/* //@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. 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Contact Christian R. Trott (crtrott@sandia.gov) // // ************************************************************************ //@HEADER */ #ifndef KOKKOS_TEST_DYNAMICVIEW_HPP #define KOKKOS_TEST_DYNAMICVIEW_HPP #include #include #include #include #include #include #include namespace Test { template< typename Scalar , class Space > struct TestDynamicView { typedef typename Space::execution_space execution_space ; typedef typename Space::memory_space memory_space ; typedef Kokkos::Experimental::DynamicView view_type; typedef double value_type; static void run( unsigned arg_total_size ) { // Test: Create DynamicView, initialize size (via resize), run through parallel_for to set values, check values (via parallel_reduce); resize values and repeat // Case 1: min_chunk_size is a power of 2 { view_type da("da", 1024, arg_total_size ); ASSERT_EQ( da.size(), 0 ); // Init unsigned da_size = arg_total_size / 8; da.resize_serial(da_size); ASSERT_EQ( da.size(), da_size ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , result_sum ); ASSERT_EQ(result_sum, (value_type)( da_size * (da_size - 1) / 2 ) ); #endif #endif // add 3x more entries i.e. 4x larger than previous size // the first 1/4 should remain the same unsigned da_resize = arg_total_size / 2; da.resize_serial(da_resize); ASSERT_EQ( da.size(), da_resize ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(da_size, da_resize), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type new_result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(da_size, da_resize), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , new_result_sum ); ASSERT_EQ(new_result_sum+result_sum, (value_type)( da_resize * (da_resize - 1) / 2 ) ); #endif #endif } // end scope // Test: Create DynamicView, initialize size (via resize), run through parallel_for to set values, check values (via parallel_reduce); resize values and repeat // Case 2: min_chunk_size is NOT a power of 2 { view_type da("da", 1023, arg_total_size ); ASSERT_EQ( da.size(), 0 ); // Init unsigned da_size = arg_total_size / 8; da.resize_serial(da_size); ASSERT_EQ( da.size(), da_size ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , result_sum ); ASSERT_EQ(result_sum, (value_type)( da_size * (da_size - 1) / 2 ) ); #endif #endif // add 3x more entries i.e. 4x larger than previous size // the first 1/4 should remain the same unsigned da_resize = arg_total_size / 2; da.resize_serial(da_resize); ASSERT_EQ( da.size(), da_resize ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(da_size, da_resize), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type new_result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(da_size, da_resize), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , new_result_sum ); ASSERT_EQ(new_result_sum+result_sum, (value_type)( da_resize * (da_resize - 1) / 2 ) ); #endif #endif } // end scope // Test: Create DynamicView, initialize size (via resize), run through parallel_for to set values, check values (via parallel_reduce); resize values and repeat // Case 3: resize reduces the size { view_type da("da", 1023, arg_total_size ); ASSERT_EQ( da.size(), 0 ); // Init unsigned da_size = arg_total_size / 2; da.resize_serial(da_size); ASSERT_EQ( da.size(), da_size ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(0, da_size), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , result_sum ); ASSERT_EQ(result_sum, (value_type)( da_size * (da_size - 1) / 2 ) ); #endif #endif // remove the final 3/4 entries i.e. first 1/4 remain unsigned da_resize = arg_total_size / 8; da.resize_serial(da_resize); ASSERT_EQ( da.size(), da_resize ); #if defined( KOKKOS_ENABLE_CXX11_DISPATCH_LAMBDA ) #if !defined(KOKKOS_ENABLE_CUDA) || ( 8000 <= CUDA_VERSION ) Kokkos::parallel_for( Kokkos::RangePolicy(0, da_resize), KOKKOS_LAMBDA ( const int i ) { da(i) = Scalar(i); } ); value_type new_result_sum = 0.0; Kokkos::parallel_reduce( Kokkos::RangePolicy(0, da_resize), KOKKOS_LAMBDA ( const int i, value_type& partial_sum ) { partial_sum += (value_type)da(i); } , new_result_sum ); ASSERT_EQ(new_result_sum, (value_type)( da_resize * (da_resize - 1) / 2 ) ); #endif #endif } // end scope } }; TEST_F( TEST_CATEGORY , dynamic_view ) { typedef TestDynamicView< double , TEST_EXECSPACE > TestDynView ; for ( int i = 0 ; i < 10 ; ++i ) { TestDynView::run( 100000 + 100 * i ); } } } // namespace Test #endif /* #ifndef KOKKOS_TEST_DYNAMICVIEW_HPP */