517ddcfb70
This has the side effect of confusing gcc-4.2.1's optimizer into more often doing the right thing. When it does the wrong thing here, it seems to be mainly making too many copies of x with dependency chains. This effect is tiny on amd64, but in some cases on i386 it is enormous. E.g., on i386 (A64) with -O1, the current version of exp2() should take about 50 cycles, but took 83 cycles before this change and 66 cycles after this change. exp2f() with -O1 only speeded up from 51 to 47 cycles. (exp2f() should take about 40 cycles, on an Athlon in either i386 or amd64 mode, and now takes 42 on amd64). exp2l() with -O1 slowed down from 155 cycles to 123 for some args; this is unimportant since the i386 exp2l() is a fake; the wrong thing for it seems to involve branch misprediction.
431 lines
12 KiB
C
431 lines
12 KiB
C
/*-
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* Copyright (c) 2005-2008 David Schultz <das@FreeBSD.ORG>
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*/
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#include <sys/cdefs.h>
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__FBSDID("$FreeBSD$");
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#include <float.h>
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#include <stdint.h>
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#include "fpmath.h"
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#include "math.h"
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#define TBLBITS 7
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#define TBLSIZE (1 << TBLBITS)
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#define BIAS (LDBL_MAX_EXP - 1)
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#define EXPMASK (BIAS + LDBL_MAX_EXP)
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#if 0 /* XXX Prevent gcc from erroneously constant folding this. */
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static const long double twom10000 = 0x1p-10000L;
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#else
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static volatile long double twom10000 = 0x1p-10000L;
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#endif
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static const long double
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huge = 0x1p10000L,
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P1 = 0x1.62e42fefa39ef35793c7673007e6p-1L,
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P2 = 0x1.ebfbdff82c58ea86f16b06ec9736p-3L,
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P3 = 0x1.c6b08d704a0bf8b33a762bad3459p-5L,
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P4 = 0x1.3b2ab6fba4e7729ccbbe0b4f3fc2p-7L,
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P5 = 0x1.5d87fe78a67311071dee13fd11d9p-10L,
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P6 = 0x1.430912f86c7876f4b663b23c5fe5p-13L;
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static const double
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P7 = 0x1.ffcbfc588b041p-17,
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P8 = 0x1.62c0223a5c7c7p-20,
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P9 = 0x1.b52541ff59713p-24,
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P10 = 0x1.e4cf56a391e22p-28,
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redux = 0x1.8p112 / TBLSIZE;
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static const long double tbl[TBLSIZE] = {
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0x1.6a09e667f3bcc908b2fb1366dfeap-1L,
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0x1.6c012750bdabeed76a99800f4edep-1L,
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0x1.6dfb23c651a2ef220e2cbe1bc0d4p-1L,
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0x1.6ff7df9519483cf87e1b4f3e1e98p-1L,
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0x1.71f75e8ec5f73dd2370f2ef0b148p-1L,
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0x1.73f9a48a58173bd5c9a4e68ab074p-1L,
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0x1.75feb564267c8bf6e9aa33a489a8p-1L,
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0x1.780694fde5d3f619ae02808592a4p-1L,
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0x1.7a11473eb0186d7d51023f6ccb1ap-1L,
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0x1.7c1ed0130c1327c49334459378dep-1L,
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0x1.7e2f336cf4e62105d02ba1579756p-1L,
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0x1.80427543e1a11b60de67649a3842p-1L,
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0x1.82589994cce128acf88afab34928p-1L,
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0x1.8471a4623c7acce52f6b97c6444cp-1L,
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0x1.868d99b4492ec80e41d90ac2556ap-1L,
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0x1.88ac7d98a669966530bcdf2d4cc0p-1L,
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0x1.8ace5422aa0db5ba7c55a192c648p-1L,
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0x1.8cf3216b5448bef2aa1cd161c57ap-1L,
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0x1.8f1ae991577362b982745c72eddap-1L,
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0x1.9145b0b91ffc588a61b469f6b6a0p-1L,
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0x1.93737b0cdc5e4f4501c3f2540ae8p-1L,
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0x1.95a44cbc8520ee9b483695a0e7fep-1L,
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0x1.97d829fde4e4f8b9e920f91e8eb6p-1L,
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0x1.9a0f170ca07b9ba3109b8c467844p-1L,
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0x1.9c49182a3f0901c7c46b071f28dep-1L,
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0x1.9e86319e323231824ca78e64c462p-1L,
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0x1.a0c667b5de564b29ada8b8cabbacp-1L,
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0x1.a309bec4a2d3358c171f770db1f4p-1L,
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0x1.a5503b23e255c8b424491caf88ccp-1L,
