Example #1
0
    void Set_DelOdd::setUpParams( const CppUnitMini::TestCfg& cfg )
    {
        c_nSetSize = cfg.getSizeT("MapSize", c_nSetSize );
        c_nInsThreadCount = cfg.getSizeT("InsThreadCount", c_nInsThreadCount);
        c_nDelThreadCount = cfg.getSizeT("DelThreadCount", c_nDelThreadCount);
        c_nExtractThreadCount = cfg.getSizeT("ExtractThreadCount", c_nExtractThreadCount);
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor);
        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", true );

        c_nCuckooInitialSize = cfg.getSizeT("CuckooInitialSize", c_nCuckooInitialSize );
        c_nCuckooProbesetSize = cfg.getSizeT("CuckooProbesetSize", c_nCuckooProbesetSize );
        c_nCuckooProbesetThreshold = cfg.getSizeT("CuckooProbesetThreshold", c_nCuckooProbesetThreshold );

        c_nFeldmanSet_HeadBits = cfg.getSizeT("FeldmanMapHeadBits", c_nFeldmanSet_HeadBits);
        c_nFeldmanSet_ArrayBits = cfg.getSizeT("FeldmanMapArrayBits", c_nFeldmanSet_ArrayBits);

        if ( c_nInsThreadCount == 0 )
            c_nInsThreadCount = std::thread::hardware_concurrency();
        if ( c_nDelThreadCount == 0 && c_nExtractThreadCount == 0 ) {
            c_nExtractThreadCount = std::thread::hardware_concurrency() / 2;
            c_nDelThreadCount = std::thread::hardware_concurrency() - c_nExtractThreadCount;
        }

        m_arrData.resize( c_nSetSize );
        for ( size_t i = 0; i < c_nSetSize; ++i )
            m_arrData[i] = i;
        shuffle( m_arrData.begin(), m_arrData.end() );
    }
Example #2
0
    void Map_InsDel_int::setUpParams( const CppUnitMini::TestCfg& cfg ) {
        c_nInsertThreadCount = cfg.getSizeT("InsertThreadCount", c_nInsertThreadCount );
        c_nDeleteThreadCount = cfg.getSizeT("DeleteThreadCount", c_nDeleteThreadCount );
        c_nThreadPassCount = cfg.getSizeT("ThreadPassCount", c_nThreadPassCount );
        c_nMapSize = cfg.getSizeT("MapSize", c_nMapSize );
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor );

        c_nCuckooInitialSize = cfg.getULong("CuckooInitialSize", static_cast<unsigned long>(c_nCuckooInitialSize) );
        c_nCuckooProbesetSize = cfg.getULong("CuckooProbesetSize", static_cast<unsigned long>(c_nCuckooProbesetSize) );
        c_nCuckooProbesetThreshold = cfg.getULong("CuckooProbesetThreshold", static_cast<unsigned long>(c_nCuckooProbesetThreshold) );

        c_nFeldmanMap_HeadBits = cfg.getULong("FeldmanMapHeadBits", static_cast<unsigned long>(c_nFeldmanMap_HeadBits) );
        c_nFeldmanMap_ArrayBits = cfg.getULong("FeldmanMapArrayBits", static_cast<unsigned long>(c_nFeldmanMap_ArrayBits) );

        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", c_bPrintGCState );

        if ( c_nInsertThreadCount == 0 )
            c_nInsertThreadCount = cds::OS::topology::processor_count();
        if ( c_nDeleteThreadCount == 0 )
            c_nDeleteThreadCount = cds::OS::topology::processor_count();

        m_arrValues.clear();
        m_arrValues.reserve( c_nMapSize );
        for ( size_t i = 0; i < c_nMapSize; ++i )
            m_arrValues.push_back( i );
        shuffle( m_arrValues.begin(), m_arrValues.end() );
    }
Example #3
0
    void Map_DelOdd::setUpParams( const CppUnitMini::TestCfg& cfg ) {
        c_nMapSize = cfg.getSizeT("MapSize", c_nMapSize );
        c_nInsThreadCount = cfg.getSizeT("InsThreadCount", c_nInsThreadCount );
        c_nDelThreadCount = cfg.getSizeT("DelThreadCount", c_nDelThreadCount );
        c_nExtractThreadCount = cfg.getSizeT("ExtractThreadCount", c_nExtractThreadCount );
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor );
        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", true );

