| /* |
| * Copyright (c) 2016 The University of Virginia |
| * All rights reserved. |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions are |
| * met: redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer; |
| * redistributions in binary form must reproduce the above copyright |
| * notice, this list of conditions and the following disclaimer in the |
| * documentation and/or other materials provided with the distribution; |
| * neither the name of the copyright holders nor the names of its |
| * contributors may be used to endorse or promote products derived from |
| * this software without specific prior written permission. |
| * |
| * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| * |
| * Authors: Alec Roelke |
| */ |
| |
| #include <cstdint> |
| #include <limits> |
| |
| #include "insttest.h" |
| #include "rv64f.h" |
| |
| int main() |
| { |
| using namespace std; |
| using namespace insttest; |
| |
| // FLAGS |
| expect<uint64_t>(0, []{ |
| F::fsflags(0); |
| return F::frflags(); |
| }, "clear fsflags"); |
| |
| // Memory |
| expect<float>(3.14, []{return F::load(3.14);}, "flw"); |
| expect<float>(1.816, []{return F::store(1.816);}, "fsw"); |
| |
| // FMADD.S |
| expect<float>(7.11624, []{return F::fmadd_s(3.14, 1.816, 1.414);}, |
| "fmadd.s"); |
| expect<bool>(true, []{ |
| float fd = F::fmadd_s(numeric_limits<float>::quiet_NaN(), 3.14, |
| 1.816); |
| return F::isquietnan(fd); |
| }, "fmadd.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fmadd_s(3.14, numeric_limits<float>::signaling_NaN(), |
| 1.816); |
| return F::isquietnan(fd); |
| }, "fmadd.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmadd_s(3.14, numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fmadd.s, infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fmadd_s(3.14, -numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fmadd.s, -infinity"); |
| |
| // FMSUB.S |
| expect<float>(4.28824, []{return F::fmsub_s(3.14, 1.816, 1.414);}, |
| "fmsub.s"); |
| expect<bool>(true, []{ |
| float fd = F::fmsub_s(3.14, numeric_limits<float>::quiet_NaN(), |
| 1.816); |
| return F::isquietnan(fd); |
| }, "fmsub.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fmsub_s(3.14, 1.816, |
| numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fmsub.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmsub_s(numeric_limits<float>::infinity(), 1.816, |
| 1.414);}, |
| "fmsub.s, infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fmsub_s(3.14, -numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fmsub.s, -infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fmsub_s(3.14, 1.816, |
| numeric_limits<float>::infinity());}, |
| "fmsub.s, subtract infinity"); |
| |
| // FNMSUB.S |
| expect<float>(-4.28824, []{return F::fnmsub_s(3.14, 1.816, 1.414);}, |
| "fnmsub.s"); |
| expect<bool>(true, []{ |
| float fd = F::fnmsub_s(3.14, 1.816, |
| numeric_limits<float>::quiet_NaN()); |
| return F::isquietnan(fd); |
| }, "fnmsub.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fnmsub_s(numeric_limits<float>::signaling_NaN(), |
| 1.816, 1.414); |
| return F::isquietnan(fd); |
| }, "fnmsub.s, signaling NaN"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fnmsub_s(numeric_limits<float>::infinity(), |
| 1.816, 1.414);}, |