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0x1.a799e1330b3586f2dfb2b158f31ep-1L,
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0x1.a9e6b5579fdbf43eb243bdff53a2p-1L,
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0x1.ac36bbfd3f379c0db966a3126988p-1L,
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0x1.ae89f995ad3ad5e8734d17731c80p-1L,
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0x1.b0e07298db66590842acdfc6fb4ep-1L,
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0x1.b33a2b84f15faf6bfd0e7bd941b0p-1L,
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0x1.b59728de559398e3881111648738p-1L,
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0x1.b7f76f2fb5e46eaa7b081ab53ff6p-1L,
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0x1.ba5b030a10649840cb3c6af5b74cp-1L,
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0x1.bcc1e904bc1d2247ba0f45b3d06cp-1L,
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0x1.bf2c25bd71e088408d7025190cd0p-1L,
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0x1.c199bdd85529c2220cb12a0916bap-1L,
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0x1.c40ab5fffd07a6d14df820f17deap-1L,
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0x1.c67f12e57d14b4a2137fd20f2a26p-1L,
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0x1.c8f6d9406e7b511acbc48805c3f6p-1L,
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0x1.cb720dcef90691503cbd1e949d0ap-1L,
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0x1.cdf0b555dc3f9c44f8958fac4f12p-1L,
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0x1.d072d4a07897b8d0f22f21a13792p-1L,
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0x1.d2f87080d89f18ade123989ea50ep-1L,
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0x1.d5818dcfba48725da05aeb66dff8p-1L,
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0x1.d80e316c98397bb84f9d048807a0p-1L,
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0x1.da9e603db3285708c01a5b6d480cp-1L,
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0x1.dd321f301b4604b695de3c0630c0p-1L,
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0x1.dfc97337b9b5eb968cac39ed284cp-1L,
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0x1.e264614f5a128a12761fa17adc74p-1L,
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0x1.e502ee78b3ff6273d130153992d0p-1L,
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0x1.e7a51fbc74c834b548b2832378a4p-1L,
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0x1.ea4afa2a490d9858f73a18f5dab4p-1L,
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0x1.ecf482d8e67f08db0312fb949d50p-1L,
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0x1.efa1bee615a27771fd21a92dabb6p-1L,
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0x1.f252b376bba974e8696fc3638f24p-1L,
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0x1.f50765b6e4540674f84b762861a6p-1L,
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0x1.f7bfdad9cbe138913b4bfe72bd78p-1L,
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0x1.fa7c1819e90d82e90a7e74b26360p-1L,
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0x1.fd3c22b8f71f10975ba4b32bd006p-1L,
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0x1.0000000000000000000000000000p+0L,
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0x1.0163da9fb33356d84a66ae336e98p+0L,
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0x1.02c9a3e778060ee6f7caca4f7a18p+0L,
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0x1.04315e86e7f84bd738f9a20da442p+0L,
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0x1.059b0d31585743ae7c548eb68c6ap+0L,
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0x1.0706b29ddf6ddc6dc403a9d87b1ep+0L,
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0x1.0874518759bc808c35f25d942856p+0L,
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0x1.09e3ecac6f3834521e060c584d5cp+0L,
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0x1.0b5586cf9890f6298b92b7184200p+0L,
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0x1.0cc922b7247f7407b705b893dbdep+0L,
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0x1.0e3ec32d3d1a2020742e4f8af794p+0L,
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0x1.0fb66affed31af232091dd8a169ep+0L,
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0x1.11301d0125b50a4ebbf1aed9321cp+0L,
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0x1.12abdc06c31cbfb92bad324d6f84p+0L,
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0x1.1429aaea92ddfb34101943b2588ep+0L,
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0x1.15a98c8a58e512480d573dd562aep+0L,
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0x1.172b83c7d517adcdf7c8c50eb162p+0L,
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0x1.18af9388c8de9bbbf70b9a3c269cp+0L,
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0x1.1a35beb6fcb753cb698f692d2038p+0L,
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0x1.1bbe084045cd39ab1e72b442810ep+0L,
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0x1.1d4873168b9aa7805b8028990be8p+0L,
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0x1.1ed5022fcd91cb8819ff61121fbep+0L,
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0x1.2063b88628cd63b8eeb0295093f6p+0L,
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0x1.21f49917ddc962552fd29294bc20p+0L,
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0x1.2387a6e75623866c1fadb1c159c0p+0L,
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0x1.251ce4fb2a63f3582ab7de9e9562p+0L,
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0x1.26b4565e27cdd257a673281d3068p+0L,
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0x1.284dfe1f5638096cf15cf03c9fa0p+0L,
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0x1.29e9df51fdee12c25d15f5a25022p+0L,
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0x1.2b87fd0dad98ffddea46538fca24p+0L,
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0x1.2d285a6e4030b40091d536d0733ep+0L,
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0x1.2ecafa93e2f5611ca0f45d5239a4p+0L,
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0x1.306fe0a31b7152de8d5a463063bep+0L,
