public void AddEventType(string eventTypeName, string[] propertyNames, Object[] propertyTypes, ConfigurationEventTypeObjectArray optionalConfiguration) { CheckTableExists(eventTypeName); try { var propertyTypesMap = EventTypeUtility.ValidateObjectArrayDef(propertyNames, propertyTypes); var compiledProperties = EventTypeUtility.CompileMapTypeProperties(propertyTypesMap, _eventAdapterService); _eventAdapterService.AddNestableObjectArrayType(eventTypeName, compiledProperties, optionalConfiguration, false, true, true, false, false, false, null); } catch (EventAdapterException t) { throw new ConfigurationException(t.Message, t); } }
public static SelectExprProcessor Create( ICollection <int> assignedTypeNumberStack, int statementId, string statementName, string[] streamNames, EventType[] streamTypes, EventAdapterService eventAdapterService, InsertIntoDesc insertIntoDesc, SelectExprEventTypeRegistry selectExprEventTypeRegistry, EngineImportService engineImportService, Attribute[] annotations, ConfigurationInformation configuration, TableService tableService, string engineURI) { if ((streamNames.Length < 2) || (streamTypes.Length < 2) || (streamNames.Length != streamTypes.Length)) { throw new ArgumentException( "Stream names and types parameter length is invalid, expected use of this class is for join statements"); } // Create EventType of result join events var selectProperties = new LinkedHashMap <string, Object>(); var streamTypesWTables = new EventType[streamTypes.Length]; bool hasTables = false; for (int i = 0; i < streamTypes.Length; i++) { streamTypesWTables[i] = streamTypes[i]; string tableName = TableServiceUtil.GetTableNameFromEventType(streamTypesWTables[i]); if (tableName != null) { hasTables = true; streamTypesWTables[i] = tableService.GetTableMetadata(tableName).PublicEventType; } selectProperties.Put(streamNames[i], streamTypesWTables[i]); } // If we have a name for this type, add it EventUnderlyingType representation = EventRepresentationUtil.GetRepresentation( annotations, configuration, AssignedType.NONE); EventType resultEventType; SelectExprProcessor processor = null; if (insertIntoDesc != null) { EventType existingType = eventAdapterService.GetEventTypeByName(insertIntoDesc.EventTypeName); if (existingType != null) { processor = SelectExprInsertEventBeanFactory.GetInsertUnderlyingJoinWildcard( eventAdapterService, existingType, streamNames, streamTypesWTables, engineImportService, statementName, engineURI); } } if (processor == null) { if (insertIntoDesc != null) { try { if (representation == EventUnderlyingType.MAP) { resultEventType = eventAdapterService.AddNestableMapType( insertIntoDesc.EventTypeName, selectProperties, null, false, false, false, false, true); } else if (representation == EventUnderlyingType.OBJECTARRAY) { resultEventType = eventAdapterService.AddNestableObjectArrayType( insertIntoDesc.EventTypeName, selectProperties, null, false, false, false, false, true, false, null); } else if (representation == EventUnderlyingType.AVRO) { resultEventType = eventAdapterService.AddAvroType( insertIntoDesc.EventTypeName, selectProperties, false, false, false, false, true, annotations, null, statementName, engineURI); } else { throw new IllegalStateException("Unrecognized code " + representation); } selectExprEventTypeRegistry.Add(resultEventType); } catch (EventAdapterException ex) { throw new ExprValidationException(ex.Message, ex); } } else { if (representation == EventUnderlyingType.MAP) { resultEventType = eventAdapterService.CreateAnonymousMapType( statementId + "_join_" + CollectionUtil.ToString(assignedTypeNumberStack, "_"), selectProperties, true); } else if (representation == EventUnderlyingType.OBJECTARRAY) { resultEventType = eventAdapterService.CreateAnonymousObjectArrayType( statementId + "_join_" + CollectionUtil.ToString(assignedTypeNumberStack, "_"), selectProperties); } else if (representation == EventUnderlyingType.AVRO) { resultEventType = eventAdapterService.CreateAnonymousAvroType( statementId + "_join_" + CollectionUtil.ToString(assignedTypeNumberStack, "_"), selectProperties, annotations, statementName, engineURI); } else { throw new IllegalStateException("Unrecognized enum " + representation); } } if (resultEventType is ObjectArrayEventType) { processor = new SelectExprJoinWildcardProcessorObjectArray( streamNames, resultEventType, eventAdapterService); } else if (resultEventType is MapEventType) { processor = new SelectExprJoinWildcardProcessorMap( streamNames, resultEventType, eventAdapterService); } else if (resultEventType is AvroSchemaEventType) { processor = eventAdapterService.EventAdapterAvroHandler.GetOutputFactory().MakeJoinWildcard( streamNames, resultEventType, eventAdapterService); } } if (!hasTables) { return(processor); } return(new SelectExprJoinWildcardProcessorTableRows(streamTypes, processor, tableService)); }