| "fnmsub.s, infinity"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fnmsub_s(3.14, -numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fnmsub.s, -infinity"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fnmsub_s(3.14, 1.816, |
| numeric_limits<float>::infinity());}, |
| "fnmsub.s, subtract infinity"); |
| |
| // FNMADD.S |
| expect<float>(-7.11624, []{return F::fnmadd_s(3.14, 1.816, 1.414);}, |
| "fnmadd.s"); |
| expect<bool>(true, []{ |
| float fd = F::fnmadd_s(numeric_limits<float>::quiet_NaN(), 3.14, |
| 1.816); |
| return F::isquietnan(fd); |
| }, "fnmadd.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fnmadd_s(3.14,numeric_limits<float>::signaling_NaN(), |
| 1.816); |
| return F::isquietnan(fd); |
| }, "fnmadd.s, signaling NaN"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fnmadd_s(3.14, numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fnmadd.s, infinity"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fnmadd_s(3.14, -numeric_limits<float>::infinity(), |
| 1.414);}, |
| "fnmadd.s, -infinity"); |
| |
| // FADD.S |
| expect<float>(4.554, []{return F::fadd_s(3.14, 1.414);}, "fadd.s"); |
| expect<bool>(true, []{ |
| float fd = F::fadd_s(numeric_limits<float>::quiet_NaN(), 1.414); |
| return F::isquietnan(fd); |
| }, "fadd.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fadd_s(3.14, numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fadd.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fadd_s(3.14, numeric_limits<float>::infinity());}, |
| "fadd.s, infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fadd_s(-numeric_limits<float>::infinity(), 1.816);}, |
| "fadd.s, -infinity"); |
| |
| // FSUB.S |
| expect<float>(F::number(0xbfdced92), []{return F::fsub_s(1.414, 3.14);}, |
| "fsub.s"); |
| expect<bool>(true, []{ |
| float fd = F::fsub_s(numeric_limits<float>::quiet_NaN(), 1.414); |
| return F::isquietnan(fd); |
| }, "fsub.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsub_s(3.14, numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fsub.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fsub_s(numeric_limits<float>::infinity(), 3.14);}, |
| "fsub.s, infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fsub_s(-numeric_limits<float>::infinity(), 3.14);}, |
| "fsub.s, -infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fsub_s(1.414, numeric_limits<float>::infinity());}, |
| "fsub.s, subtract infinity"); |
| |
| // FMUL.S |
| expect<float>(F::number(0x4024573b), []{return F::fmul_s(1.816, 1.414);}, |
| "fmul.s"); |
| expect<bool>(true, []{ |
| float fd = F::fmul_s(numeric_limits<float>::quiet_NaN(), 1.414); |
| return F::isquietnan(fd); |
| }, "fmul.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fmul_s(1.816, |
| numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fmul.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmul_s(numeric_limits<float>::infinity(), 2.718);}, |
| "fmul.s, infinity"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fmul_s(2.5966, -numeric_limits<float>::infinity());}, |
| "fmul.s, -infinity"); |
| expect<bool>(true, []{ |
| float fd = F::fmul_s(0.0, numeric_limits<float>::infinity()); |
| return F::isquietnan(fd); |
| }, "fmul.s, 0*infinity"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmul_s(numeric_limits<float>::max(), 2.0);}, |
| "fmul.s, overflow"); |
