InPortPullConnectorTests.cpp
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00001 // -*- C++ -*-
00022 #ifndef InPortPullConnector_cpp
00023 #define InPortPullConnector_cpp
00024 
00025 #include <cppunit/ui/text/TestRunner.h>
00026 #include <cppunit/TextOutputter.h>
00027 #include <cppunit/extensions/TestFactoryRegistry.h>
00028 #include <cppunit/extensions/HelperMacros.h>
00029 #include <cppunit/TestAssert.h>
00030 
00031 #include <coil/Properties.h>
00032 
00033 #include <rtm/idl/BasicDataTypeSkel.h>
00034 #include <rtm/idl/DataPortSkel.h>
00035 #include <rtm/Typename.h>
00036 #include <rtm/InPortPullConnector.h>
00037 #include <rtm/CdrBufferBase.h>
00038 #include <rtm/CORBA_SeqUtil.h>
00039 #include <rtm/NVUtil.h>
00040 #include <rtm/ConnectorBase.h>
00041 #include <rtm/DataPortStatus.h>
00042 #include <rtm/InPortBase.h>
00043 #include <rtm/InPortConsumer.h>
00044 #include <rtm/OutPortBase.h>
00045 #include <rtm/PortAdmin.h>
00046 #include <rtm/CorbaConsumer.h>
00047 #include <rtm/PublisherBase.h>
00048 #include <rtm/BufferBase.h>
00049 #include <rtm/OutPortConsumer.h>
00050 #include <rtm/Manager.h>
00051 
00056 namespace InPortPullConnector
00057 {
00058 
00059   class DataListener
00060     : public RTC::ConnectorDataListenerT<RTC::TimedLong>
00061   {
00062   public:
00063     DataListener(const char* name) : m_name(name) {}
00064     virtual ~DataListener()
00065     {
00066       //std::cout << "dtor of " << m_name << std::endl;
00067     }
00068 
00069     virtual void operator()(const RTC::ConnectorInfo& info,
00070                             const RTC::TimedLong& data)
00071     {
00072       //std::cout << "------------------------------"   << std::endl;
00073       //std::cout << "Data Listener: " << m_name       << std::endl;
00074       //std::cout << "Profile::name: " << info.name    << std::endl;
00075       //std::cout << "------------------------------"   << std::endl;
00076     };
00077     std::string m_name;
00078   };
00079 
00080 
00081   class ConnListener
00082     : public RTC::ConnectorListener
00083   {
00084   public:
00085     ConnListener(const char* name) : m_name(name) {}
00086     virtual ~ConnListener()
00087     {
00088       //std::cout << "dtor of " << m_name << std::endl;
00089     }
00090 
00091     virtual void operator()(const RTC::ConnectorInfo& info)
00092     {
00093       std::cout << "------------------------------"   << std::endl;
00094       std::cout << "Connector Listener: " << m_name       << std::endl;
00095       std::cout << "Profile::name:      " << info.name    << std::endl;
00096       std::cout << "------------------------------"   << std::endl;
00097     };
00098     std::string m_name;
00099   };
00100 
00106   class Logger
00107   {
00108   public:
00109     void log(const std::string& msg)
00110     {
00111 
00112       m_log.push_back(msg);
00113     }
00114 
00115     int countLog(const std::string& msg)
00116     {
00117       int count = 0;
00118       for (int i = 0; i < (int) m_log.size(); ++i)
00119         {
00120           if (m_log[i] == msg) ++count;
00121         }
00122      return count;
00123     }
00124                 
00125   private:
00126     std::vector<std::string> m_log;
00127   };
00133   template <class DataType>
00134   class RingBufferMock
00135     : public RTC::BufferBase<DataType>
00136   {
00137   public:
00138     BUFFERSTATUS_ENUM
00139       RingBufferMock(long int length = 8)
00140       {
00141           m_logger = NULL;
00142           logger.log("RingBufferMock::Constructor");
00143           m_read_return_value = BUFFER_OK;
00144           m_write_return_value = BUFFER_OK;
00145       }
00146       virtual ~RingBufferMock(void)
00147       {
00148       }
00149   
00150     
00155       void set_read_return_value(::RTC::BufferStatus::Enum value)
00156       {
00157           m_read_return_value = value;
