1 // Copyright (C) 1988-1994 Sun Microsystems, Inc. 2550 Garcia Avenue 2 // Mountain View, California 94043 All rights reserved. 3 // 4 // Any person is hereby authorized to download, copy, use, create bug fixes, 5 // and distribute, subject to the following conditions: 6 // 7 // 1. the software may not be redistributed for a fee except as 8 // reasonable to cover media costs; 9 // 2. any copy of the software must include this notice, as well as 10 // any other embedded copyright notices; and 11 // 3. any distribution of this software or derivative works thereof 12 // must comply with all applicable U.S. export control laws. 13 // 14 // THE SOFTWARE IS MADE AVAILABLE "AS IS" AND WITHOUT EXPRESS OR IMPLIED 15 // WARRANTY OF ANY KIND, INCLUDING BUT NOT LIMITED TO THE IMPLIED 16 // WARRANTIES OF DESIGN, MERCHANTIBILITY, FITNESS FOR A PARTICULAR 17 // PURPOSE, NON-INFRINGEMENT, PERFORMANCE OR CONFORMANCE TO 18 // SPECIFICATIONS. 19 // 20 // BY DOWNLOADING AND/OR USING THIS SOFTWARE, THE USER WAIVES ALL CLAIMS 21 // AGAINST SUN MICROSYSTEMS, INC. AND ITS AFFILIATED COMPANIES IN ANY 22 // JURISDICTION, INCLUDING BUT NOT LIMITED TO CLAIMS FOR DAMAGES OR 23 // EQUITABLE RELIEF BASED ON LOSS OF DATA, AND SPECIFICALLY WAIVES EVEN 24 // UNKNOWN OR UNANTICIPATED CLAIMS OR LOSSES, PRESENT AND FUTURE. 25 // 26 // IN NO EVENT WILL SUN MICROSYSTEMS, INC. OR ANY OF ITS AFFILIATED 27 // COMPANIES BE LIABLE FOR ANY LOST REVENUE OR PROFITS OR OTHER SPECIAL, 28 // INDIRECT AND CONSEQUENTIAL DAMAGES, EVEN IF IT HAS BEEN ADVISED OF THE 29 // POSSIBILITY OF SUCH DAMAGES. 30 // 31 // This file is provided with no support and without any obligation on the 32 // part of Sun Microsystems, Inc. ("Sun") or any of its affiliated 33 // companies to assist in its use, correction, modification or 34 // enhancement. Nevertheless, and without creating any obligation on its 35 // part, Sun welcomes your comments concerning the software and requests 36 // that they be sent to fdlibm-comments@sunpro.sun.com. 37 // log10d(+fmax) is finite 38 T(RN, 0x1.fffffffffffffp+1023, 0x1.34413509f79ffp+8, 0x1.a4b4bap-5, INEXACT) 39 T(RZ, 0x1.fffffffffffffp+1023, 0x1.34413509f79fep+8, -0x1.e5b4b4p-1, INEXACT) 40 T(RU, 0x1.fffffffffffffp+1023, 0x1.34413509f79ffp+8, 0x1.a4b4bap-5, INEXACT) 41 T(RD, 0x1.fffffffffffffp+1023, 0x1.34413509f79fep+8, -0x1.e5b4b4p-1, INEXACT) 