1# Data file for mpc_atanh. 2# 3# Copyright (C) 2009 INRIA 4# 5# This file is part of GNU MPC. 6# 7# GNU MPC is free software; you can redistribute it and/or modify it under 8# the terms of the GNU Lesser General Public License as published by the 9# Free Software Foundation; either version 3 of the License, or (at your 10#o ption) any later version. 11# 12# GNU MPC is distributed in the hope that it will be useful, but WITHOUT ANY 13# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS 14# FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for 15# more details. 16# 17# You should have received a copy of the GNU Lesser General Public License 18# along with this program. If not, see http://www.gnu.org/licenses/ . 19# 20# The line format respects the parameter order in function prototype as 21# follow: 22# 23# INEX_RE INEX_IM PREC_ROP_RE ROP_RE PREC_ROP_IM ROP_IM PREC_OP_RE OP_RE PREC_OP_IM OP_IM RND_RE RND_IM 24# 25# where op = op_re + i * op_im, rop = rop_re + i * rop_im, 26# rop_re is ROP_RE rounded to nearest to the precision of PREC_ROP_RE 27# rop_im is ROP_IM rounded to nearest to the precision of PREC_ROP_IM 28# op_re is OP_RE rounded to nearest to the precision of PREC_OP_RE 29# op_im is OP_IM rounded to nearest to the precision of PREC_OP_IM 30# ROP_RE is checked against Re(atan op) rounded to the precision PREC_ROP_RE 31# in the direction RND_RE 32# ROP_IM is checked against Im(atan op) rounded to the precision PREC_ROP_IM 33# in the direction RND_IM 34# INEX_RE is the ternary value for the real part with the following notation: 35# "?" ternary value not checked 36# "+" if ROP_RE is greater than the exact mathematical result 37# "0" if ROP_RE is exactly the mathematical result 38# "-" if ROP_RE is less than the exact mathematical result 39# (m.m. INEX_IM) 40# rounding modes notation: 41# "N" is rounding to nearest 42# "Z" is rounding towards zero 43# "U" is rounding towards plus infinity 44# "D" is rounding towards minus infinity 45# Use prefixes "0b" for values in base two, "0x" for values in base sixteen, 46# no prefix for value in base ten. 47# In all bases, "nan" is NaN, "inf" is infinity; 48# The sign of the result is checked with "+inf", "-inf", "-0", or "+0". 49 50# special values (following ISO C99 standard) 510 + 53 -0 53 -0x1921FB54442D18p-52 53 -inf 53 -inf N N 520 + 53 -0 53 -0x1921FB54442D18p-52 53 -inf 53 -1 N N 530 + 53 -0 53 -0x1921FB54442D18p-52 53 -inf 53 -0 N N 540 - 53 -0 53 +0x1921FB54442D18p-52 53 -inf 53 +0 N N 550 - 53 -0 53 +0x1921FB54442D18p-52 53 -inf 53 +1 N N 560 - 53 -0 53 +0x1921FB54442D18p-52 53 -inf 53 +inf N N 570 0 53 -0 53 nan 