[alexxy/gromacs.git] / src / gromacs / simd / tests / simd4.h

/*
 * This file is part of the GROMACS molecular simulation package.
 *
 * Copyright (c) 2014,2015,2017, by the GROMACS development team, led by
 * Mark Abraham, David van der Spoel, Berk Hess, and Erik Lindahl,
 * and including many others, as listed in the AUTHORS file in the
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#ifndef GMX_SIMD_TESTS_SIMD4_H
#define GMX_SIMD_TESTS_SIMD4_H

/*! \internal \file
 * \brief
 * Declares fixture for testing of SIMD4 functionality.
 *
 * This files specializes the common base test utilities to be used
 * for SIMD4 variables. For detailed documentation, check out the normal
 * SIMD test classes and files.
 *
 * \author Erik Lindahl <erik.lindahl@scilifelab.se>
 * \ingroup module_simd
 */

#include <vector>

#include <gtest/gtest.h>

#include "gromacs/simd/simd.h"

#include "base.h"
#include "data.h"

#if GMX_SIMD

namespace gmx
{
namespace test
{

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

#if GMX_SIMD4_HAVE_REAL
extern const Simd4Real rSimd4_c0c1c2;    //!< c0,c1,c2 repeated
extern const Simd4Real rSimd4_c3c4c5;    //!< c3,c4,c5 repeated
extern const Simd4Real rSimd4_c6c7c8;    //!< c6,c7,c8 repeated
extern const Simd4Real rSimd4_c3c0c4;    //!< c3,c0,c4 repeated
extern const Simd4Real rSimd4_c4c6c8;    //!< c4,c6,c8 repeated
extern const Simd4Real rSimd4_c7c2c3;    //!< c7,c2,c3 repeated
extern const Simd4Real rSimd4_m0m1m2;    //!< -c0,-c1,-c2 repeated
extern const Simd4Real rSimd4_m3m0m4;    //!< -c3,-c0,-c4 repeated
extern const Simd4Real rSimd4_2p25;      //!< Value that rounds down.
extern const Simd4Real rSimd4_3p75;      //!< Value that rounds up.
extern const Simd4Real rSimd4_m2p25;     //!< Negative value that rounds up.
extern const Simd4Real rSimd4_m3p75;     //!< Negative value that rounds down.
//! Three large floating-point values whose exponents are >32.
extern const Simd4Real rSimd4_Exp;

#if GMX_SIMD_HAVE_LOGICAL
extern const Simd4Real rSimd4_logicalA;         //!< Bit pattern to test logical ops
extern const Simd4Real rSimd4_logicalB;         //!< Bit pattern to test logical ops
extern const Simd4Real rSimd4_logicalResultOr;  //!< Result or bitwise 'or' of A and B
extern const Simd4Real rSimd4_logicalResultAnd; //!< Result or bitwise 'and' of A and B
#endif                                          // GMX_SIMD_HAVE_LOGICAL

extern const Simd4Real rSimd4_Bits1;            //!< Pattern F0 repeated to fill single/double.
extern const Simd4Real rSimd4_Bits2;            //!< Pattern CC repeated to fill single/double.
extern const Simd4Real rSimd4_Bits3;            //!< Pattern C0 repeated to fill single/double.
extern const Simd4Real rSimd4_Bits4;            //!< Pattern 0C repeated to fill single/double.
extern const Simd4Real rSimd4_Bits5;            //!< Pattern FC repeated to fill single/double.
extern const Simd4Real rSimd4_Bits6;            //!< Pattern 3C repeated to fill single/double.

/*! \internal
 * \brief
 * Test fixture for SIMD4 tests - contains test settings.
 *
 * This is a very simple test fixture that basically just takes the common
 * SIMD/SIMD4 functionality from SimdBaseTest and creates wrapper routines
 * specific for SIMD4 functionality.
 */
class Simd4Test : public SimdBaseTest
{
    public:
        /*! \brief Compare two real SIMD4 variables for approximate equality.
         *
         * This is an internal implementation routine. YOu should always use
         * GMX_EXPECT_SIMD4_REAL_NEAR() instead.
         *
         * This routine is designed according to the Google test specs, so the char
         * strings will describe the arguments to the macro.
         *
         * The comparison is applied to each element, and it returns true if each element
         * in the SIMD4 test variable is within the class tolerances of the corresponding
         * reference element.
         */
        ::testing::AssertionResult
        compareSimd4RealUlp(const char * refExpr, const char * tstExpr,
                            const Simd4Real ref, const Simd4Real tst);

        /*! \brief Compare two real SIMD4 variables for exact equality.
         *
         * This is an internal implementation routine. YOu should always use
         * GMX_EXPECT_SIMD4_REAL_NEAR() instead.
         *
         * This routine is designed according to the Google test specs, so the char
         * strings will describe the arguments to the macro.
         *
         * The comparison is applied to each element, and it returns true if each element
         * in the SIMD4 test variable is within the class tolerances of the corresponding
         * reference element.
         */
        ::testing::AssertionResult
        compareSimd4RealEq(const char * refExpr, const char * tstExpr,
                           const Simd4Real ref, const Simd4Real tst);
};

/*! \brief Convert SIMD4 real to std::vector<real>.
 *
 * The returned vector will have the same length as the SIMD4 width.
 */
std::vector<real> simd4Real2Vector(const Simd4Real simd4);

/*! \brief Return floating-point SIMD4 value from std::vector<real>.
 *
 * If the vector is longer than SIMD4 width, only the first elements will be used.
 * If it is shorter, the contents will be repeated to fill the SIMD4 register.
 */
Simd4Real   vector2Simd4Real(const std::vector<real> &v);

/*! \brief Set SIMD4 register contents from three real values.
 *
 * It might seem stupid to use three values when we know that the SIMD4 width
 * is 4, but it simplifies the test organization when the SIMD and SIMD4 tests
 * are completely symmetric.
 */
Simd4Real   setSimd4RealFrom3R(real r0, real r1, real r2);

/*! \brief Set SIMD4 register contents from single real value.
 *
 * All elements is set from the given value. This is effectively the same
 * operation as simd4Set1(), but is implemented using only load/store
 * operations that have been tested separately in the bootstrapping tests.
 */
Simd4Real   setSimd4RealFrom1R(real value);

/*! \brief Test if a SIMD4 real is bitwise identical to reference SIMD4 value. */
#define GMX_EXPECT_SIMD4_REAL_EQ(ref, tst)   EXPECT_PRED_FORMAT2(compareSimd4RealEq, ref, tst)

/*! \brief Test if a SIMD4 real is within tolerance of reference SIMD4 value. */
#define GMX_EXPECT_SIMD4_REAL_NEAR(ref, tst) EXPECT_PRED_FORMAT2(compareSimd4RealUlp, ref, tst)

#endif  // GMX_SIMD4_HAVE_REAL

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

}      // namespace
}      // namespace

#endif // GMX_SIMD

#endif // GMX_SIMD_TESTS_SIMD4_H