42 // log10d(10**n) == n (n=1,...,22) 43 T(RN, 0x1.4p+3, 0x1p+0, 0x0p+0, 0) 44 T(RN, 0x1.9p+6, 0x1p+1, 0x0p+0, 0) 45 T(RN, 0x1.f4p+9, 0x1.8p+1, 0x0p+0, 0) 46 T(RN, 0x1.388p+13, 0x1p+2, 0x0p+0, 0) 47 T(RN, 0x1.86ap+16, 0x1.4p+2, 0x0p+0, 0) 48 T(RN, 0x1.e848p+19, 0x1.8p+2, 0x0p+0, 0) 49 T(RN, 0x1.312dp+23, 0x1.cp+2, 0x0p+0, 0) 50 T(RN, 0x1.7d784p+26, 0x1p+3, 0x0p+0, 0) 51 T(RN, 0x1.dcd65p+29, 0x1.2p+3, 0x0p+0, 0) 52 T(RN, 0x1.2a05f2p+33, 0x1.4p+3, 0x0p+0, 0) 53 T(RN, 0x1.74876e8p+36, 0x1.6p+3, 0x0p+0, 0) 54 T(RN, 0x1.d1a94a2p+39, 0x1.8p+3, 0x0p+0, 0) 55 T(RN, 0x1.2309ce54p+43, 0x1.ap+3, 0x0p+0, 0) 56 T(RN, 0x1.6bcc41e9p+46, 0x1.cp+3, 0x0p+0, 0) 57 T(RN, 0x1.c6bf52634p+49, 0x1.ep+3, 0x0p+0, 0) 58 T(RN, 0x1.1c37937e08p+53, 0x1p+4, 0x0p+0, 0) 59 T(RN, 0x1.6345785d8ap+56, 0x1.1p+4, 0x0p+0, 0) 60 T(RN, 0x1.bc16d674ec8p+59, 0x1.2p+4, 0x0p+0, 0) 61 T(RN, 0x1.158e460913dp+63, 0x1.3p+4, 0x0p+0, 0) 62 T(RN, 0x1.5af1d78b58c4p+66, 0x1.4p+4, 0x0p+0, 0) 63 T(RN, 0x1.b1ae4d6e2ef5p+69, 0x1.5p+4, 0x0p+0, 0) 64 T(RN, 0x1.0f0cf064dd592p+73, 0x1.6p+4, 0x0p+0, 0) 65 // log10d(1+tiny) is (tiny - tiny*tiny)/log10d 66 T(RN, 0x1.000000000002p+0, 0x1.bcb7b1526e4f2p-49, -0x1.9cae5ap-2, INEXACT) 67 T(RN, 0x1p+0, 0x0p+0, 0x0p+0, 0) 68 T(RN, 0x1.fffffffffffcp-1, -0x1.bcb7b1526e52ap-49, -0x1.de3f64p-8, INEXACT) 69 T(RZ, 0x1.000000000002p+0, 0x1.bcb7b1526e4f2p-49, -0x1.9cae5ap-2, INEXACT) 70 T(RZ, 0x1p+0, 0x0p+0, 0x0p+0, 0) 71 T(RZ, 0x1.fffffffffffcp-1, -0x1.bcb7b1526e529p-49, 0x1.fc4382p-1, INEXACT) 72 T(RU, 0x1.000000000002p+0, 0x1.bcb7b1526e4f3p-49, 0x1.31a8d4p-1, INEXACT) 73 T(RU, 0x1p+0, 0x0p+0, 0x0p+0, 0) 74 T(RU, 0x1.fffffffffffcp-1, -0x1.bcb7b1526e529p-49, 0x1.fc4382p-1, INEXACT) 75 T(RD, 0x1.000000000002p+0, 0x1.bcb7b1526e4f2p-49, -0x1.9cae5ap-2, INEXACT) 76 T(RD, 0x1p+0, 0x0p+0, 0x0p+0, 0) 77 T(RD, 0x1.fffffffffffcp-1, -0x1.bcb7b1526e52ap-49, -0x1.de3f64p-8, INEXACT) 78 // log10d(min) is finite 79 T(RN, 0x1p-1022, -0x1.33a7146f72a42p+8, -0x1.8cf2fap-5, INEXACT) 80 T(RN, 0x1p-1074, -0x1.434e6420f4374p+8, -0x1.a0fae8p-4, INEXACT) 81 T(RZ, 0x1p-1022, -0x1.33a7146f72a41p+8, 0x1.e730dp-1, INEXACT) 82 T(RZ, 0x1p-1074, -0x1.434e6420f4373p+8, 0x1.cbe0a2p-1, INEXACT) 83 T(RU, 0x1p-1022, -0x1.33a7146f72a41p+8, 0x1.e730dp-1, INEXACT) 84 T(RU, 0x1p-1074, -0x1.434e6420f4373p+8, 0x1.cbe0a2p-1, INEXACT) 85 T(RD, 