/****************************************************************************** * Copyright (c) 2010-2011, Duane Merrill. All rights reserved. * Copyright (c) 2011-2018, NVIDIA CORPORATION. All rights reserved. * Modifications Copyright (c) 2017-2021, Advanced Micro Devices, Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of the NVIDIA CORPORATION nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 NVIDIA CORPORATION 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. * ******************************************************************************/ #ifndef HIPCUB_ROCPRIM_WARP_WARP_LOAD_HPP_ #define HIPCUB_ROCPRIM_WARP_WARP_LOAD_HPP_ #include "../config.hpp" #include "../util_type.cuh" #include "../iterator/cache_modified_input_iterator.cuh" #include "./warp_exchange.hpp" #include BEGIN_HIPCUB_NAMESPACE enum WarpLoadAlgorithm { WARP_LOAD_DIRECT, WARP_LOAD_STRIPED, WARP_LOAD_VECTORIZE, WARP_LOAD_TRANSPOSE }; template< class InputT, int ITEMS_PER_THREAD, WarpLoadAlgorithm ALGORITHM = WARP_LOAD_DIRECT, int LOGICAL_WARP_THREADS = HIPCUB_DEVICE_WARP_THREADS, int ARCH = HIPCUB_ARCH > class WarpLoad { private: constexpr static bool IS_ARCH_WARP = static_cast(LOGICAL_WARP_THREADS) == HIPCUB_DEVICE_WARP_THREADS; template struct LoadInternal; template <> struct LoadInternal { using TempStorage = NullType; int linear_tid; HIPCUB_DEVICE __forceinline__ LoadInternal( TempStorage & /*temp_storage*/, int linear_tid) : linear_tid(linear_tid) { } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_blocked( static_cast(linear_tid), block_itr, items ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items) { ::rocprim::block_load_direct_blocked( static_cast(linear_tid), block_itr, items, static_cast(valid_items) ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items, DefaultT oob_default) { ::rocprim::block_load_direct_blocked( static_cast(linear_tid), block_itr, items, static_cast(valid_items), oob_default ); } }; template <> struct LoadInternal { using TempStorage = NullType; int linear_tid; HIPCUB_DEVICE __forceinline__ LoadInternal( TempStorage & /*temp_storage*/, int linear_tid) : linear_tid(linear_tid) { } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items, static_cast(valid_items) ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items, DefaultT oob_default) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items, static_cast(valid_items), oob_default ); } }; template <> struct LoadInternal { using TempStorage = NullType; int linear_tid; HIPCUB_DEVICE __forceinline__ LoadInternal( TempStorage & /*temp_storage*/, int linear_tid) : linear_tid(linear_tid) { } template HIPCUB_DEVICE __forceinline__ void Load( InputT *block_ptr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_blocked_vectorized( static_cast(linear_tid), block_ptr, items ); } template HIPCUB_DEVICE __forceinline__ void Load( const InputT *block_ptr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_blocked_vectorized( static_cast(linear_tid), block_ptr, items ); } template< CacheLoadModifier MODIFIER, typename ValueType, typename OffsetT > HIPCUB_DEVICE __forceinline__ void Load( CacheModifiedInputIterator block_itr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_blocked_vectorized( static_cast(linear_tid), block_itr, items ); } template HIPCUB_DEVICE __forceinline__ void Load( _InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_blocked_vectorized( static_cast(linear_tid), block_itr, items ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items) { ::rocprim::block_load_direct_blocked_vectorized( static_cast(linear_tid), block_itr, items, static_cast(valid_items) ); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items, DefaultT oob_default) { // vectorized overload does not exist // fall back to direct blocked ::rocprim::block_load_direct_blocked( static_cast(linear_tid), block_itr, items, static_cast(valid_items), oob_default ); } }; template <> struct LoadInternal { using WarpExchangeT = WarpExchange< InputT, ITEMS_PER_THREAD, LOGICAL_WARP_THREADS, ARCH >; using TempStorage = typename WarpExchangeT::TempStorage; TempStorage& temp_storage; int linear_tid; HIPCUB_DEVICE __forceinline__ LoadInternal( TempStorage &temp_storage, int linear_tid) : temp_storage(temp_storage), linear_tid(linear_tid) { } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD]) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items ); WarpExchangeT(temp_storage).StripedToBlocked(items, items); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items, static_cast(valid_items) ); WarpExchangeT(temp_storage).StripedToBlocked(items, items); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items, DefaultT oob_default) { ::rocprim::block_load_direct_warp_striped( static_cast(linear_tid), block_itr, items, static_cast(valid_items), oob_default ); WarpExchangeT(temp_storage).StripedToBlocked(items, items); } }; using InternalLoad = LoadInternal; using _TempStorage = typename InternalLoad::TempStorage; HIPCUB_DEVICE __forceinline__ _TempStorage &PrivateStorage() { __shared__ _TempStorage private_storage; return private_storage; } _TempStorage &temp_storage; int linear_tid; public: struct TempStorage : Uninitialized<_TempStorage> { }; HIPCUB_DEVICE __forceinline__ WarpLoad() : temp_storage(PrivateStorage()), linear_tid(IS_ARCH_WARP ? ::rocprim::lane_id() : (::rocprim::lane_id() % LOGICAL_WARP_THREADS)) { } HIPCUB_DEVICE __forceinline__ WarpLoad(TempStorage &temp_storage) : temp_storage(temp_storage.Alias()), linear_tid(IS_ARCH_WARP ? ::rocprim::lane_id() : (::rocprim::lane_id() % LOGICAL_WARP_THREADS)) { } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD]) { InternalLoad(temp_storage, linear_tid) .Load(block_itr, items); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items) { InternalLoad(temp_storage, linear_tid) .Load(block_itr, items, valid_items); } template HIPCUB_DEVICE __forceinline__ void Load( InputIteratorT block_itr, InputT (&items)[ITEMS_PER_THREAD], int valid_items, DefaultT oob_default) { InternalLoad(temp_storage, linear_tid) .Load(block_itr, items, valid_items, oob_default); } }; END_HIPCUB_NAMESPACE #endif // HIPCUB_ROCPRIM_WARP_WARP_LOAD_HPP_