3 #include "cppunit/thread.h"
4 #include "set2/set_types.h"
5 #include <algorithm> // random_shuffle
9 # define TEST_SET(X) void X() { test<SetTypes<key_type, value_type>::X >() ; }
10 # define TEST_SET_EXTRACT(X) void X() { test_extract<SetTypes<key_type, value_type>::X >() ; }
11 # define TEST_SET_NOLF(X) void X() { test_nolf<SetTypes<key_type, value_type>::X >() ; }
12 # define TEST_SET_NOLF_EXTRACT(X) void X() { test_nolf_extract<SetTypes<key_type, value_type>::X >() ; }
15 static size_t c_nSetSize = 1000000 ; // max set size
16 static size_t c_nInsThreadCount = 4 ; // insert thread count
17 static size_t c_nDelThreadCount = 4 ; // delete thread count
18 static size_t c_nExtractThreadCount = 4 ; // extract thread count
19 static size_t c_nMaxLoadFactor = 8 ; // maximum load factor
20 static bool c_bPrintGCState = true;
29 key_thread( size_t key, size_t threadNo )
38 typedef SetTypes<key_thread, size_t>::key_val key_value_pair;
42 struct cmp<key_thread> {
43 int operator ()(key_thread const& k1, key_thread const& k2) const
45 if ( k1.nKey < k2.nKey )
47 if ( k1.nKey > k2.nKey )
49 if ( k1.nThread < k2.nThread )
51 if ( k1.nThread > k2.nThread )
55 int operator ()(key_thread const& k1, size_t k2) const
63 int operator ()(size_t k1, key_thread const& k2) const
77 struct less<set2::key_thread>
79 bool operator()(set2::key_thread const& k1, set2::key_thread const& k2) const
81 if ( k1.nKey <= k2.nKey )
82 return k1.nKey < k2.nKey || k1.nThread < k2.nThread;
88 struct hash<set2::key_thread>
90 typedef size_t result_type;
91 typedef set2::key_thread argument_type;
93 size_t operator()( set2::key_thread const& k ) const
95 return std::hash<size_t>()(k.nKey);
97 size_t operator()( size_t k ) const
99 return std::hash<size_t>()(k);
106 inline size_t hash_value( set2::key_thread const& k )
108 return std::hash<size_t>()( k.nKey );
112 struct hash<set2::key_thread>
114 typedef size_t result_type;
115 typedef set2::key_thread argument_type;
117 size_t operator()(set2::key_thread const& k) const
119 return boost::hash<size_t>()( k.nKey );
121 size_t operator()(size_t k) const
123 return boost::hash<size_t>()( k );
130 template <typename Set>
131 static inline void check_before_clear( Set& s )
134 template <typename GC, typename Key, typename T, typename Traits>
135 static inline void check_before_clear( cds::container::EllenBinTreeSet<GC, Key, T, Traits>& s )
137 CPPUNIT_CHECK_CURRENT( s.check_consistency() );
140 class Set_DelOdd: public CppUnitMini::TestCase
142 std::vector<size_t> m_arrData;
145 typedef key_thread key_type;
146 typedef size_t value_type;
148 atomics::atomic<size_t> m_nInsThreadCount;
150 // Inserts keys from [0..N)
152 class InsertThread: public CppUnitMini::TestThread
156 virtual InsertThread * clone()
158 return new InsertThread( *this );
163 template <typename Q>
164 void operator()( bool bNew, key_value_pair const&, Q const& )
168 size_t m_nInsertSuccess;
169 size_t m_nInsertFailed;
172 InsertThread( CppUnitMini::ThreadPool& pool, Set& rMap )
173 : CppUnitMini::TestThread( pool )
176 InsertThread( InsertThread& src )
177 : CppUnitMini::TestThread( src )
181 Set_DelOdd& getTest()
183 return reinterpret_cast<Set_DelOdd&>( m_Pool.m_Test );
186 virtual void init() { cds::threading::Manager::attachThread() ; }
187 virtual void fini() { cds::threading::Manager::detachThread() ; }