| expect<float>(0.0, |
| []{return F::fmul_s(numeric_limits<float>::min(), |
| numeric_limits<float>::min());}, |
| "fmul.s, underflow"); |
| |
| // FDIV.S |
| expect<float>(2.5, []{return F::fdiv_s(10.0, 4.0);}, "fdiv.s"); |
| expect<bool>(true, []{ |
| float fd = F::fdiv_s(numeric_limits<float>::quiet_NaN(), 4.0); |
| return F::isquietnan(fd); |
| }, "fdiv.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fdiv_s(10.0, numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fdiv.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fdiv_s(10.0, 0.0);}, "fdiv.s/0"); |
| expect<float>(0.0, |
| []{return F::fdiv_s(10.0, numeric_limits<float>::infinity());}, |
| "fdiv.s/infinity"); |
| expect<bool>(true, []{ |
| float fd = F::fdiv_s(numeric_limits<float>::infinity(), |
| numeric_limits<float>::infinity()); |
| return F::isquietnan(fd); |
| }, "fdiv.s, infinity/infinity"); |
| expect<bool>(true, []{ |
| float fd = F::fdiv_s(0.0, 0.0); |
| return F::isquietnan(fd); |
| }, "fdiv.s, 0/0"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fdiv_s(numeric_limits<float>::infinity(), 0.0);}, |
| "fdiv.s, infinity/0"); |
| expect<float>(0.0, |
| []{return F::fdiv_s(0.0, numeric_limits<float>::infinity());}, |
| "fdiv.s, 0/infinity"); |
| expect<float>(0.0, |
| []{return F::fdiv_s(numeric_limits<float>::min(), |
| numeric_limits<float>::max());}, |
| "fdiv.s, underflow"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fdiv_s(numeric_limits<float>::max(), |
| numeric_limits<float>::min());}, |
| "fdiv.s, overflow"); |
| |
| // FSQRT.S |
| expect<float>(0.3, []{return F::fsqrt_s(0.09);}, "fsqrt.s"); |
| expect<bool>(true, []{ |
| float fd = F::fsqrt_s(-1.0); |
| return F::isquietnan(fd); |
| }, "fsqrt.s, NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsqrt_s(numeric_limits<float>::quiet_NaN()); |
| return F::isquietnan(fd); |
| }, "fsqrt.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsqrt_s(numeric_limits<float>::signaling_NaN()); |
| return F::isquietnan(fd); |
| }, "fsqrt.s, signaling NaN"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fsqrt_s(numeric_limits<float>::infinity());}, |
| "fsqrt.s, infinity"); |
| |
| // FSGNJ.S |
| expect<float>(1.0, []{return F::fsgnj_s(1.0, 25.0);}, "fsgnj.s, ++"); |
| expect<float>(-1.0, []{return F::fsgnj_s(1.0, -25.0);}, "fsgnj.s, +-"); |
| expect<float>(1.0, []{return F::fsgnj_s(-1.0, 25.0);}, "fsgnj.s, -+"); |
| expect<float>(-1.0, []{return F::fsgnj_s(-1.0, -25.0);}, "fsgnj.s, --"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnj_s(numeric_limits<float>::quiet_NaN(), -4.0); |
| return F::isquietnan(fd); |
| }, "fsgnj.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnj_s(numeric_limits<float>::signaling_NaN(), |
| -4.0); |
| return F::issignalingnan(fd); |
| }, "fsgnj.s, signaling NaN"); |
| expect<float>(4.0, []{return F::fsgnj_s(4.0, |
| numeric_limits<float>::quiet_NaN());}, "fsgnj.s, inject NaN"); |
| expect<float>(-4.0, |
| []{return F::fsgnj_s(4.0, -numeric_limits<float>::quiet_NaN());}, |
| "fsgnj.s, inject -NaN"); |
| |
| // FSGNJN.S |
| expect<float>(-1.0, []{return F::fsgnjn_s(1.0, 25.0);}, "fsgnjn.s, ++"); |
| expect<float>(1.0, []{return F::fsgnjn_s(1.0, -25.0);}, "fsgnjn.s, +-"); |
| expect<float>(-1.0, []{return F::fsgnjn_s(-1.0, 25.0);}, "fsgnjn.s, -+"); |