/// <summary>Initialize event adapter service for config snapshot. </summary> /// <param name="eventAdapterService">is events adapter</param> /// <param name="configSnapshot">is the config snapshot</param> internal static void Init(EventAdapterService eventAdapterService, ConfigurationInformation configSnapshot) { // Extract legacy event type definitions for each event type name, if supplied. // // We supply this information as setup information to the event adapter service // to allow discovery of superclasses and interfaces during event type construction for bean events, // such that superclasses and interfaces can use the legacy type definitions. IDictionary <String, ConfigurationEventTypeLegacy> classLegacyInfo = new Dictionary <String, ConfigurationEventTypeLegacy>(); foreach (KeyValuePair <String, String> entry in configSnapshot.EventTypeNames) { String typeName = entry.Key; String className = entry.Value; ConfigurationEventTypeLegacy legacyDef = configSnapshot.EventTypesLegacy.Get(typeName); if (legacyDef != null) { classLegacyInfo.Put(className, legacyDef); } } eventAdapterService.TypeLegacyConfigs = classLegacyInfo; eventAdapterService.DefaultPropertyResolutionStyle = configSnapshot.EngineDefaults.EventMetaConfig.ClassPropertyResolutionStyle; eventAdapterService.DefaultAccessorStyle = configSnapshot.EngineDefaults.EventMetaConfig.DefaultAccessorStyle; foreach (String typeNamespace in configSnapshot.EventTypeAutoNamePackages) { eventAdapterService.AddAutoNamePackage(typeNamespace); } // Add from the configuration the event class names IDictionary <String, String> typeNames = configSnapshot.EventTypeNames; foreach (KeyValuePair <String, String> entry in typeNames) { // Add class try { String typeName = entry.Key; eventAdapterService.AddBeanType(typeName, entry.Value, false, true, true, true); } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.Message, ex); } } // Add from the configuration the XML DOM names and type def IDictionary <String, ConfigurationEventTypeXMLDOM> xmlDOMNames = configSnapshot.EventTypesXMLDOM; foreach (KeyValuePair <String, ConfigurationEventTypeXMLDOM> entry in xmlDOMNames) { SchemaModel schemaModel = null; if ((entry.Value.SchemaResource != null) || (entry.Value.SchemaText != null)) { try { schemaModel = XSDSchemaMapper.LoadAndMap(entry.Value.SchemaResource, entry.Value.SchemaText, 2); } catch (Exception ex) { throw new ConfigurationException(ex.Message, ex); } } // Add XML DOM type try { eventAdapterService.AddXMLDOMType(entry.Key, entry.Value, schemaModel, true); } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.Message, ex); } } // Add maps in dependency order such that supertypes are added before subtypes ICollection <String> dependentMapOrder; try { var typesReferences = ToTypesReferences(configSnapshot.MapTypeConfigurations); dependentMapOrder = GraphUtil.GetTopDownOrder(typesReferences); } catch (GraphCircularDependencyException e) { throw new ConfigurationException("Error configuring engine, dependency graph between map type names is circular: " + e.Message, e); } IDictionary <String, Properties> mapNames = configSnapshot.EventTypesMapEvents; IDictionary <String, IDictionary <String, Object> > nestableMapNames = configSnapshot.EventTypesNestableMapEvents; dependentMapOrder.AddAll(mapNames.Keys); dependentMapOrder.AddAll(nestableMapNames.Keys); try { foreach (String mapName in dependentMapOrder) { ConfigurationEventTypeMap mapConfig = configSnapshot.MapTypeConfigurations.Get(mapName); Properties propertiesUnnested = mapNames.Get(mapName); if (propertiesUnnested != null) { IDictionary <String, Object> propertyTypes = CreatePropertyTypes(propertiesUnnested); IDictionary <String, Object> propertyTypesCompiled = EventTypeUtility.CompileMapTypeProperties(propertyTypes, eventAdapterService); eventAdapterService.AddNestableMapType(mapName, propertyTypesCompiled, mapConfig, true, true, true, false, false); } IDictionary <String, Object> propertiesNestable = nestableMapNames.Get(mapName); if (propertiesNestable != null) { IDictionary <String, Object> propertiesNestableCompiled = EventTypeUtility.CompileMapTypeProperties(propertiesNestable, eventAdapterService); eventAdapterService.AddNestableMapType(mapName, propertiesNestableCompiled, mapConfig, true, true, true, false, false); } } } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.Message, ex); } // Add object-array in dependency order such that supertypes are added before subtypes ICollection <string> dependentObjectArrayOrder; try { var typesReferences = ToTypesReferences(configSnapshot.ObjectArrayTypeConfigurations); dependentObjectArrayOrder = GraphUtil.GetTopDownOrder(typesReferences); } catch (GraphCircularDependencyException e) { throw new ConfigurationException( "Error configuring engine, dependency graph between object array type names is circular: " + e.Message, e); } var nestableObjectArrayNames = configSnapshot.EventTypesNestableObjectArrayEvents; dependentObjectArrayOrder.AddAll(nestableObjectArrayNames.Keys); try { foreach (string objectArrayName in dependentObjectArrayOrder) { var objectArrayConfig = configSnapshot.ObjectArrayTypeConfigurations.Get(objectArrayName); var propertyTypes = nestableObjectArrayNames.Get(objectArrayName); propertyTypes = ResolveClassesForStringPropertyTypes(propertyTypes); var propertyTypesCompiled = EventTypeUtility.CompileMapTypeProperties(propertyTypes, eventAdapterService); eventAdapterService.AddNestableObjectArrayType(objectArrayName, propertyTypesCompiled, objectArrayConfig, true, true, true, false, false, false, null); } } catch (EventAdapterException ex) { throw new ConfigurationException("Error configuring engine: " + ex.Message, ex); } // Add plug-in event representations var plugInReps = configSnapshot.PlugInEventRepresentation; foreach (var entry in plugInReps) { String className = entry.Value.EventRepresentationTypeName; Type eventRepClass; try { eventRepClass = TypeHelper.ResolveType(className); } catch (TypeLoadException ex) { throw new ConfigurationException("Failed to load plug-in event representation class '" + className + "'", ex); } Object pluginEventRepObj; try { pluginEventRepObj = Activator.CreateInstance(eventRepClass); } catch (TypeInstantiationException ex) { throw new ConfigurationException("Failed to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } catch (TargetInvocationException ex) { throw new ConfigurationException("Failed to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } catch (MethodAccessException ex) { throw new ConfigurationException("Illegal access to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } catch (MemberAccessException ex) { throw new ConfigurationException("Illegal access to instantiate plug-in event representation class '" + className + "' via default constructor", ex); } if (!(pluginEventRepObj is PlugInEventRepresentation)) { throw new ConfigurationException("Plug-in event representation class '" + className + "' does not implement the required interface " + typeof(PlugInEventRepresentation).FullName); } var eventRepURI = entry.Key; var pluginEventRep = (PlugInEventRepresentation)pluginEventRepObj; var initializer = entry.Value.Initializer; var context = new PlugInEventRepresentationContext(eventAdapterService, eventRepURI, initializer); try { pluginEventRep.Init(context); eventAdapterService.AddEventRepresentation(eventRepURI, pluginEventRep); } catch (Exception e) { throw new ConfigurationException("Plug-in event representation class '" + className + "' and URI '" + eventRepURI + "' did not initialize correctly : " + e.Message, e); } } // Add plug-in event type names IDictionary <String, ConfigurationPlugInEventType> plugInNames = configSnapshot.PlugInEventTypes; foreach (KeyValuePair <String, ConfigurationPlugInEventType> entry in plugInNames) { String name = entry.Key; ConfigurationPlugInEventType config = entry.Value; eventAdapterService.AddPlugInEventType(name, config.EventRepresentationResolutionURIs, config.Initializer); } }
/// <summary> /// Creates a method-invocation polling view for use as a stream that calls a method, or pulls results from cache. /// </summary> /// <param name="streamNumber">the stream number</param> /// <param name="methodStreamSpec">defines the class and method to call</param> /// <param name="eventAdapterService">for creating event types and events</param> /// <param name="epStatementAgentInstanceHandle">for time-based callbacks</param> /// <param name="methodResolutionService">for resolving classes and imports</param> /// <param name="engineImportService">for resolving configurations</param> /// <param name="schedulingService">for scheduling callbacks in expiry-time based caches</param> /// <param name="scheduleBucket">for schedules within the statement</param> /// <param name="exprEvaluatorContext">expression evaluation context</param> /// <returns>pollable view</returns> /// <throws>ExprValidationException if the expressions cannot be validated or the method descriptorhas incorrect class and method names, or parameter number and types don't match /// </throws> public static HistoricalEventViewable CreatePollMethodView( int