public static FilterSpecCompiled BuildNoStmtCtx( IList<ExprNode> validatedNodes, EventType eventType, string eventTypeName, string optionalStreamName, PropertyEvalSpec optionalPropertyEvalSpec, IDictionary<string, Pair<EventType, string>> taggedEventTypes, IDictionary<string, Pair<EventType, string>> arrayEventTypes, ISet<string> allTagNamesOrdered, StreamTypeService streamTypeService, StatementRawInfo statementRawInfo, StatementCompileTimeServices compileTimeServices) { PropertyEvaluatorForge optionalPropertyEvaluator = null; if (optionalPropertyEvalSpec != null) { optionalPropertyEvaluator = PropertyEvaluatorForgeFactory.MakeEvaluator( optionalPropertyEvalSpec, eventType, optionalStreamName, statementRawInfo, compileTimeServices); } // unwind "and" and "or" var unwound = FilterSpecCompilerIndexPlannerUnwindAndOr.UnwindAndOr(validatedNodes); var args = new FilterSpecCompilerArgs( taggedEventTypes, arrayEventTypes, allTagNamesOrdered, streamTypeService, null, statementRawInfo, compileTimeServices); var plan = FilterSpecCompilerIndexPlanner.PlanFilterParameters(unwound, args); var hook = (FilterSpecCompileHook) ImportUtil.GetAnnotationHook( statementRawInfo.Annotations, HookType.INTERNAL_FILTERSPEC, typeof(FilterSpecCompileHook), compileTimeServices.ImportServiceCompileTime); hook?.FilterIndexPlan(eventType, unwound, plan); if (compileTimeServices.Configuration.Compiler.Logging.IsEnableFilterPlan) { LogFilterPlans(unwound, plan, eventType, optionalStreamName, statementRawInfo); } if (Log.IsDebugEnabled) { Log.Debug(".makeFilterSpec spec=" + plan); } return new FilterSpecCompiled(eventType, eventTypeName, plan, optionalPropertyEvaluator); }
public static FilterSpecCompiled BuildNoStmtCtx( IList<ExprNode> validatedNodes, EventType eventType, string eventTypeName, string optionalStreamName, PropertyEvalSpec optionalPropertyEvalSpec, IDictionary<string, Pair<EventType, string>> taggedEventTypes, IDictionary<string, Pair<EventType, string>> arrayEventTypes, StreamTypeService streamTypeService, StatementRawInfo statementRawInfo, StatementCompileTimeServices compileTimeServices ) { PropertyEvaluatorForge optionalPropertyEvaluator = null; if (optionalPropertyEvalSpec != null) { optionalPropertyEvaluator = PropertyEvaluatorForgeFactory.MakeEvaluator( optionalPropertyEvalSpec, eventType, optionalStreamName, statementRawInfo, compileTimeServices); } var args = new FilterSpecCompilerArgs( taggedEventTypes, arrayEventTypes, streamTypeService, null, statementRawInfo, compileTimeServices); IList<FilterSpecParamForge>[] spec = FilterSpecCompilerPlanner.PlanFilterParameters(validatedNodes, args); if (Log.IsDebugEnabled) { Log.Debug(".makeFilterSpec spec=" + spec); } return new FilterSpecCompiled(eventType, eventTypeName, spec, optionalPropertyEvaluator); }
public static StreamSpecCompiled CompileFilter( FilterStreamSpecRaw streamSpec, bool isInsertInto, bool isJoin, bool isContextDeclaration, bool isOnTrigger, string optionalStreamName, StatementRawInfo statementRawInfo, StatementCompileTimeServices services) { // Determine the event type var rawFilterSpec = streamSpec.RawFilterSpec; var eventTypeName = rawFilterSpec.EventTypeName; var table = services.TableCompileTimeResolver.Resolve(eventTypeName); if (table != null) { if (streamSpec.ViewSpecs != null && streamSpec.ViewSpecs.Length > 0) { throw new ExprValidationException("Views are not supported with tables"); } if (streamSpec.RawFilterSpec.OptionalPropertyEvalSpec != null) { throw new ExprValidationException("Contained-event expressions are not supported with tables"); } StreamTypeService streamTypeService = new StreamTypeServiceImpl( new[] {table.InternalEventType}, new[] {optionalStreamName}, new[] {true}, false, false); var validatedNodes = FilterSpecCompiler.ValidateAllowSubquery( ExprNodeOrigin.FILTER, rawFilterSpec.FilterExpressions, streamTypeService, null, null, statementRawInfo, services); return new TableQueryStreamSpec( streamSpec.OptionalStreamName, streamSpec.ViewSpecs, streamSpec.Options, table, validatedNodes); } // Could be a named