/* ************************************************************************ * Copyright (c) 2020-2021 Advanced Micro Devices, Inc. * * ************************************************************************ */ #include "testing_managed_malloc.hpp" using ::testing::Combine; using ::testing::TestWithParam; using ::testing::Values; using ::testing::ValuesIn; using namespace std; typedef std::tuple, vector> managed_malloc_tuple; // each matrix_size_range is a {m, lda, ldx} // each n_size_range is a {n, ldy, nb} // for checkin_lapack tests const vector> matrix_size_range = { // normal (valid) samples {50, 50, 50}, {70, 100, 70}}; const vector> n_size_range = { // normal (valid) samples {16, 16, 10}, {20, 30, 10}}; // for daily_lapack tests const vector> large_matrix_size_range = { {130, 130, 150}, }; const vector> large_n_size_range = {{64, 64, 60}}; Arguments managed_malloc_setup_arguments(managed_malloc_tuple tup) { vector matrix_size = std::get<0>(tup); vector n_size = std::get<1>(tup); Arguments arg; arg.set("m", matrix_size[0]); arg.set("lda", matrix_size[1]); arg.set("ldx", matrix_size[2]); arg.set("n", n_size[0]); arg.set("ldy", n_size[1]); arg.set("k", n_size[2]); arg.timing = 0; return arg; } class MANAGED_MALLOC : public ::TestWithParam { protected: MANAGED_MALLOC() {} virtual void SetUp() {} virtual void TearDown() {} template void run_tests() { Arguments arg = managed_malloc_setup_arguments(GetParam()); testing_managed_malloc(arg); } }; // non-batch tests TEST_P(MANAGED_MALLOC, __float) { run_tests(); } TEST_P(MANAGED_MALLOC, __double) { run_tests(); } TEST_P(MANAGED_MALLOC, __float_complex) { run_tests(); } TEST_P(MANAGED_MALLOC, __double_complex) { run_tests(); } INSTANTIATE_TEST_SUITE_P(daily_lapack, MANAGED_MALLOC, Combine(ValuesIn(large_matrix_size_range), ValuesIn(large_n_size_range))); INSTANTIATE_TEST_SUITE_P(checkin_lapack, MANAGED_MALLOC, Combine(ValuesIn(matrix_size_range), ValuesIn(n_size_range)));