196 std::vector<size_t>& arrData = getTest().m_arrData;
197 for ( size_t i = 0; i < arrData.size(); ++i ) {
198 if ( rSet.insert( key_type( arrData[i], m_nThreadNo )))
205 for ( size_t i = arrData.size() - 1; i > 0; --i ) {
206 if ( arrData[i] & 1 ) {
207 rSet.ensure( key_type( arrData[i], m_nThreadNo ), f );
211 getTest().m_nInsThreadCount.fetch_sub( 1, atomics::memory_order_release );
216 bool operator()( key_type const& k1, key_type const& k2 ) const
218 return k1.nKey == k2.nKey;
220 bool operator()( size_t k1, key_type const& k2 ) const
222 return k1 == k2.nKey;
224 bool operator()( key_type const& k1, size_t k2 ) const
226 return k1.nKey == k2;
228 bool operator ()( key_value_pair const& k1, key_value_pair const& k2 ) const
230 return operator()( k1.key, k2.key );
232 bool operator ()( key_value_pair const& k1, key_type const& k2 ) const
234 return operator()( k1.key, k2 );
236 bool operator ()( key_type const& k1, key_value_pair const& k2 ) const
238 return operator()( k1, k2.key );
240 bool operator ()( key_value_pair const& k1, size_t k2 ) const
242 return operator()( k1.key, k2 );
244 bool operator ()( size_t k1, key_value_pair const& k2 ) const
246 return operator()( k1, k2.key );
251 bool operator()( key_type const& k1, key_type const& k2 ) const
253 return k1.nKey < k2.nKey;
255 bool operator()( size_t k1, key_type const& k2 ) const
259 bool operator()( key_type const& k1, size_t k2 ) const
263 bool operator ()( key_value_pair const& k1, key_value_pair const& k2 ) const
265 return operator()( k1.key, k2.key );
267 bool operator ()( key_value_pair const& k1, key_type const& k2 ) const
269 return operator()( k1.key, k2 );
271 bool operator ()( key_type const& k1, key_value_pair const& k2 ) const
273 return operator()( k1, k2.key );
275 bool operator ()( key_value_pair const& k1, size_t k2 ) const
277 return operator()( k1.key, k2 );
279 bool operator ()( size_t k1, key_value_pair const& k2 ) const
281 return operator()( k1, k2.key );
284 typedef key_equal equal_to;
287 // Deletes odd keys from [0..N)
289 class DeleteThread: public CppUnitMini::TestThread
293 virtual DeleteThread * clone()
295 return new DeleteThread( *this );
298 size_t m_nDeleteSuccess;
299 size_t m_nDeleteFailed;
302 DeleteThread( CppUnitMini::ThreadPool& pool, Set& rMap )
303 : CppUnitMini::TestThread( pool )
306 DeleteThread( DeleteThread& src )
307 : CppUnitMini::TestThread( src )
311 Set_DelOdd& getTest()
313 return reinterpret_cast<Set_DelOdd&>( m_Pool.m_Test );
316 virtual void init() { cds::threading::Manager::attachThread() ; }
317 virtual void fini() { cds::threading::Manager::detachThread() ; }
326 std::vector<size_t>& arrData = getTest().m_arrData;
327 if ( m_nThreadNo & 1 ) {
328 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
329 for ( size_t i = 0; i < arrData.size(); ++i ) {
330 if ( arrData[i] & 1 ) {
331 if ( rSet.erase_with( arrData[i], key_less() ))
337 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
342 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
343 for ( size_t i = arrData.size() - 1; i > 0; --i ) {
344 if ( arrData[i] & 1 ) {
345 if ( rSet.erase_with( arrData[i], key_less() ))
351 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
358 // Extracts odd keys from [0..N)
359 template <typename GC, class Set>