| expect<float>(1.0, []{return F::fsgnjn_s(-1.0, -25.0);}, "fsgnjn.s, --"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnjn_s(numeric_limits<float>::quiet_NaN(), -4.0); |
| return F::isquietnan(fd); |
| }, "fsgnjn.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnjn_s(numeric_limits<float>::signaling_NaN(), |
| -4.0); |
| return F::issignalingnan(fd); |
| }, "fsgnjn.s, signaling NaN"); |
| expect<float>(-4.0, |
| []{return F::fsgnjn_s(4.0, numeric_limits<float>::quiet_NaN());}, |
| "fsgnjn.s, inject NaN"); |
| expect<float>(4.0, |
| []{return F::fsgnjn_s(4.0, -numeric_limits<float>::quiet_NaN());}, |
| "fsgnjn.s, inject NaN"); |
| |
| // FSGNJX.S |
| expect<float>(1.0, []{return F::fsgnjx_s(1.0, 25.0);}, "fsgnjx.s, ++"); |
| expect<float>(-1.0, []{return F::fsgnjx_s(1.0, -25.0);}, "fsgnjx.s, +-"); |
| expect<float>(-1.0, []{return F::fsgnjx_s(-1.0, 25.0);}, "fsgnjx.s, -+"); |
| expect<float>(1.0, []{return F::fsgnjx_s(-1.0, -25.0);}, "fsgnjx.s, --"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnjx_s(numeric_limits<float>::quiet_NaN(), -4.0); |
| return F::isquietnan(fd); |
| }, "fsgnjx.s, quiet NaN"); |
| expect<bool>(true, []{ |
| float fd = F::fsgnjx_s(numeric_limits<float>::signaling_NaN(), |
| -4.0); |
| return F::issignalingnan(fd); |
| }, "fsgnjx.s, signaling NaN"); |
| expect<float>(4.0, |
| []{return F::fsgnjx_s(4.0, numeric_limits<float>::quiet_NaN());}, |
| "fsgnjx.s, inject NaN"); |
| expect<float>(-4.0, |
| []{return F::fsgnjx_s(4.0, -numeric_limits<float>::quiet_NaN());}, |
| "fsgnjx.s, inject -NaN"); |
| |
| // FMIN.S |
| expect<float>(2.718, []{return F::fmin_s(3.14, 2.718);}, "fmin.s"); |
| expect<float>(-numeric_limits<float>::infinity(), |
| []{return F::fmin_s(-numeric_limits<float>::infinity(), |
| numeric_limits<float>::min());}, |
| "fmin.s, -infinity"); |
| expect<float>(numeric_limits<float>::max(), |
| []{return F::fmin_s(numeric_limits<float>::infinity(), |
| numeric_limits<float>::max());}, |
| "fmin.s, infinity"); |
| expect<float>(-1.414, |
| []{return F::fmin_s(numeric_limits<float>::quiet_NaN(), -1.414);}, |
| "fmin.s, quiet NaN first"); |
| expect<float>(2.718, |
| []{return F::fmin_s(2.718, numeric_limits<float>::quiet_NaN());}, |
| "fmin.s, quiet NaN second"); |
| expect<bool>(true, []{ |
| float fd = F::fmin_s(numeric_limits<float>::quiet_NaN(), |
| numeric_limits<float>::quiet_NaN()); |
| return F::isquietnan(fd); |
| }, "fmin.s, quiet NaN both"); |
| expect<float>(3.14, |
| []{return F::fmin_s(numeric_limits<float>::signaling_NaN(), |
| 3.14);}, |
| "fmin.s, signaling NaN first"); |
| expect<float>(1.816, |
| []{return F::fmin_s(1.816, |
| numeric_limits<float>::signaling_NaN());}, |
| "fmin.s, signaling NaN second"); |
| expect<bool>(true, []{ |
| float fd = F::fmin_s(numeric_limits<float>::signaling_NaN(), |
| numeric_limits<float>::signaling_NaN()); |
| return F::issignalingnan(fd); |
| }, "fmin.s, signaling NaN both"); |
| |
| // FMAX.S |
| expect<float>(3.14, []{return F::fmax_s(3.14, 2.718);}, "fmax.s"); |
| expect<float>(numeric_limits<float>::min(), |
| []{return F::fmax_s(-numeric_limits<float>::infinity(), |
| numeric_limits<float>::min());}, |
| "fmax.s, -infinity"); |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmax_s(numeric_limits<float>::infinity(), |
