2 This file is a part of libcds - Concurrent Data Structures library
4 (C) Copyright Maxim Khizhinsky (libcds.dev@gmail.com) 2006-2016
6 Source code repo: http://github.com/khizmax/libcds/
7 Download: http://sourceforge.net/projects/libcds/files/
9 Redistribution and use in source and binary forms, with or without
10 modification, are permitted provided that the following conditions are met:
12 * Redistributions of source code must retain the above copyright notice, this
13 list of conditions and the following disclaimer.
15 * Redistributions in binary form must reproduce the above copyright notice,
16 this list of conditions and the following disclaimer in the documentation
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19 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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31 #include "queue_type.h"
33 // Multi-threaded queue test for pop operation
36 static size_t s_nThreadCount = 8;
37 static size_t s_nQueueSize = 20000000 ; // no more than 20 million records
42 SimpleValue(): nNo(0) {}
43 SimpleValue( size_t n ): nNo(n) {}
44 size_t getNo() const { return nNo; }
47 class queue_pop: public cds_test::stress_fixture
58 value_type( size_t n )
63 template <class Queue>
64 class Consumer: public cds_test::thread
66 typedef cds_test::thread base_class;
69 Consumer( cds_test::thread_pool& pool, Queue& queue )
72 , m_arr( new uint8_t[ s_nQueueSize ])
76 Consumer( Consumer& src )
78 , m_Queue( src.m_Queue )
79 , m_arr( new uint8_t[ s_nQueueSize ])
83 virtual thread * clone()
85 return new Consumer( *this );
90 memset( m_arr.get(), 0, sizeof( m_arr[0] ) * s_nQueueSize );
91 typedef typename Queue::value_type value_type;
94 while ( m_Queue.pop( value ) ) {
98 m_nPopCount = nPopCount;
103 std::unique_ptr< uint8_t[] > m_arr;
108 static void SetUpTestCase()
\r
110 cds_test::config const& cfg = get_config( "queue_pop" );
\r
112 s_nThreadCount = cfg.get_size_t( "ThreadCount", s_nThreadCount );
113 s_nQueueSize = cfg.get_size_t( "QueueSize", s_nQueueSize );
115 if ( s_nThreadCount == 0 )
117 if ( s_nQueueSize == 0 )
121 //static void TearDownTestCase();
\r
124 template <class Queue>
125 void analyze( Queue& q )
127 cds_test::thread_pool& pool = get_pool();
128 std::unique_ptr< uint8_t[] > arr( new uint8_t[s_nQueueSize] );
129 memset(arr.get(), 0, sizeof(arr[0]) * s_nQueueSize );
131 size_t nTotalPops = 0;
132 for ( size_t i = 0; i < pool.size(); ++i ) {
133 Consumer<Queue>& thread = static_cast<Consumer<Queue>&>(pool.get( i ));
134 for ( size_t i = 0; i < s_nQueueSize; ++i )
135 arr[i] += thread.m_arr[i];
136 nTotalPops += thread.m_nPopCount;
138 EXPECT_EQ( nTotalPops, s_nQueueSize );
139 EXPECT_TRUE( q.empty());
141 for ( size_t i = 0; i < s_nQueueSize; ++i ) {
142 EXPECT_EQ( arr[i], 1 ) << "i=" << i;
146 template <class Queue>
147 void test( Queue& q )
149 cds_test::thread_pool& pool = get_pool();
151 pool.add( new Consumer<Queue>( pool, q ), s_nThreadCount );
153 for ( size_t i = 0; i < s_nQueueSize; ++i )
156 propout() << std::make_pair( "thread_count", s_nThreadCount )
157 << std::make_pair( "push_count", s_nQueueSize );
159 std::chrono::milliseconds duration = pool.run();
161 propout() << std::make_pair( "duration", duration );
165 propout() << q.statistics();
169 CDSSTRESS_MSQueue( queue_pop )
170 CDSSTRESS_MoirQueue( queue_pop )
171 CDSSTRESS_BasketQueue( queue_pop )
172 CDSSTRESS_OptimsticQueue( queue_pop )
173 CDSSTRESS_FCQueue( queue_pop )
174 CDSSTRESS_FCDeque( queue_pop )
175 CDSSTRESS_RWQueue( queue_pop )
176 CDSSTRESS_StdQueue( queue_pop )
178 #undef CDSSTRESS_Queue_F
179 #define CDSSTRESS_Queue_F( test_fixture, type_name, level ) \
180 TEST_F( test_fixture, type_name ) \
182 if ( !check_detail_level( level )) return; \
183 typedef queue::Types< value_type >::type_name queue_type; \
184 queue_type queue( s_nQueueSize ); \
188 CDSSTRESS_TsigasQueue( queue_pop )
189 CDSSTRESS_VyukovQueue( queue_pop )
191 #undef CDSSTRESS_Queue_F
194 // ********************************************************************
195 // SegmentedQueue test
197 class segmented_queue_pop
199 , public ::testing::WithParamInterface< size_t >
201 typedef queue_pop base_class;
204 template <typename Queue>
207 size_t quasi_factor = GetParam();
209 Queue q( quasi_factor );
210 propout() << std::make_pair( "quasi_factor", quasi_factor );
211 base_class::test( q );
215 static std::vector< size_t > get_test_parameters()
217 cds_test::config const& cfg = cds_test::stress_fixture::get_config( "queue_pop" );
218 bool bIterative = cfg.get_bool( "SegmentedQueue_Iterate", false );
219 size_t quasi_factor = cfg.get_size_t( "SegmentedQueue_SegmentSize", 256 );
221 std::vector<size_t> args;
222 if ( bIterative && quasi_factor > 4 ) {
223 for ( size_t qf = 4; qf <= quasi_factor; qf *= 2 )
224 args.push_back( qf );
227 if ( quasi_factor > 2 )
228 args.push_back( quasi_factor );
237 #define CDSSTRESS_Queue_F( test_fixture, type_name, level ) \
238 TEST_P( test_fixture, type_name ) \
240 if ( !check_detail_level( level )) return; \
241 typedef typename queue::Types<value_type>::type_name queue_type; \
242 test< queue_type >(); \
245 CDSSTRESS_SegmentedQueue( segmented_queue_pop )
247 INSTANTIATE_TEST_CASE_P( SQ,
249 ::testing::ValuesIn( segmented_queue_pop::get_test_parameters()));