/* ************************************************************************ * Copyright 2020-2021 Advanced Micro Devices, Inc. * * ************************************************************************ */ #include "testing_sygvd_hegvd.hpp" using ::testing::Combine; using ::testing::TestWithParam; using ::testing::Values; using ::testing::ValuesIn; using namespace std; typedef std::tuple, vector> sygvd_tuple; // each matrix_size_range is a {n, lda, ldb} // each type_range is a {itype, jobz, uplo} // case when n = -1, itype = 1, jobz = 'N', and uplo = U will also execute the bad arguments test // (null handle, null pointers and invalid values) const vector> type_range = {{'1', 'N', 'U'}, {'2', 'N', 'L'}, {'3', 'N', 'U'}, {'1', 'V', 'L'}, {'2', 'V', 'U'}, {'3', 'V', 'L'}}; // for checkin_lapack tests const vector> matrix_size_range = { // invalid {-1, 1, 1}, {20, 5, 5}, // normal (valid) samples {20, 30, 20}, {35, 35, 35}, {50, 50, 60}}; // // for daily_lapack tests // const vector> large_matrix_size_range = { // {192, 192, 192}, // {256, 270, 256}, // {300, 300, 310}, // }; Arguments sygvd_setup_arguments(sygvd_tuple tup) { vector matrix_size = std::get<0>(tup); vector type = std::get<1>(tup); Arguments arg; arg.set("n", matrix_size[0]); arg.set("lda", matrix_size[1]); arg.set("ldb", matrix_size[2]); arg.set("itype", type[0]); arg.set("jobz", type[1]); arg.set("uplo", type[2]); // only testing standard use case/defaults for strides arg.timing = 0; return arg; } template class SYGVD_HEGVD : public ::TestWithParam { protected: SYGVD_HEGVD() {} virtual void SetUp() {} virtual void TearDown() {} template void run_tests() { Arguments arg = sygvd_setup_arguments(GetParam()); if(arg.peek("itype") == '1' && arg.peek("jobz") == 'N' && arg.peek("uplo") == 'U' && arg.peek("n") == -1) testing_sygvd_hegvd_bad_arg(); arg.batch_count = 1; testing_sygvd_hegvd(arg); } }; class SYGVD : public SYGVD_HEGVD { }; class HEGVD : public SYGVD_HEGVD { }; class SYGVD_FORTRAN : public SYGVD_HEGVD { }; class HEGVD_FORTRAN : public SYGVD_HEGVD { }; // non-batch tests TEST_P(SYGVD, __float) { run_tests(); } TEST_P(SYGVD, __double) { run_tests(); } TEST_P(HEGVD, __float_complex) { run_tests(); } TEST_P(HEGVD, __double_complex) { run_tests(); } TEST_P(SYGVD_FORTRAN, __float) { run_tests(); } TEST_P(SYGVD_FORTRAN, __double) { run_tests(); } TEST_P(HEGVD_FORTRAN, __float_complex) { run_tests(); } TEST_P(HEGVD_FORTRAN, __double_complex) { run_tests(); } // INSTANTIATE_TEST_SUITE_P(daily_lapack, // SYGVD, // Combine(ValuesIn(large_matrix_size_range), ValuesIn(type_range))); INSTANTIATE_TEST_SUITE_P(checkin_lapack, SYGVD, Combine(ValuesIn(matrix_size_range), ValuesIn(type_range))); // INSTANTIATE_TEST_SUITE_P(daily_lapack, // HEGVD, // Combine(ValuesIn(large_matrix_size_range), ValuesIn(type_range))); INSTANTIATE_TEST_SUITE_P(checkin_lapack, HEGVD, Combine(ValuesIn(matrix_size_range), ValuesIn(type_range))); // INSTANTIATE_TEST_SUITE_P(daily_lapack, // SYGVD_FORTRAN, // Combine(ValuesIn(large_matrix_size_range), ValuesIn(type_range))); INSTANTIATE_TEST_SUITE_P(checkin_lapack, SYGVD_FORTRAN, Combine(ValuesIn(matrix_size_range), ValuesIn(type_range))); // INSTANTIATE_TEST_SUITE_P(daily_lapack, // HEGVD_FORTRAN, // Combine(ValuesIn(large_matrix_size_range), ValuesIn(type_range))); INSTANTIATE_TEST_SUITE_P(checkin_lapack, HEGVD_FORTRAN, Combine(ValuesIn(matrix_size_range), ValuesIn(type_range)));