),
L(1.483927406564349124649083853892380899217E0),
L(4.182773513276056975777258788903489507705E0),
L(4.419665392573449746043880892524360870944E0),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 1.5e-35
0.125 <= 1/x <= 0.1875 */
#define NQ5_8N 10
static const _Float128 Q5_8N[NQ5_8N + 1] = {
L(-3.656082407740970534915918390488336879763E-13),
L(-1.344660308497244804752334556734121771023E-10),
L(-1.909765035234071738548629788698150760791E-8),
L(-1.366668038160120210269389551283666716453E-6),
L(-5.392327355984269366895210704976314135683E-5),
L(-1.206268245713024564674432357634540343884E-3),
L(-1.515456784370354374066417703736088291287E-2),
L(-1.022454301137286306933217746545237098518E-1),
L(-3.373438906472495080504907858424251082240E-1),
L(-4.510782522110845697262323973549178453405E-1),
L(-1.549000892545288676809660828213589804884E-1),
2001-08-24 13:17:46 +00:00
};
#define NQ5_8D 10
static const _Float128 Q5_8D[NQ5_8D + 1] = {
L(3.565550843359501079050699598913828460036E-12),
L(1.321016015556560621591847454285330528045E-9),
L(1.897542728662346479999969679234270605975E-7),
L(1.381720283068706710298734234287456219474E-5),
L(5.599248147286524662305325795203422873725E-4),
L(1.305442352653121436697064782499122164843E-2),
L(1.750234079626943298160445750078631894985E-1),
L(1.311420542073436520965439883806946678491E0),
L(5.162757689856842406744504211089724926650E0),
L(9.527760296384704425618556332087850581308E0),
L(6.604648207463236667912921642545100248584E0),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 1.3e-35
0.1875 <= 1/x <= 0.25 */
#define NQ4_5N 10
static const _Float128 Q4_5N[NQ4_5N + 1] = {
L(-4.079513568708891749424783046520200903755E-11),
L(-9.326548104106791766891812583019664893311E-9),
L(-8.016795121318423066292906123815687003356E-7),
L(-3.372350544043594415609295225664186750995E-5),
L(-7.566238665947967882207277686375417983917E-4),
L(-9.248861580055565402130441618521591282617E-3),
L(-6.033106131055851432267702948850231270338E-2),
L(-1.966908754799996793730369265431584303447E-1),
L(-2.791062741179964150755788226623462207560E-1),
L(-1.255478605849190549914610121863534191666E-1),
L(-4.320429862021265463213168186061696944062E-3),
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};
#define NQ4_5D 9
static const _Float128 Q4_5D[NQ4_5D + 1] = {
L(3.978497042580921479003851216297330701056E-10),
L(9.203304163828145809278568906420772246666E-8),
L(8.059685467088175644915010485174545743798E-6),
L(3.490187375993956409171098277561669167446E-4),
L(8.189109654456872150100501732073810028829E-3),
L(1.072572867311023640958725265762483033769E-1),
L(7.790606862409960053675717185714576937994E-1),
L(3.016049768232011196434185423512777656328E0),
L(5.722963851442769787733717162314477949360E0),
L(4.510527838428473279647251350931380867663E0),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 2.1e-35
0.25 <= 1/x <= 0.3125 */
#define NQ3r2_4N 9
static const _Float128 Q3r2_4N[NQ3r2_4N + 1] = {
L(-1.087480809271383885936921889040388133627E-8),
L(-1.690067828697463740906962973479310170932E-6),
L(-9.608064416995105532790745641974762550982E-5),
L(-2.594198839156517191858208513873961837410E-3),
L(-3.610954144421543968160459863048062977822E-2),
L(-2.629866798251843212210482269563961685666E-1),
L(-9.709186825881775885917984975685752956660E-1),
L(-1.667521829918185121727268867619982417317E0),
