Improve accuracy of SIMD exp for small args

[gromacs.git] / src / gromacs / simd / tests / scalar.cpp

/*
 * This file is part of the GROMACS molecular simulation package.
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 * Copyright (c) 2014,2015,2016,2017, by the GROMACS development team, led by
 * Mark Abraham, David van der Spoel, Berk Hess, and Erik Lindahl,
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#include "gmxpre.h"

#include <cmath>

#include <gtest/gtest.h>

#include "gromacs/simd/simd.h"
#include "gromacs/utility/basedefinitions.h"
#include "gromacs/utility/real.h"

#include "data.h"

namespace gmx
{
namespace test
{

namespace
{

/*! \cond internal */
/*! \addtogroup module_simd */
/*! \{ */

/************************
 * Floating-point tests *
 ************************/

TEST(SimdScalarTest, load)
{
    real val = load(&c1);

    EXPECT_EQ(c1, val);
}

TEST(SimdScalarTest, loadU)
{
    real val = loadU(&c1);

    EXPECT_EQ(c1, val);
}

TEST(SimdScalarTest, store)
{
    real val;

    store(&val, c1);

    EXPECT_EQ(c1, val);
}

TEST(SimdScalarTest, storeU)
{
    real val;

    store(&val, c1);

    EXPECT_EQ(c1, val);
}

TEST(SimdScalarTest, setZero)
{
    real val = setZero();

    EXPECT_EQ(0, val);
}

TEST(SimdScalarTest, andNot)
{
    real signBit = GMX_REAL_NEGZERO;

    EXPECT_EQ(c1, andNot(signBit, -c1));
    EXPECT_EQ(c2, andNot(signBit, c2));
}

TEST(SimdScalarTest, fma)
{
    EXPECT_EQ(c1*c2+c3, fma(real(c1), real(c2), real(c3)));
}

TEST(SimdScalarTest, fms)
{
    EXPECT_EQ(c1*c2-c3, fms(c1, c2, c3));
}

TEST(SimdScalarTest, fnma)
{
    EXPECT_EQ(-c1*c2+c3, fnma(c1, c2, c3));
}

TEST(SimdScalarTest, fnms)
{
    EXPECT_EQ(-c1*c2-c3, fnms(c1, c2, c3));
}

TEST(SimdScalarTest, maskAdd)
{
    EXPECT_EQ(c1, maskAdd(c1, c2, false));
    EXPECT_EQ(c1+c2, maskAdd(c1, c2, true));
}

TEST(SimdScalarTest, maskzMul)
{
    EXPECT_EQ(czero, maskzMul(c1, c2, false));
    EXPECT_EQ(c1*c2, maskzMul(c1, c2, true));
}

TEST(SimdScalarTest, maskzFma)
{
    EXPECT_EQ(czero, maskzFma(c1, c2, c3, false));
    EXPECT_EQ(c1*c2+c3, maskzFma(c1, c2, c3, true));
}

TEST(SimdScalarTest, abs)
{
    EXPECT_EQ(c1, abs(-c1));
}

TEST(SimdScalarTest, max)
{
    EXPECT_EQ(c3, max(c1, c3));
}

TEST(SimdScalarTest, min)
{
    EXPECT_EQ(c1, min(c1, c3));
}

TEST(SimdScalarTest, round)
{
    EXPECT_EQ(real(2), round(real(2.25)));
    EXPECT_EQ(real(4), round(real(3.75)));
    EXPECT_EQ(real(-2), round(real(-2.25)));
    EXPECT_EQ(real(-4), round(real(-3.75)));
}

TEST(SimdScalarTest, trunc)
{
    EXPECT_EQ(real(2), trunc(real(2.25)));
    EXPECT_EQ(real(3), trunc(real(3.75)));
    EXPECT_EQ(real(-2), trunc(real(-2.25)));
    EXPECT_EQ(real(-3), trunc(real(-3.75)));
}

TEST(SimdScalarTest, reduce)
{
    EXPECT_EQ(c1, reduce(c1));
}

TEST(SimdScalarTest, testBits)
{
    EXPECT_TRUE(testBits(c1));
    EXPECT_TRUE(testBits(GMX_REAL_NEGZERO));
    EXPECT_FALSE(testBits(czero));
}