window var namedWindowInfo = services.NamedWindowCompileTimeResolver.Resolve(eventTypeName); if (namedWindowInfo != null) { StreamTypeService streamTypeService = new StreamTypeServiceImpl( new[] {namedWindowInfo.EventType}, new[] {optionalStreamName}, new[] {true}, false, false); var validatedNodes = FilterSpecCompiler.ValidateAllowSubquery( ExprNodeOrigin.FILTER, rawFilterSpec.FilterExpressions, streamTypeService, null, null, statementRawInfo, services); PropertyEvaluatorForge optionalPropertyEvaluator = null; if (rawFilterSpec.OptionalPropertyEvalSpec != null) { optionalPropertyEvaluator = PropertyEvaluatorForgeFactory.MakeEvaluator( rawFilterSpec.OptionalPropertyEvalSpec, namedWindowInfo.EventType, streamSpec.OptionalStreamName, statementRawInfo, services); } return new NamedWindowConsumerStreamSpec( namedWindowInfo, streamSpec.OptionalStreamName, streamSpec.ViewSpecs, validatedNodes, streamSpec.Options, optionalPropertyEvaluator); } var eventType = ResolveTypeName(eventTypeName, services.EventTypeCompileTimeResolver); // Validate all nodes, make sure each returns a boolean and types are good; // Also decompose all AND super nodes into individual expressions StreamTypeService streamTypeServiceX = new StreamTypeServiceImpl( new[] {eventType}, new[] {streamSpec.OptionalStreamName}, new[] {true}, false, false); var spec = FilterSpecCompiler.MakeFilterSpec( eventType, eventTypeName, rawFilterSpec.FilterExpressions, rawFilterSpec.OptionalPropertyEvalSpec, null, null, // no tags streamTypeServiceX, streamSpec.OptionalStreamName, statementRawInfo, services); return new FilterStreamSpecCompiled( spec, streamSpec.ViewSpecs, streamSpec.OptionalStreamName, streamSpec.Options); }
private static void RecursiveCompile( EvalForgeNode evalNode, ISet<string> eventTypeReferences, bool isInsertInto, MatchEventSpec tags, Stack<EvalForgeNode> parentNodeStack, ISet<string> allTagNamesOrdered, int streamNum, StatementRawInfo statementRawInfo, StatementCompileTimeServices services) { parentNodeStack.Push(evalNode); foreach (var child in evalNode.ChildNodes) { RecursiveCompile( child, eventTypeReferences, isInsertInto, tags, parentNodeStack, allTagNamesOrdered, streamNum, statementRawInfo, services); } parentNodeStack.Pop(); IDictionary<string, Pair<EventType, string>> newTaggedEventTypes = null; IDictionary<string, Pair<EventType, string>> newArrayEventTypes = null; if (evalNode is EvalFilterForgeNode) { var filterNode = (EvalFilterForgeNode) evalNode; var eventName = filterNode.RawFilterSpec.EventTypeName; if (services.TableCompileTimeResolver.Resolve(eventName) != null) { throw new ExprValidationException("Tables cannot be used in pattern filter atoms"); } var resolvedEventType = ResolveTypeName(eventName, services.EventTypeCompileTimeResolver); var finalEventType = resolvedEventType; var optionalTag = filterNode.EventAsName; var isPropertyEvaluation = false; var isParentMatchUntil = IsParentMatchUntil(evalNode, parentNodeStack); // obtain property event type, if final event type is properties if (filterNode.RawFilterSpec.OptionalPropertyEvalSpec != null) { var optionalPropertyEvaluator = PropertyEvaluatorForgeFactory.MakeEvaluator( filterNode.RawFilterSpec.OptionalPropertyEvalSpec, resolvedEventType, filterNode.EventAsName, statementRawInfo, services); finalEventType = optionalPropertyEvaluator.FragmentEventType; isPropertyEvaluation = true; } // If a tag was supplied for the type, the tags must stay with this type, i.e. a=BeanA -> b=BeanA -> a=BeanB is a no if (optionalTag != null) { var pair = tags.TaggedEventTypes.Get(optionalTag); EventType existingType = null; if (pair != null) { existingType = pair.First; } if (existingType == null) { pair = tags.ArrayEventTypes.Get(optionalTag); if (pair != null) { throw new ExprValidationException( "Tag '" + optionalTag + "' for event '" + eventName + "' used in the repeat-until operator cannot also appear in other filter expressions"); } } if (existingType != null && existingType != finalEventType) { throw new ExprValidationException( "Tag '" + optionalTag + "' for