| numeric_limits<float>::max());}, |
| "fmax.s, infinity"); |
| expect<float>(-1.414, |
| []{return F::fmax_s(numeric_limits<float>::quiet_NaN(), -1.414);}, |
| "fmax.s, quiet NaN first"); |
| expect<float>(2.718, |
| []{return F::fmax_s(2.718, numeric_limits<float>::quiet_NaN());}, |
| "fmax.s, quiet NaN second"); |
| expect<bool>(true, []{ |
| float fd = F::fmax_s(numeric_limits<float>::quiet_NaN(), |
| numeric_limits<float>::quiet_NaN()); |
| return F::isquietnan(fd); |
| }, "fmax.s, quiet NaN both"); |
| expect<float>(3.14, |
| []{return F::fmax_s(numeric_limits<float>::signaling_NaN(), |
| 3.14);}, |
| "fmax.s, signaling NaN first"); |
| expect<float>(1.816, []{return F::fmax_s(1.816, |
| numeric_limits<float>::signaling_NaN());}, |
| "fmax.s, signaling NaN second"); |
| expect<bool>(true, []{ |
| float fd = F::fmax_s(numeric_limits<float>::signaling_NaN(), |
| numeric_limits<float>::signaling_NaN()); |
| return F::issignalingnan(fd); |
| }, "fmax.s, signaling NaN both"); |
| |
| // FCVT.W.S |
| expect<int64_t>(256, []{return F::fcvt_w_s(256.3);}, |
| "fcvt.w.s, truncate positive"); |
| expect<int64_t>(-256, []{return F::fcvt_w_s(-256.2);}, |
| "fcvt.w.s, truncate negative"); |
| expect<int64_t>(0, []{return F::fcvt_w_s(0.0);}, "fcvt.w.s, 0.0"); |
| expect<int64_t>(0, []{return F::fcvt_w_s(-0.0);}, "fcvt.w.s, -0.0"); |
| expect<int64_t>(numeric_limits<int32_t>::max(), |
| []{return F::fcvt_w_s(numeric_limits<float>::max());}, |
| "fcvt.w.s, overflow"); |
| expect<int64_t>(0, []{return F::fcvt_w_s(numeric_limits<float>::min());}, |
| "fcvt.w.s, underflow"); |
| expect<int64_t>(numeric_limits<int32_t>::max(), |
| []{return F::fcvt_w_s(numeric_limits<float>::infinity());}, |
| "fcvt.w.s, infinity"); |
| expect<int64_t>(numeric_limits<int32_t>::min(), |
| []{return F::fcvt_w_s(-numeric_limits<float>::infinity());}, |
| "fcvt.w.s, -infinity"); |
| expect<int64_t>(numeric_limits<int32_t>::max(), |
| []{return F::fcvt_w_s(numeric_limits<float>::quiet_NaN());}, |
| "fcvt.w.s, quiet NaN"); |
| expect<int64_t>(numeric_limits<int32_t>::max(), |
| []{return F::fcvt_w_s(-numeric_limits<float>::quiet_NaN());}, |
| "fcvt.w.s, quiet -NaN"); |
| expect<int64_t>(numeric_limits<int32_t>::max(), |
| []{return F::fcvt_w_s(numeric_limits<float>::signaling_NaN());}, |
| "fcvt.w.s, signaling NaN"); |
| |
| // FCVT.WU.S |
| expect<uint64_t>(256, []{return F::fcvt_wu_s(256.3);}, |
| "fcvt.wu.s, truncate positive"); |
| expect<uint64_t>(0, []{return F::fcvt_wu_s(-256.2);}, |
| "fcvt.wu.s, truncate negative"); |
| expect<uint64_t>(0, []{return F::fcvt_wu_s(0.0);}, "fcvt.wu.s, 0.0"); |
| expect<uint64_t>(0, []{return F::fcvt_wu_s(-0.0);}, "fcvt.wu.s, -0.0"); |
| expect<uint64_t>(numeric_limits<uint64_t>::max(), |
| []{return F::fcvt_wu_s(numeric_limits<float>::max());}, |
| "fcvt.wu.s, overflow"); |
| expect<uint64_t>(0, []{return F::fcvt_wu_s(numeric_limits<float>::min());}, |
| "fcvt.wu.s, underflow"); |
| expect<uint64_t>(numeric_limits<uint64_t>::max(), |
| []{return F::fcvt_wu_s(numeric_limits<float>::infinity());}, |
| "fcvt.wu.s, infinity"); |
| expect<uint64_t>(0, |
| []{return F::fcvt_wu_s(-numeric_limits<float>::infinity());}, |
| "fcvt.wu.s, -infinity"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_wu_s(numeric_limits<float>::quiet_NaN());}, |
