//@HEADER // ************************************************************************ // // Kokkos v. 4.0 // Copyright (2022) 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. // // Part of Kokkos, under the Apache License v2.0 with LLVM Exceptions. // See https://kokkos.org/LICENSE for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //@HEADER #include #include namespace Test { namespace stdalgos { namespace UniqueCopy { namespace KE = Kokkos::Experimental; // impl is here for std because it is only avail from c++>=17 template auto my_unique_copy(InputIterator first, InputIterator last, OutputIterator result, BinaryPredicate pred) { if (first != last) { typename OutputIterator::value_type t(*first); *result = t; ++result; while (++first != last) { if (!pred(t, *first)) { t = *first; *result = t; ++result; } } } return result; } template auto my_unique_copy(InputIterator first, InputIterator last, OutputIterator result) { using value_type = typename OutputIterator::value_type; using func_t = IsEqualFunctor; return my_unique_copy(first, last, result, func_t()); } template struct UnifDist; template <> struct UnifDist { using dist_type = std::uniform_int_distribution; std::mt19937 m_gen; dist_type m_dist; UnifDist() : m_dist(2, 7) { m_gen.seed(1034343); } int operator()() { return m_dist(m_gen); } }; template std::size_t fill_view(ViewType dest_view, const std::string& name) { using value_type = typename ViewType::value_type; using exe_space = typename ViewType::execution_space; const std::size_t ext = dest_view.extent(0); using aux_view_t = Kokkos::View; aux_view_t aux_view("aux_view", ext); auto v_h = create_mirror_view(Kokkos::HostSpace(), aux_view); std::size_t count = 0; if (name == "empty") { // no op } else if (name == "one-element-a") { v_h(0) = static_cast(1); count = 1; } else if (name == "one-element-b") { v_h(0) = static_cast(2); count = 1; } else if (name == "two-elements-a") { v_h(0) = static_cast(1); v_h(1) = static_cast(2); count = 2; } else if (name == "two-elements-b") { v_h(0) = static_cast(2); v_h(1) = static_cast(-1); count = 2; } else if (name == "small-a") { v_h(0) = static_cast(0); v_h(1) = static_cast(1); v_h(2) = static_cast(1); v_h(3) = static_cast(2); v_h(4) = static_cast(3); v_h(5) = static_cast(4); v_h(6) = static_cast(4); v_h(7) = static_cast(4); v_h(8) = static_cast(5); v_h(9) = static_cast(6); v_h(10) = static_cast(6); count = 7; } else if (name == "small-b") { v_h(0) = static_cast(1); v_h(1) = static_cast(1); v_h(2) = static_cast(1); v_h(3) = static_cast(2); v_h(4) = static_cast(3); v_h(5) = static_cast(4); v_h(6) = static_cast(4); v_h(7) = static_cast(4); v_h(8) = static_cast(5); v_h(9) = static_cast(6); v_h(10) = static_cast(8); v_h(11) = static_cast(9); v_h(12) = static_cast(8); count = 9; } else if (name == "medium" || name == "large") { UnifDist randObj; for (std::size_t i = 0; i < ext; ++i) { v_h(i) = randObj(); } std::vector tmp(v_h.extent(0)); std::fill(tmp.begin(), tmp.end(), static_cast(0)); using func_t = IsEqualFunctor; auto std_r = my_unique_copy(KE::cbegin(v_h), KE::cend(v_h), tmp.begin(), func_t()); count = (std::size_t)(std_r - tmp.begin()); } else { throw std::runtime_error("invalid choice"); } Kokkos::deep_copy(aux_view, v_h); CopyFunctor F1(aux_view, dest_view); Kokkos::parallel_for("copy", dest_view.extent(0), F1); return count; } template void verify_data(const std::string& name, ViewTypeFrom view_from, ViewTypeTest view_test, Args... args) { using value_type = typename ViewTypeTest::value_type; //! always careful because views might not be deep copyable auto view_test_dc = create_deep_copyable_compatible_clone(view_test); auto view_test_h = create_mirror_view_and_copy(Kokkos::HostSpace(), view_test_dc); auto view_from_dc = create_deep_copyable_compatible_clone(view_from); auto view_from_h = create_mirror_view_and_copy(Kokkos::HostSpace(), view_from_dc); if (name == "empty") { // no op } else if (name == "one-element-a") { ASSERT_EQ(view_test_h(0), static_cast(1)); } else if (name == "one-element-b") { ASSERT_EQ(view_test_h(0), static_cast(2)); } else if (name == "two-elements-a") { ASSERT_EQ(view_test_h(0), static_cast(1)); ASSERT_EQ(view_test_h(1), static_cast(2)); } else