event '" + eventName + "' has already been declared for events of type " + existingType.UnderlyingType.Name); } pair = new Pair<EventType, string>(finalEventType, eventName); // add tagged type if (isPropertyEvaluation || isParentMatchUntil) { newArrayEventTypes = new LinkedHashMap<string, Pair<EventType, string>>(); newArrayEventTypes.Put(optionalTag, pair); } else { newTaggedEventTypes = new LinkedHashMap<string, Pair<EventType, string>>(); newTaggedEventTypes.Put(optionalTag, pair); } } // For this filter, filter types are all known tags at this time, // and additionally stream 0 (self) is our event type. // Stream type service allows resolution by property name event if that name appears in other tags. // by defaulting to stream zero. // Stream zero is always the current event type, all others follow the order of the map (stream 1 to N). var selfStreamName = optionalTag; if (selfStreamName == null) { selfStreamName = "s_" + UuidGenerator.Generate(); } var filterTypes = new LinkedHashMap<string, Pair<EventType, string>>(); var typePair = new Pair<EventType, string>(finalEventType, eventName); filterTypes.Put(selfStreamName, typePair); filterTypes.PutAll(tags.TaggedEventTypes); // for the filter, specify all tags used var filterTaggedEventTypes = new LinkedHashMap<string, Pair<EventType, string>>(tags.TaggedEventTypes); filterTaggedEventTypes.Remove(optionalTag); // handle array tags (match-until clause) IDictionary<string, Pair<EventType, string>> arrayCompositeEventTypes = null; if (tags.ArrayEventTypes != null && !tags.ArrayEventTypes.IsEmpty()) { arrayCompositeEventTypes = new LinkedHashMap<string, Pair<EventType, string>>(); foreach (var entry in tags.ArrayEventTypes) { var specificArrayType = new LinkedHashMap<string, Pair<EventType, string>>(); specificArrayType.Put(entry.Key, entry.Value); var eventTypeName = services.EventTypeNameGeneratorStatement.GetAnonymousPatternNameWTag( streamNum, evalNode.FactoryNodeId, entry.Key); var mapProps = GetMapProperties( Collections.GetEmptyMap<string, Pair<EventType, string>>(), specificArrayType); var metadata = new EventTypeMetadata( eventTypeName, statementRawInfo.ModuleName, EventTypeTypeClass.PATTERNDERIVED, EventTypeApplicationType.MAP, NameAccessModifier.TRANSIENT, EventTypeBusModifier.NONBUS, false, EventTypeIdPair.Unassigned()); var mapEventType = BaseNestableEventUtil.MakeMapTypeCompileTime( metadata, mapProps, null, null, null, null, services.BeanEventTypeFactoryPrivate, services.EventTypeCompileTimeResolver); services.EventTypeCompileTimeRegistry.NewType(mapEventType); var tag = entry.Key; if (!filterTypes.ContainsKey(tag)) { var pair = new Pair<EventType, string>(mapEventType, tag); filterTypes.Put(tag, pair); arrayCompositeEventTypes.Put(tag, pair); } } } StreamTypeService streamTypeService = new StreamTypeServiceImpl(filterTypes, true, false); var exprNodes = filterNode.RawFilterSpec.FilterExpressions; var spec = FilterSpecCompiler.MakeFilterSpec( resolvedEventType, eventName, exprNodes, filterNode.RawFilterSpec.OptionalPropertyEvalSpec, filterTaggedEventTypes, arrayCompositeEventTypes, streamTypeService, null, statementRawInfo, services); filterNode.FilterSpec = spec; } else if (evalNode is EvalObserverForgeNode) { var observerNode = (EvalObserverForgeNode) evalNode; try { var observerForge = services.PatternResolutionService.Create(observerNode.PatternObserverSpec); var streamTypeService = GetStreamTypeService( tags.TaggedEventTypes, tags.ArrayEventTypes, observerNode, streamNum, statementRawInfo, services); var validationContext = new ExprValidationContextBuilder( streamTypeService, statementRawInfo, services).Build(); var validated = ValidateExpressions( ExprNodeOrigin.PATTERNOBSERVER, observerNode.PatternObserverSpec.ObjectParameters, validationContext); var convertor = new MatchedEventConvertorForge( tags.TaggedEventTypes, tags.ArrayEventTypes, allTagNamesOrdered); observerNode.ObserverFactory = observerForge; observerForge.SetObserverParameters(validated, convertor, validationContext); } catch (ObserverParameterException