s_nFCPassCount = cfg.get_uint( "FCPassCount", s_nFCPassCount );
s_nFCCompactFactor = cfg.get_uint( "FCCompactFactor", s_nFCCompactFactor );
- if ( s_nReaderThreadCount == 0 )
+ if ( s_nReaderThreadCount == 0u )
s_nReaderThreadCount = 1;
- if ( s_nWriterThreadCount == 0 )
+ if ( s_nWriterThreadCount == 0u )
s_nWriterThreadCount = 1;
- if ( s_nQueueSize == 0 )
+ if ( s_nQueueSize == 0u )
s_nQueueSize = 1000;
}
nTotalPops += consumer.m_nPopped;
nPopFalse += consumer.m_nPopEmpty;
arrReaders.push_back( &consumer );
- EXPECT_EQ( consumer.m_nBadWriter, 0 ) << "consumer " << (i - s_nWriterThreadCount);
+ EXPECT_EQ( consumer.m_nBadWriter, 0u ) << "consumer " << (i - s_nWriterThreadCount);
size_t nPopped = 0;
for ( size_t n = 0; n < s_nWriterThreadCount; ++n )
Producer<Queue>& producer = static_cast<Producer<Queue>&>( thr );
nPushFailed += producer.m_nPushFailed;
if ( !std::is_base_of<cds::bounded_container, Queue>::value ) {
- EXPECT_EQ( producer.m_nPushFailed, 0 ) << "producer " << i;
+ EXPECT_EQ( producer.m_nPushFailed, 0u ) << "producer " << i;
}
}
}
}
}
- EXPECT_EQ( arrData[0], 0 ) << "Writer " << nWriter;
+ EXPECT_EQ( arrData[0], 0u ) << "Writer " << nWriter;
EXPECT_EQ( arrData[arrData.size() - 1], s_nThreadPushCount - 1 ) << "Writer " << nWriter;
}
}
if ( it->nConsumer == c_nBadConsumer )
++nBadConsumerCount;
}
- EXPECT_EQ( nBadConsumerCount, 0 );
+ EXPECT_EQ( nBadConsumerCount, 0u );
}
analyze( q, nLeftOffset, nRightOffset );