/* //@HEADER // ************************************************************************ // // Kokkos v. 2.0 // Copyright (2014) Sandia Corporation // // Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, // 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 SANDIA CORPORATION "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 SANDIA CORPORATION 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 /*--------------------------------------------------------------------------*/ namespace Test { namespace TestStaticCrsGraph { template< class Space > void run_test_graph() { typedef Kokkos::StaticCrsGraph< unsigned , Space > dView ; typedef typename dView::HostMirror hView ; const unsigned LENGTH = 1000 ; dView dx ; hView hx ; std::vector< std::vector< int > > graph( LENGTH ); for ( size_t i = 0 ; i < LENGTH ; ++i ) { graph[i].reserve(8); for ( size_t j = 0 ; j < 8 ; ++j ) { graph[i].push_back( i + j * 3 ); } } dx = Kokkos::create_staticcrsgraph( "dx" , graph ); hx = Kokkos::create_mirror( dx ); ASSERT_EQ( hx.row_map.extent(0) - 1 , LENGTH ); for ( size_t i = 0 ; i < LENGTH ; ++i ) { const size_t begin = hx.row_map[i]; const size_t n = hx.row_map[i+1] - begin ; ASSERT_EQ( n , graph[i].size() ); for ( size_t j = 0 ; j < n ; ++j ) { ASSERT_EQ( (int) hx.entries( j + begin ) , graph[i][j] ); } } // Test row view access for ( size_t i = 0 ; i < LENGTH ; ++i ) { auto rowView = hx.rowConst(i); ASSERT_EQ( rowView.length, graph[i].size() ); for ( size_t j = 0 ; j < rowView.length ; ++j ) { ASSERT_EQ( rowView.colidx( j ) , graph[i][j] ); ASSERT_EQ( rowView( j ) , graph[i][j] ); } } } template< class Space > void run_test_graph2() { typedef Kokkos::StaticCrsGraph< unsigned[3] , Space > dView ; typedef typename dView::HostMirror hView ; const unsigned LENGTH = 10 ; std::vector< size_t > sizes( LENGTH ); size_t total_length = 0 ; for ( size_t i = 0 ; i < LENGTH ; ++i ) { total_length += ( sizes[i] = 6 + i % 4 ); } dView dx = Kokkos::create_staticcrsgraph( "test" , sizes ); hView hx = Kokkos::create_mirror( dx ); hView mx = Kokkos::create_mirror( dx ); ASSERT_EQ( (size_t) dx.row_map.extent(0) , (size_t) LENGTH + 1 ); ASSERT_EQ( (size_t) hx.row_map.extent(0) , (size_t) LENGTH + 1 ); ASSERT_EQ( (size_t) mx.row_map.extent(0) , (size_t) LENGTH + 1 ); ASSERT_EQ( (size_t) dx.entries.extent(0) , (size_t) total_length ); ASSERT_EQ( (size_t) hx.entries.extent(0) , (size_t) total_length ); ASSERT_EQ( (size_t) mx.entries.extent(0) , (size_t) total_length ); ASSERT_EQ( (size_t) dx.entries.extent(1) , (size_t) 3 ); ASSERT_EQ( (size_t) hx.entries.extent(1) , (size_t) 3 ); ASSERT_EQ( (size_t) mx.entries.extent(1) , (size_t) 3 ); for ( size_t i = 0 ; i < LENGTH ; ++i ) { const size_t entry_begin = hx.row_map[i]; const size_t entry_end = hx.row_map[i+1]; for ( size_t j = entry_begin ; j < entry_end ; ++j ) { hx.entries(j,0) = j + 1 ; hx.entries(j,1) = j + 2 ; hx.entries(j,2) = j + 3 ; } } Kokkos::deep_copy( dx.entries , hx.entries ); Kokkos::deep_copy( mx.entries , dx.entries ); ASSERT_EQ( mx.row_map.extent(0) , (size_t) LENGTH + 1 ); for ( size_t i = 0 ; i < LENGTH ; ++i ) { const size_t entry_begin = mx.row_map[i]; const size_t entry_end = mx.row_map[i+1]; ASSERT_EQ( ( entry_end - entry_begin ) , sizes[i] ); for ( size_t j = entry_begin ; j < entry_end ; ++j ) { ASSERT_EQ( (size_t) mx.entries( j , 0 ) , ( j + 1 ) ); ASSERT_EQ( (size_t) mx.entries( j , 1 ) , ( j + 2 ) ); ASSERT_EQ( (size_t) mx.entries( j , 2 ) , ( j + 3 ) ); } } } template< class Space > void run_test_graph3(size_t B, size_t N) { srand(10310); typedef Kokkos::StaticCrsGraph< int , Space > dView ; typedef typename dView::HostMirror hView ; const unsigned LENGTH = 2000 ; std::vector< size_t > sizes( LENGTH ); size_t total_length = 0 ; for ( size_t i = 0 ; i < LENGTH ; ++i ) { sizes[i] = rand()%1000; } sizes[1] = N; sizes[1998] = N; for ( size_t i = 0 ; i < LENGTH ; ++i ) { total_length += sizes[i]; } int C = 0; dView dx = Kokkos::create_staticcrsgraph( "test" , sizes ); dx.create_block_partitioning(B,C); hView hx = Kokkos::create_mirror( dx ); for( size_t i = 0; i2*((hx.row_map(hx.numRows())+C*hx.numRows())/B))&&(hx.row_block_offsets(i+1)>hx.row_block_offsets(i)+1)); } } template< class