/* Copyright (c) 2005-2021 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. */ // TODO: Add overlapping put / receive tests #include "common/config.h" #include "tbb/flow_graph.h" #include "tbb/global_control.h" #include "common/test.h" #include "common/utils.h" #include "common/utils_assert.h" #include "common/checktype.h" #include "common/graph_utils.h" #include "common/test_follows_and_precedes_api.h" #include //! \file test_priority_queue_node.cpp //! \brief Test for [flow_graph.priority_queue_node] specification #define N 10 #define C 10 template< typename T > void spin_try_get( tbb::flow::priority_queue_node &q, T &value ) { while ( q.try_get(value) != true ) ; } template< typename T > void check_item( T* next_value, T &value ) { int tid = value / N; int offset = value % N; CHECK_MESSAGE( next_value[tid] == T(offset), "" ); ++next_value[tid]; } template< typename T > struct parallel_puts : utils::NoAssign { tbb::flow::priority_queue_node &my_q; parallel_puts( tbb::flow::priority_queue_node &q ) : my_q(q) {} void operator()(int i) const { for (int j = 0; j < N; ++j) { bool msg = my_q.try_put( T(N*i + j) ); CHECK_MESSAGE( msg == true, "" ); } } }; template< typename T > struct parallel_gets : utils::NoAssign { tbb::flow::priority_queue_node &my_q; parallel_gets( tbb::flow::priority_queue_node &q) : my_q(q) {} void operator()(int) const { T prev; spin_try_get( my_q, prev ); for (int j = 0; j < N-1; ++j) { T v; spin_try_get( my_q, v ); CHECK_MESSAGE(v < prev, ""); } } }; template< typename T > struct parallel_put_get : utils::NoAssign { tbb::flow::priority_queue_node &my_q; parallel_put_get( tbb::flow::priority_queue_node &q ) : my_q(q) {} void operator()(int tid) const { for ( int i = 0; i < N; i+=C ) { int j_end = ( N < i + C ) ? N : i + C; // dump about C values into the Q for ( int j = i; j < j_end; ++j ) { CHECK_MESSAGE( my_q.try_put( T (N*tid + j ) ) == true, "" ); } // receive about C values from the Q for ( int j = i; j < j_end; ++j ) { T v; spin_try_get( my_q, v ); } } } }; // // Tests // // Item can be reserved, released, consumed ( single serial receiver ) // template< typename T > int test_reservation(int) { tbb::flow::graph g; // Simple tests tbb::flow::priority_queue_node q(g); { T bogus_value(-1); q.try_put(T(1)); q.try_put(T(2)); q.try_put(T(3)); g.wait_for_all(); T v=bogus_value, w=bogus_value; CHECK_MESSAGE( q.try_reserve(v) == true, "" ); CHECK_MESSAGE( v == T(3), "" ); CHECK_MESSAGE( q.try_release() == true, "" ); v = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_reserve(v) == true, "" ); CHECK_MESSAGE( v == T(3), "" ); CHECK_MESSAGE( q.try_consume() == true, "" ); v = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_get(v) == true, "" ); CHECK_MESSAGE( v == T(2), "" ); v = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_reserve(v) == true, "" ); CHECK_MESSAGE( v == T(1), "" ); CHECK_MESSAGE( q.try_reserve(w) == false, "" ); CHECK_MESSAGE( w == bogus_value, "" ); CHECK_MESSAGE( q.try_get(w) == false, "" ); CHECK_MESSAGE( w == bogus_value, "" ); CHECK_MESSAGE( q.try_release() == true, "" ); v = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_reserve(v) == true, "" ); CHECK_MESSAGE( v == T(1), "" ); CHECK_MESSAGE( q.try_consume() == true, "" ); v = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_get(v) == false, "" ); } return 0; } // // Tests // // multiple parallel senders, items in FIFO (relatively to sender) order // multiple parallel senders, multiple parallel receivers, items in FIFO order (relative to sender/receiver) and all items received // * overlapped puts / gets // * all puts finished before any getS // template< typename T > int test_parallel(int num_threads) { tbb::flow::graph g; tbb::flow::priority_queue_node q(g); tbb::flow::priority_queue_node q2(g); tbb::flow::priority_queue_node q3(g); T bogus_value(-1); T j = bogus_value; NativeParallelFor( num_threads, parallel_puts(q) ); for (int i = num_threads*N -1; i>=0; --i) { spin_try_get( q, j ); CHECK_MESSAGE(j == i, ""); j = bogus_value; } g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); NativeParallelFor( num_threads, parallel_puts(q) ); g.wait_for_all(); NativeParallelFor( num_threads, parallel_gets(q) ); g.wait_for_all(); j = bogus_value; CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); NativeParallelFor( num_threads, parallel_put_get(q) ); g.wait_for_all(); j = bogus_value; CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); tbb::flow::make_edge( q, q2 ); tbb::flow::make_edge( q2, q3 ); NativeParallelFor( num_threads, parallel_puts(q) ); g.wait_for_all(); NativeParallelFor( num_threads, parallel_gets(q3) ); g.wait_for_all(); j = bogus_value; CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); CHECK_MESSAGE( q2.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); CHECK_MESSAGE( q3.