360 class ExtractThread: public CppUnitMini::TestThread
364 virtual ExtractThread * clone()
366 return new ExtractThread( *this );
369 size_t m_nExtractSuccess;
370 size_t m_nExtractFailed;
373 ExtractThread( CppUnitMini::ThreadPool& pool, Set& rMap )
374 : CppUnitMini::TestThread( pool )
377 ExtractThread( ExtractThread& src )
378 : CppUnitMini::TestThread( src )
382 Set_DelOdd& getTest()
384 return reinterpret_cast<Set_DelOdd&>( m_Pool.m_Test );
387 virtual void init() { cds::threading::Manager::attachThread() ; }
388 virtual void fini() { cds::threading::Manager::detachThread() ; }
395 m_nExtractFailed = 0;
397 typename Set::guarded_ptr gp;
399 std::vector<size_t>& arrData = getTest().m_arrData;
400 if ( m_nThreadNo & 1 ) {
401 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
402 for ( size_t i = 0; i < arrData.size(); ++i ) {
403 if ( arrData[i] & 1 ) {
404 gp = rSet.extract_with( arrData[i], key_less());
412 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
417 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
418 for ( size_t i = arrData.size() - 1; i > 0; --i ) {
419 if ( arrData[i] & 1 ) {
420 gp = rSet.extract_with( arrData[i], key_less());
428 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
435 template <typename RCU, class Set>
436 class ExtractThread< cds::urcu::gc<RCU>, Set >: public CppUnitMini::TestThread
440 virtual ExtractThread * clone()
442 return new ExtractThread( *this );
445 size_t m_nExtractSuccess;
446 size_t m_nExtractFailed;
449 ExtractThread( CppUnitMini::ThreadPool& pool, Set& rMap )
450 : CppUnitMini::TestThread( pool )
453 ExtractThread( ExtractThread& src )
454 : CppUnitMini::TestThread( src )
458 Set_DelOdd& getTest()
460 return reinterpret_cast<Set_DelOdd&>( m_Pool.m_Test );
463 virtual void init() { cds::threading::Manager::attachThread() ; }
464 virtual void fini() { cds::threading::Manager::detachThread() ; }
471 m_nExtractFailed = 0;
473 typename Set::exempt_ptr xp;
475 std::vector<size_t>& arrData = getTest().m_arrData;
476 if ( m_nThreadNo & 1 ) {
477 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
478 for ( size_t i = 0; i < arrData.size(); ++i ) {
479 if ( arrData[i] & 1 ) {
480 if ( Set::c_bExtractLockExternal ) {
481 typename Set::rcu_lock l;
482 xp = rSet.extract_with( arrData[i], key_less() );
489 xp = rSet.extract_with( arrData[i], key_less() );
498 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
503 for ( size_t k = 0; k < c_nInsThreadCount; ++k ) {
504 for ( size_t i = arrData.size() - 1; i > 0; --i ) {
505 if ( arrData[i] & 1 ) {
506 if ( Set::c_bExtractLockExternal ) {
507 typename Set::rcu_lock l;
508 xp = rSet.extract_with( arrData[i], key_less() );
515 xp = rSet.extract_with( arrData[i], key_less() );
524 if ( getTest().m_nInsThreadCount.load( atomics::memory_order_acquire ) == 0 )
533 void do_test( size_t nLoadFactor )
535 Set testSet( c_nSetSize, nLoadFactor );
536 do_test_with( testSet );
541 void do_test_extract( size_t nLoadFactor )
543 Set testSet( c_nSetSize, nLoadFactor );
544 do_test_extract_with( testSet );
549 void do_test_with( Set& testSet )
551 typedef InsertThread<Set> insert_thread;
552 typedef DeleteThread<Set> delete_thread;
554 m_nInsThreadCount.store( c_nInsThreadCount, atomics::memory_order_release );
556 CppUnitMini::ThreadPool pool( *this );