0x1p-1022, -0x1.33a7146f72a42p+8, -0x1.8cf2fap-5, INEXACT) 86 T(RD, 0x1p-1074, -0x1.434e6420f4374p+8, -0x1.a0fae8p-4, INEXACT) 87 // random arguments between 0 100 88 T(RN, 0x1.24844b2b5006dp+5, 0x1.9024c06a2c714p+0, 0x1.aef3p-2, INEXACT) 89 T(RN, 0x1.5671ffb825911p+6, 0x1.eeba5ddb56f6dp+0, -0x1.9e833ep-7, INEXACT) 90 T(RN, 0x1.7817009de7505p+6, 0x1.f925b53114c7fp+0, 0x1.a6fc5ep-3, INEXACT) 91 T(RN, 0x1.09b74fba96889p+4, 0x1.38657024f572dp+0, 0x1.e4ad62p-2, INEXACT) 92 T(RN, 0x1.23a38e27084ddp+5, 0x1.8fcf347689cf5p+0, 0x1.5d3c72p-2, INEXACT) 93 T(RN, 0x1.804881b093c41p+5, 0x1.ae7acf90f48a1p+0, 0x1.e587b8p-4, INEXACT) 94 T(RN, 0x1.3baa8d18455f5p+6, 0x1.e5accf34b476ap+0, 0x1.554422p-3, INEXACT) 95 T(RN, 0x1.730484a51b239p+6, 0x1.f7a33d27f78e2p+0, 0x1.291502p-2, INEXACT) 96 T(RN, 0x1.4cc5b1079de4dp+5, 0x1.9e7a86923a334p+0, -0x1.b9e4c4p-5, INEXACT) 97 T(RN, 0x1.0ca4d3103b871p+1, 0x1.49b1b2a6745efp-2, 0x1.b949bep-2, INEXACT) 98 // log10d(nan) is nan 99 T(RN, nan, nan, 0x0p+0, 0) 100 // log10d(+inf) is inf 101 T(RN, inf, inf, 0x0p+0, 0) 102 // log10d(+-0) is -inf 103 T(RN, 0x0p+0, -inf, 0x0p+0, DIVBYZERO) 104 T(RN, -0x0p+0, -inf, 0x0p+0, DIVBYZERO) 105 // log10d(-ve) is nan 106 T(RN, -0x1p-1074, nan, 0x0p+0, INVALID) 107 T(RN, -0x1p-1022, nan, 0x0p+0, INVALID) 108 T(RN,-0x1.fffffffffffffp+1023, nan, 0x0p+0, INVALID) 109 T(RN, -inf, nan, 0x0p+0, INVALID) 110 T(RD, inf, inf, 0x0p+0, 0) 111 T(RD, 0x0p+0, -inf, 0x0p+0, DIVBYZERO) 112 T(RD, -0x0p+0, -inf, 0x0p+0, DIVBYZERO) 113 T(RD, nan, nan, 0x0p+0, 0) 114 T(RD, nan, nan, 0x0p+0, 0) 115 T(RD, -0x1p-1074, nan, 0x0p+0, INVALID) 116 T(RD, -0x1p-1073, nan, 0x0p+0, INVALID) 117 T(RD, -0x1.cp-1072, nan, 0x0p+0, INVALID) 118 T(RD, -0x1p-1024, nan, 0x0p+0, INVALID) 119 T(RD, -0x1p-1023, nan, 0x0p+0, INVALID) 120 T(RD,-0x1.ffffffffffffcp-1023, nan, 0x0p+0, INVALID) 121 T(RD,-0x1.ffffffffffffep-1023, nan, 0x0p+0, INVALID) 122 T(RD, -0x1p-1022, nan, 0x0p+0, INVALID) 123 T(RD,-0x1.0000000000001p-1022, nan, 0x0p+0, INVALID) 124 T(RD,-0x1.0000000000002p-1022, nan, 0x0p+0, INVALID) 125 T(RD, -0x1p-1021, nan, 0x0p+0, INVALID) 126 T(RD, -0x1p-1020, nan, 0x0p+0, INVALID) 127 T(RD, -0x1p-52, nan, 0x0p+0, INVALID) 128 T(RD, -0x1p-50, nan, 0x0p+0, INVALID) 129 T(RD, -0x1p-2, nan, 0x0p+0, INVALID) 130 T(RD, -0x1p-1, nan, 0x0p+0, INVALID) 131 T(RD, -0x1.ffffffffffffap-1, nan, 