// Copyright (C) 1988-1994 Sun Microsystems, Inc. 2550 Garcia Avenue // Mountain View, California 94043 All rights reserved. // // Any person is hereby authorized to download, copy, use, create bug fixes, // and distribute, subject to the following conditions: // // 1. the software may not be redistributed for a fee except as // reasonable to cover media costs; // 2. any copy of the software must include this notice, as well as // any other embedded copyright notices; and // 3. any distribution of this software or derivative works thereof // must comply with all applicable U.S. export control laws. // // THE SOFTWARE IS MADE AVAILABLE "AS IS" AND WITHOUT EXPRESS OR IMPLIED // WARRANTY OF ANY KIND, INCLUDING BUT NOT LIMITED TO THE IMPLIED // WARRANTIES OF DESIGN, MERCHANTIBILITY, FITNESS FOR A PARTICULAR // PURPOSE, NON-INFRINGEMENT, PERFORMANCE OR CONFORMANCE TO // SPECIFICATIONS. // // BY DOWNLOADING AND/OR USING THIS SOFTWARE, THE USER WAIVES ALL CLAIMS // AGAINST SUN MICROSYSTEMS, INC. AND ITS AFFILIATED COMPANIES IN ANY // JURISDICTION, INCLUDING BUT NOT LIMITED TO CLAIMS FOR DAMAGES OR // EQUITABLE RELIEF BASED ON LOSS OF DATA, AND SPECIFICALLY WAIVES EVEN // UNKNOWN OR UNANTICIPATED CLAIMS OR LOSSES, PRESENT AND FUTURE. // // IN NO EVENT WILL SUN MICROSYSTEMS, INC. OR ANY OF ITS AFFILIATED // COMPANIES BE LIABLE FOR ANY LOST REVENUE OR PROFITS OR OTHER SPECIAL, // INDIRECT AND CONSEQUENTIAL DAMAGES, EVEN IF IT HAS BEEN ADVISED OF THE // POSSIBILITY OF SUCH DAMAGES. // // This file is provided with no support and without any obligation on the // part of Sun Microsystems, Inc. ("Sun") or any of its affiliated // companies to assist in its use, correction, modification or // enhancement. Nevertheless, and without creating any obligation on its // part, Sun welcomes your comments concerning the software and requests // that they be sent to fdlibm-comments@sunpro.sun.com. // sinhd(log(2*max)chopped) is finite, overflow threshold T(RN, 0x1.633ce8fb9f87dp+9, 0x1.ffffffffffd3bp+1023, 0x1.a6b164p-4, INEXACT) T(RN, -0x1.633ce8fb9f87dp+9,-0x1.ffffffffffd3bp+1023, -0x1.a6b164p-4, INEXACT) T(RZ, 0x1.633ce8fb9f87dp+9, 0x1.ffffffffffd3ap+1023, -0x1.cb29d4p-1, INEXACT) T(RZ, -0x1.633ce8fb9f87dp+9,-0x1.ffffffffffd3ap+1023, 0x1.cb29d4p-1, INEXACT) T(RU, 0x1.633ce8fb9f87dp+9, 0x1.ffffffffffd3bp+1023, 0x1.a6b164p-4, INEXACT) T(RU, -0x1.633ce8fb9f87dp+9,-0x1.ffffffffffd3ap+1023, 0x1.cb29d4p-1, INEXACT) T(RD, 0x1.633ce8fb9f87dp+9, 0x1.ffffffffffd3ap+1023, -0x1.cb29d4p-1, INEXACT) T(RD, -0x1.633ce8fb9f87dp+9,-0x1.ffffffffffd3bp+1023, -0x1.a6b164p-4, INEXACT) T(RN, 0x1.633ce8fb9f87ep+9, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, -0x1.633ce8fb9f87ep+9, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RZ, 0x1.633ce8fb9f87ep+9, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, -0x1.633ce8fb9f87ep+9,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU, 0x1.633ce8fb9f87ep+9, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, -0x1.633ce8fb9f87ep+9,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RD, 