if (name == "two-elements-b") { ASSERT_EQ(view_test_h(0), static_cast(2)); ASSERT_EQ(view_test_h(1), static_cast(-1)); } else if (name == "small-a") { ASSERT_EQ(view_test_h(0), static_cast(0)); ASSERT_EQ(view_test_h(1), static_cast(1)); ASSERT_EQ(view_test_h(2), static_cast(2)); ASSERT_EQ(view_test_h(3), static_cast(3)); ASSERT_EQ(view_test_h(4), static_cast(4)); ASSERT_EQ(view_test_h(5), static_cast(5)); ASSERT_EQ(view_test_h(6), static_cast(6)); ASSERT_EQ(view_test_h(7), static_cast(0)); ASSERT_EQ(view_test_h(8), static_cast(0)); ASSERT_EQ(view_test_h(9), static_cast(0)); ASSERT_EQ(view_test_h(10), static_cast(0)); } else if (name == "small-b") { ASSERT_EQ(view_test_h(0), static_cast(1)); ASSERT_EQ(view_test_h(1), static_cast(2)); ASSERT_EQ(view_test_h(2), static_cast(3)); ASSERT_EQ(view_test_h(3), static_cast(4)); ASSERT_EQ(view_test_h(4), static_cast(5)); ASSERT_EQ(view_test_h(5), static_cast(6)); ASSERT_EQ(view_test_h(6), static_cast(8)); ASSERT_EQ(view_test_h(7), static_cast(9)); ASSERT_EQ(view_test_h(8), static_cast(8)); ASSERT_EQ(view_test_h(9), static_cast(0)); ASSERT_EQ(view_test_h(10), static_cast(0)); ASSERT_EQ(view_test_h(11), static_cast(0)); ASSERT_EQ(view_test_h(12), static_cast(0)); } else if (name == "medium" || name == "large") { std::vector tmp(view_test_h.extent(0)); std::fill(tmp.begin(), tmp.end(), static_cast(0)); auto std_r = my_unique_copy(KE::cbegin(view_from_h), KE::cend(view_from_h), tmp.begin(), args...); (void)std_r; for (std::size_t i = 0; i < view_from_h.extent(0); ++i) { ASSERT_EQ(view_test_h(i), tmp[i]); } } else { throw std::runtime_error("invalid choice"); } } std::string value_type_to_string(int) { return "int"; } std::string value_type_to_string(double) { return "double"; } template void print_scenario_details(const std::string& name) { std::cout << "unique_copy: default predicate: " << name << ", " << view_tag_to_string(Tag{}) << " " << value_type_to_string(ValueType()) << '\n'; } template void print_scenario_details(const std::string& name, Predicate pred) { (void)pred; std::cout << "unique_copy: custom predicate: " << name << ", " << view_tag_to_string(Tag{}) << " " << value_type_to_string(ValueType()) << '\n'; } template void run_single_scenario(const InfoType& scenario_info, Args... args) { const auto name = std::get<0>(scenario_info); const std::size_t view_ext = std::get<1>(scenario_info); // print_scenario_details(name, args...); auto view_from = create_view(Tag{}, view_ext, "unique_copy_from"); auto n = fill_view(view_from, name); { auto view_dest = create_view(Tag{}, view_ext, "unique_copy_dest"); auto rit = KE::unique_copy(exespace(), KE::cbegin(view_from), KE::cend(view_from), KE::begin(view_dest), args...); verify_data(name, view_from, view_dest, args...); ASSERT_EQ(rit, (KE::begin(view_dest) + n)); } { auto view_dest = create_view(Tag{}, view_ext, "unique_copy_dest"); auto rit = KE::unique_copy("label", exespace(), KE::cbegin(view_from), KE::cend(view_from), KE::begin(view_dest), args...); verify_data(name, view_from, view_dest, args...); ASSERT_EQ(rit, (KE::begin(view_dest) + n)); } { auto view_dest = create_view(Tag{}, view_ext, "unique_copy_dest"); auto rit = KE::unique_copy(exespace(), view_from, view_dest, args...); verify_data(name, view_from, view_dest, args...); ASSERT_EQ(rit, (KE::begin(view_dest) + n)); } { auto view_dest = create_view(Tag{}, view_ext, "unique_copy_dest"); auto rit = KE::unique_copy("label", exespace(), view_from, view_dest, args...); verify_data(name, view_from, view_dest, args...); ASSERT_EQ(rit, (KE::begin(view_dest) + n)); } Kokkos::fence(); } template void run_all_scenarios() { const std::map scenarios = { {"empty", 0}, {"one-element-a", 1}, {"one-element-b", 1}, {"two-elements-a", 2}, {"two-elements-b", 2}, {"small-a", 11}, {"small-b", 13}, {"medium", 21103}, {"large", 101513}}; for (const auto& it : scenarios) { run_single_scenario(it); using func_t = IsEqualFunctor; run_single_scenario(it, func_t()); } } TEST(std_algorithms_mod_seq_ops, unique_copy) { run_all_scenarios(); run_all_scenarios(); } } // namespace UniqueCopy } // namespace stdalgos } // namespace Test