streamNumber, MethodStreamSpec methodStreamSpec, EventAdapterService eventAdapterService, EPStatementAgentInstanceHandle epStatementAgentInstanceHandle, MethodResolutionService methodResolutionService, EngineImportService engineImportService, SchedulingService schedulingService, ScheduleBucket scheduleBucket, ExprEvaluatorContext exprEvaluatorContext, VariableService variableService, String contextName) { VariableMetaData variableMetaData = variableService.GetVariableMetaData(methodStreamSpec.ClassName); MethodPollingExecStrategyEnum strategy; VariableReader variableReader; String variableName; // Try to resolve the method MethodInfo methodReflection; FastMethod methodFastClass; Type declaringClass; Object invocationTarget; try { if (variableMetaData != null) { variableName = variableMetaData.VariableName; if (variableMetaData.ContextPartitionName != null) { if (contextName == null || !contextName.Equals(variableMetaData.ContextPartitionName)) { throw new ExprValidationException("Variable by name '" + variableMetaData.VariableName + "' has been declared for context '" + variableMetaData.ContextPartitionName + "' and can only be used within the same context"); } strategy = MethodPollingExecStrategyEnum.TARGET_VAR_CONTEXT; variableReader = null; invocationTarget = null; } else { variableReader = variableService.GetReader(methodStreamSpec.ClassName, VariableServiceConstants.NOCONTEXT_AGENTINSTANCEID); if (variableMetaData.IsConstant) { invocationTarget = variableReader.Value; if (invocationTarget is EventBean) { invocationTarget = ((EventBean)invocationTarget).Underlying; } strategy = MethodPollingExecStrategyEnum.TARGET_CONST; } else { invocationTarget = null; strategy = MethodPollingExecStrategyEnum.TARGET_VAR; } } methodReflection = methodResolutionService.ResolveNonStaticMethod(variableMetaData.VariableType, methodStreamSpec.MethodName); } else { methodReflection = methodResolutionService.ResolveMethod(methodStreamSpec.ClassName, methodStreamSpec.MethodName); invocationTarget = null; variableReader = null; variableName = null; strategy = MethodPollingExecStrategyEnum.TARGET_CONST; } declaringClass = methodReflection.DeclaringType; methodFastClass = FastClass.CreateMethod(methodReflection); } catch (ExprValidationException e) { throw; } catch (Exception e) { throw new ExprValidationException(e.Message, e); } // Determine object type returned by method var beanClass = methodFastClass.ReturnType; if ((beanClass == typeof(void)) || (beanClass.IsBuiltinDataType())) { throw new ExprValidationException("Invalid return type for static method '" + methodFastClass.Name + "' of class '" + methodStreamSpec.ClassName + "', expecting a class"); } bool isCollection = false; bool isIterator = false; Type collectionClass = null; Type iteratorClass = null; if (methodFastClass.ReturnType.IsArray) { beanClass = methodFastClass.ReturnType.GetElementType(); } else if (!methodFastClass.ReturnType.IsGenericStringDictionary()) { isCollection = methodFastClass.ReturnType.IsGenericCollection(); if (isCollection) { collectionClass = beanClass.GetGenericType(0); beanClass = collectionClass; } var beanEnumerable = methodFastClass.ReturnType.FindGenericInterface(typeof(IEnumerable <>)); if (beanEnumerable != null) { isIterator = true; iteratorClass = beanEnumerable.GetGenericType(0); beanClass = iteratorClass; } else { var beanEnumerator = methodFastClass.ReturnType.FindGenericInterface(typeof(IEnumerator <>)); if (beanEnumerator != null) { isIterator = true; iteratorClass = beanEnumerator.GetGenericType(0); beanClass = iteratorClass; } } } // If the method returns a Map, look up the map type IDictionary <string, object> mapType = null; String mapTypeName = null; if ((methodFastClass.ReturnType.IsGenericStringDictionary()) || (methodFastClass.ReturnType.IsArray && methodFastClass.ReturnType.GetElementType().IsGenericStringDictionary()) || (methodFastClass.ReturnType.IsGenericCollection() && methodFastClass.ReturnType.GetGenericType(0).IsGenericStringDictionary()) || (methodFastClass.ReturnType.IsGenericEnumerator() && methodFastClass.ReturnType.GetGenericType(0).IsGenericStringDictionary()) || (methodFastClass.ReturnType.IsGenericEnumerable() && methodFastClass.ReturnType.GetGenericType(0).IsGenericStringDictionary())) { var metadata = GetCheckMetadata(methodStreamSpec.MethodName, methodStreamSpec.ClassName, methodResolutionService, typeof(IDictionary <string, object>)); mapTypeName = metadata.TypeName; mapType = (IDictionary <string, object>)metadata.TypeMetadata; } // If the method returns an Object[] or Object[][], look up the type information IDictionary <string, object> oaType = null; String oaTypeName = null; if ((methodFastClass.ReturnType == typeof(object[])) || (methodFastClass.ReturnType == typeof(object[][])) || (methodFastClass.ReturnType.IsGenericCollection() && methodFastClass.ReturnType.GetGenericType(0) == typeof(object[])) || (methodFastClass.ReturnType.IsGenericEnumerator() && methodFastClass.ReturnType.GetGenericType(0) == typeof(object[])) || (methodFastClass.ReturnType.IsGenericEnumerable() && methodFastClass.ReturnType.GetGenericType(0) == typeof(object[]))) { var metadata = GetCheckMetadata(methodStreamSpec.MethodName, methodStreamSpec.ClassName, methodResolutionService, typeof(IDictionary <string, object>)); oaTypeName = metadata.TypeName; oaType = (IDictionary <String, Object>)metadata.TypeMetadata; } // Determine event type from class and method name EventType eventType; if (mapType != null) { eventType = eventAdapterService.AddNestableMapType(mapTypeName, mapType, null, false, true, true, false, false); } else if (oaType != null) { eventType = eventAdapterService.AddNestableObjectArrayType(oaTypeName, oaType, null, false, true, true, false, false, false, null); } else { eventType = eventAdapterService.AddBeanType(beanClass.FullName, beanClass, false, true, true); } // Construct polling strategy as a method invocation var configCache = engineImportService.GetConfigurationMethodRef(declaringClass.FullName); if (configCache == null) { configCache = engineImportService.GetConfigurationMethodRef(declaringClass.FullName); } var dataCacheDesc = configCache != null ? configCache.DataCacheDesc : null; var dataCache = DataCacheFactory.GetDataCache(dataCacheDesc, epStatementAgentInstanceHandle, schedulingService, scheduleBucket); PollExecStrategy methodPollStrategy; if (mapType != null) { if (methodFastClass.ReturnType.IsArray) { methodPollStrategy = new MethodPollingExecStrategyMapArray(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isCollection) { methodPollStrategy = new MethodPollingExecStrategyMapCollection(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isIterator) { methodPollStrategy = new MethodPollingExecStrategyMapIterator(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else { methodPollStrategy = new MethodPollingExecStrategyMapPlain(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } } else if (oaType != null) { if (methodFastClass.ReturnType == typeof(object[][])) { methodPollStrategy = new MethodPollingExecStrategyOAArray(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isCollection) { methodPollStrategy = new MethodPollingExecStrategyOACollection(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isIterator) { methodPollStrategy = new MethodPollingExecStrategyOAIterator(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else { methodPollStrategy = new MethodPollingExecStrategyOAPlain(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } } else { if (methodFastClass.ReturnType.IsArray) { methodPollStrategy = new MethodPollingExecStrategyPOCOArray(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isCollection) { methodPollStrategy = new MethodPollingExecStrategyPOCOCollection(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else if (isIterator) { methodPollStrategy = new MethodPollingExecStrategyPOCOIterator(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } else { methodPollStrategy = new MethodPollingExecStrategyPOCOPlain(eventAdapterService, methodFastClass, eventType, invocationTarget, strategy, variableReader, variableName, variableService); } } return(new MethodPollingViewable(variableMetaData == null, methodReflection.DeclaringType, methodStreamSpec, streamNumber, methodStreamSpec.Expressions, methodPollStrategy, dataCache, eventType, exprEvaluatorContext)); }
/// <summary> /// Ctor. /// </summary> /// <param name="assignedTypeNumberStack">The assigned type number stack.</param> /// <param name="statementId">The statement identifier.</param> /// <param name="streamNames">name of each stream</param> /// <param name="streamTypes">type of each stream</param> /// <param name="eventAdapterService">service for generating events and handling event types</param> /// <param name="insertIntoDesc">describes the insert-into clause</param> /// <param name="selectExprEventTypeRegistry">registry for event type to statements</param> /// <param name="methodResolutionService">for resolving writable properties</param> /// <param name="annotations">The annotations.</param> /// <param name="configuration">The configuration.</param> /// <param name="tableService">The table service.