00158       }
00163       void set_write_return_value(::RTC::BufferStatus::Enum value)
00164       {
00165           m_write_return_value = value;
00166       }
00171       virtual void init(const coil::Properties& prop)
00172       {
00173       }
00178       virtual size_t length(void) const
00179       {
00180           return 0;
00181       }
00186       virtual ReturnCode length(size_t n)
00187       {
00188           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00189       }
00194       virtual ReturnCode reset()
00195       {
00196           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00197       }
00202       virtual DataType* wptr(long int n = 0)
00203       {
00204           return &m_data;
00205       }
00210       virtual ReturnCode advanceWptr(long int n = 1)
00211       {
00212           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00213       }
00218       virtual ReturnCode put(const DataType& value)
00219       {
00220           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00221       }
00226       virtual ReturnCode write(const DataType& value,
00227                                long int sec = -1, long int nsec = -1)
00228       {
00229           if (m_logger != NULL)
00230           {
00231               m_logger->log("RingBufferMock::write");
00232           }
00233           logger.log("RingBufferMock::write");
00234           return m_write_return_value; //BUFFER_OK;
00235       }
00240       virtual size_t writable() const
00241       {
00242           return 0;
00243       }
00248       virtual bool full(void) const
00249       {
00250           return true;
00251       }
00256       virtual DataType* rptr(long int n = 0)
00257       {
00258           return &m_data;
00259       }
00264       virtual ReturnCode advanceRptr(long int n = 1)
00265       {
00266           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00267       }
00272       virtual ReturnCode get(DataType& value)
00273       {
00274           return ::RTC::BufferStatus::BUFFER_OK; //BUFFER_OK;
00275       }
00280       virtual DataType&  get()
00281       {
00282           return m_data;
00283       }
00288       virtual ReturnCode read(DataType& value,
00289                               long int sec = -1, long int nsec = -1)
00290       {
00291           if (m_logger != NULL)
00292           {
00293               m_logger->log("RingBufferMock::read");
00294           }
00295           logger.log("RingBufferMock::read");
00296           return m_read_return_value; //BUFFER_OK;
00297       }
00302       virtual size_t readable() const
00303       {
00304           return 0;
00305       }
00310       virtual bool empty(void) const
00311       {
00312           return true;
00313       }
00318       void setLogger(Logger* logger)
00319       {
00320           m_logger = logger;
00321       }
00322 
00323       static Logger logger;
00324   private:
00325       DataType m_data;
00326       std::vector<DataType> m_buffer;
00327       Logger* m_logger;
00328       ::RTC::BufferStatus::Enum m_read_return_value;
00329       ::RTC::BufferStatus::Enum m_write_return_value;
00330   };
00331 
00332   template <class DataType>
00333   Logger RingBufferMock<DataType>::logger;
00334   typedef RingBufferMock<cdrMemoryStream> CdrRingBufferMock;
00335 
00341   class OutPortCorbaCdrConsumerMock
00342     : public RTC::OutPortConsumer,
00343       public RTC::CorbaConsumer< ::OpenRTM::OutPortCdr >
00344   {
00345 
00346   public:
00347       OutPortCorbaCdrConsumerMock(void)
00348        {
00349           m_logger = NULL;
00350        }
00351       virtual ~OutPortCorbaCdrConsumerMock(void)
00352       {
00353       }
00358       void setBuffer(RTC::BufferBase<cdrMemoryStream>* buffer)
00359       {
00360           if (m_logger != NULL)
00361           {