53 -inf 53 nan N N 580 + 53 -0 53 -0x1921FB54442D18p-52 53 -6 53 -inf N N 590 - 53 -0 53 +0x1921FB54442D18p-52 53 -6 53 +inf N N 600 0 53 nan 53 nan 53 -6 53 nan N N 610 + 53 -0 53 -0x1921FB54442D18p-52 53 -0 53 -inf N N 620 0 53 -0 53 -0 53 -0 53 -0 N N 630 0 53 -0 53 +0 53 -0 53 +0 N N 640 - 53 -0 53 +0x1921FB54442D18p-52 53 -0 53 +inf N N 650 0 53 -0 53 nan 53 -0 53 nan N N 660 + 53 +0 53 -0x1921FB54442D18p-52 53 +0 53 -inf N N 670 0 53 +0 53 -0 53 +0 53 -0 N N 680 0 53 +0 53 +0 53 +0 53 +0 N N 690 - 53 +0 53 +0x1921FB54442D18p-52 53 +0 53 +inf N N 700 0 53 +0 53 nan 53 +0 53 nan N N 710 + 53 +0 53 -0x1921FB54442D18p-52 53 +6 53 -inf N N 720 - 53 +0 53 +0x1921FB54442D18p-52 53 +6 53 +inf N N 730 0 53 nan 53 nan 53 +6 53 nan N N 740 + 53 +0 53 -0x1921FB54442D18p-52 53 +inf 53 -inf N N 750 + 53 +0 53 -0x1921FB54442D18p-52 53 +inf 53 -1 N N 760 + 53 +0 53 -0x1921FB54442D18p-52 53 +inf 53 -0 N N 770 - 53 +0 53 +0x1921FB54442D18p-52 53 +inf 53 +0 N N 780 - 53 +0 53 +0x1921FB54442D18p-52 53 +inf 53 +1 N N 790 - 53 +0 53 +0x1921FB54442D18p-52 53 +inf 53 +inf N N 800 0 53 +0 53 nan 53 +inf 53 nan N N 810 + 53 0 53 -0x1921FB54442D18p-52 53 nan 53 -inf N N 820 0 53 nan 53 nan 53 nan 53 -1 N N 830 0 53 nan 53 nan 53 nan 53 -0 N N 840 0 53 nan 53 nan 53 nan 53 +0 N N 850 0 53 nan 53 nan 53 nan 53 +1 N N 860 - 53 0 53 +0x1921FB54442D18p-52 53 nan 53 +inf N N 870 0 53 nan 53 nan 53 nan 53 nan N N 88 89# pure real argument 90- + 53 -0x1E27076E2AF2E6p-57 53 -0x1921FB54442D18p-52 53 -17 53 -0 N N 91- - 53 -0x1E27076E2AF2E6p-57 53 +0x1921FB54442D18p-52 53 -17 53 +0 N N 92+ + 53 +0x1E27076E2AF2E6p-57 53 -0x1921FB54442D18p-52 53 +17 53 -0 N N 93+ - 53 +0x1E27076E2AF2E6p-57 53 +0x1921FB54442D18p-52 53 +17 53 +0 N N 94+ 0 53 -0x1F2272AE325A57p-53 53 -0 53 -.75 53 -0 N N 95+ 0 53 -0x1F2272AE325A57p-53 53 +0 53 -.75 53 +0 N N 96- 0 53 +0x1F2272AE325A57p-53 53 -0 53 +.75 53 -0 N N 97- 0 53 +0x1F2272AE325A57p-53 53 +0 53 +.75 53 +0 N N 98- + 12 0x6F1p-50 12 0xC91p-11 12 0x9380000000 12 +0 N N 99 100# pure imaginary argument 1010 - 53 -0 53 -0x167D8863BC99BDp-52 53 -0 53 -6 N N 1020 - 53 +0 53 -0x167D8863BC99BDp-52 53 +0 53 -6 N N 1030 + 53 -0 53 +0x167D8863BC99BDp-52 53 -0 53 +6 N N 1040 + 53 +0 53 +0x167D8863BC99BDp-52 53 +0 53 +6 N N 1050 + 53 -0 53 -0x1F5B75F92C80DDp-55 53 -0 53 -.25 N N 1060 + 53 +0 53 -0x1F5B75F92C80DDp-55 53 +0 53 -.25 N N 1070 - 53 -0 53 +0x1F5B75F92C80DDp-55 53 -0 53 +.25 N N 1080 - 53 +0 53 +0x1F5B75F92C80DDp-55 53 +0 53 +.25 N N 109 110# IEEE-754 double precision 111- + 53 0x13F3F785301CE9p-54 53 0xBFA43C2A868B3p-51 53 0x3243F6A8885A3p-48 53 0x162E42FEFA39EFp-53 N N 112