//--------------------------------------------------------------------------------------- // Information - All map<string,boost::any> CArtAlgorithm::getInformation() { map<string, boost::any> res; res["RayOrder"] = getInformation("RayOrder"); res["Lambda"] = getInformation("Lambda"); return mergeMap<string,boost::any>(CReconstructionAlgorithm2D::getInformation(), res); };
//--------------------------------------------------------------------------------------- // Get Information - all map<string,boost::any> CForwardProjectionAlgorithm::getInformation() { map<string, boost::any> result; result["ProjectorId"] = getInformation("ProjectorId"); result["ProjectionDataId"] = getInformation("ProjectionDataId"); result["VolumeDataId"] = getInformation("VolumeDataId"); return mergeMap<string,boost::any>(CAlgorithm::getInformation(), result); };
void IMFlockInformationWidget::onClickOKButton() { if (!m_isReadOnly) { getInformation(); m_mainWidget->changeFlockInformation(m_flockInf); } setReadOnly(!m_isReadOnly, true); }
//--------------------------------------------------------------------------------------- // Information - All map<string,boost::any> CReconstructionAlgorithm2D::getInformation() { map<string, boost::any> res; res["ProjectorId"] = getInformation("ProjectorId"); res["ProjectionDataId"] = getInformation("ProjectionDataId"); res["ReconstructionDataId"] = getInformation("ReconstructionDataId"); res["UseMinConstraint"] = getInformation("UseMinConstraint"); res["MinConstraintValue"] = getInformation("MinConstraintValue"); res["UseMaxConstraint"] = getInformation("UseMaxConstraint"); res["MaxConstraintValue"] = getInformation("MaxConstraintValue"); res["ReconstructionMaskId"] = getInformation("ReconstructionMaskId"); return mergeMap<string,boost::any>(CAlgorithm::getInformation(), res); };
/* a function will change esp when overwrite ebp*/ void openShop(void) { void getInformation(void); puts("So let's open a shop to sale sword"); puts("Please enter a some information\n"); //Here exploit getInformation(); puts("\nSo open shop success\nbut my memory is not good\n"); }
//--------------------------------------------------------------------------------------- // Information - All map<string,boost::any> CCudaForwardProjectionAlgorithm3D::getInformation() { map<string,boost::any> res; res["ProjectionGeometry"] = getInformation("ProjectionGeometry"); res["VolumeGeometry"] = getInformation("VolumeGeometry"); res["ProjectionDataId"] = getInformation("ProjectionDataId"); res["VolumeDataId"] = getInformation("VolumeDataId"); res["GPUindex"] = getInformation("GPUindex"); res["GPUindex"] = getInformation("GPUindex"); res["DetectorSuperSampling"] = getInformation("DetectorSuperSampling"); return mergeMap<string,boost::any>(CAlgorithm::getInformation(), res); }
/* * Respond to the documentSelected signal from the appSelector, by displaying * information about the selected application. */ void AppViewer::documentSelected( const QContent &appContent ) { appSelector->hide(); if ( appContent.isValid() ) { textArea->setHtml( getInformation( appContent )); } else { textArea->setHtml( tr( "<font color=\"#CC0000\">Could not find information about %1</font>" ) .arg( appContent.name() )); qWarning() << "Application " << appContent.file() << " not found"; } }
void ConnectivityManager::mappingFinished(const string& p_mapper) { if (!ClientManager::isBeforeShutdown()) { if (BOOLSETTING(AUTO_DETECT_CONNECTION)) { if (p_mapper.empty()) { //StrongDC++: don't disconnect when mapping fails else DHT and active mode in favorite hubs won't work //disconnect(); SET_SETTING(INCOMING_CONNECTIONS, SettingsManager::INCOMING_FIREWALL_PASSIVE); SET_SETTING(ALLOW_NAT_TRAVERSAL, true); log(STRING(AUTOMATIC_SETUP_ACTIV_MODE_FAILED)); } #ifdef FLYLINKDC_BETA else { if (!MappingManager::getExternaIP().empty() && Util::isPrivateIp(MappingManager::getExternaIP())) { SET_SETTING(INCOMING_CONNECTIONS, SettingsManager::INCOMING_FIREWALL_PASSIVE); SET_SETTING(ALLOW_NAT_TRAVERSAL, true); const string l_error = "Auto passive mode: Private IP = " + MappingManager::getExternaIP(); log(l_error); CFlyServerJSON::pushError(29, l_error); } } #endif // FLYLINKDC_USE_DEAD_CODE fly_fire1(ConnectivityManagerListener::Finished()); } log(getInformation()); SET_SETTING(MAPPER, p_mapper); if (!p_mapper.empty()) { test_all_ports(); } } g_is_running = false; }