0x1.633ce8fb9f87ep+9, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, -0x1.633ce8fb9f87ep+9, -inf, 0x0p+0, INEXACT|OVERFLOW) // sinhd(tiny) :=: tiny T(RN, 0x1p-67, 0x1p-67, 0x0p+0, INEXACT) T(RN, -0x1p-67, -0x1p-67, 0x0p+0, INEXACT) T(RN, 0x1p-1022, 0x1p-1022, 0x0p+0, INEXACT) T(RN, -0x1p-1022, -0x1p-1022, 0x0p+0, INEXACT) T(RN, 0x1p-1042, 0x1p-1042, 0x0p+0, INEXACT|UNDERFLOW) T(RN, -0x1p-1042, -0x1p-1042, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1p-1074, 0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) T(RN, -0x1p-1074, -0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) // sinhd(+-0) = +-0 T(RN, 0x0p+0, 0x0p+0, 0x0p+0, 0) T(RN, -0x0p+0, -0x0p+0, 0x0p+0, 0) T(RZ, 0x0p+0, 0x0p+0, 0x0p+0, 0) T(RZ, -0x0p+0, -0x0p+0, 0x0p+0, 0) T(RU, 0x0p+0, 0x0p+0, 0x0p+0, 0) T(RU, -0x0p+0, -0x0p+0, 0x0p+0, 0) T(RD, 0x0p+0, 0x0p+0, 0x0p+0, 0) T(RD, -0x0p+0, -0x0p+0, 0x0p+0, 0) // random arguments between -30 30 T(RN, -0x1.01f5cb2b5006dp+3, -0x1.8c28619d32c08p+10, -0x1.e5b07p-3, INEXACT) T(RN, 0x1.55de4fb825911p+4, 0x1.c5bef10311486p+29, 0x1.d6225ap-2, INEXACT) T(RN, 0x1.a69db09de7505p+4, 0x1.13a2f3f7db55bp+37, -0x1.819a24p-3, INEXACT) T(RN, -0x1.40920fba96889p+4, -0x1.df7c90f0e645ap+27, 0x1.139e96p-4, INEXACT) T(RN, -0x1.04112e27084ddp+3, -0x1.a71eb14c98b3p+10, -0x1.5cd8a2p-6, INEXACT) T(RN, -0x1.2dc321b093c41p+0, -0x1.78a9a1930d4d1p+0, 0x1.a83538p-2, INEXACT) T(RN, 0x1.15995d18455f5p+4, 0x1.058065e10a9f3p+24, 0x1.b22c5p-4, INEXACT) T(RN, 0x1.9a7144a51b239p+4, 0x1.0198176da4c49p+36, -0x1.e8cfbcp-2, INEXACT) T(RN, -0x1.42b131079de4dp+2, -0x1.3590d1df8ba23p+6, -0x1.22a04p-2, INEXACT) T(RN, -0x1.cbda03103b871p+4, -0x1.6124348c6ad56p+40, 0x1.05e9fep-6, INEXACT) // sinhd(nan) is nan , sinhd(+-inf) is +-inf T(RN, nan, nan, 0x0p+0, 0) T(RN, inf, inf, 0x0p+0, 0) T(RN, -inf, -inf, 0x0p+0, 0) T(RD, inf, inf, 0x0p+0, 0) T(RD, -inf, -inf, 0x0p+0, 0) T(RD, 0x1p-1022, 0x1p-1022, 0x0p+0, INEXACT) T(RD, 0x1.0000000000001p-1022, 0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RD, 0x1.0000000000002p-1022, 0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RD, 0x1p-1021, 0x1p-1021, 0x0p+0, INEXACT) T(RD, 0x1p-1020, 0x1p-1020, 0x0p+0, INEXACT) T(RD, 0x1p-26, 0x1p-26, -0x1.555556p-3, INEXACT) T(RD, 0x1.8p-26, 0x1.8p-26, -0x1.2p-1, INEXACT) T(RD, -0x1p-1022,-0x1.0000000000001p-1022, -0x1p+0, INEXACT) T(RD,-0x1.0000000000001p-1022,-0x1.0000000000002p-1022, -0x1p+0, INEXACT) T(RD,-0x1.0000000000002p-1022,-0x1.0000000000003p-1022, -0x1p+0, INEXACT) T(RD, -0x1p-1021,-0x1.0000000000001p-1021, -0x1p+0, INEXACT) T(RD, -0x1p-1020,-0x1.0000000000001p-1020, -0x1p+0, INEXACT) T(RD, 0x1p-1074, 0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) T(RD, 0x1p-1073, 0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RD, 0x1p-1024, 0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RD, 0x1p-1023, 0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RD, 0x1.ffffffffffffcp-1023, 0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RD, 0x1.ffffffffffffep-1023, 