| "fcvt.wu.s, quiet NaN"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_wu_s(-numeric_limits<float>::quiet_NaN());}, |
| "fcvt.wu.s, quiet -NaN"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_wu_s(numeric_limits<float>::signaling_NaN());}, |
| "fcvt.wu.s, signaling NaN"); |
| |
| // FMV.X.S |
| expect<uint64_t>(0x000000004048F5C3ULL, []{return F::fmv_x_s(3.14);}, |
| "fmv.x.s, positive"); |
| expect<uint64_t>(0xFFFFFFFFC048F5C3ULL, []{return F::fmv_x_s(-3.14);}, |
| "fmv.x.s, negative"); |
| expect<uint64_t>(0x0000000000000000ULL, []{return F::fmv_x_s(0.0);}, |
| "fmv.x.s, 0.0"); |
| expect<uint64_t>(0xFFFFFFFF80000000ULL, []{return F::fmv_x_s(-0.0);}, |
| "fmv.x.s, -0.0"); |
| |
| // FEQ.S |
| expect<bool>(true, []{return F::feq_s(1.414, 1.414);}, "feq.s, equal"); |
| expect<bool>(false, []{return F::feq_s(2.718, 1.816);}, |
| "feq.s, not equal"); |
| expect<bool>(true, []{return F::feq_s(0.0, -0.0);}, "feq.s, 0 == -0"); |
| expect<bool>(false, |
| []{return F::feq_s(numeric_limits<float>::quiet_NaN(), -1.0);}, |
| "feq.s, quiet NaN first"); |
| expect<bool>(false, |
| []{return F::feq_s(2.0, numeric_limits<float>::quiet_NaN());}, |
| "feq.s, quiet NaN second"); |
| expect<bool>(false, |
| []{return F::feq_s(numeric_limits<float>::quiet_NaN(), |
| numeric_limits<float>::quiet_NaN());}, |
| "feq.s, quiet NaN both"); |
| expect<bool>(false, |
| []{return F::feq_s(numeric_limits<float>::signaling_NaN(), -1.0);}, |
| "feq.s, signaling NaN first"); |
| expect<bool>(false, |
| []{return F::feq_s(2.0, numeric_limits<float>::signaling_NaN());}, |
| "feq.s, signaling NaN second"); |
| expect<bool>(false, |
| []{return F::feq_s(numeric_limits<float>::signaling_NaN(), |
| numeric_limits<float>::signaling_NaN());}, |
| "feq.s, signaling NaN both"); |
| |
| // FLT.S |
| expect<bool>(false, []{return F::flt_s(1.414, 1.414);}, "flt.s, equal"); |
| expect<bool>(true, []{return F::flt_s(1.816, 2.718);}, "flt.s, less"); |
| expect<bool>(false, []{return F::flt_s(2.718, 1.816);}, "flt.s, greater"); |
| expect<bool>(false, |
| []{return F::flt_s(numeric_limits<float>::quiet_NaN(), -1.0);}, |
| "flt.s, quiet NaN first"); |
| expect<bool>(false, |
| []{return F::flt_s(2.0, numeric_limits<float>::quiet_NaN());}, |
| "flt.s, quiet NaN second"); |
| expect<bool>(false, |
| []{return F::flt_s(numeric_limits<float>::quiet_NaN(), |
| numeric_limits<float>::quiet_NaN());}, |
| "flt.s, quiet NaN both"); |
| expect<bool>(false, |
| []{return F::flt_s(numeric_limits<float>::signaling_NaN(), -1.0);}, |
| "flt.s, signaling NaN first"); |
| expect<bool>(false, |
| []{return F::flt_s(2.0, numeric_limits<float>::signaling_NaN());}, |
| "flt.s, signaling NaN second"); |
| expect<bool>(false, |
| []{return F::flt_s(numeric_limits<float>::signaling_NaN(), |
| numeric_limits<float>::signaling_NaN());}, |
| "flt.s, signaling NaN both"); |
| |
| // FLE.S |
| expect<bool>(true, []{return F::fle_s(1.414, 1.414);}, "fle.s, equal"); |
| expect<bool>(true, []{return F::fle_s(1.816, 2.718);}, "fle.s, less"); |
| expect<bool>(false, []{return F::fle_s(2.718, 1.816);}, "fle.s, greater"); |
| expect<bool>(true, []{return F::fle_s(0.0, -0.0);}, "fle.s, 0 == -0"); |
| expect<bool>(false, |
| []{return F::fle_s(numeric_limits<float>::quiet_NaN(), -1.0);}, |
| "fle.s, quiet NaN first"); |