</param> /// <returns></returns> /// <exception cref="System.ArgumentException">Stream names and types parameter length is invalid, expected use of this class is for join statements</exception> /// <exception cref="ExprValidationException"></exception> /// <throws>com.espertech.esper.epl.expression.core.ExprValidationException if the expression validation failed</throws> public static SelectExprProcessor Create( ICollection <int> assignedTypeNumberStack, string statementId, string[] streamNames, EventType[] streamTypes, EventAdapterService eventAdapterService, InsertIntoDesc insertIntoDesc, SelectExprEventTypeRegistry selectExprEventTypeRegistry, MethodResolutionService methodResolutionService, Attribute[] annotations, ConfigurationInformation configuration, TableService tableService) { if ((streamNames.Length < 2) || (streamTypes.Length < 2) || (streamNames.Length != streamTypes.Length)) { throw new ArgumentException( "Stream names and types parameter length is invalid, expected use of this class is for join statements"); } // Create EventType of result join events var eventTypeMap = new LinkedHashMap <string, object>(); var streamTypesWTables = new EventType[streamTypes.Length]; var hasTables = false; for (var i = 0; i < streamTypes.Length; i++) { streamTypesWTables[i] = streamTypes[i]; var tableName = TableServiceUtil.GetTableNameFromEventType(streamTypesWTables[i]); if (tableName != null) { hasTables = true; streamTypesWTables[i] = tableService.GetTableMetadata(tableName).PublicEventType; } eventTypeMap.Put(streamNames[i], streamTypesWTables[i]); } // If we have a name for this type, add it var useMap = EventRepresentationUtil.IsMap(annotations, configuration, AssignedType.NONE); EventType resultEventType; SelectExprProcessor processor = null; if (insertIntoDesc != null) { EventType existingType = eventAdapterService.GetEventTypeByName(insertIntoDesc.EventTypeName); if (existingType != null) { processor = SelectExprInsertEventBeanFactory.GetInsertUnderlyingJoinWildcard( eventAdapterService, existingType, streamNames, streamTypesWTables, methodResolutionService.EngineImportService); } } if (processor == null) { if (insertIntoDesc != null) { try { if (useMap) { resultEventType = eventAdapterService.AddNestableMapType( insertIntoDesc.EventTypeName, eventTypeMap, null, false, false, false, false, true); } else { resultEventType = eventAdapterService.AddNestableObjectArrayType( insertIntoDesc.EventTypeName, eventTypeMap, null, false, false, false, false, true, false, null); } selectExprEventTypeRegistry.Add(resultEventType); } catch (EventAdapterException ex) { throw new ExprValidationException(ex.Message); } } else { if (useMap) { resultEventType = eventAdapterService.CreateAnonymousMapType( statementId + "_join_" + CollectionUtil.ToString(assignedTypeNumberStack, "_"), eventTypeMap); } else { resultEventType = eventAdapterService.CreateAnonymousObjectArrayType( statementId + "_join_" + CollectionUtil.ToString(assignedTypeNumberStack, "_"), eventTypeMap); } } if (resultEventType is ObjectArrayEventType) { processor = new SelectExprJoinWildcardProcessorObjectArray( streamNames, resultEventType, eventAdapterService); } else { processor = new SelectExprJoinWildcardProcessorMap(streamNames, resultEventType, eventAdapterService); } } if (!hasTables) { return(processor); } return(new SelectExprJoinWildcardProcessorTableRows(streamTypes, processor, tableService)); }
/// <summary> /// Creates a method-invocation polling view for use as a stream that calls a method, or pulls results from cache. /// </summary> /// <param name="streamNumber">the stream number</param> /// <param name="methodStreamSpec">defines the class and method to call</param> /// <param name="eventAdapterService">for creating event types and events</param> /// <param name="epStatementAgentInstanceHandle">for time-based callbacks</param> /// <param name="engineImportService">for resolving configurations</param> /// <param name="schedulingService">for scheduling callbacks in expiry-time based caches</param> /// <param name="scheduleBucket">for schedules within the statement</param> /// <param name="exprEvaluatorContext">expression evaluation context</param> /// <param name="variableService">variable service</param> /// <param name="statementContext">statement context</param> /// <param name="contextName">context name</param> /// <param name="dataCacheFactory">factory for cache</param> /// <exception cref="ExprValidationException"> /// if the expressions cannot be validated or the method descriptor /// has incorrect class and method names, or parameter number and types don't match /// </exception> /// <returns>pollable view</returns> public static HistoricalEventViewable CreatePollMethodView( int streamNumber, MethodStreamSpec methodStreamSpec, EventAdapterService