00362               m_logger->log("OutPortCorbaCdrConsumerMock::setBuffer");
00363           }
00364       }
00369       ::OpenRTM::PortStatus put(const ::OpenRTM::CdrData& data)
00370          throw (CORBA::SystemException)
00371       {
00372           return ::OpenRTM::PORT_OK;
00373       }
00378       void init(coil::Properties& prop)
00379       {
00380           if (m_logger != NULL)
00381           {
00382               m_logger->log("OutPortCorbaCdrConsumerMock::init");
00383           }
00384       }
00389       RTC::OutPortConsumer::ReturnCode put(const cdrMemoryStream& data)
00390       {
00391           return PORT_OK;
00392       }
00397       void publishInterfaceProfile(SDOPackage::NVList& properties)
00398       {
00399           return;
00400       }
00401 
00406       bool subscribeInterface(const SDOPackage::NVList& properties)
00407       {
00408     
00409           return true;;
00410       }
00411   
00416       void unsubscribeInterface(const SDOPackage::NVList& properties)
00417       {
00418       }
00423       virtual ReturnCode get(cdrMemoryStream& data)
00424       {
00425           if (m_logger != NULL)
00426           {
00427               m_logger->log("OutPortCorbaCdrConsumerMock::get");
00428           }
00429           return PORT_OK;
00430       }
00431   
00432   
00437       void setLogger(Logger* logger)
00438       {
00439           m_logger = logger;
00440       }
00441 
00442       void setListener(RTC::ConnectorInfo& info, RTC::ConnectorListeners* listeners)
00443       {
00444       }
00445 
00446   private:
00447     Logger* m_logger;
00448 
00449   };
00455   class InPortPullConnectorTests
00456     : public CppUnit::TestFixture
00457   {
00458     CPPUNIT_TEST_SUITE(InPortPullConnectorTests);
00459 
00460     CPPUNIT_TEST(test_InPortPullConnector);
00461     CPPUNIT_TEST(test_read);
00462     CPPUNIT_TEST(test_disconnect);
00463     CPPUNIT_TEST_SUITE_END();
00464                 
00465   private:
00466     CORBA::ORB_ptr m_pORB;
00467     PortableServer::POA_ptr m_pPOA;
00468 
00469 
00470   public:
00471         RTC::ConnectorListeners m_listeners;
00472         
00476     InPortPullConnectorTests()
00477     {
00478 
00479         int argc(0);
00480         char** argv(NULL);
00481         m_pORB = CORBA::ORB_init(argc, argv);
00482         m_pPOA = PortableServer::POA::_narrow(
00483                     m_pORB->resolve_initial_references("RootPOA"));
00484         m_pPOA->the_POAManager()->activate();
00485     }
00486                 
00490     ~InPortPullConnectorTests()
00491     {
00492     }
00493     
00497     virtual void setUp()
00498     {
00499         //ConnectorDataListeners
00500         m_listeners.connectorData_[RTC::ON_BUFFER_WRITE].addListener(
00501                                    new DataListener("ON_BUFFER_WRITE"), true);
00502         m_listeners.connectorData_[RTC::ON_BUFFER_FULL].addListener(
00503                                    new DataListener("ON_BUFFER_FULL"), true);
00504         m_listeners.connectorData_[RTC::ON_BUFFER_WRITE_TIMEOUT].addListener(
00505                                    new DataListener("ON_BUFFER_WRITE_TIMEOUT"), true);
00506         m_listeners.connectorData_[RTC::ON_BUFFER_OVERWRITE].addListener(
00507                                    new DataListener("ON_BUFFER_OVERWRITE"), true);
00508         m_listeners.connectorData_[RTC::ON_BUFFER_READ].addListener(
00509                                    new DataListener("ON_BUFFER_READ"), true);
00510         m_listeners.connectorData_[RTC::ON_SEND].addListener(
00511                                    new DataListener("ON_SEND"), true);
00512         m_listeners.connectorData_[RTC::ON_RECEIVED].addListener(
00513                                    new DataListener("ON_RECEIVED"), true);
00514         m_listeners.connectorData_[RTC::ON_RECEIVER_FULL].addListener(
