--- /dev/null
+/*
+ This file is a part of libcds - Concurrent Data Structures library
+
+ (C) Copyright Maxim Khizhinsky (libcds.dev@gmail.com) 2006-2016
+
+ Source code repo: http://github.com/khizmax/libcds/
+ Download: http://sourceforge.net/projects/libcds/files/
+
+ 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.
+
+ 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 THE COPYRIGHT HOLDER OR CONTRIBUTORS 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 CDSUNIT_TREE_TEST_BRONSON_AVLTREE_MAP_PTR_H
+#define CDSUNIT_TREE_TEST_BRONSON_AVLTREE_MAP_PTR_H
+
+#include "test_tree_map_data.h"
+#include <cds/container/bronson_avltree_map_rcu.h>
+#include <cds/sync/pool_monitor.h>
+#include <cds/memory/vyukov_queue_pool.h>
+
+namespace {
+
+ namespace cc = cds::container;
+
+ class bronson_avltree_map_ptr: public cds_test::tree_map_fixture
+ {
+ public:
+ static size_t const kSize = 1000;
+
+ struct value_type: public cds_test::tree_map_fixture::value_type
+ {
+ typedef cds_test::tree_map_fixture::value_type base_class;
+
+ size_t nDisposeCount = 0;
+
+ // Inheriting constructors
+ using base_class::value_type;
+ };
+
+ struct mock_disposer
+ {
+ void operator()( value_type * val ) const
+ {
+ ++val->nDisposeCount;
+ }
+ };
+
+ protected:
+ template <class Map>
+ void test( Map& m )
+ {
+ // Precondition: map is empty
+ // Postcondition: map is empty
+
+ ASSERT_TRUE( m.empty());
+ ASSERT_CONTAINER_SIZE( m, 0 );
+
+ typedef typename Map::key_type key_type;
+ typedef typename std::remove_pointer< typename Map::mapped_type >::type mapped_type;
+ size_t const kkSize = kSize;
+
+ std::vector<key_type> arrKeys;
+ for ( int i = 0; i < static_cast<int>(kkSize); ++i )
+ arrKeys.push_back( key_type( i ));
+ shuffle( arrKeys.begin(), arrKeys.end());
+
+ std::vector< value_type > arrVals;
+ for ( size_t i = 0; i < kkSize; ++i ) {
+ value_type val;
+ val.nVal = static_cast<int>( i );
+ val.strVal = std::to_string( i );
+ arrVals.push_back( val );
+ }
+
+ // insert/find
+ for ( auto const& i : arrKeys ) {
+ value_type& val( arrVals.at( i.nKey ));
+
+ ASSERT_FALSE( m.contains( i.nKey ));
+ ASSERT_FALSE( m.contains( i ));
+ ASSERT_FALSE( m.contains( other_item( i.nKey ), other_less()));
+ ASSERT_FALSE( m.find( i, []( key_type const&, mapped_type& ) {
+ ASSERT_TRUE( false );
+ } ));
+ ASSERT_FALSE( m.find( i.nKey, []( key_type const&, mapped_type& ) {
+ EXPECT_TRUE( false );
+ } ));
+ ASSERT_FALSE( m.find_with( other_item( i.nKey ), other_less(), []( key_type const&, mapped_type& ) {
+ EXPECT_TRUE( false );
+ } ));
+
+ std::pair< bool, bool > updResult;
+
+ switch ( i.nKey % 6 ) {
+ case 0:
+ ASSERT_TRUE( m.insert( i, &val ));
+ ASSERT_FALSE( m.insert( i, &val ));
+ ASSERT_TRUE( m.find( i.nKey, []( key_type const& key, mapped_type& val ) {
+ val.nVal = key.nKey;
+ val.strVal = std::to_string( key.nKey );
+ } ));
+ break;
+ case 1:
+ ASSERT_TRUE( m.insert( i.nKey, &val ));
+ ASSERT_FALSE( m.insert( i.nKey, &val ));
+ ASSERT_TRUE( m.find( i.nKey, []( key_type const& key, mapped_type& val ) {
+ val.nVal = key.nKey;
+ val.strVal = std::to_string( key.nKey );
+ } ));
+ break;
+ case 2:
+ ASSERT_TRUE( m.insert( std::to_string( i.nKey ), &val ));
+ ASSERT_FALSE( m.insert( std::to_string( i.nKey ), &val ));