0x0p+0, INVALID) 132 T(RD, -0x1.ffffffffffffcp-1, nan, 0x0p+0, INVALID) 133 T(RD, -0x1.ffffffffffffep-1, nan, 0x0p+0, INVALID) 134 T(RD, -0x1.fffffffffffffp-1, nan, 0x0p+0, INVALID) 135 T(RD, -0x1p+0, nan, 0x0p+0, INVALID) 136 T(RD, -0x1.0000000000001p+0, nan, 0x0p+0, INVALID) 137 T(RD, -0x1.0000000000002p+0, nan, 0x0p+0, INVALID) 138 T(RD, -0x1.0000000000004p+0, nan, 0x0p+0, INVALID) 139 T(RD, -0x1p+1, nan, 0x0p+0, INVALID) 140 T(RD, -0x1.0000000000002p+1, nan, 0x0p+0, INVALID) 141 T(RD, -0x1.ffffffffffffbp+1, nan, 0x0p+0, INVALID) 142 T(RD, -0x1p+2, nan, 0x0p+0, INVALID) 143 T(RD, -0x1p+1022, nan, 0x0p+0, INVALID) 144 T(RD,-0x1.0000000000002p+1022, nan, 0x0p+0, INVALID) 145 T(RD,-0x1.0000000000004p+1022, nan, 0x0p+0, INVALID) 146 T(RD, -0x1p+1023, nan, 0x0p+0, INVALID) 147 T(RD,-0x1.0000000000002p+1023, nan, 0x0p+0, INVALID) 148 T(RD,-0x1.ffffffffffffep+1023, nan, 0x0p+0, INVALID) 149 T(RD,-0x1.fffffffffffffp+1023, nan, 0x0p+0, INVALID) 150 T(RD, -inf, nan, 0x0p+0, INVALID) 151 T(RD, 0x1.4p+3, 0x1p+0, 0x0p+0, 0) 152 T(RD, 0x1.9p+6, 0x1p+1, 0x0p+0, 0) 153 T(RD, 0x1.f4p+9, 0x1.8p+1, 0x0p+0, 0) 154 T(RD, 0x1.388p+13, 0x1p+2, 0x0p+0, 0) 155 T(RN, nan, nan, 0x0p+0, 0) 156 T(RN, -0x1p-1073, nan, 0x0p+0, INVALID) 157 T(RN, -0x1.cp-1072, nan, 0x0p+0, INVALID) 158 T(RN, -0x1p-1024, nan, 0x0p+0, INVALID) 159 T(RN, -0x1p-1023, nan, 0x0p+0, INVALID) 160 T(RN,-0x1.ffffffffffffcp-1023, nan, 0x0p+0, INVALID) 161 T(RN,-0x1.ffffffffffffep-1023, nan, 0x0p+0, INVALID) 162 T(RN,-0x1.0000000000001p-1022, nan, 0x0p+0, INVALID) 163 T(RN,-0x1.0000000000002p-1022, nan, 0x0p+0, INVALID) 164 T(RN, -0x1p-1021, nan, 0x0p+0, INVALID) 165 T(RN, -0x1p-1020, nan, 0x0p+0, INVALID) 166 T(RN, -0x1p-52, nan, 0x0p+0, INVALID) 167 T(RN, -0x1p-50, nan, 0x0p+0, INVALID) 168 T(RN, -0x1p-2, nan, 0x0p+0, INVALID) 169 T(RN, -0x1p-1, nan, 0x0p+0, INVALID) 170 T(RN, -0x1.ffffffffffffap-1, nan, 0x0p+0, INVALID) 171 T(RN, -0x1.ffffffffffffcp-1, nan, 0x0p+0, INVALID) 172 T(RN, -0x1.ffffffffffffep-1, nan, 0x0p+0, INVALID) 173 T(RN, -0x1.fffffffffffffp-1, nan, 0x0p+0, INVALID) 174 T(RN, -0x1p+0, nan, 0x0p+0, INVALID) 175 T(RN, -0x1.0000000000001p+0, nan, 0x0p+0, INVALID) 176 T(RN, -0x1.0000000000002p+0, nan, 0x0p+0, INVALID) 177 T(RN, -0x1.0000000000004p+0, nan, 0x0p+0, INVALID) 178 T(RN, -0x1p+1, nan, 0x0p+0, INVALID) 179 T(RN, -0x1.0000000000002p+1, nan, 