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MCOL-4809 Vectorized comparison operations unit tests
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Roman Nozdrin
255
tests/simd_processors.cpp
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255
tests/simd_processors.cpp
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/* Copyright (C) 2022 MariaDB Corporation
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; version 2 of
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the License.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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MA 02110-1301, USA. */
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#if defined(__x86_64__)
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#include <iostream>
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#include <gtest/gtest.h>
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#include "simd_sse.h"
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#include "datatypes/mcs_datatype.h"
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#include "datatypes/mcs_int128.h"
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using namespace std;
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class SimdProcessorTest : public testing::Test {
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public:
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void SetUp() override
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{
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}
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};
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_U64)
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{
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constexpr const uint8_t W = 8;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using UT = datatypes::make_unsigned<IntegralType>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, UT>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((UT)-2);
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SimdType rhs = proc.loadValue((UT)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((UT)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_U32)
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{
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constexpr const uint8_t W = 4;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using UT = datatypes::make_unsigned<IntegralType>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, UT>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((UT)-2);
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SimdType rhs = proc.loadValue((UT)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((UT)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_U16)
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{
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constexpr const uint8_t W = 2;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using UT = datatypes::make_unsigned<IntegralType>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, UT>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((UT)-2);
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SimdType rhs = proc.loadValue((UT)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((UT)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_U8)
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{
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constexpr const uint8_t W = 1;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using UT = datatypes::make_unsigned<IntegralType>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, UT>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((UT)-2);
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SimdType rhs = proc.loadValue((UT)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((UT)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_S64)
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{
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constexpr const uint8_t W = 8;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, IntegralType>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((IntegralType)-2);
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SimdType rhs = proc.loadValue((IntegralType)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((IntegralType)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_S32)
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{
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constexpr const uint8_t W = 4;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, IntegralType>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((IntegralType)-2);
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SimdType rhs = proc.loadValue((IntegralType)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((IntegralType)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_S16)
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{
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constexpr const uint8_t W = 2;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, IntegralType>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((IntegralType)-2);
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SimdType rhs = proc.loadValue((IntegralType)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((IntegralType)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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TEST_F(SimdProcessorTest, SimdFilterProcessor_simd128_S8)
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{
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constexpr const uint8_t W = 1;
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using IntegralType = datatypes::WidthToSIntegralType<W>::type;
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using Proc = typename simd::SimdFilterProcessor<simd::vi128_wr, IntegralType>;
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using SimdType = typename Proc::SimdType;
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constexpr static simd::MT allTrue = 0xFFFF;
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constexpr static simd::MT allFalse = 0x0;
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Proc proc;
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SimdType lhs = proc.loadValue((IntegralType)-2);
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SimdType rhs = proc.loadValue((IntegralType)-3);
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EXPECT_GT((uint64_t)-2LL, (uint64_t)-3LL);
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EXPECT_EQ(proc.cmpGe(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGt(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpGe(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpGt(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpLe(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLt(rhs, lhs), allTrue);
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EXPECT_EQ(proc.cmpLe(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpLt(lhs, rhs), allFalse);
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EXPECT_EQ(proc.cmpEq(rhs, lhs), allFalse);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allTrue);
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lhs = proc.loadValue((IntegralType)-3);
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EXPECT_EQ(proc.cmpEq(lhs, rhs), allTrue);
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EXPECT_EQ(proc.cmpNe(rhs, lhs), allFalse);
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}
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#endif
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