/* //@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. Neither the name of the Corporation nor the names of the // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY NTESS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL NTESS OR THE // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF // LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING // NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Questions? Contact Christian R. Trott (crtrott@sandia.gov) // // ************************************************************************ //@HEADER */ #include #include #include #include #include #include #include #include <../../core/unit_test/tools/include/ToolTestingUtilities.hpp> TEST(TEST_CATEGORY, resize_realloc_no_init_dualview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::DualView bla("bla", 5, 6, 7, 8); auto success = validate_absence( [&]() { Kokkos::resize(Kokkos::WithoutInitializing, bla, 5, 6, 7, 9); EXPECT_EQ(bla.template view().label(), "bla"); Kokkos::realloc(Kokkos::WithoutInitializing, bla, 8, 8, 8, 8); EXPECT_EQ(bla.template view().label(), "bla"); Kokkos::realloc(Kokkos::view_alloc(Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.template view().label(), "bla"); }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_realloc_no_alloc_dualview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels(), Config::EnableAllocs()); Kokkos::DualView bla("bla", 8, 7, 6, 5); auto success = validate_absence( [&]() { Kokkos::resize(bla, 8, 7, 6, 5); EXPECT_EQ(bla.template view().label(), "bla"); Kokkos::realloc(Kokkos::WithoutInitializing, bla, 8, 7, 6, 5); EXPECT_EQ(bla.template view().label(), "bla"); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }, [&](AllocateDataEvent) { return MatchDiagnostic{true, {"Found alloc event"}}; }, [&](DeallocateDataEvent) { return MatchDiagnostic{true, {"Found dealloc event"}}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_exec_space_dualview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences(), Config::EnableKernels()); Kokkos::DualView bla("bla", 8, 7, 6, 5); auto success = validate_absence( [&]() { Kokkos::resize( Kokkos::view_alloc(TEST_EXECSPACE{}, Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.template view().label(), "bla"); }, [&](BeginFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, realloc_exec_space_dualview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) GTEST_SKIP() << "skipping since CudaUVMSpace requires additional fences"; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences()); using view_type = Kokkos::DualView; view_type v(Kokkos::view_alloc(TEST_EXECSPACE{}, "bla"), 8); auto success = validate_absence( [&]() { Kokkos::realloc(Kokkos::view_alloc(TEST_EXECSPACE{}), v, 8); EXPECT_EQ(v.template view().label(), "bla"); }, [&](BeginFenceEvent event) { if ((event.descriptor().find("Debug Only Check for Execution Error") != std::string::npos) || (event.descriptor().find("HostSpace fence") != std::string::npos)) return MatchDiagnostic{false}; return MatchDiagnostic{true, {"Found fence event!"}}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_realloc_no_init_dynrankview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::DynRankView bla("bla", 5, 6, 7, 8); auto success = validate_absence( [&]() { Kokkos::resize(Kokkos::WithoutInitializing, bla, 5, 6, 7, 9); EXPECT_EQ(bla.label(), "bla"); Kokkos::realloc(Kokkos::WithoutInitializing, bla, 8, 8, 8, 8); EXPECT_EQ(bla.label(), "bla"); Kokkos::realloc(Kokkos::view_alloc(Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.label(), "bla"); }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_exec_space_dynrankview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences(), Config::EnableKernels()); Kokkos::DynRankView bla("bla", 8, 7, 6, 5); auto success = validate_absence( [&]() { Kokkos::resize( Kokkos::view_alloc(TEST_EXECSPACE{}, Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.label(), "bla"); }, [&](BeginFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, realloc_exec_space_dynrankview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) GTEST_SKIP() << "skipping since CudaUVMSpace requires additional fences"; #endif // FIXME_THREADS The Threads backend fences every parallel_for #ifdef KOKKOS_ENABLE_THREADS if (std::is_same::value) GTEST_SKIP() << "skipping since the Threads backend isn't asynchronous"; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences()); using view_type = Kokkos::DynRankView; view_type outer_view, outer_view2; auto success = validate_absence( [&]() { view_type inner_view(Kokkos::view_alloc(TEST_EXECSPACE{}, "bla"), 8); // Avoid testing the destructor outer_view = inner_view; Kokkos::realloc( Kokkos::view_alloc(Kokkos::WithoutInitializing, TEST_EXECSPACE{}), inner_view, 10); EXPECT_EQ(inner_view.label(), "bla"); outer_view2 = inner_view; }, [&](BeginFenceEvent event) { if ((event.descriptor().find("Debug Only Check for Execution Error") != std::string::npos) || (event.descriptor().find("HostSpace fence") != std::string::npos)) return MatchDiagnostic{false}; return MatchDiagnostic{true, {"Found fence event!"