0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RD, -0x1p-1074, -0x1p-1073, -0x1p+0, INEXACT|UNDERFLOW) T(RD, -0x1p-1073, -0x1.8p-1073, -0x1p+0, INEXACT|UNDERFLOW) T(RD, -0x1p-1024,-0x1.0000000000004p-1024, -0x1p+0, INEXACT|UNDERFLOW) T(RD, -0x1p-1023,-0x1.0000000000002p-1023, -0x1p+0, INEXACT|UNDERFLOW) T(RD,-0x1.ffffffffffffcp-1023,-0x1.ffffffffffffep-1023, -0x1p+0, INEXACT|UNDERFLOW) T(RD,-0x1.ffffffffffffep-1023, -0x1p-1022, -0x1p+0, INEXACT|UNDERFLOW) T(RD, 0x1.634p+9, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, 0x1p+1022, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, 0x1p+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, 0x1.ffffffffffffep+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, 0x1.fffffffffffffp+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RD, -0x1.634p+9, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RD, -0x1p+1022, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RD, -0x1p+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RD,-0x1.ffffffffffffep+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RD,-0x1.fffffffffffffp+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RD, nan, nan, 0x0p+0, 0) T(RD, nan, nan, 0x0p+0, 0) T(RD, 0x1p-25, 0x1p-25, -0x1.555556p-1, INEXACT) T(RD, 0x1.4p-25, 0x1.4000000000001p-25, -0x1.355556p-2, INEXACT) T(RD, -0x1p-26, -0x1.0000000000001p-26, -0x1.aaaaaap-1, INEXACT) T(RD, -0x1.8p-26, -0x1.8000000000001p-26, -0x1.cp-2, INEXACT) T(RD, -0x1p-25, -0x1.0000000000001p-25, -0x1.555556p-2, INEXACT) T(RD, -0x1.4p-25, -0x1.4000000000002p-25, -0x1.655556p-1, INEXACT) T(RN, 0x1.0000000000001p-1022, 0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RN, 0x1.0000000000002p-1022, 0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RN, 0x1p-1021, 0x1p-1021, 0x0p+0, INEXACT) T(RN, 0x1p-1020, 0x1p-1020, 0x0p+0, INEXACT) T(RN, 0x1p-26, 0x1p-26, -0x1.555556p-3, INEXACT) T(RN, 0x1p-25, 0x1.0000000000001p-25, 0x1.555556p-2, INEXACT) T(RN, 0x1.4p-25, 0x1.4000000000001p-25, -0x1.355556p-2, INEXACT) T(RN,-0x1.0000000000001p-1022,-0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RN,-0x1.0000000000002p-1022,-0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RN, -0x1p-1021, -0x1p-1021, 0x0p+0, INEXACT) T(RN, -0x1p-1020, -0x1p-1020, 0x0p+0, INEXACT) T(RN, -0x1p-26, -0x1p-26, 0x1.555556p-3, INEXACT) T(RN, -0x1p-25, -0x1.0000000000001p-25, -0x1.555556p-2, INEXACT) T(RN, -0x1.4p-25, -0x1.4000000000001p-25, 0x1.355556p-2, INEXACT) T(RN, 0x1p-1073, 0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1p-1024, 0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1p-1023, 0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1.ffffffffffffcp-1023, 0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1.ffffffffffffep-1023, 0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN, -0x1p-1073, -0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RN, -0x1p-1024, -0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RN, -0x1p-1023, -0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN,-0x1.ffffffffffffcp-1023,-0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN,-0x1.ffffffffffffep-1023,-0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RN, 