557 pool.add( new insert_thread( pool, testSet ), c_nInsThreadCount );
558 pool.add( new delete_thread( pool, testSet ), c_nDelThreadCount ? c_nDelThreadCount : cds::OS::topology::processor_count());
560 CPPUNIT_MSG( " Duration=" << pool.avgDuration() );
562 size_t nInsertSuccess = 0;
563 size_t nInsertFailed = 0;
564 size_t nDeleteSuccess = 0;
565 size_t nDeleteFailed = 0;
566 for ( CppUnitMini::ThreadPool::iterator it = pool.begin(); it != pool.end(); ++it ) {
567 insert_thread * pThread = dynamic_cast<insert_thread *>( *it );
569 nInsertSuccess += pThread->m_nInsertSuccess;
570 nInsertFailed += pThread->m_nInsertFailed;
573 delete_thread * p = static_cast<delete_thread *>( *it );
574 nDeleteSuccess += p->m_nDeleteSuccess;
575 nDeleteFailed += p->m_nDeleteFailed;
579 CPPUNIT_CHECK( nInsertSuccess == c_nSetSize * c_nInsThreadCount );
580 CPPUNIT_CHECK( nInsertFailed == 0 );
582 CPPUNIT_MSG( " Totals (success/failed): \n\t"
583 << " Insert=" << nInsertSuccess << '/' << nInsertFailed << "\n\t"
584 << " Delete=" << nDeleteSuccess << '/' << nDeleteFailed << "\n\t"
589 void do_test_extract_with( Set& testSet )
591 typedef InsertThread<Set> insert_thread;
592 typedef DeleteThread<Set> delete_thread;
593 typedef ExtractThread< typename Set::gc, Set > extract_thread;
595 m_nInsThreadCount.store( c_nInsThreadCount, atomics::memory_order_release );
597 CppUnitMini::ThreadPool pool( *this );
598 pool.add( new insert_thread( pool, testSet ), c_nInsThreadCount );
599 if ( c_nDelThreadCount )
600 pool.add( new delete_thread( pool, testSet ), c_nDelThreadCount );
601 if ( c_nExtractThreadCount )
602 pool.add( new extract_thread( pool, testSet ), c_nExtractThreadCount );
604 CPPUNIT_MSG( " Duration=" << pool.avgDuration() );
606 size_t nInsertSuccess = 0;
607 size_t nInsertFailed = 0;
608 size_t nDeleteSuccess = 0;
609 size_t nDeleteFailed = 0;
610 size_t nExtractSuccess = 0;
611 size_t nExtractFailed = 0;
612 for ( CppUnitMini::ThreadPool::iterator it = pool.begin(); it != pool.end(); ++it ) {
613 insert_thread * pThread = dynamic_cast<insert_thread *>( *it );
615 nInsertSuccess += pThread->m_nInsertSuccess;
616 nInsertFailed += pThread->m_nInsertFailed;
619 delete_thread * p = dynamic_cast<delete_thread *>( *it );
621 nDeleteSuccess += p->m_nDeleteSuccess;
622 nDeleteFailed += p->m_nDeleteFailed;
625 extract_thread * pExt = dynamic_cast<extract_thread *>( *it );
627 nExtractSuccess += pExt->m_nExtractSuccess;
628 nExtractFailed += pExt->m_nExtractFailed;
633 CPPUNIT_CHECK( nInsertSuccess == c_nSetSize * c_nInsThreadCount );
634 CPPUNIT_CHECK( nInsertFailed == 0 );
636 CPPUNIT_MSG( " Totals (success/failed): \n\t"
637 << " Insert=" << nInsertSuccess << '/' << nInsertFailed << "\n\t"
638 << " Delete=" << nDeleteSuccess << '/' << nDeleteFailed << "\n\t"
639 << " Extract=" << nExtractSuccess << '/' << nExtractFailed << "\n\t"
643 template <typename Set>
644 void analyze( Set& testSet )
646 // All even keys must be in the set
648 CPPUNIT_MSG( " Check even keys..." );
649 size_t nErrorCount = 0;
650 for ( size_t n = 0; n < c_nSetSize; n +=2 ) {
651 for ( size_t i = 0; i < c_nInsThreadCount; ++i ) {
652 if ( !testSet.find( key_type(n, i) ) ) {
653 if ( ++nErrorCount < 10 ) {
654 CPPUNIT_MSG( "key " << n << "-" << i << " is not found!");
659 CPPUNIT_CHECK_EX( nErrorCount == 0, "Totals: " << nErrorCount << " keys is not found");
