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third-party-mirror / eigen / 6a5543807f8f60894a55986260942f4969cd7c29 / . / unsupported / test / special_packetmath.cpp
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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2008-2009 Gael Guennebaud <gael.guennebaud@inria.fr>
// Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
//
// This Source Code Form is subject to the terms of the Mozilla
// Public License v. 2.0. If a copy of the MPL was not distributed
// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <limits>
#include "packetmath_test_shared.h"
#include "../Eigen/SpecialFunctions"
template<typename Scalar,typename Packet> void packetmath_real()
{
using std::abs;
typedef internal::packet_traits<Scalar> PacketTraits;
const int PacketSize = internal::unpacket_traits<Packet>::size;
const int size = PacketSize*4;
EIGEN_ALIGN_MAX Scalar data1[PacketSize*4];
EIGEN_ALIGN_MAX Scalar data2[PacketSize*4];
EIGEN_ALIGN_MAX Scalar ref[PacketSize*4];
#if EIGEN_HAS_C99_MATH
{
data1[0] = std::numeric_limits<Scalar>::quiet_NaN();
test::packet_helper<internal::packet_traits<Scalar>::HasLGamma,Packet> h;
h.store(data2, internal::plgamma(h.load(data1)));
VERIFY((numext::isnan)(data2[0]));
}
if (internal::packet_traits<Scalar>::HasErf) {
data1[0] = std::numeric_limits<Scalar>::quiet_NaN();
test::packet_helper<internal::packet_traits<Scalar>::HasErf,Packet> h;
h.store(data2, internal::perf(h.load(data1)));
VERIFY((numext::isnan)(data2[0]));
}
{
data1[0] = std::numeric_limits<Scalar>::quiet_NaN();
test::packet_helper<internal::packet_traits<Scalar>::HasErfc,Packet> h;
h.store(data2, internal::perfc(h.load(data1)));
VERIFY((numext::isnan)(data2[0]));
}
{
for (int i=0; i<size; ++i) {
data1[i] = internal::random<Scalar>(Scalar(0),Scalar(1));
}
CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasNdtri, numext::ndtri, internal::pndtri);
}
#endif // EIGEN_HAS_C99_MATH
// For bessel_i*e and bessel_j*, the valid range is negative reals.
{
const int max_exponent = numext::mini(std::numeric_limits<Scalar>::max_exponent10-1, 6);
for (int i=0; i<size; ++i)
{
data1[i] = internal::random<Scalar>(Scalar(-1),Scalar(1)) * Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-max_exponent),Scalar(max_exponent))));
data2[i] = internal::random<Scalar>(Scalar(-1),Scalar(1)) * Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-max_exponent),Scalar(max_exponent))));
}
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_i0e, internal::pbessel_i0e);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_i1e, internal::pbessel_i1e);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_j0, internal::pbessel_j0);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_j1, internal::pbessel_j1);
}
// Use a smaller data range for the bessel_i* as these can become very large.
// Following #1693, we also restrict this range further to avoid inf's due to
// differences in pexp and exp.
for (int i=0; i<size; ++i) {
data1[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(9), internal::random<Scalar>(Scalar(-1),Scalar(2))));
data2[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(9), internal::random<Scalar>(Scalar(-1),Scalar(2))));
}
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_i0, internal::pbessel_i0);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_i1, internal::pbessel_i1);
// y_i, and k_i are valid for x > 0.
{
const int max_exponent = numext::mini(std::numeric_limits<Scalar>::max_exponent10-1, 5);
for (int i=0; i<size; ++i)
{
data1[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) * Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-2),Scalar(max_exponent))));
data2[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) * Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-2),Scalar(max_exponent))));
}
}
// TODO(srvasude): Re-enable this test once properly investigated why the
// scalar and vector paths differ.
// CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_y0, internal::pbessel_y0);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_y1, internal::pbessel_y1);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_k0e, internal::pbessel_k0e);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_k1e, internal::pbessel_k1e);
// Following #1693, we restrict the range for exp to avoid zeroing out too
// fast.
for (int i=0; i<size; ++i) {
data1[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(9), internal::random<Scalar>(Scalar(-1),Scalar(2))));
data2[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(9), internal::random<Scalar>(Scalar(-1),Scalar(2))));
}
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_k0, internal::pbessel_k0);
CHECK_CWISE1_IF(PacketTraits::HasBessel, numext::bessel_k1, internal::pbessel_k1);
for (int i=0; i<size; ++i) {
data1[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-1),Scalar(2))));
data2[i] = internal::random<Scalar>(Scalar(0.01),Scalar(1)) *
Scalar(std::pow(Scalar(10), internal::random<Scalar>(Scalar(-1),Scalar(2))));
}
#if EIGEN_HAS_C99_MATH && (EIGEN_COMP_CXXVER >= 11)
CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasLGamma, std::lgamma, internal::plgamma);
CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasErf, std::erf, internal::perf);
CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasErfc, std::erfc, internal::perfc);
#endif
}
namespace Eigen {
namespace test {
template<typename Scalar,typename PacketType, bool IsComplex, bool IsInteger>
struct runall {
static void run() {
packetmath_real<Scalar,PacketType>();
}
};
}
}
EIGEN_DECLARE_TEST(special_packetmath)
{
g_first_pass = true;
for(int i = 0; i < g_repeat; i++) {
CALL_SUBTEST_1( test::runner<float>::run() );
CALL_SUBTEST_2( test::runner<double>::run() );
CALL_SUBTEST_3( test::runner<Eigen::half>::run() );
CALL_SUBTEST_4( test::runner<Eigen::bfloat16>::run() );
g_first_pass = false;
}
}