0x1.634p+9, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, 0x1p+1022, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, 0x1p+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, 0x1.ffffffffffffep+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, 0x1.fffffffffffffp+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, -0x1.634p+9, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, -0x1p+1022, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, -0x1p+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RN,-0x1.ffffffffffffep+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RN,-0x1.fffffffffffffp+1023, -inf, 0x0p+0, INEXACT|OVERFLOW) T(RN, nan, nan, 0x0p+0, 0) T(RU, inf, inf, 0x0p+0, 0) T(RU, -inf, -inf, 0x0p+0, 0) T(RU, 0x1.8p-26, 0x1.8000000000001p-26, 0x1.cp-2, INEXACT) T(RU, -0x1p-1022, -0x1p-1022, 0x0p+0, INEXACT) T(RU,-0x1.0000000000001p-1022,-0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RU,-0x1.0000000000002p-1022,-0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RU, -0x1p-1021, -0x1p-1021, 0x0p+0, INEXACT) T(RU, -0x1p-1020, -0x1p-1020, 0x0p+0, INEXACT) T(RU, -0x1p-1074, -0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) T(RU, -0x1p-1073, -0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RU, -0x1p-1024, -0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RU, -0x1p-1023, -0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RU,-0x1.ffffffffffffcp-1023,-0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RU,-0x1.ffffffffffffep-1023,-0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RU, 0x1.634p+9, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, 0x1p+1022, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, 0x1p+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, 0x1.ffffffffffffep+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, 0x1.fffffffffffffp+1023, inf, 0x0p+0, INEXACT|OVERFLOW) T(RU, -0x1.634p+9,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU, -0x1p+1022,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU, -0x1p+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU,-0x1.ffffffffffffep+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU,-0x1.fffffffffffffp+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RU, nan, nan, 0x0p+0, 0) T(RU, nan, nan, 0x0p+0, 0) T(RU, 0x1p-1022, 0x1.0000000000001p-1022, 0x1p+0, INEXACT) T(RU, 0x1.0000000000001p-1022, 0x1.0000000000002p-1022, 0x1p+0, INEXACT) T(RU, 0x1.0000000000002p-1022, 0x1.0000000000003p-1022, 0x1p+0, INEXACT) T(RU, 0x1p-1021, 0x1.0000000000001p-1021, 0x1p+0, INEXACT) T(RU, 0x1p-1020, 0x1.0000000000001p-1020, 0x1p+0, INEXACT) T(RU, 0x1p-26, 0x1.0000000000001p-26, 0x1.aaaaaap-1, INEXACT) T(RU, 0x1p-25, 0x1.0000000000001p-25, 0x1.555556p-2, INEXACT) T(RU, 0x1.4p-25, 0x1.4000000000002p-25, 0x1.655556p-1, INEXACT) T(RU, -0x1p-26, -0x1p-26, 0x1.555556p-3, INEXACT) T(RU, -0x1.8p-26, -0x1.8p-26, 0x1.2p-1, INEXACT) T(RU, -0x1p-25, -0x1p-25, 0x1.555556p-1, INEXACT) T(RU, -0x1.4p-25, -0x1.4000000000001p-25, 0x1.355556p-2, INEXACT) T(RU, 0x1p-1074, 0x1p-1073, 0x1p+0, INEXACT|UNDERFLOW) T(RU, 