L(-1.109255082925540057138766105229900943501E0),
L(-1.812932453006641348145049323713469043328E-1),
2001-08-24 13:17:46 +00:00
};
#define NQ3r2_4D 9
static const _Float128 Q3r2_4D[NQ3r2_4D + 1] = {
L(1.060552717496912381388763753841473407026E-7),
L(1.676928002024920520786883649102388708024E-5),
L(9.803481712245420839301400601140812255737E-4),
L(2.765559874262309494758505158089249012930E-2),
L(4.117921827792571791298862613287549140706E-1),
L(3.323769515244751267093378361930279161413E0),
L(1.436602494405814164724810151689705353670E1),
L(3.163087869617098638064881410646782408297E1),
L(3.198181264977021649489103980298349589419E1),
L(1.203649258862068431199471076202897823272E1),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 1.6e-36
0.3125 <= 1/x <= 0.375 */
#define NQ2r7_3r2N 9
static const _Float128 Q2r7_3r2N[NQ2r7_3r2N + 1] = {
L(-1.723405393982209853244278760171643219530E-7),
L(-2.090508758514655456365709712333460087442E-5),
L(-9.140104013370974823232873472192719263019E-4),
L(-1.871349499990714843332742160292474780128E-2),
L(-1.948930738119938669637865956162512983416E-1),
L(-1.048764684978978127908439526343174139788E0),
L(-2.827714929925679500237476105843643064698E0),
L(-3.508761569156476114276988181329773987314E0),
L(-1.669332202790211090973255098624488308989E0),
L(-1.930796319299022954013840684651016077770E-1),
2001-08-24 13:17:46 +00:00
};
#define NQ2r7_3r2D 9
static const _Float128 Q2r7_3r2D[NQ2r7_3r2D + 1] = {
L(1.680730662300831976234547482334347983474E-6),
L(2.084241442440551016475972218719621841120E-4),
L(9.445316642108367479043541702688736295579E-3),
L(2.044637889456631896650179477133252184672E-1),
L(2.316091982244297350829522534435350078205E0),
L(1.412031891783015085196708811890448488865E1),
L(4.583830154673223384837091077279595496149E1),
L(7.549520609270909439885998474045974122261E1),
L(5.697605832808113367197494052388203310638E1),
L(1.601496240876192444526383314589371686234E1),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 9.5e-36
0.375 <= 1/x <= 0.4375 */
#define NQ2r3_2r7N 9
static const _Float128 Q2r3_2r7N[NQ2r3_2r7N + 1] = {
L(-8.603042076329122085722385914954878953775E-7),
L(-7.701746260451647874214968882605186675720E-5),
L(-2.407932004380727587382493696877569654271E-3),
L(-3.403434217607634279028110636919987224188E-2),
L(-2.348707332185238159192422084985713102877E-1),
L(-7.957498841538254916147095255700637463207E-1),
L(-1.258469078442635106431098063707934348577E0),
L(-8.162415474676345812459353639449971369890E-1),
L(-1.581783890269379690141513949609572806898E-1),
L(-1.890595651683552228232308756569450822905E-3),
2001-08-24 13:17:46 +00:00
};
#define NQ2r3_2r7D 8
static const _Float128 Q2r3_2r7D[NQ2r3_2r7D + 1] = {
L(8.390017524798316921170710533381568175665E-6),
L(7.738148683730826286477254659973968763659E-4),
L(2.541480810958665794368759558791634341779E-2),
L(3.878879789711276799058486068562386244873E-1),
L(3.003783779325811292142957336802456109333E0),
L(1.206480374773322029883039064575464497400E1),
L(2.458414064785315978408974662900438351782E1),
L(2.367237826273668567199042088835448715228E1),
L(9.231451197519171090875569102116321676763E0),
2001-08-24 13:17:46 +00:00
/* 1.000000000000000000000000000000000000000E0 */
};
/* Y1(x)cosX - J1(x)sinX = sqrt( 2/(pi x)) Q1(x),
Q1(x) = 1/x (.375 + 1/x^2 R(1/x^2)),
