/* //@HEADER // ************************************************************************ // // Kokkos v. 3.0 // Copyright (2020) National Technology & Engineering // Solutions of Sandia, LLC (NTESS). // // Under the terms of Contract DE-NA0003525 with NTESS, // the U.S. Government retains certain rights in this software. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // 1. Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // 3. 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Trott (crtrott@sandia.gov) // // ************************************************************************ //@HEADER */ #include #include #include namespace Test { namespace stdalgos { namespace Find { namespace KE = Kokkos::Experimental; template void test_find(const ViewType view) { using value_t = typename ViewType::value_type; using view_host_space_t = Kokkos::View; view_host_space_t expected("count_expected", view.extent(0)); compare_views(expected, view); constexpr value_t find_value = 13; // value not found, return last EXPECT_EQ(KE::end(expected), std::find(KE::begin(expected), KE::end(expected), find_value)); // pass const iterators, returns const iterator EXPECT_EQ(KE::cend(view), KE::find(exespace(), KE::cbegin(view), KE::cend(view), find_value)); // pass view, returns iterator EXPECT_EQ(KE::end(view), KE::find(exespace(), view, find_value)); fill_views_inc(view, expected); auto std_result = std::find(KE::begin(expected), KE::end(expected), find_value); auto distance = std::distance(KE::begin(expected), std_result); // pass iterators, returns iterator EXPECT_EQ(KE::begin(view) + distance, KE::find(exespace(), KE::begin(view), KE::end(view), find_value)); // pass view, returns iterator EXPECT_EQ(KE::begin(view) + distance, KE::find(exespace(), view, find_value)); } template void test_find_if(const ViewType view) { using value_t = typename ViewType::value_type; using view_host_space_t = Kokkos::View; view_host_space_t expected("count_expected", view.extent(0)); compare_views(expected, view); const auto not_equals_zero = NotEqualsZeroFunctor(); // value not found, return last EXPECT_EQ( KE::end(expected), std::find_if(KE::begin(expected), KE::end(expected), not_equals_zero)); // pass iterators, returns iterator EXPECT_EQ(KE::end(view), KE::find_if(exespace(), KE::begin(view), KE::end(view), not_equals_zero)); // pass view, returns iterator EXPECT_EQ(KE::end(view), KE::find_if(exespace(), view, not_equals_zero)); fill_views_inc(view, expected); constexpr value_t find_value = 13; const auto equals_val = EqualsValFunctor(find_value); auto std_result = std::find_if(KE::begin(expected), KE::end(expected), equals_val); auto distance = std::distance(KE::begin(expected), std_result); // pass const iterators, returns const iterator EXPECT_EQ( KE::cbegin(view) + distance, KE::find_if(exespace(), KE::cbegin(view), KE::cend(view), equals_val)); // pass view, returns iterator EXPECT_EQ(KE::begin(view) + distance, KE::find_if(exespace(), view, equals_val)); } template void test_find_if_not(const ViewType view) { using value_t = typename ViewType::value_type; using view_host_space_t = Kokkos::View; view_host_space_t expected("count_expected", view.extent(0)); compare_views(expected, view); const auto not_equals_zero = NotEqualsZeroFunctor(); // first value matches EXPECT_EQ(KE::begin(expected), std::find_if_not(KE::begin(expected), KE::end(expected), not_equals_zero)); // pass iterators, returns iterator EXPECT_EQ(KE::begin(view), KE::find_if_not(exespace(), KE::begin(view), KE::end(view), not_equals_zero)); // pass view, returns iterator EXPECT_EQ(KE::begin(view), KE::find_if_not(exespace(), view, not_equals_zero)); fill_views_inc(view, expected); const auto equals_zero = EqualsValFunctor(0); auto std_result = std::find_if_not(KE::begin(expected), KE::end(expected), equals_zero); auto distance = std::distance(KE::begin(expected), std_result); // pass const iterators, returns const iterator EXPECT_EQ(KE::cbegin(view) + distance, KE::find_if_not(exespace(), KE::cbegin(view), KE::cend(view), equals_zero)); // pass view, returns const iterator EXPECT_EQ(KE::begin(view) + distance, KE::find_if_not(exespace(), view, equals_zero)); } template void run_all_scenarios() { for (const auto& scenario : default_scenarios) { { auto view = create_view(Tag{}, scenario.second, "find"); test_find(view); } { auto view = create_view(Tag{}, scenario.second, "find_if"); test_find_if(view); } { auto view = create_view(Tag{}, scenario.second, "find_if_not"); test_find_if_not(view); } } } TEST(std_algorithms_find_test, test) { run_all_scenarios(); run_all_scenarios(); run_all_scenarios(); } } // namespace Find } // namespace stdalgos } // namespace Test