e) { throw new ExprValidationException( "Invalid parameter for pattern observer '" + observerNode.ToPrecedenceFreeEPL() + "': " + e.Message, e); } catch (PatternObjectException e) { throw new ExprValidationException( "Failed to resolve pattern observer '" + observerNode.ToPrecedenceFreeEPL() + "': " + e.Message, e); } } else if (evalNode is EvalGuardForgeNode) { var guardNode = (EvalGuardForgeNode) evalNode; try { var guardForge = services.PatternResolutionService.Create(guardNode.PatternGuardSpec); var streamTypeService = GetStreamTypeService( tags.TaggedEventTypes, tags.ArrayEventTypes, guardNode, streamNum, statementRawInfo, services); var validationContext = new ExprValidationContextBuilder( streamTypeService, statementRawInfo, services).Build(); var validated = ValidateExpressions( ExprNodeOrigin.PATTERNGUARD, guardNode.PatternGuardSpec.ObjectParameters, validationContext); var convertor = new MatchedEventConvertorForge( tags.TaggedEventTypes, tags.ArrayEventTypes, allTagNamesOrdered); guardNode.GuardForge = guardForge; guardForge.SetGuardParameters(validated, convertor, services); } catch (GuardParameterException e) { throw new ExprValidationException( "Invalid parameter for pattern guard '" + guardNode.ToPrecedenceFreeEPL() + "': " + e.Message, e); } catch (PatternObjectException e) { throw new ExprValidationException( "Failed to resolve pattern guard '" + guardNode.ToPrecedenceFreeEPL() + "': " + e.Message, e); } } else if (evalNode is EvalEveryDistinctForgeNode) { var distinctNode = (EvalEveryDistinctForgeNode) evalNode; var matchEventFromChildNodes = AnalyzeMatchEvent(distinctNode); var streamTypeService = GetStreamTypeService( matchEventFromChildNodes.TaggedEventTypes, matchEventFromChildNodes.ArrayEventTypes, distinctNode, streamNum, statementRawInfo, services); var validationContext = new ExprValidationContextBuilder(streamTypeService, statementRawInfo, services).Build(); IList<ExprNode> validated; try { validated = ValidateExpressions( ExprNodeOrigin.PATTERNEVERYDISTINCT, distinctNode.Expressions, validationContext); } catch (ExprValidationPropertyException ex) { throw new ExprValidationPropertyException( ex.Message + ", every-distinct requires that all properties resolve from sub-expressions to the every-distinct", ex.InnerException); } var convertor = new MatchedEventConvertorForge( matchEventFromChildNodes.TaggedEventTypes, matchEventFromChildNodes.ArrayEventTypes, allTagNamesOrdered); distinctNode.Convertor = convertor; // Determine whether some expressions are constants or time period IList<ExprNode> distinctExpressions = new List<ExprNode>(); TimePeriodComputeForge timePeriodComputeForge = null; ExprNode expiryTimeExp = null; var count = -1; var last = validated.Count - 1; foreach (var expr in validated) { count++; if (count == last && expr is ExprTimePeriod) { expiryTimeExp = expr; var timePeriodExpr = (ExprTimePeriod) expiryTimeExp; timePeriodComputeForge = timePeriodExpr.TimePeriodComputeForge; } else if (expr.Forge.ForgeConstantType.IsCompileTimeConstant) { if (count == last) { var value = expr.Forge.ExprEvaluator.Evaluate(null, true, null); if (!value.IsNumber()) { throw new ExprValidationException( "Invalid parameter for every-distinct, expected number of seconds constant (constant not considered for distinct)"); } var secondsExpire = expr.Forge.ExprEvaluator.Evaluate(null, true, null); var timeExpire = secondsExpire == null ? (long?) null : (long?) services.ImportServiceCompileTime.TimeAbacus.DeltaForSecondsNumber( secondsExpire); if (timeExpire != null && timeExpire > 0) { timePeriodComputeForge = new TimePeriodComputeConstGivenDeltaForge(timeExpire.Value); expiryTimeExp = expr; } else { Log.Warn( "Invalid seconds-expire " + timeExpire + " for " + ExprNodeUtilityPrint.ToExpressionStringMinPrecedenceSafe(expr)); } } else { Log.Warn( "Every-distinct node utilizes an expression returning a constant value, please check expression '" + ExprNodeUtilityPrint.ToExpressionStringMinPrecedenceSafe(expr) + "', not adding expression to distinct-value expression