662 check_before_clear( testSet );
664 CPPUNIT_MSG( " Clear map (single-threaded)..." );
665 cds::OS::Timer timer;
667 CPPUNIT_MSG( " Duration=" << timer.duration() );
668 CPPUNIT_CHECK_EX( testSet.empty(), ((long long) testSet.size()) );
670 additional_check( testSet );
671 print_stat( testSet );
672 additional_cleanup( testSet );
678 CPPUNIT_MSG( "Insert thread count=" << c_nInsThreadCount
679 << " delete thread count=" << c_nDelThreadCount
680 << " set size=" << c_nSetSize
683 for ( size_t nLoadFactor = 1; nLoadFactor <= c_nMaxLoadFactor; nLoadFactor *= 2 ) {
684 CPPUNIT_MSG( "Load factor=" << nLoadFactor );
685 do_test<Set>( nLoadFactor );
686 if ( c_bPrintGCState )
694 CPPUNIT_MSG( "Insert thread count=" << c_nInsThreadCount
695 << " delete thread count=" << c_nDelThreadCount
696 << " extract thread count=" << c_nExtractThreadCount
697 << " set size=" << c_nSetSize
700 for ( size_t nLoadFactor = 1; nLoadFactor <= c_nMaxLoadFactor; nLoadFactor *= 2 ) {
701 CPPUNIT_MSG( "Load factor=" << nLoadFactor );
702 do_test_extract<Set>( nLoadFactor );
703 if ( c_bPrintGCState )
711 CPPUNIT_MSG( "Insert thread count=" << c_nInsThreadCount
712 << " delete thread count=" << c_nDelThreadCount
713 << " set size=" << c_nSetSize
722 if ( c_bPrintGCState )
727 void test_nolf_extract()
729 CPPUNIT_MSG( "Insert thread count=" << c_nInsThreadCount
730 << " delete thread count=" << c_nDelThreadCount
731 << " extract thread count=" << c_nExtractThreadCount
732 << " set size=" << c_nSetSize
737 do_test_extract_with( s );
741 if ( c_bPrintGCState )
745 void setUpParams( const CppUnitMini::TestCfg& cfg ) {
746 c_nSetSize = cfg.getULong("MapSize", static_cast<unsigned long>(c_nSetSize) );
747 c_nInsThreadCount = cfg.getULong("InsThreadCount", static_cast<unsigned long>(c_nInsThreadCount) );
748 c_nDelThreadCount = cfg.getULong("DelThreadCount", static_cast<unsigned long>(c_nDelThreadCount) );
749 c_nExtractThreadCount = cfg.getULong("ExtractThreadCount", static_cast<unsigned long>(c_nExtractThreadCount) );
750 c_nMaxLoadFactor = cfg.getULong("MaxLoadFactor", static_cast<unsigned long>(c_nMaxLoadFactor) );
751 c_bPrintGCState = cfg.getBool("PrintGCStateFlag", true );
753 if ( c_nInsThreadCount == 0 )
754 c_nInsThreadCount = cds::OS::topology::processor_count();
755 if ( c_nDelThreadCount == 0 && c_nExtractThreadCount == 0 ) {
756 c_nExtractThreadCount = cds::OS::topology::processor_count() / 2;
757 c_nDelThreadCount = cds::OS::topology::processor_count() - c_nExtractThreadCount;
760 m_arrData.resize( c_nSetSize );
761 for ( size_t i = 0; i < c_nSetSize; ++i )
763 std::random_shuffle( m_arrData.begin(), m_arrData.end() );
766 # include "set2/set_defs.h"
767 CDSUNIT_DECLARE_MichaelSet
768 CDSUNIT_DECLARE_SplitList
769 //CDSUNIT_DECLARE_StripedSet
770 //CDSUNIT_DECLARE_RefinableSet
771 CDSUNIT_DECLARE_CuckooSet
772 CDSUNIT_DECLARE_SkipListSet
773 CDSUNIT_DECLARE_EllenBinTreeSet
774 //CDSUNIT_DECLARE_StdSet
776 CPPUNIT_TEST_SUITE_( Set_DelOdd, "Map_DelOdd" )
777 CDSUNIT_TEST_MichaelSet
778 CDSUNIT_TEST_SplitList
779 CDSUNIT_TEST_SkipListSet
780 CDSUNIT_TEST_EllenBinTreeSet
781 //CDSUNIT_TEST_StripedSet
782 //CDSUNIT_TEST_RefinableSet
783 CDSUNIT_TEST_CuckooSet
784 //CDSUNIT_TEST_StdSet
785 CPPUNIT_TEST_SUITE_END()
788 CPPUNIT_TEST_SUITE_REGISTRATION( Set_DelOdd );