}}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_realloc_no_init_scatterview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::Experimental::ScatterView< int*** * [1][2][3], typename TEST_EXECSPACE::array_layout, TEST_EXECSPACE> bla("bla", 4, 5, 6, 7); auto success = validate_absence( [&]() { Kokkos::resize(Kokkos::WithoutInitializing, bla, 4, 5, 6, 8); EXPECT_EQ(bla.subview().label(), "bla"); Kokkos::realloc(Kokkos::WithoutInitializing, bla, 8, 8, 8, 8); EXPECT_EQ(bla.subview().label(), "bla"); Kokkos::realloc(Kokkos::view_alloc(Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.subview().label(), "bla"); }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_realloc_no_alloc_scatterview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels(), Config::EnableAllocs()); Kokkos::Experimental::ScatterView< int*** * [1][2][3], typename TEST_EXECSPACE::array_layout, TEST_EXECSPACE> bla("bla", 7, 6, 5, 4); auto success = validate_absence( [&]() { Kokkos::resize(bla, 7, 6, 5, 4); EXPECT_EQ(bla.subview().label(), "bla"); Kokkos::realloc(Kokkos::WithoutInitializing, bla, 7, 6, 5, 4); EXPECT_EQ(bla.subview().label(), "bla"); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }, [&](AllocateDataEvent) { return MatchDiagnostic{true, {"Found alloc event"}}; }, [&](DeallocateDataEvent) { return MatchDiagnostic{true, {"Found dealloc event"}}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, resize_exec_space_scatterview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences(), Config::EnableKernels()); Kokkos::Experimental::ScatterView< int*** * [1][2][3], typename TEST_EXECSPACE::array_layout, TEST_EXECSPACE> bla("bla", 7, 6, 5, 4); auto success = validate_absence( [&]() { Kokkos::resize( Kokkos::view_alloc(TEST_EXECSPACE{}, Kokkos::WithoutInitializing), bla, 5, 6, 7, 8); EXPECT_EQ(bla.subview().label(), "bla"); }, [&](BeginFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndFenceEvent event) { if (event.descriptor().find("Kokkos::resize(View)") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }, [&](BeginParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found begin event"}}; return MatchDiagnostic{false}; }, [&](EndParallelForEvent event) { if (event.descriptor().find("initialization") != std::string::npos) return MatchDiagnostic{true, {"Found end event"}}; return MatchDiagnostic{false}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, realloc_exec_space_scatterview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) GTEST_SKIP() << "skipping since CudaUVMSpace requires additional fences"; #endif // FIXME_THREADS The Threads backend fences every parallel_for #ifdef KOKKOS_ENABLE_THREADS if (std::is_same::value) GTEST_SKIP() << "skipping since the Threads backend isn't asynchronous"; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableFences()); using view_type = Kokkos::Experimental::ScatterView< int*, typename TEST_EXECSPACE::array_layout, TEST_EXECSPACE>; view_type outer_view, outer_view2; auto success = validate_absence( [&]() { view_type inner_view(Kokkos::view_alloc(TEST_EXECSPACE{}, "bla"), 8); // Avoid testing the destructor outer_view = inner_view; Kokkos::realloc( Kokkos::view_alloc(Kokkos::WithoutInitializing, TEST_EXECSPACE{}), inner_view, 10); EXPECT_EQ(inner_view.subview().label(), "bla"); outer_view2 = inner_view; Kokkos::realloc(Kokkos::view_alloc(TEST_EXECSPACE{}), inner_view, 10); EXPECT_EQ(inner_view.subview().label(), "bla"); }, [&](BeginFenceEvent event) { if ((event.descriptor().find("Debug Only Check for Execution Error") != std::string::npos) || (event.descriptor().find("HostSpace fence") != std::string::npos)) return MatchDiagnostic{false}; return MatchDiagnostic{true, {"Found fence event!"}}; }); ASSERT_TRUE(success); listen_tool_events(Config::DisableAll()); } TEST(TEST_CATEGORY, create_mirror_no_init_dynrankview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::DynRankView device_view("device view", 10); Kokkos::DynRankView host_view("host view", 10); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror(Kokkos::WithoutInitializing, device_view); auto mirror_host = Kokkos::create_mirror(Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_no_init_dynrankview_viewctor) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::DynRankView device_view( "device view", 10); Kokkos::DynRankView host_view("host view", 10); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_view_and_copy_dynrankview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) return; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels(), Config::EnableFences()); Kokkos::DynRankView host_view("host view", 10); decltype(Kokkos::create_mirror_view_and_copy(TEST_EXECSPACE{}, host_view)) device_view; auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror_view_and_copy( Kokkos::view_alloc(TEST_EXECSPACE{}, typename TEST_EXECSPACE::memory_space{}), host_view); // Avoid