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0x1.32170fc4cd8313539cf1c3009330p+0L,
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0x1.33c08b26416ff4c9c8610d96680ep+0L,
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0x1.356c55f929ff0c94623476373be4p+0L,
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0x1.371a7373aa9caa7145502f45452ap+0L,
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0x1.38cae6d05d86585a9cb0d9bed530p+0L,
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0x1.3a7db34e59ff6ea1bc9299e0a1fep+0L,
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0x1.3c32dc313a8e484001f228b58cf0p+0L,
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0x1.3dea64c12342235b41223e13d7eep+0L,
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0x1.3fa4504ac801ba0bf701aa417b9cp+0L,
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0x1.4160a21f72e29f84325b8f3dbacap+0L,
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0x1.431f5d950a896dc704439410b628p+0L,
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0x1.44e086061892d03136f409df0724p+0L,
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0x1.46a41ed1d005772512f459229f0ap+0L,
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0x1.486a2b5c13cd013c1a3b69062f26p+0L,
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0x1.4a32af0d7d3de672d8bcf46f99b4p+0L,
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0x1.4bfdad5362a271d4397afec42e36p+0L,
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0x1.4dcb299fddd0d63b36ef1a9e19dep+0L,
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0x1.4f9b2769d2ca6ad33d8b69aa0b8cp+0L,
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0x1.516daa2cf6641c112f52c84d6066p+0L,
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0x1.5342b569d4f81df0a83c49d86bf4p+0L,
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0x1.551a4ca5d920ec52ec620243540cp+0L,
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0x1.56f4736b527da66ecb004764e61ep+0L,
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0x1.58d12d497c7fd252bc2b7343d554p+0L,
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0x1.5ab07dd48542958c93015191e9a8p+0L,
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0x1.5c9268a5946b701c4b1b81697ed4p+0L,
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0x1.5e76f15ad21486e9be4c20399d12p+0L,
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0x1.605e1b976dc08b076f592a487066p+0L,
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0x1.6247eb03a5584b1f0fa06fd2d9eap+0L,
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0x1.6434634ccc31fc76f8714c4ee122p+0L,
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0x1.66238825522249127d9e29b92ea2p+0L,
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0x1.68155d44ca973081c57227b9f69ep+0L,
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};
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static const float eps[TBLSIZE] = {
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-0x1.5c50p-101,
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-0x1.5d00p-106,
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0x1.8e90p-102,
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-0x1.5340p-103,
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0x1.1bd0p-102,
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-0x1.4600p-105,
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-0x1.7a40p-104,
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0x1.d590p-102,
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-0x1.d590p-101,
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0x1.b100p-103,
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-0x1.0d80p-105,
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0x1.6b00p-103,
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-0x1.9f00p-105,
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0x1.c400p-103,
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0x1.e120p-103,
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-0x1.c100p-104,
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-0x1.9d20p-103,
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0x1.a800p-108,
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0x1.4c00p-106,
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-0x1.9500p-106,
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0x1.6900p-105,
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-0x1.29d0p-100,
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0x1.4c60p-103,
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0x1.13a0p-102,
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-0x1.5b60p-103,
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-0x1.1c40p-103,
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0x1.db80p-102,
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0x1.91a0p-102,
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0x1.dc00p-105,
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0x1.44c0p-104,
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0x1.9710p-102,
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0x1.8760p-103,
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-0x1.a720p-103,
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0x1.ed20p-103,
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-0x1.49c0p-102,
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-0x1.e000p-111,
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0x1.86a0p-103,
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0x1.2b40p-103,
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-0x1.b400p-108,
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0x1.1280p-99,
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-0x1.02d8p-102,
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-0x1.e3d0p-103,
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-0x1.b080p-105,
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-0x1.f100p-107,
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-0x1.16c0p-105,
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-0x1.1190p-103,
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-0x1.a7d2p-100,