00515                                    new DataListener("ON_RECEIVER_FULL"), true);
00516         m_listeners.connectorData_[RTC::ON_RECEIVER_TIMEOUT].addListener(
00517                                    new DataListener("ON_RECEIVER_TIMEOUT"), true);
00518         m_listeners.connectorData_[RTC::ON_RECEIVER_ERROR].addListener(
00519                                    new DataListener("ON_RECEIVER_ERROR"), true);
00520 
00521         //ConnectorListeners
00522         m_listeners.connector_[RTC::ON_BUFFER_EMPTY].addListener(
00523                                     new ConnListener("ON_BUFFER_EMPTY"), true);
00524         m_listeners.connector_[RTC::ON_BUFFER_READ_TIMEOUT].addListener(
00525                                     new ConnListener("ON_BUFFER_READ_TIMEOUT"), true);
00526         m_listeners.connector_[RTC::ON_SENDER_EMPTY].addListener(
00527                                     new ConnListener("ON_SENDER_EMPTY"), true);
00528         m_listeners.connector_[RTC::ON_SENDER_TIMEOUT].addListener(
00529                                     new ConnListener("ON_SENDER_TIMEOUT"), true);
00530         m_listeners.connector_[RTC::ON_SENDER_ERROR].addListener(
00531                                     new ConnListener("ON_SENDER_ERROR"), true);
00532         m_listeners.connector_[RTC::ON_CONNECT].addListener(
00533                                     new ConnListener("ON_CONNECT"), true);
00534         m_listeners.connector_[RTC::ON_DISCONNECT].addListener(
00535                                     new ConnListener("ON_DISCONNECT"), true);
00536     }
00537                 
00541     virtual void tearDown()
00542     {
00543     }
00544                 
00549     void test_InPortPullConnector()
00550     {
00551         RTC::CdrBufferFactory::instance().
00552         addFactory("ring_buffer_mock",
00553                    coil::Creator<RTC::CdrBufferBase, CdrRingBufferMock>,
00554                    coil::Destructor<RTC::CdrBufferBase, CdrRingBufferMock>);
00555 
00556         RTC::ConnectorProfile prof;
00557         CORBA_SeqUtil::push_back(prof.properties,
00558                                NVUtil::newNV("dataport.buffer_type",
00559                                              "ring_buffer_mock"));
00560         // prop: [port.outport].
00561         coil::Properties prop;
00562         {
00563             coil::Properties conn_prop;
00564             NVUtil::copyToProperties(conn_prop, prof.properties);
00565             prop << conn_prop.getNode("dataport"); // marge ConnectorProfile
00566         }
00567         OutPortCorbaCdrConsumerMock* consumer = new OutPortCorbaCdrConsumerMock();
00568         Logger logger;
00569         consumer->setLogger(&logger);
00570         RTC::ConnectorInfo profile_new(prof.name,
00571                                        prof.connector_id,
00572                                        CORBA_SeqUtil::refToVstring(prof.ports),
00573                                        prop); 
00574         RTC::InPortConnector* connector(0);
00575         CPPUNIT_ASSERT_EQUAL(0, 
00576                      logger.countLog("OutPortCorbaCdrConsumerMock::setBuffer"));
00577         CPPUNIT_ASSERT_EQUAL(0, 
00578              CdrRingBufferMock::logger.countLog("RingBufferMock::Constructor"));
00579         connector = new RTC::InPortPullConnector(profile_new, consumer, m_listeners);
00580         CPPUNIT_ASSERT_EQUAL(1, 
00581                      logger.countLog("OutPortCorbaCdrConsumerMock::setBuffer"));
00582         CPPUNIT_ASSERT_EQUAL(1, 
00583              CdrRingBufferMock::logger.countLog("RingBufferMock::Constructor"));
00584 
00585         //consumer
00586         delete connector;
00587 
00588         //provider
00589         RTC::InPortConnector* connector_err(0);
00590         try {
00591             RTC::ConnectorProfile prof_err;
00592             // prop: [port.outport].