+ ASSERT_TRUE( m.find( i.nKey, []( key_type const& key, mapped_type& val ) {
+ val.nVal = key.nKey;
+ val.strVal = std::to_string( key.nKey );
+ } ));
+ break;
+ case 3:
+ updResult = m.update( i.nKey, &val, false );
+ ASSERT_FALSE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+
+ updResult = m.update( i.nKey, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_TRUE( updResult.second );
+
+ updResult = m.update( i.nKey, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+ break;
+ case 4:
+ updResult = m.update( i, &val, false );
+ ASSERT_FALSE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+
+ updResult = m.update( i, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_TRUE( updResult.second );
+
+ updResult = m.update( i, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+ break;
+ case 5:
+ updResult = m.update( val.strVal, &val, false );
+ ASSERT_FALSE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+
+ updResult = m.update( val.strVal, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_TRUE( updResult.second );
+
+ updResult = m.update( val.strVal, &val );
+ ASSERT_TRUE( updResult.first );
+ ASSERT_FALSE( updResult.second );
+ break;
+ }
+
+ ASSERT_TRUE( m.contains( i.nKey ));
+ ASSERT_TRUE( m.contains( i ));
+ ASSERT_TRUE( m.contains( other_item( i.nKey ), other_less()));
+ ASSERT_TRUE( m.find( i, []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+ ASSERT_TRUE( m.find( i.nKey, []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+ ASSERT_TRUE( m.find_with( other_item( i.nKey ), other_less(), []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+ }
+ ASSERT_FALSE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, kkSize );
+
+ ASSERT_TRUE( m.check_consistency());
+
+ shuffle( arrKeys.begin(), arrKeys.end() );
+
+ // erase/find
+ for ( auto const& i : arrKeys ) {
+ value_type const& val( arrVals.at( i.nKey ) );
+
+ ASSERT_TRUE( m.contains( i.nKey ));
+ ASSERT_TRUE( m.contains( val.strVal ) );
+ ASSERT_TRUE( m.contains( i ));
+ ASSERT_TRUE( m.contains( other_item( i.nKey ), other_less()));
+ ASSERT_TRUE( m.find( i, []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+ ASSERT_TRUE( m.find( i.nKey, []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+ ASSERT_TRUE( m.find_with( other_item( i.nKey ), other_less(), []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ } ));
+
+
+ switch ( i.nKey % 8 ) {
+ case 0:
+ ASSERT_TRUE( m.erase( i ));
+ ASSERT_FALSE( m.erase( i ));
+ break;
+ case 1:
+ ASSERT_TRUE( m.erase( i.nKey ));
+ ASSERT_FALSE( m.erase( i.nKey ));
+ break;
+ case 2:
+ ASSERT_TRUE( m.erase( val.strVal ));
+ ASSERT_FALSE( m.erase( val.strVal ));
+ break;
+ case 3:
+ ASSERT_TRUE( m.erase_with( other_item( i.nKey ), other_less()));
+ ASSERT_FALSE( m.erase_with( other_item( i.nKey ), other_less()));
+ break;
+ case 4:
+ ASSERT_TRUE( m.erase( i, []( key_type const& key, mapped_type& val ) {
+ EXPECT_EQ( key.nKey, val.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), val.strVal );
+ }));
+ ASSERT_FALSE( m.erase( i, []( key_type const& /*key*/, mapped_type& /*val*/ ) {
+ EXPECT_TRUE( false );
+ }));
+ break;
+ case 5:
+ ASSERT_TRUE( m.erase( i.nKey, []( key_type const& key, mapped_type& v ) {