| expect<bool>(false, |
| []{return F::fle_s(2.0, numeric_limits<float>::quiet_NaN());}, |
| "fle.s, quiet NaN second"); |
| expect<bool>(false, |
| []{return F::fle_s(numeric_limits<float>::quiet_NaN(), |
| numeric_limits<float>::quiet_NaN());}, |
| "fle.s, quiet NaN both"); |
| expect<bool>(false, |
| []{return F::fle_s(numeric_limits<float>::signaling_NaN(), -1.0);}, |
| "fle.s, signaling NaN first"); |
| expect<bool>(false, |
| []{return F::fle_s(2.0, numeric_limits<float>::signaling_NaN());}, |
| "fle.s, signaling NaN second"); |
| expect<bool>(false, |
| []{return F::fle_s(numeric_limits<float>::signaling_NaN(), |
| numeric_limits<float>::signaling_NaN());}, |
| "fle.s, signaling NaN both"); |
| |
| // FCLASS.S |
| expect<uint64_t>(0x1, |
| []{return F::fclass_s(-numeric_limits<float>::infinity());}, |
| "fclass.s, -infinity"); |
| expect<uint64_t>(0x2, []{return F::fclass_s(-3.14);}, "fclass.s, -normal"); |
| expect<uint64_t>(0x4, []{return F::fclass_s(F::number(0x807FFFFF));}, |
| "fclass.s, -subnormal"); |
| expect<uint64_t>(0x8, []{return F::fclass_s(-0.0);}, "fclass.s, -0.0"); |
| expect<uint64_t>(0x10, []{return F::fclass_s(0.0);}, "fclass.s, 0.0"); |
| expect<uint64_t>(0x20, []{return F::fclass_s(F::number(0x007FFFFF));}, |
| "fclass.s, subnormal"); |
| expect<uint64_t>(0x40, []{return F::fclass_s(1.816);}, "fclass.s, normal"); |
| expect<uint64_t>(0x80, |
| []{return F::fclass_s(numeric_limits<float>::infinity());}, |
| "fclass.s, infinity"); |
| expect<uint64_t>(0x100, |
| []{return F::fclass_s(numeric_limits<float>::signaling_NaN());}, |
| "fclass.s, signaling NaN"); |
| expect<uint64_t>(0x200, |
| []{return F::fclass_s(numeric_limits<float>::quiet_NaN());}, |
| "fclass.s, quiet NaN"); |
| |
| // FCVT.S.W |
| expect<float>(0.0, []{return F::fcvt_s_w(0);}, "fcvt.s.w, 0"); |
| expect<float>(-2147483648.0, |
| []{return F::fcvt_s_w(numeric_limits<int32_t>::min());}, |
| "fcvt.s.w, negative"); |
| expect<float>(255.0, []{return F::fcvt_s_w(0xFFFFFFFF000000FFLL);}, |
| "fcvt.s.w, truncate"); |
| |
| // FCVT.S.WU |
| expect<float>(0.0, []{return F::fcvt_s_wu(0);}, "fcvt.s.wu, 0"); |
| expect<float>(2147483648.0, |
| []{return F::fcvt_s_wu(numeric_limits<int32_t>::min());}, |
| "fcvt.s.wu"); |
| expect<float>(255.0, []{return F::fcvt_s_wu(0xFFFFFFFF000000FFLL);}, |
| "fcvt.s.wu, truncate"); |
| |
| // FMV.S.X |
| expect<float>(numeric_limits<float>::infinity(), |
| []{return F::fmv_s_x(0x7F800000);}, "fmv.s.x"); |
| expect<float>(-0.0, []{return F::fmv_s_x(0xFFFFFFFF80000000ULL);}, |
| "fmv.s.x, truncate"); |
| |
| // FCSR functions |
| int rm = F::frrm(); |
| expect<uint64_t>(0x7, []{ // FSRM |
| F::fsrm(-1); |
| return F::frrm(); |
| }, "fsrm"); |
| expect<uint64_t>(0x1F, []{ // FSFLAGS |
| F::fsflags(0); |
| F::fsflags(-1); |
| return F::frflags(); |
| }, "fsflags"); |
| expect<uint64_t>(0xFF, []{ // FSCSR |
| F::fsflags(0); |
| F::fsrm(0); |
| F::fscsr(-1); |
| return F::frcsr(); |
| }, "fscsr"); |
| expect<int>(rm << 5, [=]{ |
| F::fscsr(0); |
| F::fsrm(rm); |
| return F::frcsr(); |
| }, "restore initial round mode"); |
| |
| F::fsflags(0); |
| |
| // FCVT.L.S |
| expect<int64_t>(256, []{return F::fcvt_l_s(256.3);}, |
| "fcvt.l.s, truncate positive"); |
| expect<int64_t>(-256, []{return F::fcvt_l_s(-256.2);}, |
| "fcvt.l.s, truncate negative"); |
