1# Data file for mpc_inp_str. 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 format respects the parameter order in function prototype as follow: 21# 22# INEX_RE INEX_IM PREC_ROP_RE ROP_RE PREC_ROP_IM ROP_IM SIZE BASE RND_RE RND_IM "STRING" 23# 24# The string STRING is considered as a complex number rop = rop1 + i*rop2 25# written in base BASE as "rop1 " if rop is real or "(rop1 rop2)". Notice that 26# a least one whitespace is required after real part 27# 28# ROP_RE is checked against rop1 rounded to the precision PREC_ROP_RE 29# in the direction RND_RE 30# ROP_IM is checked against rop2 rounded to the precision PREC_ROP_IM 31# in the direction RND_IM 32# INEX_RE is the ternary value for the real part with the following notation: 33# "?" ternary value not checked 34# "!" function should return error indicator -1 35# "+" if ROP_RE is greater than the exact mathematical result 36# "0" if ROP_RE is exactly the mathematical result 37# "-" if ROP_RE is less than the exact mathematical result 38# (m.m. INEX_IM) 39# rounding modes notation: 40# "N" is rounding to nearest 41# "Z" is rounding towards zero 42# "U" is rounding towards plus infinity 43# "D" is rounding towards minus infinity 44# Use prefixes "0b" for values in base two, "0x" for values in base sixteen, 45# no prefix for value in base ten. 46# In all bases, "nan" is NaN, "inf" is infinity; 47# The sign of the result is checked with "+inf", "-inf", "-0", or "+0". 48 49# invalid strings 50! ! 53 nan 53 nan 3 10 N N "non " 51! ! 53 nan 53 nan 4 10 N N " NON " 52! ! 53 nan 53 nan 5 10 N N "nan(0 1) " #invalid space in brackets 53! ! 53 nan 53 nan 5 10 N N "nan(0-1) " #invalid char in brackets 54! ! 53 nan 53 nan 4 10 N N "NaN((keepout)) " #two levels of parenthesis 55! ! 53 nan 53 nan 4 10 N N "(1e1) " #one part missing 56! ! 53 nan 53 nan 1 10 N N ". " #no digit 57! ! 53 nan 53 nan 2 2 N N "+3 " #invalid binary digit 58! ! 53 nan 53 nan 6 10 N N "( +INF) " #one part missing 59! ! 53 nan 53 nan 2 10 N N "(1(1))" #too many levels of parentheses 60! ! 53 nan 53 nan 3 10 N N "(1 (1 (1 0)))" 61! ! 53 nan 53 nan 1 10 N N "((1 1)) " 62! ! 53 nan 53 nan 6 10 N N "(1 +1 " #closing parenthesis missing 63! ! 53 nan 53 nan 4 10 N N "(1+1) " #space needed 64! ! 53 nan 53 nan 5 10 N N "(1 + 1) " #space after sign 65! ! 53 nan 53 nan 17 10 N N "(@nan@(quiet) 0 " #closing parenthesis missing 66! ! 53 nan 53 nan 4 10 N N "zero " #invalid digits 67! ! 53 nan 53 nan 3 10 N N "&^+ " #invalid digits 68! ! 53 nan 53 nan 1 18 N N "i " #invalid digit 69! ! 53 nan 53 nan 1 18 N N "I " #invalid digit 70! ! 53 nan 53 nan 1 35 N N "z " #invalid digit 71! ! 53 nan 53 nan 1 35 N N "Z " #invalid digit 72! ! 53 nan 53 nan 5 18 N N "(i 0) " #invalid digit 73! ! 53 nan 53 nan 5 18 N N "(I 0) " #invalid digit 74! ! 53 nan 53 nan 5 35 N N "(z 0) " #invalid digit 75! ! 53 nan 53 nan 5 35 N N "(Z 0) " #invalid digit 76! ! 53 nan 53 nan 5 18 N N "(0 i) " #invalid digit 77! ! 53 nan 53 nan 5 18 N N "(0 I) " #invalid digit 78! ! 53 nan 53 nan 5 35 N N "(0 z) " #invalid digit 79! ! 53 nan 53 nan 5 35 N N "(0 Z) " #invalid digit 80! ! 53 nan 53 nan 7 10 N N "-25p+32 " #invalid exponent char in base 10 81! ! 53 nan 53 nan 6 10 N N "0xabcd " #invalid prefix in base 10 82! ! 