+ EXPECT_EQ( key.nKey, v.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), v.strVal );
+ }));
+ ASSERT_FALSE( m.erase( i.nKey, []( key_type const&, mapped_type& ) {
+ EXPECT_TRUE( false );
+ }));
+ break;
+ case 6:
+ ASSERT_TRUE( m.erase( val.strVal, []( key_type const& key, mapped_type& v ) {
+ EXPECT_EQ( key.nKey, v.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), v.strVal );
+ }));
+ ASSERT_FALSE( m.erase( val.strVal, []( key_type const&, mapped_type& ) {
+ EXPECT_TRUE( false );
+ }));
+ break;
+ case 7:
+ ASSERT_TRUE( m.erase_with( other_item( i.nKey ), other_less(), []( key_type const& key, mapped_type& v ) {
+ EXPECT_EQ( key.nKey, v.nVal );
+ EXPECT_EQ( std::to_string( key.nKey ), v.strVal );
+ }));
+ ASSERT_FALSE( m.erase_with( other_item( i.nKey ), other_less(), []( key_type const& key, mapped_type& v ) {
+ EXPECT_TRUE( false );
+ }));
+ break;
+ }
+
+ ASSERT_FALSE( m.contains( i.nKey ));
+ ASSERT_FALSE( m.contains( i ));
+ ASSERT_FALSE( m.contains( val.strVal ));
+ ASSERT_FALSE( m.contains( other_item( i.nKey ), other_less()));
+ ASSERT_FALSE( m.find( i, []( key_type const& /*key*/, mapped_type& /*val*/ ) {
+ ASSERT_TRUE( false );
+ } ));
+ ASSERT_FALSE( m.find( i.nKey, []( key_type const& /*key*/, mapped_type& /*val*/ ) {
+ EXPECT_TRUE( false );
+ } ));
+ ASSERT_FALSE( m.find_with( other_item( i.nKey ), other_less(), []( key_type const& /*key*/, mapped_type& /*val*/ ) {
+ EXPECT_TRUE( false );
+ } ));
+ }
+ ASSERT_TRUE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, 0 );
+
+ Map::gc::force_dispose();
+ for ( auto const& item: arrVals ) {
+ EXPECT_EQ( item.nDisposeCount, 1 );
+ }
+
+ // clear
+ for ( auto const& i : arrKeys ) {
+ value_type& val( arrVals.at( i.nKey ) );
+ ASSERT_TRUE( m.insert( i, &val ));
+ }
+
+ ASSERT_FALSE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, kkSize );
+
+ m.clear();
+
+ ASSERT_TRUE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, 0 );
+
+ Map::gc::force_dispose();
+ for ( auto const& item : arrVals ) {
+ EXPECT_EQ( item.nDisposeCount, 2 );
+ }
+
+ ASSERT_TRUE( m.check_consistency() );
+
+
+ // RCU-specific test related to exempt_ptr
+ typedef typename Map::exempt_ptr exempt_ptr;
+ exempt_ptr xp;
+
+ // extract
+ for ( auto const& i : arrKeys ) {
+ value_type& val( arrVals.at( i.nKey ) );
+ ASSERT_TRUE( m.insert( i, &val ) );
+ }
+ ASSERT_FALSE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, kkSize );
+
+ for ( auto const& i : arrKeys ) {
+ value_type const& val = arrVals.at( i.nKey );
+
+ EXPECT_TRUE( m.contains( i.nKey ) );
+
+ switch ( i.nKey % 4 ) {
+ case 0:
+ xp = m.extract( i.nKey );
+ break;
+ case 1:
+ xp = m.extract( i );
+ break;
+ case 2:
+ xp = m.extract( val.strVal );
+ break;
+ case 3:
+ xp = m.extract_with( other_item( i.nKey ), other_less() );
+ break;
+ }
+ ASSERT_FALSE( !xp );
+ EXPECT_EQ( xp->nVal, i.nKey );
+
+ EXPECT_FALSE( m.contains( i.nKey ) );
+ }
+ ASSERT_TRUE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, 0 );
+ xp.release();
+
+ Map::gc::force_dispose();
+ for ( auto const& item : arrVals ) {
+ EXPECT_EQ( item.nDisposeCount, 3 );
+ }
+
+ // extract_min
+ shuffle( arrKeys.begin(), arrKeys.end() );
+ for ( auto const& i : arrKeys ) {
+ value_type& val( arrVals.at( i.nKey ) );
+ ASSERT_TRUE( m.insert( i, &val ) );