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0x1.3450p-103,
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-0x1.67c0p-105,
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0x1.4b80p-104,
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-0x1.c4e0p-103,
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0x1.6000p-108,
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-0x1.3f60p-105,
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0x1.93f0p-104,
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0x1.5fe0p-105,
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0x1.6f80p-107,
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-0x1.7600p-106,
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0x1.21e0p-106,
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-0x1.3a40p-106,
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-0x1.40c0p-104,
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-0x1.9860p-105,
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-0x1.5d40p-108,
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-0x1.1d70p-106,
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0x1.2760p-105,
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0x0.0000p+0,
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0x1.21e2p-104,
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-0x1.9520p-108,
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-0x1.5720p-106,
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-0x1.4810p-106,
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-0x1.be00p-109,
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0x1.0080p-105,
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-0x1.5780p-108,
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-0x1.d460p-105,
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-0x1.6140p-105,
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0x1.4630p-104,
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0x1.ad50p-103,
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0x1.82e0p-105,
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0x1.1d3cp-101,
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0x1.6100p-107,
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0x1.ec30p-104,
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0x1.f200p-108,
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0x1.0b40p-103,
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0x1.3660p-102,
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0x1.d9d0p-103,
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-0x1.02d0p-102,
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0x1.b070p-103,
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0x1.b9c0p-104,
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-0x1.01c0p-103,
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-0x1.dfe0p-103,
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0x1.1b60p-104,
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-0x1.ae94p-101,
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-0x1.3340p-104,
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0x1.b3d8p-102,
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-0x1.6e40p-105,
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-0x1.3670p-103,
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0x1.c140p-104,
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0x1.1840p-101,
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0x1.1ab0p-102,
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-0x1.a400p-104,
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0x1.1f00p-104,
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-0x1.7180p-103,
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0x1.4ce0p-102,
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0x1.9200p-107,
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-0x1.54c0p-103,
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0x1.1b80p-105,
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-0x1.1828p-101,
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0x1.5720p-102,
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-0x1.a060p-100,
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0x1.9160p-102,
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0x1.a280p-104,
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0x1.3400p-107,
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0x1.2b20p-102,
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0x1.7800p-108,
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0x1.cfd0p-101,
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0x1.2ef0p-102,
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-0x1.2760p-99,
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0x1.b380p-104,
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0x1.0048p-101,
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-0x1.60b0p-102,
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0x1.a1ccp-100,
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-0x1.a640p-104,
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-0x1.08a0p-101,
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0x1.7e60p-102,
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0x1.22c0p-103,
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-0x1.7200p-106,
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0x1.f0f0p-102,
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0x1.eb4ep-99,
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0x1.c6e0p-103,
|
|
};
|
|
|
|
/*
|
|
* exp2l(x): compute the base 2 exponential of x
|
|
*
|
|
* Accuracy: Peak error < 0.502 ulp.
|
|
*
|
|
* Method: (accurate tables)
|
|
*
|
|
* Reduce x:
|
|
* x = 2**k + y, for integer k and |y| <= 1/2.
|
|
* Thus we have exp2(x) = 2**k * exp2(y).
|
|
*
|
|
* Reduce y:
|
|
* y = i/TBLSIZE + z - eps[i] for integer i near y * TBLSIZE.
|
|
* Thus we have exp2(y) = exp2(i/TBLSIZE) * exp2(z - eps[i]),
|
|
* with |z - eps[i]| <= 2**-8 + 2**-98 for the table used.
|
|
*
|
|
* We compute exp2(i/TBLSIZE) via table lookup and exp2(z - eps[i]) via
|
|
* a degree-10 minimax polynomial with maximum error under 2**-120.