        c_nCuckooInitialSize = cfg.getSizeT("CuckooInitialSize", c_nCuckooInitialSize );
        c_nCuckooProbesetSize = cfg.getSizeT("CuckooProbesetSize", c_nCuckooProbesetSize );
        c_nCuckooProbesetThreshold = cfg.getSizeT("CuckooProbesetThreshold", c_nCuckooProbesetThreshold );

        c_nFeldmanMap_HeadBits = cfg.getSizeT("FeldmanMapHeadBits", c_nFeldmanMap_HeadBits);
        c_nFeldmanMap_ArrayBits = cfg.getSizeT("FeldmanMapArrayBits", c_nFeldmanMap_ArrayBits);

        if ( c_nInsThreadCount == 0 )
            c_nInsThreadCount = cds::OS::topology::processor_count();
        if ( c_nDelThreadCount == 0 && c_nExtractThreadCount == 0 ) {
            c_nExtractThreadCount = cds::OS::topology::processor_count() / 2;
            c_nDelThreadCount = cds::OS::topology::processor_count() - c_nExtractThreadCount;
        }

        m_arrInsert.resize( c_nMapSize );
        m_arrRemove.resize( c_nMapSize );
        for ( size_t i = 0; i < c_nMapSize; ++i ) {
            m_arrInsert[i] = i;
            m_arrRemove[i] = i;
        }
        shuffle( m_arrInsert.begin(), m_arrInsert.end());
        shuffle( m_arrRemove.begin(), m_arrRemove.end());
    }
Example #4
0
 void setUpParams( const CppUnitMini::TestCfg& cfg )
 {
     s_nPassCount = cfg.getULong( "PassCount", 1000 );
     s_nBlockCount = cfg.getULong( "BlockCount", 10000 );
     s_nMinBlockSize = cfg.getULong( "MinBlockSize", 16 );
     s_nMaxBlockSize = cfg.getULong( "MaxBlockSize", 1024 );
     s_nMaxThreadCount = cfg.getUInt( "MaxThreadCount", 32 );
     if ( s_nMaxThreadCount == 0 )
         s_nMaxThreadCount = cds::OS::topology::processor_count() * 2;
 }
Example #5
0
    void Map_InsDel_string::setUpParams( const CppUnitMini::TestCfg& cfg )
    {
        c_nInsertThreadCount = cfg.getSizeT("InsertThreadCount", c_nInsertThreadCount );
        c_nDeleteThreadCount = cfg.getSizeT("DeleteThreadCount", c_nDeleteThreadCount );
        c_nThreadPassCount = cfg.getSizeT("ThreadPassCount", c_nThreadPassCount );
        c_nMapSize = cfg.getSizeT("MapSize", c_nMapSize );
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor );
        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", c_bPrintGCState );

        c_nCuckooInitialSize = cfg.getSizeT("CuckooInitialSize", c_nCuckooInitialSize);
        c_nCuckooProbesetSize = cfg.getSizeT("CuckooProbesetSize", c_nCuckooProbesetSize);
        c_nCuckooProbesetThreshold = cfg.getSizeT("CuckooProbesetThreshold", c_nCuckooProbesetThreshold);

        c_nFeldmanMap_HeadBits = cfg.getSizeT("FeldmanMapHeadBits", c_nFeldmanMap_HeadBits);
        c_nFeldmanMap_ArrayBits = cfg.getSizeT("FeldmanMapArrayBits", c_nFeldmanMap_ArrayBits);