0x0p+0, INVALID) 180 T(RN, -0x1.ffffffffffffbp+1, nan, 0x0p+0, INVALID) 181 T(RN, -0x1p+2, nan, 0x0p+0, INVALID) 182 T(RN, -0x1p+1022, nan, 0x0p+0, INVALID) 183 T(RN,-0x1.0000000000002p+1022, nan, 0x0p+0, INVALID) 184 T(RN,-0x1.0000000000004p+1022, nan, 0x0p+0, INVALID) 185 T(RN, -0x1p+1023, nan, 0x0p+0, INVALID) 186 T(RN,-0x1.0000000000002p+1023, nan, 0x0p+0, INVALID) 187 T(RN,-0x1.ffffffffffffep+1023, nan, 0x0p+0, INVALID) 188 T(RU, inf, inf, 0x0p+0, 0) 189 T(RU, 0x0p+0, -inf, 0x0p+0, DIVBYZERO) 190 T(RU, -0x0p+0, -inf, 0x0p+0, DIVBYZERO) 191 T(RU, nan, nan, 0x0p+0, 0) 192 T(RU, nan, nan, 0x0p+0, 0) 193 T(RU, -0x1p-1074, nan, 0x0p+0, INVALID) 194 T(RU, -0x1p-1073, nan, 0x0p+0, INVALID) 195 T(RU, -0x1.cp-1072, nan, 0x0p+0, INVALID) 196 T(RU, -0x1p-1024, nan, 0x0p+0, INVALID) 197 T(RU, -0x1p-1023, nan, 0x0p+0, INVALID) 198 T(RU,-0x1.ffffffffffffcp-1023, nan, 0x0p+0, INVALID) 199 T(RU,-0x1.ffffffffffffep-1023, nan, 0x0p+0, INVALID) 200 T(RU, -0x1p-1022, nan, 0x0p+0, INVALID) 201 T(RU,-0x1.0000000000001p-1022, nan, 0x0p+0, INVALID) 202 T(RU,-0x1.0000000000002p-1022, nan, 0x0p+0, INVALID) 203 T(RU, -0x1p-1021, nan, 0x0p+0, INVALID) 204 T(RU, -0x1p-1020, nan, 0x0p+0, INVALID) 205 T(RU, -0x1p-52, nan, 0x0p+0, INVALID) 206 T(RU, -0x1p-50, nan, 0x0p+0, INVALID) 207 T(RU, -0x1p-2, nan, 0x0p+0, INVALID) 208 T(RU, -0x1p-1, nan, 0x0p+0, INVALID) 209 T(RU, -0x1.ffffffffffffap-1, nan, 0x0p+0, INVALID) 210 T(RU, -0x1.ffffffffffffcp-1, nan, 0x0p+0, INVALID) 211 T(RU, -0x1.ffffffffffffep-1, nan, 0x0p+0, INVALID) 212 T(RU, -0x1.fffffffffffffp-1, nan, 0x0p+0, INVALID) 213 T(RU, -0x1p+0, nan, 0x0p+0, INVALID) 214 T(RU, -0x1.0000000000001p+0, nan, 0x0p+0, INVALID) 215 T(RU, -0x1.0000000000002p+0, nan, 0x0p+0, INVALID) 216 T(RU, -0x1.0000000000004p+0, nan, 0x0p+0, INVALID) 217 T(RU, -0x1p+1, nan, 0x0p+0, INVALID) 218 T(RU, -0x1.0000000000002p+1, nan, 0x0p+0, INVALID) 219 T(RU, -0x1.ffffffffffffbp+1, nan, 0x0p+0, INVALID) 220 T(RU, -0x1p+2, nan, 0x0p+0, INVALID) 221 T(RU, -0x1p+1022, nan, 0x0p+0, INVALID) 222 T(RU,-0x1.0000000000002p+1022, nan, 0x0p+0, INVALID) 223 T(RU,-0x1.0000000000004p+1022, nan, 0x0p+0, INVALID) 224 T(RU, -0x1p+1023, nan, 0x0p+0, INVALID) 225 T(RU,-0x1.0000000000002p+1023, nan, 0x0p+0, INVALID) 226 T(RU,-0x1.ffffffffffffep+1023, nan, 0x0p+0, INVALID) 227 T(RU,-0x1.fffffffffffffp+1023, nan, 