| expect<int64_t>(0, []{return F::fcvt_l_s(0.0);}, "fcvt.l.s, 0.0"); |
| expect<int64_t>(0, []{return F::fcvt_l_s(-0.0);}, "fcvt.l.s, -0.0"); |
| expect<int64_t>(-8589934592LL, []{return F::fcvt_l_s(-8589934592.0);}, |
| "fcvt.l.s, 32-bit overflow"); |
| expect<int64_t>(numeric_limits<int64_t>::max(), |
| []{return F::fcvt_l_s(numeric_limits<float>::max());}, |
| "fcvt.l.s, overflow"); |
| expect<int64_t>(0, []{return F::fcvt_l_s(numeric_limits<float>::min());}, |
| "fcvt.l.s, underflow"); |
| expect<int64_t>(numeric_limits<int64_t>::max(), |
| []{return F::fcvt_l_s(numeric_limits<float>::infinity());}, |
| "fcvt.l.s, infinity"); |
| expect<int64_t>(numeric_limits<int64_t>::min(), |
| []{return F::fcvt_l_s(-numeric_limits<float>::infinity());}, |
| "fcvt.l.s, -infinity"); |
| expect<int64_t>(numeric_limits<int64_t>::max(), |
| []{return F::fcvt_l_s(numeric_limits<float>::quiet_NaN());}, |
| "fcvt.l.s, quiet NaN"); |
| expect<int64_t>(numeric_limits<int64_t>::max(), |
| []{return F::fcvt_l_s(-numeric_limits<float>::quiet_NaN());}, |
| "fcvt.l.s, quiet -NaN"); |
| expect<int64_t>(numeric_limits<int64_t>::max(), |
| []{return F::fcvt_l_s(numeric_limits<float>::signaling_NaN());}, |
| "fcvt.l.s, signaling NaN"); |
| |
| // FCVT.LU.S |
| expect<uint64_t>(256, []{return F::fcvt_lu_s(256.3);}, |
| "fcvt.lu.s, truncate positive"); |
| expect<uint64_t>(0, []{return F::fcvt_lu_s(-256.2);}, |
| "fcvt.lu.s, truncate negative"); |
| expect<uint64_t>(0, []{return F::fcvt_lu_s(0.0);}, "fcvt.lu.s, 0.0"); |
| expect<uint64_t>(0, []{return F::fcvt_lu_s(-0.0);}, "fcvt.lu.s, -0.0"); |
| expect<uint64_t>(8589934592LL, |
| []{return F::fcvt_lu_s(8589934592.0);}, |
| "fcvt.lu.s, 32-bit overflow"); |
| expect<uint64_t>(numeric_limits<uint64_t>::max(), |
| []{return F::fcvt_lu_s(numeric_limits<float>::max());}, |
| "fcvt.lu.s, overflow"); |
| expect<uint64_t>(0, []{return F::fcvt_lu_s(numeric_limits<float>::min());}, |
| "fcvt.lu.s, underflow"); |
| expect<uint64_t>(numeric_limits<uint64_t>::max(), |
| []{return F::fcvt_lu_s(numeric_limits<float>::infinity());}, |
| "fcvt.lu.s, infinity"); |
| expect<uint64_t>(0, |
| []{return F::fcvt_lu_s(-numeric_limits<float>::infinity());}, |
| "fcvt.lu.s, -infinity"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_lu_s(numeric_limits<float>::quiet_NaN());}, |
| "fcvt.lu.s, quiet NaN"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_lu_s(-numeric_limits<float>::quiet_NaN());}, |
| "fcvt.lu.s, quiet -NaN"); |
| expect<uint64_t>(0xFFFFFFFFFFFFFFFFULL, |
| []{return F::fcvt_lu_s(numeric_limits<float>::signaling_NaN());}, |
| "fcvt.lu.s, signaling NaN"); |
| |
| // FCVT.S.L |
| expect<float>(0.0, []{return F::fcvt_s_l(0);}, "fcvt.s.l, 0"); |
| expect<float>(-9.223372e18, |
| []{return F::fcvt_s_l(numeric_limits<int64_t>::min());}, |
| "fcvt.s.l, negative"); |
| expect<float>(-4.29496704e9, []{return F::fcvt_s_l(0xFFFFFFFF000000FFLL);}, |
| "fcvt.s.l, 32-bit truncate"); |
| |
| // FCVT.S.LU |
| expect<float>(0.0, []{return F::fcvt_s_lu(0);}, "fcvt.s.lu, 0"); |
| expect<float>(9.223372e18, |
| []{return F::fcvt_s_lu(numeric_limits<int64_t>::min());}, |
| "fcvt.s.lu"); |
| expect<float>(1.8446744e19, []{return F::fcvt_s_lu(0xFFFFFFFF000000FFLL);}, |
| "fcvt.s.lu, 32-bit truncate"); |
| |
| return 0; |
| } |