fences for deallocation when mirror_device goes out of scope. device_view = mirror_device; }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found parallel_for event"}}; }, [&](BeginFenceEvent) { return MatchDiagnostic{true, {"Found fence event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_no_init_offsetview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::Experimental::OffsetView device_view( "device view", {0, 10}); Kokkos::Experimental::OffsetView host_view( "host view", {0, 10}); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror(Kokkos::WithoutInitializing, device_view); auto mirror_host = Kokkos::create_mirror(Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_no_init_offsetview_view_ctor) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::Experimental::OffsetView device_view("device view", {0, 10}); Kokkos::Experimental::OffsetView host_view( "host view", {0, 10}); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_view_and_copy_offsetview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) return; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels(), Config::EnableFences()); Kokkos::Experimental::OffsetView host_view( "host view", {0, 10}); decltype(Kokkos::create_mirror_view_and_copy(TEST_EXECSPACE{}, host_view)) device_view; auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror_view_and_copy( Kokkos::view_alloc(TEST_EXECSPACE{}, typename TEST_EXECSPACE::memory_space{}), host_view); // Avoid fences for deallocation when mirror_device goes out of scope. device_view = mirror_device; auto mirror_device_mirror = Kokkos::create_mirror_view_and_copy( Kokkos::view_alloc(TEST_EXECSPACE{}, typename TEST_EXECSPACE::memory_space{}), mirror_device); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found parallel_for event"}}; }, [&](BeginFenceEvent) { return MatchDiagnostic{true, {"Found fence event"}}; }); ASSERT_TRUE(success); } // FIXME OPENMPTARGET #ifndef KOKKOS_ENABLE_OPENMPTARGET TEST(TEST_CATEGORY, create_mirror_no_init_dynamicview) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::Experimental::DynamicView device_view( "device view", 2, 10); Kokkos::Experimental::DynamicView host_view( "host view", 2, 10); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror(Kokkos::WithoutInitializing, device_view); auto mirror_host = Kokkos::create_mirror(Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::WithoutInitializing, TEST_EXECSPACE{}, host_view); }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } TEST(TEST_CATEGORY, create_mirror_view_and_copy_dynamicview) { #ifdef KOKKOS_ENABLE_CUDA if (std::is_same::value) return; #endif using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels(), Config::EnableFences()); Kokkos::Experimental::DynamicView host_view( "host view", 2, 10); decltype(Kokkos::create_mirror_view_and_copy(TEST_EXECSPACE{}, host_view)) device_view; auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror_view_and_copy( Kokkos::view_alloc(TEST_EXECSPACE{}, typename TEST_EXECSPACE::memory_space{}), host_view); // Avoid fences for deallocation when mirror_device goes out of scope. device_view = mirror_device; auto mirror_device_mirror = Kokkos::create_mirror_view_and_copy( Kokkos::view_alloc(TEST_EXECSPACE{}, typename TEST_EXECSPACE::memory_space{}), mirror_device); }, [&](BeginFenceEvent event) { if (event.descriptor().find("DynamicView::resize_serial: Fence after " "copying chunks to the device") != std::string::npos) return MatchDiagnostic{false}; return MatchDiagnostic{true, {"Found fence event"}}; }, [&](EndFenceEvent) { return MatchDiagnostic{false}; }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found parallel_for event"}}; }); ASSERT_TRUE(success); } #endif // FIXME OPENMPTARGET #ifndef KOKKOS_ENABLE_OPENMPTARGET TEST(TEST_CATEGORY, create_mirror_no_init_dynamicview_view_ctor) { using namespace Kokkos::Test::Tools; listen_tool_events(Config::DisableAll(), Config::EnableKernels()); Kokkos::Experimental::DynamicView device_view("device view", 2, 10); Kokkos::Experimental::DynamicView host_view( "host view", 2, 10); auto success = validate_absence( [&]() { auto mirror_device = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host = Kokkos::create_mirror( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); auto mirror_device_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing), device_view); auto mirror_host_view = Kokkos::create_mirror_view( Kokkos::view_alloc(Kokkos::WithoutInitializing, Kokkos::DefaultExecutionSpace{}), host_view); }, [&](BeginFenceEvent event) { if (event.descriptor().find("DynamicView::resize_serial: Fence after " "copying chunks to the device") != std::string::npos) return MatchDiagnostic{false}; return MatchDiagnostic{true, {"Found fence event"}}; }, [&](EndFenceEvent) { return MatchDiagnostic{false}; }, [&](BeginParallelForEvent) { return MatchDiagnostic{true, {"Found begin event"}}; }, [&](EndParallelForEvent) { return MatchDiagnostic{true, {"Found end event"}}; }); ASSERT_TRUE(success); } #endif