0x0p+0, INVALID) 228 T(RU, -inf, nan, 0x0p+0, INVALID) 229 T(RU, 0x1.4p+3, 0x1p+0, 0x0p+0, 0) 230 T(RU, 0x1.9p+6, 0x1p+1, 0x0p+0, 0) 231 T(RU, 0x1.f4p+9, 0x1.8p+1, 0x0p+0, 0) 232 T(RU, 0x1.388p+13, 0x1p+2, 0x0p+0, 0) 233 T(RZ, inf, inf, 0x0p+0, 0) 234 T(RZ, 0x0p+0, -inf, 0x0p+0, DIVBYZERO) 235 T(RZ, -0x0p+0, -inf, 0x0p+0, DIVBYZERO) 236 T(RZ, nan, nan, 0x0p+0, 0) 237 T(RZ, nan, nan, 0x0p+0, 0) 238 T(RZ, -0x1p-1074, nan, 0x0p+0, INVALID) 239 T(RZ, -0x1p-1073, nan, 0x0p+0, INVALID) 240 T(RZ, -0x1.cp-1072, nan, 0x0p+0, INVALID) 241 T(RZ, -0x1p-1024, nan, 0x0p+0, INVALID) 242 T(RZ, -0x1p-1023, nan, 0x0p+0, INVALID) 243 T(RZ,-0x1.ffffffffffffcp-1023, nan, 0x0p+0, INVALID) 244 T(RZ,-0x1.ffffffffffffep-1023, nan, 0x0p+0, INVALID) 245 T(RZ, -0x1p-1022, nan, 0x0p+0, INVALID) 246 T(RZ,-0x1.0000000000001p-1022, nan, 0x0p+0, INVALID) 247 T(RZ,-0x1.0000000000002p-1022, nan, 0x0p+0, INVALID) 248 T(RZ, -0x1p-1021, nan, 0x0p+0, INVALID) 249 T(RZ, -0x1p-1020, nan, 0x0p+0, INVALID) 250 T(RZ, -0x1p-52, nan, 0x0p+0, INVALID) 251 T(RZ, -0x1p-50, nan, 0x0p+0, INVALID) 252 T(RZ, -0x1p-2, nan, 0x0p+0, INVALID) 253 T(RZ, -0x1p-1, nan, 0x0p+0, INVALID) 254 T(RZ, -0x1.ffffffffffffap-1, nan, 0x0p+0, INVALID) 255 T(RZ, -0x1.ffffffffffffcp-1, nan, 0x0p+0, INVALID) 256 T(RZ, -0x1.ffffffffffffep-1, nan, 0x0p+0, INVALID) 257 T(RZ, -0x1.fffffffffffffp-1, nan, 0x0p+0, INVALID) 258 T(RZ, -0x1p+0, nan, 0x0p+0, INVALID) 259 T(RZ, -0x1.0000000000001p+0, nan, 0x0p+0, INVALID) 260 T(RZ, -0x1.0000000000002p+0, nan, 0x0p+0, INVALID) 261 T(RZ, -0x1.0000000000004p+0, nan, 0x0p+0, INVALID) 262 T(RZ, -0x1p+1, nan, 0x0p+0, INVALID) 263 T(RZ, -0x1.0000000000002p+1, nan, 0x0p+0, INVALID) 264 T(RZ, -0x1.ffffffffffffbp+1, nan, 0x0p+0, INVALID) 265 T(RZ, -0x1p+2, nan, 0x0p+0, INVALID) 266 T(RZ, -0x1p+1022, nan, 0x0p+0, INVALID) 267 T(RZ,-0x1.0000000000002p+1022, nan, 0x0p+0, INVALID) 268 T(RZ,-0x1.0000000000004p+1022, nan, 0x0p+0, INVALID) 269 T(RZ, -0x1p+1023, nan, 0x0p+0, INVALID) 270 T(RZ,-0x1.0000000000002p+1023, nan, 0x0p+0, INVALID) 271 T(RZ,-0x1.ffffffffffffep+1023, nan, 0x0p+0, INVALID) 272 T(RZ,-0x1.fffffffffffffp+1023, nan, 0x0p+0, INVALID) 273 T(RZ, -inf, nan, 0x0p+0, INVALID) 274 T(RZ, 0x1.4p+3, 0x1p+0, 0x0p+0, 0) 275 T(RZ, 0x1.9p+6, 0x1p+1, 0x0p+0, 0) 276 T(RZ, 0x1.f4p+9, 0x1.8p+1, 0x0p+0, 0) 277 T(RZ, 0x1.388p+13, 0x1p+2, 0x0p+0, 0) 278