53 nan 53 nan 6 10 N N "+0b010 " #invalid prefix in base 10 83 84# special values 850 0 53 nan 53 +0 3 10 N N "nan " 860 0 53 nan 53 +0 4 10 N N "+NAN " 870 0 53 nan 53 +0 5 10 N N "@NAN@ " 880 0 53 nan 53 nan 18 10 N N "(@nan@(QUIET) nan) " 890 0 53 nan 53 +0 5 10 N N "@nan@ " 900 0 53 nan 53 +0 12 10 N N "NaN(keepout) " 910 0 53 nan 53 +0 122 10 N N "Nan(very_long_suffix_oooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo) " 920 0 53 nan 53 +0 8 10 N N "nan(0_1) " 930 0 53 nan 53 +0 3 10 N N "nan " 940 0 53 inf 53 +0 3 10 N N "inf " 950 0 53 -inf 53 +0 4 10 N N "-inf " 960 0 53 +inf 53 +0 8 10 N N "infinity " 970 0 53 +inf 53 +0 4 10 N N "+INF " 980 0 53 +0 53 +inf 8 10 N N "(0 +inf) " 990 0 53 +0 53 +inf 12 10 N N "(+0 INF) " 1000 0 53 +0 53 -inf 13 10 N N "(0 -infinity) " 1010 0 53 +0 53 -inf 9 10 N N "(+0 -INF) " 1020 0 53 -inf 53 -0 11 10 N N "(-@inf@ -0) " 1030 0 53 +inf 53 nan 17 10 N N "(+inf nan(9u137)) " 1040 0 53 nan 53 +inf 12 10 N N "(NaN +inf ) " 105 106# pure real argument 1070 0 53 +0 53 +0 1 10 N N "0 " 1080 0 53 +0 53 +0 5 10 N N "00000 " 1090 0 53 +0 53 +0 2 10 N N "+0 " 1100 0 53 -0 53 +0 2 10 N N "-0 " 1110 0 53 +1 53 +0 1 10 N N "1 " 1120 0 53 +1 53 +0 3 10 N N "001 " 1130 0 53 +1 53 +0 6 10 N N "1.0000 " 1140 0 53 +1 53 +0 2 10 N N "+1) " 115- 0 53 +0x9D70A3D70A3D7p-51 53 +0 11 10 N N "(+1.23 0.0) " 1160 0 53 -10 53 +0 11 10 N N "(-10. 0000) " 1170 0 53 +0x5p-3 53 -0 12 10 N N "( .625 -0 )" 118- 0 53 +0x14E718D7D7625Ap+612 53 +0 10 10 N N "(1e200 0) " 119+ 0 53 +0x14E718D7D7625Bp+612 53 +0 10 10 U N "(1e200 0) " 120- 0 53 +0x14E718D7D7625Ap+612 53 +0 10 10 D N "(1e200 0) " 1210 0 53 +0x7530 53 +0 8 10 N N "(3e+4 0) " 122- 0 53 +0x10C6F7A0B5ED8Dp-73 53 +0 5 10 N N ".5e-6 " 123- 0 53 +0x1B1C1E0D914133p-83 53 +0 12 10 N N "(7.89E-10 0) " 124+ 0 53 -0x7B426FAB61F00Cp+56 53 +0 7 10 N N "-25@+32 " 1250 0 53 +43981 53 +0 6 16 N N "0xabcd " 1260 0 53 +2 53 +0 6 2 N N "+0b010 " 1270 0 53 +18 53 +0 1 20 N N "i " 1280 0 53 +18 53 +0 1 19 N N "i " 1290 0 53 +35 53 +0 1 36 N N "z " 1300 0 53 +35 53 +0 1 36 N N "Z " 131 132# pure imaginary argument 1330 0 53 +0 53 +1 5 10 N N "(0 1) " 1340 0 53 +0 53 +1 6 20 N N "(0 +1) " 1350 0 53 -0 53 -1 7 10 N N "(-0 -1) " 1360 0 53 -0 53 -2 7 10 N N "(-0 -2) " 1370 0 53 +0 53 +2 6 10 N N "(+0 2) " 1380 0 53 +0 53 +17 5 20 N N "(0 h) " 1390 0 53 +0 53 +18 5 20 N N "(0 i) " 1400 + 53 +0 53 -0x14F800008637BDp-44 19 10 N Z "(0 -33.55000005e+1) " 1410 + 53 +0 53 -0xA1765976008AFp-401 18 10 N U "(+0 -.550000E-105) " 1420 0 53 +0 53 +18 5 19 N N "(0 i) " 1430 0 53 +0 53 +18 5 19 N N "(0 I) " 1440 0 53 +0 53 +35 5 36 N N "(0 z) " 1450 0 53 +0 53 +35 5 36 N N "(0 Z) " 146 147# complex argument 1480 0 53 +1 53 +1 10 10 N N "( 1 +1) " 1490 0 53 +1 53 +1 8 10 N N "(1 +1) " 1500 0 53 +7 53 +14 7 10 N N "(7 14) " 1510 0 53 +17 53 +1 7 10 N N "(+17 1) " 1520 0 53 +27 53 +1 8 20 N N "(+17 +1) " 1530 0 53 -18 53 -1 7 20 N N "(-i -1) " 1540 0 53 +18 53 -1 6 20 N N "(i -1) " 1550 0 53 -18 53 +1 7 20 N N "(-i +1) " 1560 0 53 +18 53 +18 6 20 N N "(i +i) " 1570 0 53 -14643 53 +20328 10 36 N N "(-bar foo) " 1580 0 53 -1647190 53 -512315 13 36 N N "(-zaza -azaz) " 1590 0 53 +0b1010 53 +0xabcd 16 0 N N "(0b1010 +0xabcd) " 1600 0 53 +0xabcd 53 +0b1010 22 0 N N "(+0xa.bcd@+3 0b.101p4) " 161 162# white space before the closing ')' 1630 0 53 +1 53 +1 13 10 N N "( 1 +1 ) " 164