TEST(TBKnowledgeBase, twoBots) { auto leonardo = std::make_shared<ice::TBKnowledgeBase>("Leonardo"); auto raphael = std::make_shared<ice::TBKnowledgeBase>("Raphael"); leonardo->init(); raphael->init(); ASSERT_TRUE((leonardo->positionLandmarks ? true : false)); ASSERT_TRUE((raphael->positionLandmarks ? true : false)); leonardo->start(); raphael->start(); auto streamStore = leonardo->getKnowlegeBase()->streamStore; auto setStore = leonardo->getKnowlegeBase()->setStore; auto factory = leonardo->getGContainerFactory(); // wait some time to enable the engines to find each other std::this_thread::sleep_for(std::chrono::milliseconds {8000}); // test processing ASSERT_TRUE((leonardo->positionOwn ? true : false)); ASSERT_TRUE((leonardo->positionRobots ? true : false)); ASSERT_TRUE((leonardo->positionVictims ? true : false)); ASSERT_TRUE((leonardo->positionLandmarks ? true : false)); ASSERT_TRUE((leonardo->dangerZones ? true : false)); ASSERT_TRUE((raphael->positionOwn ? true : false)); ASSERT_TRUE((raphael->positionRobots ? true : false)); ASSERT_TRUE((raphael->positionVictims ? true : false)); ASSERT_TRUE((raphael->positionLandmarks ? true : false)); ASSERT_TRUE((raphael->dangerZones ? true : false)); std::cout << std::endl << "---------------------------------------------------------------" << std::endl; // get sets and streams //own pos auto specPosLeonardo = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto posLeornardo = streamStore->getStream<ice::PositionOrientation3D>(&specPosLeonardo, "http://vs.uni-kassel.de/TurtleBot#LocalizeLeonardo", "http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((posLeornardo ? true : false)); auto specPosLeonardo2 = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); auto posLeornardo2 = streamStore->getStream<ice::Pos3D>(&specPosLeonardo2); ASSERT_TRUE((posLeornardo2 ? true : false)); auto specPosLeonardo3 = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#RelativeToLandmark"); auto posLeornardo3 = streamStore->getStream<ice::RTLandmark>(&specPosLeonardo3); ASSERT_TRUE((posLeornardo3 ? true : false)); auto specPosRaphael = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Raphael", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto posRaphael = raphael->getKnowlegeBase()->streamStore->getStream<ice::PositionOrientation3D>(&specPosRaphael); ASSERT_TRUE((posRaphael ? true : false)); // landmarks auto landmarksSpec = ice::InformationSpecification("", "http://vs.uni-kassel.de/TurtleBot#Landmark", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto landmarks = setStore->getSet<ice::PositionOrientation3D>(&landmarksSpec, "http://vs.uni-kassel.de/TurtleBot#DetectLandmarks", "http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((landmarks ? true : false)); // victims auto victimsSpec = ice::InformationSpecification("", "http://vs.uni-kassel.de/TurtleBot#Victim", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); auto victims = setStore->getSet<ice::Pos3D>(&victimsSpec); ASSERT_TRUE((victims ? true : false)); // contaminated areas auto radioactiveAreasSpec = ice::InformationSpecification("", "http://vs.uni-kassel.de/TurtleBot#RadioactiveArea", "http://vs.uni-kassel.de/TurtleBot#Area", "http://vs.uni-kassel.de/TurtleBot#ContaminatedArea"); auto radioactiveAreas = raphael->getKnowlegeBase()->setStore->getSet<ice::GContainer>(&radioactiveAreasSpec); ASSERT_TRUE((radioactiveAreas ? true : false)); // create landmarks auto landmark1 = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto landmark2 = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); landmark1->alpha = M_PI; landmark1->x = 100; landmark1->y = 100; landmark1->z = 0; landmark2->alpha = M_PI / 2.0; landmark2->x = 1000; landmark2->y = 1000; landmark2->z = 0; landmarks->add("Landmark1", landmark1); landmarks->add("Landmark2", landmark2); raphael->positionLandmarks->add("Landmark1", landmark1); raphael->positionLandmarks->add("Landmark2", landmark2); // generate position auto element = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); element->alpha = 0; element->x = 100; element->y = 200; element->z = 0; posLeornardo->add(element); auto element2 = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); element2->alpha = 0; element2->x = 200; element2->y = 300; element2->z = 0; posRaphael->add(element2); // generate victim auto victim = factory->makeInstance<ice::Pos3D>("http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); victim->x = 1500; victim->y = 1200; victim->z = 0; victims->add("victim1", victim); // generate radioactive area auto representation = raphael->getGContainerFactory()->getRepresentation("http://vs.uni-kassel.de/TurtleBot#ContaminatedArea"); ASSERT_TRUE((representation ? true : false)); auto pathX = representation->accessPath(POS_X); auto pathY = representation->accessPath(POS_Y); auto pathZ = representation->accessPath(POS_Z); auto pathLandmark = representation->accessPath(POS_LANDMARK); auto pathRadius = representation->accessPath(SUR_RADIUS); ASSERT_TRUE((pathX ? true : false)); ASSERT_TRUE((pathY ? true : false)); ASSERT_TRUE((pathZ ? true : false)); ASSERT_TRUE((pathLandmark ? true : false)); ASSERT_TRUE((pathRadius ? true : false)); auto area = raphael->getGContainerFactory()->makeInstance(representation); double x = 10; double y = 15; double z = 20; double r = 25; std::string landmark = "Landmark1"; area->set(pathX, &x); area->set(pathY, &y); area->set(pathZ, &z); area->set(pathLandmark, &landmark); area->set(pathRadius, &r); radioactiveAreas->add("area", area); // wait for processing std::this_thread::sleep_for(std::chrono::milliseconds {100}); // check ASSERT_EQ(1, posLeornardo->getSize()); ASSERT_EQ(1, posLeornardo2->getSize()); ASSERT_EQ(1, posLeornardo3->getSize()); ASSERT_EQ(1, leonardo->positionOwn->getSize()); ASSERT_EQ(3, leonardo->positionLandmarks->getSize()); ASSERT_EQ(2, leonardo->positionRobots->getSize()); ASSERT_EQ(1, leonardo->positionVictims->getSize()); ASSERT_EQ(1, leonardo->dangerZones->getSize()); ASSERT_EQ(3, raphael->positionLandmarks->getSize()); ASSERT_EQ(1, raphael->positionVictims->getSize()); // check own pos auto pos = leonardo->positionOwn->getLast(); ASSERT_TRUE((pos ? true : false)); EXPECT_EQ(element->alpha, pos->getInformation()->alpha); EXPECT_EQ(element->x, pos->getInformation()->x); EXPECT_EQ(element->y, pos->getInformation()->y); EXPECT_EQ(element->z, pos->getInformation()->z); // check pos raphael auto pos2 = leonardo->positionRobots->get("http://vs.uni-kassel.de/TurtleBot#Raphael"); ASSERT_TRUE((pos2 ? true : false)); // check pos in set auto posSet = leonardo->positionRobots->get("http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((posSet ? true : false)); EXPECT_EQ("Landmark1", posSet->getInformation()->landmark); EXPECT_NEAR(0.0, posSet->getInformation()->x, 0.00000001); EXPECT_NEAR(-100.0, posSet->getInformation()->y, 0.00000001); EXPECT_NEAR(0.0, posSet->getInformation()->z, 0.00000001); // posSet = raphael->positionRobots->get("http://vs.uni-kassel.de/TurtleBot#Leonardo"); // // ASSERT_TRUE((posSet ? true : false)); // EXPECT_EQ("Landmark1", posSet->getInformation()->landmark); // EXPECT_NEAR(0.0, posSet->getInformation()->x, 0.00000001); // EXPECT_NEAR(-100.0, posSet->getInformation()->y, 0.00000001); // EXPECT_NEAR(0.0, posSet->getInformation()->z, 0.00000001); // check victim auto posVictim = leonardo->positionVictims->get("victim1"); ASSERT_TRUE((posVictim ? true : false)); EXPECT_EQ("Landmark2", posVictim->getInformation()->landmark); EXPECT_NEAR(-200.0, posVictim->getInformation()->x, 0.00000001); EXPECT_NEAR(500.0, posVictim->getInformation()->y, 0.00000001); EXPECT_NEAR(0.0, posVictim->getInformation()->z, 0.00000001); posVictim = raphael->positionVictims->get("victim1"); ASSERT_TRUE((posVictim ? true : false)); EXPECT_EQ("Landmark2", posVictim->getInformation()->landmark); EXPECT_NEAR(-200.0, posVictim->getInformation()->x, 0.00000001); EXPECT_NEAR(500.0, posVictim->getInformation()->y, 0.00000001); EXPECT_NEAR(0.0, posVictim->getInformation()->z, 0.00000001); auto dangerZone = leonardo->dangerZones->get("area"); ASSERT_TRUE((dangerZone ? true : false)); EXPECT_EQ("Landmark1", dangerZone->getInformation()->getValue<std::string>(pathLandmark)); EXPECT_EQ(x, dangerZone->getInformation()->getValue<double>(pathX)); EXPECT_EQ(y, dangerZone->getInformation()->getValue<double>(pathY)); EXPECT_EQ(z, dangerZone->getInformation()->getValue<double>(pathZ)); EXPECT_EQ(r, dangerZone->getInformation()->getValue<double>(pathRadius)); leonardo->cleanUp(); leonardo.reset(); raphael->cleanUp(); raphael.reset(); }
TEST(TBKnowledgeBase, leonardo) { auto leonardo = std::make_shared<ice::TBKnowledgeBase>("Leonardo"); leonardo->init(); ASSERT_TRUE((leonardo->positionLandmarks ? true : false)); leonardo->start(); auto streamStore = leonardo->getKnowlegeBase()->streamStore; auto setStore = leonardo->getKnowlegeBase()->setStore; auto factory = leonardo->getGContainerFactory(); // wait some time to enable the engines to find each other std::this_thread::sleep_for(std::chrono::milliseconds {100}); // test processing ASSERT_TRUE((leonardo->positionOwn ? true : false)); ASSERT_TRUE((leonardo->positionRobots ? true : false)); ASSERT_TRUE((leonardo->positionVictims ? true : false)); ASSERT_TRUE((leonardo->positionLandmarks ? true : false)); std::cout << std::endl << "---------------------------------------------------------------" << std::endl; // get sets and streams //own pos auto specPosLeonardo = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto posLeornardo = streamStore->getStream<ice::PositionOrientation3D>(&specPosLeonardo, "http://vs.uni-kassel.de/TurtleBot#LocalizeLeonardo", "http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((posLeornardo ? true : false)); auto specPosLeonardo2 = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); auto posLeornardo2 = streamStore->getStream<ice::Pos3D>(&specPosLeonardo2); ASSERT_TRUE((posLeornardo2 ? true : false)); auto specPosLeonardo3 = ice::InformationSpecification("http://vs.uni-kassel.de/TurtleBot#Leonardo", "http://vs.uni-kassel.de/TurtleBot#TurtleBot", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#RelativeToLandmark"); auto posLeornardo3 = streamStore->getStream<ice::RTLandmark>(&specPosLeonardo3); ASSERT_TRUE((posLeornardo3 ? true : false)); // landmarks auto landmarksSpec = ice::InformationSpecification("", "http://vs.uni-kassel.de/TurtleBot#Landmark", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto landmarks = setStore->getSet<ice::PositionOrientation3D>(&landmarksSpec, "http://vs.uni-kassel.de/TurtleBot#DetectLandmarks", "http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((landmarks ? true : false)); // victims auto victimsSpec = ice::InformationSpecification("", "http://vs.uni-kassel.de/TurtleBot#Victim", "http://vs.uni-kassel.de/Ice#Position", "http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); auto victims = setStore->getSet<ice::Pos3D>(&victimsSpec); ASSERT_TRUE((victims ? true : false)); // create landmarks auto landmark1 = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); auto landmark2 = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); landmark1->alpha = M_PI; landmark1->x = 100; landmark1->y = 100; landmark1->z = 0; landmark2->alpha = M_PI / 2.0; landmark2->x = 1000; landmark2->y = 1000; landmark2->z = 0; landmarks->add("Landmark1", landmark1); landmarks->add("Landmark2", landmark2); // generate position auto element = factory->makeInstance<ice::PositionOrientation3D>("http://vs.uni-kassel.de/TurtleBot#PositionOrientation3D"); element->alpha = 0; element->x = 100; element->y = 200; element->z = 0; posLeornardo->add(element); // generate victim auto victim = factory->makeInstance<ice::Pos3D>("http://vs.uni-kassel.de/Ice#CoordinatePositionRep"); victim->x = 1500; victim->y = 1200; victim->z = 0; victims->add("victim1", victim); // wait for processing std::this_thread::sleep_for(std::chrono::milliseconds {100}); // check ASSERT_EQ(1, posLeornardo->getSize()); ASSERT_EQ(1, posLeornardo2->getSize()); ASSERT_EQ(1, posLeornardo3->getSize()); ASSERT_EQ(1, leonardo->positionOwn->getSize()); ASSERT_EQ(3, leonardo->positionLandmarks->getSize()); ASSERT_EQ(1, leonardo->positionRobots->getSize()); // check own pos auto pos = leonardo->positionOwn->getLast(); ASSERT_TRUE((pos ? true : false)); EXPECT_EQ(element->alpha, pos->getInformation()->alpha); EXPECT_EQ(element->x, pos->getInformation()->x); EXPECT_EQ(element->y, pos->getInformation()->y); EXPECT_EQ(element->z, pos->getInformation()->z); // check pos in set auto posSet = leonardo->positionRobots->get("http://vs.uni-kassel.de/TurtleBot#Leonardo"); ASSERT_TRUE((posSet ? true : false)); EXPECT_EQ("Landmark1", posSet->getInformation()->landmark); EXPECT_NEAR(0.0, posSet->getInformation()->x, 0.00000001); EXPECT_NEAR(-100.0, posSet->getInformation()->y, 0.00000001); EXPECT_NEAR(0.0, posSet->getInformation()->z, 0.00000001); // check victim auto posVictim = leonardo->positionVictims->get("victim1"); ASSERT_TRUE((posVictim ? true : false)); EXPECT_EQ("Landmark2", posVictim->getInformation()->landmark); EXPECT_NEAR(-200.0, posVictim->getInformation()->x, 0.00000001); EXPECT_NEAR(500.0, posVictim->getInformation()->y, 0.00000001); EXPECT_NEAR(0.0, posVictim->getInformation()->z, 0.00000001); leonardo->cleanUp(); leonardo.reset(); }
GtkWidget * AP_UnixDialog_GenericProgress::_constructWindow(void) { GtkWidget* window; //const XAP_StringSet * pSS = XAP_App::getApp()->getStringSet(); GtkBuilder* builder = newDialogBuilder("ap_UnixDialog_GenericProgress.ui"); // Update our member variables with the important widgets that // might need to be queried or altered later window = GTK_WIDGET(gtk_builder_get_object(builder, "ap_UnixDialog_GenericProgress")); m_wCancel = GTK_WIDGET(gtk_builder_get_object(builder, "btCancel")); m_wProgress = GTK_WIDGET(gtk_builder_get_object(builder, "pbProgress")); // set the dialog title abiDialogSetTitle(window, "%s", getTitle().utf8_str()); // set the informative label gtk_label_set_text(GTK_LABEL(GTK_WIDGET(gtk_builder_get_object(builder, "lbInformation"))), getInformation().utf8_str()); //gtk_label_set_text(GTK_LABEL(GTK_WIDGET(gtk_builder_get_object(builder, "lbLabel"))), getLabel().utf8_str()); g_object_unref(G_OBJECT(builder)); return window; }
//--------------------------------------------------------------------------------------- // Information - All map<string,boost::any> CCudaReconstructionAlgorithm2D::getInformation() { // TODO: Verify and clean up map<string,boost::any> res; res["ProjectionGeometry"] = getInformation("ProjectionGeometry"); res["ReconstructionGeometry"] = getInformation("ReconstructionGeometry"); res["ProjectionDataId"] = getInformation("ProjectionDataId"); res["ReconstructionDataId"] = getInformation("ReconstructionDataId"); res["ReconstructionMaskId"] = getInformation("ReconstructionMaskId"); res["GPUindex"] = getInformation("GPUindex"); res["DetectorSuperSampling"] = getInformation("DetectorSuperSampling"); res["PixelSuperSampling"] = getInformation("PixelSuperSampling"); res["UseMinConstraint"] = getInformation("UseMinConstraint"); res["MinConstraintValue"] = getInformation("MinConstraintValue"); res["UseMaxConstraint"] = getInformation("UseMaxConstraint"); res["MaxConstraintValue"] = getInformation("MaxConstraintValue"); return mergeMap<string,boost::any>(CReconstructionAlgorithm2D::getInformation(), res); }
//--------------------------------------------------------------------------------------- // Information - All map<string,boost::any> CAlgorithm::getInformation() { map<string, boost::any> result; result["Initialized"] = getInformation("Initialized"); return result; };
bool CYPluginApiImplementation::recipientFieldExists(const std::string& fieldName) const { return m_recipientRequester->fieldExists(fieldName, getInformation()->getType()); }