0x1p-1073, 0x1.8p-1073, 0x1p+0, INEXACT|UNDERFLOW) T(RU, 0x1p-1024, 0x1.0000000000004p-1024, 0x1p+0, INEXACT|UNDERFLOW) T(RU, 0x1p-1023, 0x1.0000000000002p-1023, 0x1p+0, INEXACT|UNDERFLOW) T(RU, 0x1.ffffffffffffcp-1023, 0x1.ffffffffffffep-1023, 0x1p+0, INEXACT|UNDERFLOW) T(RU, 0x1.ffffffffffffep-1023, 0x1p-1022, 0x1p+0, INEXACT|UNDERFLOW) T(RZ, inf, inf, 0x0p+0, 0) T(RZ, -inf, -inf, 0x0p+0, 0) T(RZ, 0x1p-1022, 0x1p-1022, 0x0p+0, INEXACT) T(RZ, 0x1.0000000000001p-1022, 0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RZ, 0x1.0000000000002p-1022, 0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RZ, 0x1p-1021, 0x1p-1021, 0x0p+0, INEXACT) T(RZ, 0x1p-1020, 0x1p-1020, 0x0p+0, INEXACT) T(RZ, 0x1p-26, 0x1p-26, -0x1.555556p-3, INEXACT) T(RZ, 0x1.8p-26, 0x1.8p-26, -0x1.2p-1, INEXACT) T(RZ, -0x1p-1022, -0x1p-1022, 0x0p+0, INEXACT) T(RZ,-0x1.0000000000001p-1022,-0x1.0000000000001p-1022, 0x0p+0, INEXACT) T(RZ,-0x1.0000000000002p-1022,-0x1.0000000000002p-1022, 0x0p+0, INEXACT) T(RZ, -0x1p-1021, -0x1p-1021, 0x0p+0, INEXACT) T(RZ, -0x1p-1020, -0x1p-1020, 0x0p+0, INEXACT) T(RZ, 0x1p-1074, 0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1p-1073, 0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1p-1024, 0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1p-1023, 0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1.ffffffffffffcp-1023, 0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1.ffffffffffffep-1023, 0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, -0x1p-1074, -0x1p-1074, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, -0x1p-1073, -0x1p-1073, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, -0x1p-1024, -0x1p-1024, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, -0x1p-1023, -0x1p-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ,-0x1.ffffffffffffcp-1023,-0x1.ffffffffffffcp-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ,-0x1.ffffffffffffep-1023,-0x1.ffffffffffffep-1023, 0x0p+0, INEXACT|UNDERFLOW) T(RZ, 0x1.634p+9, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, 0x1p+1022, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, 0x1p+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, 0x1.ffffffffffffep+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, 0x1.fffffffffffffp+1023, 0x1.fffffffffffffp+1023, -0x1p+0, INEXACT|OVERFLOW) T(RZ, -0x1.634p+9,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RZ, -0x1p+1022,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RZ, -0x1p+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RZ,-0x1.ffffffffffffep+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RZ,-0x1.fffffffffffffp+1023,-0x1.fffffffffffffp+1023, 0x1p+0, INEXACT|OVERFLOW) T(RZ, nan, nan, 0x0p+0, 0) T(RZ, nan, nan, 0x0p+0, 0) T(RZ, 0x1p-25, 0x1p-25, -0x1.555556p-1, INEXACT) T(RZ, 0x1.4p-25, 0x1.4000000000001p-25, -0x1.355556p-2, INEXACT) T(RZ, -0x1p-26, -0x1p-26, 0x1.555556p-3, INEXACT) T(RZ, -0x1.8p-26, -0x1.8p-26, 0x1.2p-1, INEXACT) T(RZ, -0x1p-25, -0x1p-25, 0x1.555556p-1, INEXACT) T(RZ, -0x1.4p-25, -0x1.4000000000001p-25, 0x1.355556p-2, INEXACT)