+ }
+ ASSERT_FALSE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, kkSize );
+ ASSERT_TRUE( m.check_consistency() );
+
+ int nPrevKey = -1;
+ size_t nCount = 0;
+ while ( !m.empty() ) {
+ switch ( nCount % 3 ) {
+ case 0:
+ xp = m.extract_min();
+ break;
+ case 1:
+ xp = m.extract_min( [nPrevKey]( key_type const& k ) {
+ EXPECT_EQ( k.nKey, nPrevKey + 1 );
+ } );
+ break;
+ case 2:
+ {
+ key_type key;
+ xp = m.extract_min_key( key );
+ EXPECT_EQ( key.nKey, nPrevKey + 1 );
+ }
+ break;
+ }
+ ASSERT_FALSE( !xp );
+ EXPECT_EQ( xp->nVal, nPrevKey + 1 );
+
+ nPrevKey = xp->nVal;
+ ++nCount;
+ }
+ ASSERT_TRUE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, 0 );
+ EXPECT_EQ( nCount, kkSize );
+ xp.release();
+
+ Map::gc::force_dispose();
+ for ( auto const& item : arrVals ) {
+ EXPECT_EQ( item.nDisposeCount, 4 );
+ }
+
+ // extract_max
+ shuffle( arrKeys.begin(), arrKeys.end() );
+ for ( auto const& i : arrKeys ) {
+ value_type& val( arrVals.at( i.nKey ) );
+ ASSERT_TRUE( m.insert( i, &val ) );
+ }
+ ASSERT_FALSE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, kkSize );
+ ASSERT_TRUE( m.check_consistency() );
+
+ nPrevKey = static_cast<int>(kkSize);
+ nCount = 0;
+ while ( !m.empty() ) {
+ switch ( nCount % 3 ) {
+ case 0:
+ xp = m.extract_max();
+ break;
+ case 1:
+ xp = m.extract_max( [nPrevKey]( key_type const& k ) {
+ EXPECT_EQ( k.nKey, nPrevKey - 1 );
+ } );
+ break;
+ case 2:
+ {
+ key_type key;
+ xp = m.extract_max_key( key );
+ EXPECT_EQ( key.nKey, nPrevKey - 1 );
+ }
+ break;
+ }
+ ASSERT_FALSE( !xp );
+ EXPECT_EQ( xp->nVal, nPrevKey - 1 );
+
+ nPrevKey = xp->nVal;
+ ++nCount;
+ }
+ ASSERT_TRUE( m.empty() );
+ ASSERT_CONTAINER_SIZE( m, 0 );
+ EXPECT_EQ( nCount, kkSize );
+ xp.release();
+
+ Map::gc::force_dispose();
+ for ( auto const& item : arrVals ) {
+ EXPECT_EQ( item.nDisposeCount, 5 );
+ }
+
+ // extract min/max on empty map
+ xp = m.extract_min();
+ EXPECT_TRUE( !xp );
+ xp = m.extract_min( []( key_type const& ) { EXPECT_FALSE( true ); } );
+ EXPECT_TRUE( !xp );
+ xp = m.extract_max();
+ EXPECT_TRUE( !xp );
+ xp = m.extract_max( []( key_type const& ) { EXPECT_FALSE( true ); } );
+ EXPECT_TRUE( !xp );
+ {
+ key_type key;
+ key.nKey = -100;
+ xp = m.extract_min_key( key );
+ EXPECT_TRUE( !xp );
+ EXPECT_EQ( key.nKey, -100 );
+ xp = m.extract_max_key( key );
+ EXPECT_TRUE( !xp );
+ EXPECT_EQ( key.nKey, -100 );
+ }
+
+ // checking empty map
+ ASSERT_TRUE( m.check_consistency() );
+ }
+ };
+
+ template <class RCU>
+ class BronsonAVLTreeMapPtr: public bronson_avltree_map_ptr
+ {
+ typedef bronson_avltree_map_ptr base_class;
+ public:
+ typedef cds::urcu::gc<RCU> rcu_type;
+
+ protected:
+ void SetUp()
+ {
+ RCU::Construct();
+ cds::threading::Manager::attachThread();
+ }
+
+ void TearDown()
+ {
+ cds::threading::Manager::detachThread();
+ RCU::Destruct();
+ }
+ };
+
+ struct bronson_traits: public cds::container::bronson_avltree::traits
+ {
+ typedef bronson_avltree_map_ptr::mock_disposer disposer;
+ };
+
+ TYPED_TEST_CASE_P( BronsonAVLTreeMapPtr );
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, compare )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*,
+ typename cc::bronson_avltree::make_traits<
+ cds::opt::compare< typename TestFixture::cmp >