Peak relative error 1.4e-36
0.4375 <= 1/x <= 0.5 */
#define NQ2_2r3N 9
static const _Float128 Q2_2r3N[NQ2_2r3N + 1] = {
L(-5.552507516089087822166822364590806076174E-6),
L(-4.135067659799500521040944087433752970297E-4),
L(-1.059928728869218962607068840646564457980E-2),
L(-1.212070036005832342565792241385459023801E-1),
L(-6.688350110633603958684302153362735625156E-1),
L(-1.793587878197360221340277951304429821582E0),
L(-2.225407682237197485644647380483725045326E0),
L(-1.123402135458940189438898496348239744403E0),
L(-1.679187241566347077204805190763597299805E-1),
L(-1.458550613639093752909985189067233504148E-3),
2001-08-24 13:17:46 +00:00
};
#define NQ2_2r3D 8
static const _Float128 Q2_2r3D[NQ2_2r3D + 1] = {
L(5.415024336507980465169023996403597916115E-5),
L(4.179246497380453022046357404266022870788E-3),
L(1.136306384261959483095442402929502368598E-1),
L(1.422640343719842213484515445393284072830E0),
L(8.968786703393158374728850922289204805764E0),
L(2.914542473339246127533384118781216495934E1),
L(4.781605421020380669870197378210457054685E1),
L(3.693865837171883152382820584714795072937E1),
L(1.153220502744204904763115556224395893076E1),
2001-08-24 13:17:46 +00:00
/* 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)
2001-08-24 13:17:46 +00:00
{
_Float128 y;
2001-08-24 13:17:46 +00:00
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)
2001-08-24 13:17:46 +00:00
{
_Float128 y;
2001-08-24 13:17:46 +00:00
p += n;
y = x + *p--;
do
{
y = y * x + *p--;
}
while (--n > 0);
return y;
}
/* Bessel function of the first kind, order one. */
_Float128
__ieee754_j1l (_Float128 x)
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{
_Float128 xx, xinv, z, p, q, c, s, cc, ss;
2001-08-24 13:17:46 +00:00
if (! isfinite (x))
2001-08-24 13:17:46 +00:00
{
if (x != x)
return x + x;
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else
return 0;
2001-08-24 13:17:46 +00:00
}
if (x == 0)
2001-08-24 13:17:46 +00:00
return x;
xx = fabsl (x);
if (xx <= L(0x1p-58))
{
_Float128 ret = x * L(0.5);
Refactor code forcing underflow exceptions. Various floating-point functions have code to force underflow exceptions if a tiny result was computed in a way that might not have resulted in such exceptions even though the result is inexact. This typically uses math_force_eval to ensure that the underflowing expression is evaluated, but sometimes uses volatile. This patch refactors such code to use three new macros math_check_force_underflow, math_check_force_underflow_nonneg and math_check_force_underflow_complex (which in turn use math_force_eval). In the limited number of cases not suited to a simple conversion to these macros, existing uses of volatile are changed to use math_force_eval instead. The converted code does not always execute exactly the same sequence of operations as the original code, but the overall effects should be the same. Tested for x86_64, x86, mips64 and powerpc. * sysdeps/generic/math_private.h (fabs_tg): New macro. (min_of_type): Likewise. (math_check_force_underflow): Likewise. (math_check_force_underflow_nonneg): Likewise. (math_check_force_underflow_complex): Likewise. * math/e_exp2l.c (__ieee754_exp2l): Use math_check_force_underflow_nonneg. * math/k_casinh.c (__kernel_casinh): Likewise. * math/k_casinhf.c (__kernel_casinhf): Likewise. * math/k_casinhl.c (__kernel_casinhl): Likewise. * math/s_catan.c (__catan): Use math_check_force_underflow_complex. * math/s_catanf.c (__catanf): Likewise. * math/s_catanh.c (__catanh): Likewise. * math/s_catanhf.c (__catanhf): Likewise. * math/s_catanhl.c (__catanhl): Likewise. * math/s_catanl.c (__catanl): Likewise. * math/s_ccosh.c (__ccosh): Likewise. * math/s_ccoshf.c (__ccoshf): Likewise. * math/s_ccoshl.c (__ccoshl): Likewise. * math/s_cexp.c (__cexp): Likewise. * math/s_cexpf.c (__cexpf): Likewise. * math/s_cexpl.c (__cexpl): Likewise. * math/s_clog.c (__clog): Use math_check_force_underflow_nonneg. * math/s_clog10.c (__clog10): Likewise. * math/s_clog10f.c (__clog10f): Likewise. * math/s_clog10l.c (__clog10l): Likewise. * math/s_clogf.c (__clogf): Likewise. * math/s_clogl.c (__clogl): Likewise. * math/s_csin.c (__csin): Use math_check_force_underflow_complex. * math/s_csinf.c (__csinf): Likewise. * math/s_csinh.c (__csinh): Likewise. * math/s_csinhf.c (__csinhf): Likewise. * math/s_csinhl.c (__csinhl): Likewise. * math/s_csinl.c (__csinl): Likewise. * math/s_csqrt.c (__csqrt): Use math_check_force_underflow. * math/s_csqrtf.c (__csqrtf): Likewise. * math/s_csqrtl.c (__csqrtl): Likewise. * math/s_ctan.c (__ctan): Use math_check_force_underflow_complex. * math/s_ctanf.c (__ctanf): Likewise. * math/s_ctanh.c (__ctanh): Likewise. * math/s_ctanhf.c (__ctanhf): Likewise. * math/s_ctanhl.c (__ctanhl): Likewise. * math/s_ctanl.c (__ctanl): Likewise. * stdlib/strtod_l.c (round_and_return): Use math_force_eval instead of volatile. * sysdeps/ieee754/dbl-64/e_asin.c (__ieee754_asin): Use math_check_force_underflow. * sysdeps/ieee754/dbl-64/e_atanh.c (__ieee754_atanh): Likewise. * sysdeps/ieee754/dbl-64/e_exp.c (__ieee754_exp): Do not use volatile when forcing underflow. * sysdeps/ieee754/dbl-64/e_exp2.c (__ieee754_exp2): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/dbl-64/e_gamma_r.c (__ieee754_gamma_r): Likewise. * sysdeps/ieee754/dbl-64/e_j1.c (__ieee754_j1): Use math_check_force_underflow. * sysdeps/ieee754/dbl-64/e_jn.c (__ieee754_jn): Likewise. * sysdeps/ieee754/dbl-64/e_sinh.c (__ieee754_sinh): Likewise. * sysdeps/ieee754/dbl-64/s_asinh.c (__asinh): Likewise. * sysdeps/ieee754/dbl-64/s_atan.c (atan): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/dbl-64/s_erf.c (__erf): Use math_check_force_underflow. * sysdeps/ieee754/dbl-64/s_expm1.c (__expm1): Likewise. * sysdeps/ieee754/dbl-64/s_fma.c (__fma): Use math_force_eval instead of volatile. * sysdeps/ieee754/dbl-64/s_log1p.c (__log1p): Use math_check_force_underflow. * sysdeps/ieee754/dbl-64/s_sin.c (__sin): Likewise. * sysdeps/ieee754/dbl-64/s_tan.c (tan): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/dbl-64/s_tanh.c (__tanh): Use math_check_force_underflow. * sysdeps/ieee754/flt-32/e_asinf.c (__ieee754_asinf): Likewise. * sysdeps/ieee754/flt-32/e_atanhf.c (__ieee754_atanhf): Likewise. * sysdeps/ieee754/flt-32/e_exp2f.c (__ieee754_exp2f): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/flt-32/e_gammaf_r.c (__ieee754_gammaf_r): Likewise. * sysdeps/ieee754/flt-32/e_j1f.c (__ieee754_j1f): Use math_check_force_underflow. * sysdeps/ieee754/flt-32/e_jnf.c (__ieee754_jnf): Likewise. * sysdeps/ieee754/flt-32/e_sinhf.c (__ieee754_sinhf): Likewise. * sysdeps/ieee754/flt-32/k_sinf.c (__kernel_sinf): Likewise. * sysdeps/ieee754/flt-32/k_tanf.c (__kernel_tanf): Likewise. * sysdeps/ieee754/flt-32/s_asinhf.c (__asinhf): Likewise. * sysdeps/ieee754/flt-32/s_atanf.c (__atanf): Likewise. * sysdeps/ieee754/flt-32/s_erff.c (__erff): Likewise. * sysdeps/ieee754/flt-32/s_expm1f.c (__expm1f): Likewise. * sysdeps/ieee754/flt-32/s_log1pf.c (__log1pf): Likewise. * sysdeps/ieee754/flt-32/s_tanhf.c (__tanhf): Likewise. * sysdeps/ieee754/ldbl-128/e_asinl.c (__ieee754_asinl): Likewise. * sysdeps/ieee754/ldbl-128/e_atanhl.c (__ieee754_atanhl): Likewise. * sysdeps/ieee754/ldbl-128/e_expl.c (__ieee754_expl): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/ldbl-128/e_gammal_r.c (__ieee754_gammal_r): Likewise. * sysdeps/ieee754/ldbl-128/e_j1l.c (__ieee754_j1l): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-128/e_jnl.c (__ieee754_jnl): Likewise. * sysdeps/ieee754/ldbl-128/e_sinhl.c (__ieee754_sinhl): Likewise. * sysdeps/ieee754/ldbl-128/k_sincosl.c (__kernel_sincosl): Likewise. * sysdeps/ieee754/ldbl-128/k_sinl.c (__kernel_sinl): Likewise. * sysdeps/ieee754/ldbl-128/k_tanl.c (__kernel_tanl): Likewise. * sysdeps/ieee754/ldbl-128/s_asinhl.c (__asinhl): Likewise. * sysdeps/ieee754/ldbl-128/s_atanl.c (__atanl): Likewise. * sysdeps/ieee754/ldbl-128/s_erfl.c (__erfl): Likewise. * sysdeps/ieee754/ldbl-128/s_expm1l.c (__expm1l): Likewise. * sysdeps/ieee754/ldbl-128/s_fmal.c (__fmal): Use math_force_eval instead of volatile. * sysdeps/ieee754/ldbl-128/s_log1pl.c (__log1pl): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-128/s_tanhl.c (__tanhl): Likewise. * sysdeps/ieee754/ldbl-128ibm/e_asinl.c (__ieee754_asinl): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-128ibm/e_atanhl.c (__ieee754_atanhl): Likewise. * sysdeps/ieee754/ldbl-128ibm/e_gammal_r.c (__ieee754_gammal_r): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/ldbl-128ibm/e_jnl.c (__ieee754_jnl): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-128ibm/e_sinhl.c (__ieee754_sinhl): Likewise. * sysdeps/ieee754/ldbl-128ibm/k_sincosl.c (__kernel_sincosl): Likewise. * sysdeps/ieee754/ldbl-128ibm/k_sinl.c (__kernel_sinl): Likewise. * sysdeps/ieee754/ldbl-128ibm/k_tanl.c (__kernel_tanl): Likewise. * sysdeps/ieee754/ldbl-128ibm/s_asinhl.c (__asinhl): Likewise. * sysdeps/ieee754/ldbl-128ibm/s_atanl.c (__atanl): Likewise. * sysdeps/ieee754/ldbl-128ibm/s_erfl.c (__erfl): Likewise. * sysdeps/ieee754/ldbl-128ibm/s_tanhl.c (__tanhl): Likewise. * sysdeps/ieee754/ldbl-96/e_asinl.c (__ieee754_asinl): Likewise. * sysdeps/ieee754/ldbl-96/e_atanhl.c (__ieee754_atanhl): Likewise. * sysdeps/ieee754/ldbl-96/e_gammal_r.c (__ieee754_gammal_r): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/ldbl-96/e_j1l.c (__ieee754_j1l): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-96/e_jnl.c (__ieee754_jnl): Likewise. * sysdeps/ieee754/ldbl-96/e_sinhl.c (__ieee754_sinhl): Likewise. * sysdeps/ieee754/ldbl-96/k_sinl.c (__kernel_sinl): Likewise. * sysdeps/ieee754/ldbl-96/k_tanl.c (__kernel_tanl): Use math_check_force_underflow_nonneg. * sysdeps/ieee754/ldbl-96/s_asinhl.c (__asinhl): Use math_check_force_underflow. * sysdeps/ieee754/ldbl-96/s_erfl.c (__erfl): Likewise. * sysdeps/ieee754/ldbl-96/s_fmal.c (__fmal): Use math_force_eval instead of volatile. * sysdeps/ieee754/ldbl-96/s_tanhl.c (__tanhl): Use math_check_force_underflow.
