/* Copyright (c) 2019-2021 Intel Corporation Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #ifndef __TBB_info_H #define __TBB_info_H #include "detail/_config.h" #include "detail/_namespace_injection.h" #if __TBB_ARENA_BINDING #include #include namespace tbb { namespace detail { namespace d1{ using numa_node_id = int; using core_type_id = int; // TODO: consider version approach to resolve backward compatibility potential issues. struct constraints { #if !__TBB_CPP20_PRESENT constraints(numa_node_id id = -1, int maximal_concurrency = -1) : numa_id(id) , max_concurrency(maximal_concurrency) #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT , core_type(-1) , max_threads_per_core(-1) #endif {} #endif /*!__TBB_CPP20_PRESENT*/ constraints& set_numa_id(numa_node_id id) { numa_id = id; return *this; } constraints& set_max_concurrency(int maximal_concurrency) { max_concurrency = maximal_concurrency; return *this; } #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT constraints& set_core_type(core_type_id id) { core_type = id; return *this; } constraints& set_max_threads_per_core(int threads_number) { max_threads_per_core = threads_number; return *this; } #endif numa_node_id numa_id = -1; int max_concurrency = -1; #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT core_type_id core_type = -1; int max_threads_per_core = -1; #endif }; } // namespace d1 namespace r1 { TBB_EXPORT unsigned __TBB_EXPORTED_FUNC numa_node_count(); TBB_EXPORT void __TBB_EXPORTED_FUNC fill_numa_indices(int* index_array); TBB_EXPORT int __TBB_EXPORTED_FUNC numa_default_concurrency(int numa_id); // Reserved fields are required to save binary backward compatibility in case of future changes. // They must be defined to 0 at this moment. TBB_EXPORT unsigned __TBB_EXPORTED_FUNC core_type_count(intptr_t reserved = 0); TBB_EXPORT void __TBB_EXPORTED_FUNC fill_core_type_indices(int* index_array, intptr_t reserved = 0); TBB_EXPORT int __TBB_EXPORTED_FUNC constraints_default_concurrency(const d1::constraints& c, intptr_t reserved = 0); TBB_EXPORT int __TBB_EXPORTED_FUNC constraints_threads_per_core(const d1::constraints& c, intptr_t reserved = 0); } // namespace r1 namespace d1 { inline std::vector numa_nodes() { std::vector node_indices(r1::numa_node_count()); r1::fill_numa_indices(node_indices.data()); return node_indices; } inline int default_concurrency(numa_node_id id = -1) { return r1::numa_default_concurrency(id); } #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT inline std::vector core_types() { std::vector core_type_indexes(r1::core_type_count()); r1::fill_core_type_indices(core_type_indexes.data()); return core_type_indexes; } inline int default_concurrency(constraints c) { if (c.max_concurrency > 0) { return c.max_concurrency; } return r1::constraints_default_concurrency(c); } #endif /*__TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT*/ } // namespace d1 } // namespace detail inline namespace v1 { using detail::d1::numa_node_id; #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT using detail::d1::core_type_id; #endif namespace info { using detail::d1::numa_nodes; #if __TBB_PREVIEW_TASK_ARENA_CONSTRAINTS_EXTENSION_PRESENT using detail::d1::core_types; #endif using detail::d1::default_concurrency; } // namespace info } // namespace v1 } // namespace tbb #endif /*__TBB_ARENA_BINDING*/ #endif /*__TBB_info_H*/