TEST(SimdScalarTest, anyTrue)
{
    EXPECT_TRUE(anyTrue(true));
    EXPECT_FALSE(anyTrue(false));
}

TEST(SimdScalarTest, selectByMask)
{
    EXPECT_EQ(c1, selectByMask(c1, true));
    EXPECT_EQ(czero, selectByMask(c1, false));
}

TEST(SimdScalarTest, selectByNotMask)
{
    EXPECT_EQ(czero, selectByNotMask(c1, true));
    EXPECT_EQ(c1, selectByNotMask(c1, false));
}

TEST(SimdScalarTest, blend)
{
    EXPECT_EQ(c2, blend(c1, c2, true));
    EXPECT_EQ(c1, blend(c1, c2, false));
}

TEST(SimdScalarTest, cvtR2I)
{
    EXPECT_EQ(std::int32_t(4), cvtR2I(3.75));
    EXPECT_EQ(std::int32_t(-4), cvtR2I(-3.75));
}

TEST(SimdScalarTest, cvttR2I)
{
    EXPECT_EQ(std::int32_t(3), cvttR2I(3.75));
    EXPECT_EQ(std::int32_t(-3), cvttR2I(-3.75));
}

TEST(SimdScalarTest, cvtI2R)
{
    EXPECT_EQ(real(2.0), cvtI2R(2));
    EXPECT_EQ(real(-2.0), cvtI2R(-2));
}

TEST(SimdScalarTest, cvtF2D)
{
    float f = 1.23456789;

    EXPECT_EQ(double(f), cvtF2D(f));
}

TEST(SimdScalarTest, cvtD2D)
{
    double d = 1.23456789;

    EXPECT_EQ(float(d), cvtD2F(d));
}


/*****************
 * Integer tests *
 *****************/


TEST(SimdScalarTest, loadI)
{
    std::int32_t ref = 42;
    std::int32_t val = load(&ref);

    EXPECT_EQ(ref, val);
}

TEST(SimdScalarTest, loadUI)
{
    std::int32_t ref = 42;
    std::int32_t val = load(&ref);

    EXPECT_EQ(ref, val);
}

TEST(SimdScalarTest, storeI)
{
    std::int32_t ref = 42;
    std::int32_t val;

    storeU(&val, ref);

    EXPECT_EQ(ref, val);
}

TEST(SimdScalarTest, storeUI)
{
    std::int32_t ref = 42;
    std::int32_t val;

    storeU(&val, ref);

    EXPECT_EQ(ref, val);
}

TEST(SimdScalarTest, andNotI)
{
    EXPECT_EQ(std::int32_t(0x0C0C0C0C),
              andNot(std::int32_t(0xF0F0F0F0), std::int32_t(0xCCCCCCCC)));
}

TEST(SimdScalarTest, testBitsI)
{
    EXPECT_TRUE(testBits(1));
    EXPECT_FALSE(testBits(0));
}

TEST(SimdScalarTest, selectByMaskI)
{
    EXPECT_EQ(5, selectByMask(5, true));
    EXPECT_EQ(0, selectByMask(5, false));
}

TEST(SimdScalarTest, selectByNotMaskI)
{
    EXPECT_EQ(0, selectByNotMask(5, true));
    EXPECT_EQ(5, selectByNotMask(5, false));
}

TEST(SimdScalarTest, blendI)
{
    EXPECT_EQ(5, blend(3, 5, true));
    EXPECT_EQ(3, blend(3, 5, false));
}

TEST(SimdScalarTest, cvtB2IB)
{
    EXPECT_TRUE(cvtB2IB(true));
    EXPECT_FALSE(cvtB2IB(false));
}

TEST(SimdScalarTest, cvtIB2B)
{
    EXPECT_TRUE(cvtIB2B(true));
    EXPECT_FALSE(cvtIB2B(false));
}

/*! \} */
/*! \endcond internal */

}      // namespace anonymous
}      // namespace test
}      // namespace gmx