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math_check_force_underflow (ret);
if (ret == 0)
__set_errno (ERANGE);
return ret;
}
if (xx <= 2)
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{
/* 0 <= x <= 2 */
z = xx * xx;
p = xx * z * neval (z, J0_2N, NJ0_2N) / deval (z, J0_2D, NJ0_2D);
p += L(0.5) * xx;
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if (x < 0)
p = -p;
return p;
}
/* X = x - 3 pi/4
cos(X) = cos(x) cos(3 pi/4) + sin(x) sin(3 pi/4)
= 1/sqrt(2) * (-cos(x) + sin(x))
sin(X) = sin(x) cos(3 pi/4) - cos(x) sin(3 pi/4)
= -1/sqrt(2) * (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))
{
z = ONEOSQPI * cc / __ieee754_sqrtl (xx);
if (x < 0)
z = -z;
return z;
}
xinv = 1 / xx;
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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;
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q = z * q;
q = q * xinv + L(0.375) * xinv;
z = ONEOSQPI * (p * cc - q * ss) / __ieee754_sqrtl (xx);
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if (x < 0)
z = -z;
return z;
}
strong_alias (__ieee754_j1l, __j1l_finite)
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/* Y1(x) = 2/pi * (log(x) * J1(x) - 1/x) + x R(x^2)
Peak relative error 6.2e-38
0 <= x <= 2 */
#define NY0_2N 7
static _Float128 Y0_2N[NY0_2N + 1] = {
L(-6.804415404830253804408698161694720833249E19),
L(1.805450517967019908027153056150465849237E19),
L(-8.065747497063694098810419456383006737312E17),
L(1.401336667383028259295830955439028236299E16),
L(-1.171654432898137585000399489686629680230E14),
L(5.061267920943853732895341125243428129150E11),
L(-1.096677850566094204586208610960870217970E9),
L(9.541172044989995856117187515882879304461E5),
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};
#define NY0_2D 7
static _Float128 Y0_2D[NY0_2D + 1] = {
L(3.470629591820267059538637461549677594549E20),
L(4.120796439009916326855848107545425217219E18),
L(2.477653371652018249749350657387030814542E16),
L(9.954678543353888958177169349272167762797E13),
L(2.957927997613630118216218290262851197754E11),
L(6.748421382188864486018861197614025972118E8),
L(1.173453425218010888004562071020305709319E6),
L(1.450335662961034949894009554536003377187E3),
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/* 1.000000000000000000000000000000000000000E0 */
};
/* Bessel function of the second kind, order one. */
_Float128
__ieee754_y1l (_Float128 x)
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{
_Float128 xx, xinv, z, p, q, c, s, cc, ss;
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if (! isfinite (x))
return 1 / (x + x * x);
if (x <= 0)
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{
if (x < 0)
return (zero / (zero * x));
return -1 / zero; /* -inf and divide by zero exception. */
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}
xx = fabsl (x);
if (xx <= 0x1p-114)
{
z = -TWOOPI / x;
if (isinf (z))
__set_errno (ERANGE);
return z;
}
if (xx <= 2)
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{
/* 0 <= x <= 2 */
SET_RESTORE_ROUNDL (FE_TONEAREST);
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z = xx * xx;
p = xx * neval (z, Y0_2N, NY0_2N) / deval (z, Y0_2D, NY0_2D);
p = -TWOOPI / xx + p;
p = TWOOPI * __ieee754_logl (x) * __ieee754_j1l (x) + p;
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return p;
}
/* X = x - 3 pi/4
cos(X) = cos(x) cos(3 pi/4) + sin(x) sin(3 pi/4)
= 1/sqrt(2) * (-cos(x) + sin(x))
sin(X) = sin(x) cos(3 pi/4) - cos(x) sin(3 pi/4)
= -1/sqrt(2) * (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 * ss / __ieee754_sqrtl (xx);
xinv = 1 / xx;
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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;
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q = z * q;
q = q * xinv + L(0.375) * xinv;
z = ONEOSQPI * (p * ss + q * cc) / __ieee754_sqrtl (xx);
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return z;
}
strong_alias (__ieee754_y1l, __y1l_finite)