Space > void run_test_graph4() { typedef unsigned ordinal_type; typedef Kokkos::LayoutRight layout_type; typedef Space space_type; typedef Kokkos::MemoryUnmanaged memory_traits_type; #ifdef KOKKOS_ENABLE_DEPRECATED_CODE typedef Kokkos::StaticCrsGraph< ordinal_type , layout_type , space_type , ordinal_type , memory_traits_type > dView ; #else typedef Kokkos::StaticCrsGraph< ordinal_type , layout_type , space_type , memory_traits_type > dView ; #endif typedef typename dView::HostMirror hView ; dView dx ; // StaticCrsGraph with Unmanaged trait will contain row_map and entries members // with the Unmanaged memory trait. // Use of such a StaticCrsGraph requires an allocaton of memory for the unmanaged views // to wrap. // // In this test, a graph (via raw arrays) resides on the host. // The pointers are wrapped by unmanaged Views. // To make use of this on the device, managed device Views are created (allocation required), // and data from the unmanaged host views is deep copied to the device Views // Unmanaged views of the appropriate type wrap the device data and are assigned to // their corresponding unmanaged view members of the unmanaged StaticCrsGraph // Data types for raw pointers storing StaticCrsGraph info typedef typename dView::size_type ptr_row_map_type; typedef typename dView::data_type ptr_entries_type; const ordinal_type numRows = 8; const ordinal_type nnz = 24; ptr_row_map_type ptrRaw[] = {0, 4, 8, 10, 12, 14, 16, 20, 24}; ptr_entries_type indRaw[] = {0, 1, 4, 5, 0, 1, 4, 5, 2, 3, 2, 3, 4, 5, 4, 5, 2, 3, 6, 7, 2, 3, 6, 7}; // Wrap pointers in unmanaged host views typedef typename hView::row_map_type local_row_map_type ; typedef typename hView::entries_type local_entries_type ; local_row_map_type unman_row_map( &(ptrRaw[0]) , numRows+1 ); local_entries_type unman_entries( &(indRaw[0]) , nnz ); hView hx ; hx = hView( unman_entries, unman_row_map ); // Create the device Views for copying the host arrays into // An allocation is needed on the device for the unmanaged StaticCrsGraph to wrap the pointer typedef typename Kokkos::View< ptr_row_map_type*, layout_type, space_type > d_row_map_view_type; typedef typename Kokkos::View< ptr_entries_type*, layout_type, space_type > d_entries_view_type; d_row_map_view_type tmp_row_map( "tmp_row_map", numRows+1 ); d_entries_view_type tmp_entries( "tmp_entries", nnz ); Kokkos::deep_copy (tmp_row_map, unman_row_map); Kokkos::deep_copy (tmp_entries, unman_entries); // Wrap the pointer in unmanaged View and assign to the corresponding StaticCrsGraph member dx.row_map = typename dView::row_map_type(tmp_row_map.data(), numRows+1); dx.entries = typename dView::entries_type(tmp_entries.data(), nnz); ASSERT_TRUE((std::is_same< typename dView::row_map_type::memory_traits , Kokkos::MemoryUnmanaged >::value)); ASSERT_TRUE((std::is_same< typename dView::entries_type::memory_traits , Kokkos::MemoryUnmanaged >::value)); ASSERT_TRUE((std::is_same< typename hView::row_map_type::memory_traits , Kokkos::MemoryUnmanaged >::value)); ASSERT_TRUE((std::is_same< typename hView::entries_type::memory_traits , Kokkos::MemoryUnmanaged >::value)); } } /* namespace TestStaticCrsGraph */ TEST_F( TEST_CATEGORY , staticcrsgraph ) { TestStaticCrsGraph::run_test_graph< TEST_EXECSPACE >(); TestStaticCrsGraph::run_test_graph2< TEST_EXECSPACE >(); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(1, 0); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(1, 1000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(1, 10000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(1, 100000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(3, 0); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(3, 1000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(3, 10000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(3, 100000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(75, 0); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(75, 1000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(75, 10000); TestStaticCrsGraph::run_test_graph3< TEST_EXECSPACE >(75, 100000); TestStaticCrsGraph::run_test_graph4< TEST_EXECSPACE >(); } }