eventAdapterService, EPStatementAgentInstanceHandle epStatementAgentInstanceHandle, EngineImportService engineImportService, SchedulingService schedulingService, ScheduleBucket scheduleBucket, ExprEvaluatorContext exprEvaluatorContext, VariableService variableService, string contextName, DataCacheFactory dataCacheFactory, StatementContext statementContext) { VariableMetaData variableMetaData = variableService.GetVariableMetaData(methodStreamSpec.ClassName); MethodPollingExecStrategyEnum strategy; VariableReader variableReader = null; string variableName = null; MethodInfo methodReflection = null; object invocationTarget = null; string eventTypeNameProvidedUDFOrScript = null; // see if this is a script in the from-clause ExprNodeScript scriptExpression = null; if (methodStreamSpec.ClassName == null && methodStreamSpec.MethodName != null) { var scriptsByName = statementContext.ExprDeclaredService.GetScriptsByName(methodStreamSpec.MethodName); if (scriptsByName != null) { scriptExpression = ExprDeclaredHelper.GetExistsScript( statementContext.ConfigSnapshot.EngineDefaults.Scripts.DefaultDialect, methodStreamSpec.MethodName, methodStreamSpec.Expressions, scriptsByName, statementContext.ExprDeclaredService); } } try { if (scriptExpression != null) { eventTypeNameProvidedUDFOrScript = scriptExpression.EventTypeNameAnnotation; strategy = MethodPollingExecStrategyEnum.TARGET_SCRIPT; ExprNodeUtility.ValidateSimpleGetSubtree( ExprNodeOrigin.METHODINVJOIN, scriptExpression, statementContext, null, false); } else if (variableMetaData != null) { variableName = variableMetaData.VariableName; if (variableMetaData.ContextPartitionName != null) { if (contextName == null || !contextName.Equals(variableMetaData.ContextPartitionName)) { throw new ExprValidationException( "Variable by name '" + variableMetaData.VariableName + "' has been declared for context '" + variableMetaData.ContextPartitionName + "' and can only be used within the same context"); } strategy = MethodPollingExecStrategyEnum.TARGET_VAR_CONTEXT; variableReader = null; invocationTarget = null; } else { variableReader = variableService.GetReader( methodStreamSpec.ClassName, EPStatementStartMethodConst.DEFAULT_AGENT_INSTANCE_ID); if (variableMetaData.IsConstant) { invocationTarget = variableReader.Value; if (invocationTarget is EventBean) { invocationTarget = ((EventBean)invocationTarget).Underlying; } strategy = MethodPollingExecStrategyEnum.TARGET_CONST; } else { invocationTarget = null; strategy = MethodPollingExecStrategyEnum.TARGET_VAR; } } methodReflection = engineImportService.ResolveNonStaticMethodOverloadChecked( variableMetaData.VariableType, methodStreamSpec.MethodName); } else if (methodStreamSpec.ClassName == null) { // must be either UDF or script Pair <Type, EngineImportSingleRowDesc> udf = null; try { udf = engineImportService.ResolveSingleRow(methodStreamSpec.MethodName); } catch (EngineImportException ex) { throw new ExprValidationException( "Failed to find user-defined function '" + methodStreamSpec.MethodName + "': " + ex.Message, ex); } methodReflection = engineImportService.ResolveMethodOverloadChecked(udf.First, methodStreamSpec.MethodName); invocationTarget = null; variableReader = null; variableName = null; strategy = MethodPollingExecStrategyEnum.TARGET_CONST; eventTypeNameProvidedUDFOrScript = udf.Second.OptionalEventTypeName; } else { methodReflection = engineImportService.ResolveMethodOverloadChecked(methodStreamSpec.ClassName, methodStreamSpec.MethodName); invocationTarget = null; variableReader = null; variableName = null; strategy = MethodPollingExecStrategyEnum.TARGET_CONST; } } catch (ExprValidationException) { throw; } catch (Exception e) { throw new ExprValidationException(e.Message, e); } Type methodProviderClass = null; Type beanClass; IDictionary <string, object> oaType = null; IDictionary <string, object> mapType = null; bool isCollection = false; bool isIterator = false; EventType eventType; EventType eventTypeWhenMethodReturnsEventBeans = null; bool isStaticMethod = false; if (methodReflection != null) { methodProviderClass = methodReflection.DeclaringType; isStaticMethod = variableMetaData == null; // Determine object type returned by method beanClass = methodReflection.ReturnType; if ((beanClass == typeof(void)) || (beanClass.IsBuiltinDataType())) { throw new ExprValidationException( "Invalid return type for static method '" + methodReflection.Name + "' of class '" + methodStreamSpec.ClassName + "', expecting a class"); } if (methodReflection.ReturnType.IsArray && methodReflection.ReturnType.GetElementType() != typeof(EventBean)) { beanClass = methodReflection.ReturnType.GetElementType(); } Type collectionClass = null; Type iteratorClass = null; if (!beanClass.IsGenericDictionary()) { isCollection = beanClass.IsGenericCollection(); if (isCollection) { collectionClass = TypeHelper.GetGenericReturnType(methodReflection, true); beanClass = collectionClass; } isIterator = beanClass.IsGenericEnumerator() && !beanClass.IsGenericDictionary(); if (isIterator) { iteratorClass = TypeHelper.GetGenericReturnType(methodReflection, true); beanClass = iteratorClass; } } // If the method returns a Map, look up the map type string mapTypeName = null; if ((methodReflection.ReturnType.IsGenericStringDictionary()) || (methodReflection.ReturnType.IsArray && methodReflection.ReturnType.GetElementType().IsGenericStringDictionary()) || (isCollection && collectionClass.IsImplementsInterface(typeof(Map))) || (isIterator && iteratorClass.IsImplementsInterface(typeof(Map)))) { MethodMetadataDesc metadata; if (variableMetaData != null) { metadata = GetCheckMetadataVariable( methodStreamSpec.MethodName, variableMetaData, variableReader, engineImportService, typeof(Map)); } else { metadata = GetCheckMetadataNonVariable( methodStreamSpec.MethodName, methodStreamSpec.ClassName, engineImportService, typeof(Map)); } mapTypeName = metadata.TypeName; mapType = (IDictionary <string, object>)metadata.TypeMetadata; } // If the method returns an object[] or object[][], look up the type information string oaTypeName = null; if (methodReflection.ReturnType == typeof(object[]) || methodReflection.ReturnType == typeof(object[][]) || (isCollection && collectionClass == typeof(object[])) || (isIterator && iteratorClass == typeof(object[]))) { MethodMetadataDesc metadata; if (variableMetaData != null) { metadata = GetCheckMetadataVariable( methodStreamSpec.MethodName, variableMetaData, variableReader, engineImportService, typeof(IDictionary <string, object>)); } else { metadata = GetCheckMetadataNonVariable( methodStreamSpec.MethodName, methodStreamSpec.ClassName, engineImportService, typeof(IDictionary <string, object>)); } oaTypeName = metadata.TypeName; oaType = (IDictionary <string, object>)metadata.TypeMetadata; } // Determine event type from class and method name // If the method returns EventBean[], require the event type if ((methodReflection.ReturnType.IsArray && methodReflection.ReturnType.GetElementType() == typeof(EventBean)) || (isCollection && collectionClass == typeof(EventBean)) || (isIterator && iteratorClass == typeof(EventBean))) { string typeName = methodStreamSpec.EventTypeName == null ? eventTypeNameProvidedUDFOrScript : methodStreamSpec.EventTypeName; eventType = EventTypeUtility.RequireEventType( "Method", methodReflection.Name, eventAdapterService, typeName); eventTypeWhenMethodReturnsEventBeans = eventType; } else if (mapType != null) { eventType = eventAdapterService.AddNestableMapType( mapTypeName, mapType, null, false, true, true, false, false); } else if (oaType != null) { eventType = eventAdapterService.AddNestableObjectArrayType( oaTypeName, oaType, null, false, true, true, false, false, false, null); } else { eventType = eventAdapterService.AddBeanType(beanClass.GetDefaultTypeName(), beanClass, false, true, true); } // the @type is only allowed in conjunction with EventBean return types if (methodStreamSpec.EventTypeName != null && eventTypeWhenMethodReturnsEventBeans == null) { throw new ExprValidationException(EventTypeUtility.DisallowedAtTypeMessage()); } } else { string eventTypeName = methodStreamSpec.EventTypeName == null ? scriptExpression.EventTypeNameAnnotation : methodStreamSpec.EventTypeName; eventType = EventTypeUtility.RequireEventType( "Script", scriptExpression.Script.Name, eventAdapterService, eventTypeName); } // get configuration for cache string configName = methodProviderClass != null ? methodProviderClass.FullName : methodStreamSpec.MethodName; ConfigurationMethodRef configCache = engineImportService.GetConfigurationMethodRef(configName); if (configCache == null) { configCache = engineImportService.GetConfigurationMethodRef(configName); } ConfigurationDataCache dataCacheDesc = (configCache != null) ? configCache.DataCacheDesc : null; DataCache dataCache = dataCacheFactory.GetDataCache( dataCacheDesc, statementContext, epStatementAgentInstanceHandle, schedulingService, scheduleBucket, streamNumber); // metadata var meta = new MethodPollingViewableMeta( methodProviderClass, isStaticMethod, mapType, oaType, invocationTarget, strategy, isCollection, isIterator, variableReader, variableName, eventTypeWhenMethodReturnsEventBeans, scriptExpression); return(new MethodPollingViewable(methodStreamSpec, dataCache, eventType, exprEvaluatorContext, meta, statementContext.ThreadLocalManager)); }