        if ( c_nInsertThreadCount == 0 )
            c_nInsertThreadCount = std::thread::hardware_concurrency();
        if ( c_nDeleteThreadCount == 0 )
            c_nDeleteThreadCount = std::thread::hardware_concurrency();
    }
 void Map_find_string::setUpParams( const CppUnitMini::TestCfg& cfg )
 {
     c_nThreadCount = cfg.getSizeT("ThreadCount", c_nThreadCount );
     c_nMapSize = cfg.getSizeT("MapSize", c_nMapSize );
     c_nPercentExists = cfg.getSizeT("PercentExists", c_nPercentExists );
     c_nPassCount = cfg.getSizeT("PassCount", c_nPassCount );
     c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor );
     c_bPrintGCState = cfg.getBool("PrintGCStateFlag", true );
 }
Example #7
0
 void setUpParams( const CppUnitMini::TestCfg& cfg ) {
     s_nThreadCount = cfg.getULong("ThreadCount", 8 );
     s_nPassCount = cfg.getULong("PassCount", 1000000 );
 }
Example #8
0
 void setUpParams( const CppUnitMini::TestCfg& cfg )
 {
     s_nPassCount = cfg.getULong( "PassCount", 10 );
     s_nAllocPerPass = cfg.getULong( "AllocPerPass", 1024 ) * 1024 * 1024;
 }
Example #9
0
    void Set_InsDelFind::setUpParams( const CppUnitMini::TestCfg& cfg )
    {
        c_nSetSize = cfg.getSizeT("InitialMapSize", c_nSetSize );
        c_nThreadCount = cfg.getSizeT("ThreadCount", c_nThreadCount );
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor );
        c_nInsertPercentage = cfg.getUInt("InsertPercentage", c_nInsertPercentage );
        c_nDeletePercentage = cfg.getUInt("DeletePercentage", c_nDeletePercentage );
        c_nDuration = cfg.getUInt("Duration", c_nDuration );
        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", c_bPrintGCState );

        c_nCuckooInitialSize = cfg.getSizeT("CuckooInitialSize", c_nCuckooInitialSize );
        c_nCuckooProbesetSize = cfg.getSizeT("CuckooProbesetSize", c_nCuckooProbesetSize );
        c_nCuckooProbesetThreshold = cfg.getSizeT("CuckooProbesetThreshold", c_nCuckooProbesetThreshold );

        c_nFeldmanSet_HeadBits = cfg.getSizeT("FeldmanMapHeadBits", c_nFeldmanSet_HeadBits);
        c_nFeldmanSet_ArrayBits = cfg.getSizeT("FeldmanMapArrayBits", c_nFeldmanSet_ArrayBits);

        if ( c_nThreadCount == 0 )
            c_nThreadCount = std::thread::hardware_concurrency();

        CPPUNIT_ASSERT( c_nInsertPercentage + c_nDeletePercentage <= 100 );

        actions * pFirst = m_arrShuffle;
        actions * pLast = m_arrShuffle + c_nInsertPercentage;
        std::fill( pFirst, pLast, do_insert );
        pFirst = pLast;
        pLast += c_nDeletePercentage;
        std::fill( pFirst, pLast, do_delete );
        pFirst = pLast;
        pLast = m_arrShuffle + sizeof(m_arrShuffle)/sizeof(m_arrShuffle[0]);
        std::fill( pFirst, pLast, do_find );
        shuffle( m_arrShuffle, pLast );
    }
Example #10
0
    void Map_find_string::setUpParams( const CppUnitMini::TestCfg& cfg )
    {
        c_nThreadCount = cfg.getSizeT("ThreadCount", c_nThreadCount );
        c_nMapSize = cfg.getSizeT("MapSize", c_nMapSize);
        c_nPercentExists = cfg.getSizeT("PercentExists", c_nPercentExists);
        c_nPassCount = cfg.getSizeT("PassCount", c_nPassCount);
        c_nMaxLoadFactor = cfg.getSizeT("MaxLoadFactor", c_nMaxLoadFactor);
        c_bPrintGCState = cfg.getBool("PrintGCStateFlag", c_bPrintGCState );

        c_nCuckooInitialSize = cfg.getSizeT("CuckooInitialSize", c_nCuckooInitialSize);
        c_nCuckooProbesetSize = cfg.getSizeT("CuckooProbesetSize", c_nCuckooProbesetSize);
        c_nCuckooProbesetThreshold = cfg.getSizeT("CuckooProbesetThreshold", c_nCuckooProbesetThreshold);

        c_nFeldmanMap_HeadBits = cfg.getSizeT("FeldmanMapHeadBits", c_nFeldmanMap_HeadBits);
        c_nFeldmanMap_ArrayBits = cfg.getSizeT("FeldmanMapArrayBits", c_nFeldmanMap_ArrayBits);

        if ( c_nThreadCount == 0 )
            c_nThreadCount = std::thread::hardware_concurrency();

        CPPUNIT_MSG( "Generating test data...\n");
        cds::OS::Timer    timer;
        generateSequence();
        CPPUNIT_MSG( "   Duration=" << timer.duration() << "\n" );

    }