+ ,cds::intrusive::opt::disposer< bronson_avltree_map_ptr::mock_disposer >
+ >::type
+ > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, less )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*,
+ typename cc::bronson_avltree::make_traits<
+ cds::opt::less< typename TestFixture::less >
+ , cds::intrusive::opt::disposer< bronson_avltree_map_ptr::mock_disposer >
+ >::type
+ > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, cmpmix )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*,
+ typename cc::bronson_avltree::make_traits<
+ cds::opt::less< typename TestFixture::less >
+ ,cds::opt::compare< typename TestFixture::cmp >
+ , cds::intrusive::opt::disposer< bronson_avltree_map_ptr::mock_disposer >
+ >::type
+ > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, stat )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::less less;
+ typedef cc::bronson_avltree::stat<> stat;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, item_counting )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ struct bronson_relaxed_insert_traits: public bronson_traits
+ {
+ static bool const relaxed_insert = true;
+ };
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, relaxed_insert )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_relaxed_insert_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, seq_cst )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ typedef cds::opt::v::sequential_consistent memory_model;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, sync_monitor )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ typedef cds::sync::pool_monitor< cds::memory::vyukov_queue_pool< std::mutex >> sync_monitor;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, lazy_sync_monitor )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ typedef cds::sync::pool_monitor< cds::memory::lazy_vyukov_queue_pool< std::mutex >> sync_monitor;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, rcu_check_deadlock )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ typedef cds::sync::pool_monitor< cds::memory::vyukov_queue_pool< std::mutex >> sync_monitor;
+ typedef cds::opt::v::rcu_assert_deadlock rcu_check_deadlock;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ TYPED_TEST_P( BronsonAVLTreeMapPtr, rcu_no_check_deadlock )
+ {
+ typedef typename TestFixture::rcu_type rcu_type;
+ typedef typename TestFixture::key_type key_type;
+ typedef typename TestFixture::value_type value_type;
+
+ struct map_traits: public bronson_traits
+ {
+ typedef typename TestFixture::cmp compare;
+ typedef cds::atomicity::item_counter item_counter;
+ typedef cds::sync::pool_monitor< cds::memory::lazy_vyukov_queue_pool< std::mutex >> sync_monitor;
+ typedef cds::opt::v::rcu_no_check_deadlock rcu_check_deadlock;
+ };
+
+ typedef cc::BronsonAVLTreeMap< rcu_type, key_type, value_type*, map_traits > map_type;
+
+ map_type m;
+ this->test( m );
+ }
+
+ REGISTER_TYPED_TEST_CASE_P( BronsonAVLTreeMapPtr,
+ compare, less, cmpmix, stat, item_counting, relaxed_insert, seq_cst, sync_monitor, lazy_sync_monitor, rcu_check_deadlock, rcu_no_check_deadlock
+ );
+
+
+} // namespace
+
+#endif // #ifndef CDSUNIT_TREE_TEST_BRONSON_AVLTREE_MAP_PTR_H
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