00593             {
00594                 coil::Properties conn_prop;
00595                 NVUtil::copyToProperties(conn_prop, prof_err.properties);
00596                 prop << conn_prop.getNode("dataport"); // marge ConnectorProfile
00597             }
00598             RTC::ConnectorInfo profile_err(prof_err.name,
00599                                            prof_err.connector_id,
00600                                            CORBA_SeqUtil::refToVstring(prof_err.ports),
00601                                            prop); 
00602             connector_err = new RTC::InPortPullConnector(profile_err, NULL, m_listeners);
00603             CPPUNIT_FAIL("The exception was not thrown. ");
00604         }
00605         catch(std::bad_alloc& e)
00606         {
00607         }
00608         catch(...)
00609         {
00610             CPPUNIT_FAIL("The exception not intended was thrown .");
00611         }
00612 
00613         delete connector_err;
00614         delete consumer;
00615 
00616     }
00621     void test_read()
00622     {
00623         CdrRingBufferMock* pbuffer = new CdrRingBufferMock();
00624 
00625         RTC::ConnectorProfile prof;
00626         CORBA_SeqUtil::push_back(prof.properties,
00627                                NVUtil::newNV("dataport.buffer_type",
00628                                              "ring_buffer_mock"));
00629         // prop: [port.outport].
00630         coil::Properties prop;
00631         {
00632             coil::Properties conn_prop;
00633             NVUtil::copyToProperties(conn_prop, prof.properties);
00634             prop << conn_prop.getNode("dataport"); // marge ConnectorProfile
00635         }
00636         OutPortCorbaCdrConsumerMock* consumer = new OutPortCorbaCdrConsumerMock();
00637         Logger logger;
00638         consumer->setLogger(&logger);
00639         RTC::ConnectorInfo profile_new(prof.name,
00640                                        prof.connector_id,
00641                                        CORBA_SeqUtil::refToVstring(prof.ports),
00642                                        prop); 
00643         RTC::InPortConnector* connector(0);
00644         connector = new RTC::InPortPullConnector(profile_new, consumer, m_listeners, pbuffer);
00645         cdrMemoryStream cdr;
00646         RTC::ConnectorBase::ReturnCode ret;
00647         CPPUNIT_ASSERT_EQUAL(0, 
00648                logger.countLog("OutPortCorbaCdrConsumerMock::get"));
00649         ret = connector->read(cdr);
00650 
00651         CPPUNIT_ASSERT_EQUAL(1, 
00652                logger.countLog("OutPortCorbaCdrConsumerMock::get"));
00653 
00654         pbuffer->set_write_return_value(::RTC::BufferStatus::BUFFER_OK);
00655         ret = connector->read(cdr);
00656         CPPUNIT_ASSERT_EQUAL(RTC::ConnectorBase::PORT_OK,ret);
00657 
00658         delete connector;
00659         delete consumer;
00660         delete pbuffer;
00661 
00662     }
00667     void test_disconnect()
00668     {
00669         RTC::CdrBufferFactory::instance().
00670         addFactory("ring_buffer_mock",
00671                    coil::Creator<RTC::CdrBufferBase, CdrRingBufferMock>,
00672                    coil::Destructor<RTC::CdrBufferBase, CdrRingBufferMock>);
00673 
00674         RTC::ConnectorProfile prof;
00675         CORBA_SeqUtil::push_back(prof.properties,
00676                                NVUtil::newNV("dataport.buffer_type",
00677                                              "ring_buffer_mock"));
00678         // prop: [port.outport].