|
|
* The values in exp2t[] and eps[] are chosen such that
|
|
* exp2t[i] = exp2(i/TBLSIZE + eps[i]), and eps[i] is a small offset such
|
|
* that exp2t[i] is accurate to 2**-122.
|
|
*
|
|
* Note that the range of i is +-TBLSIZE/2, so we actually index the tables
|
|
* by i0 = i + TBLSIZE/2.
|
|
*
|
|
* This method is due to Gal, with many details due to Gal and Bachelis:
|
|
*
|
|
* Gal, S. and Bachelis, B. An Accurate Elementary Mathematical Library
|
|
* for the IEEE Floating Point Standard. TOMS 17(1), 26-46 (1991).
|
|
*/
|
|
long double
|
|
exp2l(long double x)
|
|
{
|
|
union IEEEl2bits u, v;
|
|
long double r, t, twopk, twopkp10000, z;
|
|
uint32_t hx, ix, i0;
|
|
int k;
|
|
|
|
u.e = x;
|
|
|
|
/* Filter out exceptional cases. */
|
|
hx = u.xbits.expsign;
|
|
ix = hx & EXPMASK;
|
|
if (ix >= BIAS + 14) { /* |x| >= 16384 */
|
|
if (ix == BIAS + LDBL_MAX_EXP) {
|
|
if (u.xbits.manh != 0
|
|
|| u.xbits.manl != 0
|
|
|| (hx & 0x8000) == 0)
|
|
return (x + x); /* x is NaN or +Inf */
|
|
else
|
|
return (0.0); /* x is -Inf */
|
|
}
|
|
if (x >= 16384)
|
|
return (huge * huge); /* overflow */
|
|
if (x <= -16495)
|
|
return (twom10000 * twom10000); /* underflow */
|
|
} else if (ix <= BIAS - 115) { /* |x| < 0x1p-115 */
|
|
return (1.0 + x);
|
|
}
|
|
|
|
/*
|
|
* Reduce x, computing z, i0, and k. The low bits of x + redux
|
|
* contain the 16-bit integer part of the exponent (k) followed by
|
|
* TBLBITS fractional bits (i0). We use bit tricks to extract these
|
|
* as integers, then set z to the remainder.
|
|
*
|
|
* Example: Suppose x is 0xabc.123456p0 and TBLBITS is 8.
|
|
* Then the low-order word of x + redux is 0x000abc12,
|
|
* We split this into k = 0xabc and i0 = 0x12 (adjusted to
|
|
* index into the table), then we compute z = 0x0.003456p0.
|
|
*
|
|
* XXX If the exponent is negative, the computation of k depends on
|
|
* '>>' doing sign extension.
|
|
*/
|
|
u.e = x + redux;
|
|
i0 = (u.bits.manl & 0xffffffff) + TBLSIZE / 2;
|
|
k = (int)i0 >> TBLBITS;
|
|
i0 = i0 & (TBLSIZE - 1);
|
|
u.e -= redux;
|
|
z = x - u.e;
|
|
v.xbits.manh = 0;
|
|
v.xbits.manl = 0;
|
|
if (k >= LDBL_MIN_EXP) {
|
|
v.xbits.expsign = LDBL_MAX_EXP - 1 + k;
|
|
twopk = v.e;
|
|
} else {
|
|
v.xbits.expsign = LDBL_MAX_EXP - 1 + k + 10000;
|
|
twopkp10000 = v.e;
|
|
}
|
|
|
|
/* Compute r = exp2(y) = exp2t[i0] * p(z - eps[i]). */
|
|
t = tbl[i0]; /* exp2t[i0] */
|
|
z -= eps[i0]; /* eps[i0] */
|
|
r = t + t * z * (P1 + z * (P2 + z * (P3 + z * (P4 + z * (P5 + z * (P6
|
|
+ z * (P7 + z * (P8 + z * (P9 + z * P10)))))))));
|
|
|
|
/* Scale by 2**k. */
|
|
if(k >= LDBL_MIN_EXP) {
|
|
if (k == LDBL_MAX_EXP)
|
|
return (r * 2.0 * 0x1p16383L);
|
|
return (r * twopk);
|
|
} else {
|
|
return (r * twopkp10000 * twom10000);
|
|
}
|
|
}
|