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); // test copy constructor CHECK_MESSAGE( remove_successor(q, q2) == true, "" ); NativeParallelFor( num_threads, parallel_puts(q) ); tbb::flow::priority_queue_node q_copy(q); g.wait_for_all(); j = bogus_value; CHECK_MESSAGE( q_copy.try_get( j ) == false, "" ); CHECK_MESSAGE( register_successor(q, q_copy) == true, "" ); for (int i = num_threads*N -1; i>=0; --i) { spin_try_get( q_copy, j ); CHECK_MESSAGE(j == i, ""); j = bogus_value; } g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); CHECK_MESSAGE( q_copy.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); return 0; } // // Tests // // Predecessors cannot be registered // Empty Q rejects item requests // Single serial sender, items in FIFO order // Chained Qs ( 2 & 3 ), single sender, items at last Q in FIFO order // template< typename T > int test_serial() { tbb::flow::graph g; T bogus_value(-1); tbb::flow::priority_queue_node q(g); tbb::flow::priority_queue_node q2(g); T j = bogus_value; // // Rejects attempts to add / remove predecessor // Rejects request from empty Q // CHECK_MESSAGE( register_predecessor(q, q2) == false, "" ); CHECK_MESSAGE( remove_predecessor(q, q2) == false, "" ); CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); // // Simple puts and gets // for (int i = 0; i < N; ++i) CHECK_MESSAGE( q.try_put( T(i) ), "" ); for (int i = N-1; i >=0; --i) { j = bogus_value; spin_try_get( q, j ); CHECK_MESSAGE( i == j, "" ); } j = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); tbb::flow::make_edge( q, q2 ); for (int i = 0; i < N; ++i) CHECK_MESSAGE( q.try_put( T(i) ), "" ); g.wait_for_all(); for (int i = N-1; i >= 0; --i) { j = bogus_value; spin_try_get( q2, j ); CHECK_MESSAGE( i == j, "" ); } j = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == false, "" ); g.wait_for_all(); CHECK_MESSAGE( q2.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); tbb::flow::remove_edge( q, q2 ); CHECK_MESSAGE( q.try_put( 1 ) == true, "" ); g.wait_for_all(); CHECK_MESSAGE( q2.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == true, "" ); CHECK_MESSAGE( j == 1, "" ); tbb::flow::priority_queue_node q3(g); tbb::flow::make_edge( q, q2 ); tbb::flow::make_edge( q2, q3 ); for (int i = 0; i < N; ++i) CHECK_MESSAGE( q.try_put( T(i) ), "" ); g.wait_for_all(); for (int i = N-1; i >= 0; --i) { j = bogus_value; spin_try_get( q3, j ); CHECK_MESSAGE( i == j, "" ); } j = bogus_value; g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == false, "" ); g.wait_for_all(); CHECK_MESSAGE( q2.try_get( j ) == false, "" ); g.wait_for_all(); CHECK_MESSAGE( q3.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); tbb::flow::remove_edge( q, q2 ); CHECK_MESSAGE( q.try_put( 1 ) == true, "" ); g.wait_for_all(); CHECK_MESSAGE( q2.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); g.wait_for_all(); CHECK_MESSAGE( q3.try_get( j ) == false, "" ); CHECK_MESSAGE( j == bogus_value, "" ); g.wait_for_all(); CHECK_MESSAGE( q.try_get( j ) == true, "" ); CHECK_MESSAGE( j == 1, "" ); return 0; } #if __TBB_PREVIEW_FLOW_GRAPH_NODE_SET #include #include void test_follows_and_precedes_api() { std::array messages_for_follows = { {0, 1, 2} }; std::vector messages_for_precedes = {0, 1, 2}; follows_and_precedes_testing::test_follows >(messages_for_follows); follows_and_precedes_testing::test_precedes >(messages_for_precedes); } #endif #if __TBB_CPP17_DEDUCTION_GUIDES_PRESENT void test_deduction_guides() { using namespace tbb::flow; graph g; broadcast_node br(g); priority_queue_node pq0(g); #if __TBB_PREVIEW_FLOW_GRAPH_NODE_SET using compare_type = std::greater; priority_queue_node pq1(follows(br)); static_assert(std::is_same_v>); priority_queue_node pq2(follows(br), compare_type()); static_assert(std::is_same_v>); priority_queue_node pq3(precedes(br)); static_assert(std::is_same_v>); priority_queue_node pq4(precedes(br), compare_type()); static_assert(std::is_same_v>); #endif priority_queue_node pq5(pq0); static_assert(std::is_same_v>); g.wait_for_all(); } #endif //! Test serial, parallel behavior and reservation under parallelism //! \brief \ref requirement \ref error_guessing TEST_CASE("Serial, parallel and reservation tests"){ for (int p = 2; p <= 4; ++p) { tbb::global_control thread_limit(tbb::global_control::max_allowed_parallelism, p); tbb::task_arena arena(p); arena.execute( [&]() { test_serial(); test_reservation(p); test_reservation >(p); test_parallel(p); } ); } } //! Test reset and cancellation //! \brief \ref error_guessing TEST_CASE("Reset tests"){ INFO("Testing resets\n"); test_resets >(); test_resets >(); } #if __TBB_PREVIEW_FLOW_GRAPH_NODE_SET //! Test follows and precedes API //! \brief \ref error_guessing TEST_CASE("Test follows and precedes API"){ test_follows_and_precedes_api(); } #endif #if __TBB_CPP17_DEDUCTION_GUIDES_PRESENT //! Test decution guides //! \brief \ref requirement TEST_CASE("Test deduction guides"){ test_deduction_guides(); } #endif