00679         coil::Properties prop;
00680         {
00681             coil::Properties conn_prop;
00682             NVUtil::copyToProperties(conn_prop, prof.properties);
00683             prop << conn_prop.getNode("dataport"); // marge ConnectorProfile
00684         }
00685         OutPortCorbaCdrConsumerMock* consumer = new OutPortCorbaCdrConsumerMock();
00686         Logger logger;
00687         consumer->setLogger(&logger);
00688         RTC::ConnectorInfo profile_new(prof.name,
00689                                        prof.connector_id,
00690                                        CORBA_SeqUtil::refToVstring(prof.ports),
00691                                        prop); 
00692         RTC::InPortConnector* connector(0);
00693         connector = new RTC::InPortPullConnector(profile_new, consumer, m_listeners);
00694 
00695         RTC::ConnectorBase::ReturnCode ret = connector->disconnect();
00696         CPPUNIT_ASSERT_EQUAL(RTC::ConnectorBase::PORT_OK,ret); 
00697 
00698         delete connector;
00699         delete consumer;
00700 
00701     }
00702   };
00703 }; // namespace InPortPullConnector
00704 
00705 /*
00706  * Register test suite
00707  */
00708 CPPUNIT_TEST_SUITE_REGISTRATION(InPortPullConnector::InPortPullConnectorTests);
00709 
00710 #ifdef LOCAL_MAIN
00711 int main(int argc, char* argv[])
00712 {
00713 
00714   FORMAT format = TEXT_OUT;
00715   int target = 0;
00716   std::string xsl;
00717   std::string ns;
00718   std::string fname;
00719   std::ofstream ofs;
00720 
00721   int i(1);
00722   while (i < argc)
00723     {
00724       std::string arg(argv[i]);
00725       std::string next_arg;
00726       if (i + 1 < argc) next_arg = argv[i + 1];
00727       else              next_arg = "";
00728 
00729       if (arg == "--text") { format = TEXT_OUT; break; }
00730       if (arg == "--xml")
00731         {
00732           if (next_arg == "")
00733             {
00734               fname = argv[0];
00735               fname += ".xml";
00736             }
00737           else
00738             {
00739               fname = next_arg;
00740             }
00741           format = XML_OUT;
00742           ofs.open(fname.c_str());
00743         }
00744       if ( arg == "--compiler"  ) { format = COMPILER_OUT; break; }
00745       if ( arg == "--cerr"      ) { target = 1; break; }
00746       if ( arg == "--xsl"       )
00747         {
00748           if (next_arg == "") xsl = "default.xsl"; 
00749           else                xsl = next_arg;
00750         }
00751       if ( arg == "--namespace" )
00752         {
00753           if (next_arg == "")
00754             {
00755               std::cerr << "no namespace specified" << std::endl;
00756               exit(1); 
00757             }
00758           else
00759             {
00760               xsl = next_arg;
00761             }
00762         }
00763       ++i;
00764     }
00765   CppUnit::TextUi::TestRunner runner;
00766   if ( ns.empty() )
00767     runner.addTest(CppUnit::TestFactoryRegistry::getRegistry().makeTest());
00768   else
00769     runner.addTest(CppUnit::TestFactoryRegistry::getRegistry(ns).makeTest());
00770   CppUnit::Outputter* outputter = 0;
00771   std::ostream* stream = target ? &std::cerr : &std::cout;
00772   switch ( format )
00773     {
00774     case TEXT_OUT :
00775       outputter = new CppUnit::TextOutputter(&runner.result(),*stream);
00776       break;
00777     case XML_OUT :
00778       std::cout << "XML_OUT" << std::endl;
00779       outputter = new CppUnit::XmlOutputter(&runner.result(),
00780                                             ofs, "shift_jis");
00781       static_cast<CppUnit::XmlOutputter*>(outputter)->setStyleSheet(xsl);
00782       break;
00783     case COMPILER_OUT :
00784       outputter = new CppUnit::CompilerOutputter(&runner.result(),*stream);
00785       break;
00786     }
00787   runner.setOutputter(outputter);
00788   runner.run();
00789   return 0; // runner.run() ? 0 : 1;
00790 }
00791 #endif // MAIN
00792 #endif // InPort_cpp


openrtm_aist
Author(s): Noriaki Ando
autogenerated on Sat Jun 8 2019 18:49:04