Refactors queue push pop

[libcds.git] / test / stress / queue / push_pop.cpp

diff --git a/test/stress/queue/push_pop.cpp b/test/stress/queue/push_pop.cpp
index 7c754c3624a31c901abf3f8e4952f47eb0bb7717..b12a19982c3dfab794fe55c27e620344890ee6dc 100644 (file)
--- a/test/stress/queue/push_pop.cpp
+++ b/test/stress/queue/push_pop.cpp
@@ -40,6 +40,7 @@ namespace {
     static size_t s_nConsumerThreadCount = 4;
     static size_t s_nProducerThreadCount = 4;
     static size_t s_nQueueSize = 4000000;
+    static size_t s_nVyukovQueueSize = 40000;
     static size_t s_nHeavyValueSize = 100;
 
     static std::atomic<size_t> s_nProducerDone( 0 );
@@ -200,8 +201,8 @@ namespace {
         {
             cds_test::thread_pool& pool = get_pool();
 
-            typedef Consumer<Queue> Consumer;
-            typedef Producer<Queue> Producer;
+            typedef Consumer<Queue> consumer_type;
+            typedef Producer<Queue> producer_type;
 
             size_t nPostTestPops = 0;
             {
@@ -215,12 +216,12 @@ namespace {
             size_t nPoppedItems = 0;
             size_t nPushFailed = 0;
 
-            std::vector< Consumer * > arrConsumer;
+            std::vector< consumer_type * > arrConsumer;
 
             for ( size_t i = 0; i < pool.size(); ++i ) {
                 cds_test::thread& thr = pool.get(i);
                 if ( thr.type() == consumer_thread ) {
-                    Consumer& consumer = static_cast<Consumer&>( thr );
+                    consumer_type& consumer = static_cast<consumer_type&>( thr );
                     nTotalPops += consumer.m_nPopped;
                     nPopFalse += consumer.m_nPopEmpty;
                     arrConsumer.push_back( &consumer );
@@ -235,7 +236,7 @@ namespace {
                 else {
                     assert( thr.type() == producer_thread );
 
-                    Producer& producer = static_cast<Producer&>( thr );
+                    producer_type& producer = static_cast<producer_type&>( thr );
                     nPushFailed += producer.m_nPushFailed;
                     EXPECT_EQ( producer.m_nPushFailed, 0u ) << "producer_thread_no " << i;
                 }
@@ -325,6 +326,7 @@ namespace {
             s_nConsumerThreadCount = cfg.get_size_t( "ConsumerCount", s_nConsumerThreadCount );
             s_nProducerThreadCount = cfg.get_size_t( "ProducerCount", s_nProducerThreadCount );
             s_nQueueSize = cfg.get_size_t( "QueueSize", s_nQueueSize );
+            s_nVyukovQueueSize = cfg.get_size_t( "VyukovQueueSize", s_nVyukovQueueSize );
             s_nHeavyValueSize = cfg.get_size_t( "HeavyValueSize", s_nHeavyValueSize );
 
             if ( s_nConsumerThreadCount == 0u )
@@ -349,20 +351,18 @@ namespace {
     CDSSTRESS_MoirQueue( simple_queue_push_pop )
     CDSSTRESS_BasketQueue( simple_queue_push_pop )
     CDSSTRESS_OptimsticQueue( simple_queue_push_pop )
-    CDSSTRESS_FCQueue( simple_queue_push_pop )
-    CDSSTRESS_FCDeque( simple_queue_push_pop )
-    CDSSTRESS_FCDeque_HeavyValue( fc_with_heavy_value )
     CDSSTRESS_RWQueue( simple_queue_push_pop )
-    CDSSTRESS_StdQueue( simple_queue_push_pop )
 
 #undef CDSSTRESS_Queue_F
-#define CDSSTRESS_Queue_F( test_fixture, type_name, level ) \
+#define CDSSTRESS_Queue_F( test_fixture, type_name ) \
     TEST_F( test_fixture, type_name ) \
     { \
-        if ( !check_detail_level( level )) return; \
+        size_t old_queue_size = s_nQueueSize; \
+        s_nQueueSize = s_nVyukovQueueSize; \
         typedef queue::Types< value_type >::type_name queue_type; \
         queue_type queue( s_nQueueSize ); \
         test( queue ); \
+        s_nQueueSize = old_queue_size; \
     }
 
     CDSSTRESS_VyukovQueue( simple_queue_push_pop )
@@ -415,18 +415,27 @@ namespace {
         }
     };
 
-#define CDSSTRESS_Queue_F( test_fixture, type_name, level ) \
+#define CDSSTRESS_Queue_F( test_fixture, type_name ) \
     TEST_P( test_fixture, type_name ) \
     { \
-        if ( !check_detail_level( level )) return; \
         typedef typename queue::Types<value_type>::type_name queue_type; \
         test< queue_type >(); \
     }
 
     CDSSTRESS_SegmentedQueue( segmented_queue_push_pop )
 
+#ifdef CDSTEST_GTEST_INSTANTIATE_TEST_CASE_P_HAS_4TH_ARG
+    static std::string get_test_parameter_name( testing::TestParamInfo<size_t> const& p )
+    {
+        return std::to_string( p.param );
+    }
+    INSTANTIATE_TEST_CASE_P( SQ,
+        segmented_queue_push_pop,
+        ::testing::ValuesIn( segmented_queue_push_pop::get_test_parameters()), get_test_parameter_name );
+#else
     INSTANTIATE_TEST_CASE_P( SQ,
         segmented_queue_push_pop,
         ::testing::ValuesIn( segmented_queue_push_pop::get_test_parameters()));
+#endif
 
 } // namespace