list"); } } else { distinctExpressions.Add(expr); } } if (distinctExpressions.IsEmpty()) { throw new ExprValidationException( "Every-distinct node requires one or more distinct-value expressions that each return non-constant result values"); } distinctNode.SetDistinctExpressions(distinctExpressions, timePeriodComputeForge, expiryTimeExp); } else if (evalNode is EvalMatchUntilForgeNode) { var matchUntilNode = (EvalMatchUntilForgeNode) evalNode; // compile bounds expressions, if any var untilMatchEventSpec = new MatchEventSpec(tags.TaggedEventTypes, tags.ArrayEventTypes); var streamTypeService = GetStreamTypeService( untilMatchEventSpec.TaggedEventTypes, untilMatchEventSpec.ArrayEventTypes, matchUntilNode, streamNum, statementRawInfo, services); var validationContext = new ExprValidationContextBuilder(streamTypeService, statementRawInfo, services).Build(); var lower = ValidateBounds(matchUntilNode.LowerBounds, validationContext); matchUntilNode.LowerBounds = lower; var upper = ValidateBounds(matchUntilNode.UpperBounds, validationContext); matchUntilNode.UpperBounds = upper; var single = ValidateBounds(matchUntilNode.SingleBound, validationContext); matchUntilNode.SingleBound = single; bool tightlyBound; if (matchUntilNode.SingleBound != null) { ValidateMatchUntil(matchUntilNode.SingleBound, matchUntilNode.SingleBound, false); tightlyBound = true; } else { var allowZeroLowerBounds = matchUntilNode.LowerBounds != null && matchUntilNode.UpperBounds != null; tightlyBound = ValidateMatchUntil( matchUntilNode.LowerBounds, matchUntilNode.UpperBounds, allowZeroLowerBounds); } if (matchUntilNode.SingleBound == null && !tightlyBound && matchUntilNode.ChildNodes.Count < 2) { throw new ExprValidationException("Variable bounds repeat operator requires an until-expression"); } var convertor = new MatchedEventConvertorForge( untilMatchEventSpec.TaggedEventTypes, untilMatchEventSpec.ArrayEventTypes, allTagNamesOrdered); matchUntilNode.Convertor = convertor; // compile new tag lists ISet<string> arrayTags = null; var matchUntilAnalysisResult = EvalNodeUtil.RecursiveAnalyzeChildNodes(matchUntilNode.ChildNodes[0]); foreach (var filterNode in matchUntilAnalysisResult.FilterNodes) { var optionalTag = filterNode.EventAsName; if (optionalTag != null) { if (arrayTags == null) { arrayTags = new HashSet<string>(); } arrayTags.Add(optionalTag); } } if (arrayTags != null) { foreach (var arrayTag in arrayTags) { if (!tags.ArrayEventTypes.ContainsKey(arrayTag)) { tags.ArrayEventTypes.Put(arrayTag, tags.TaggedEventTypes.Get(arrayTag)); tags.TaggedEventTypes.Remove(arrayTag); } } } matchUntilNode.TagsArrayedSet = GetIndexesForTags(allTagNamesOrdered, arrayTags); } else if (evalNode is EvalFollowedByForgeNode) { var followedByNode = (EvalFollowedByForgeNode) evalNode; StreamTypeService streamTypeService = new StreamTypeServiceImpl(false); var validationContext = new ExprValidationContextBuilder(streamTypeService, statementRawInfo, services).Build(); if (followedByNode.OptionalMaxExpressions != null) { IList<ExprNode> validated = new List<ExprNode>(); foreach (var maxExpr in followedByNode.OptionalMaxExpressions) { if (maxExpr == null) { validated.Add(null); } else { var visitor = new ExprNodeSummaryVisitor(); maxExpr.Accept(visitor); if (!visitor.IsPlain) { var errorMessage = "Invalid maximum expression in followed-by, " + visitor.Message + " are not allowed within the expression"; Log.Error(errorMessage); throw new ExprValidationException(errorMessage); } var validatedExpr = ExprNodeUtilityValidate.GetValidatedSubtree( ExprNodeOrigin.FOLLOWEDBYMAX, maxExpr, validationContext); validated.Add(validatedExpr); var returnType = validatedExpr.Forge.EvaluationType; if (returnType == null || !returnType.IsNumeric()) { var message = "Invalid maximum expression in followed-by, the expression must return an integer value"; throw new ExprValidationException(message); } } } followedByNode.OptionalMaxExpressions = validated; } } if (newTaggedEventTypes != null) { tags.TaggedEventTypes.PutAll(newTaggedEventTypes); } if (newArrayEventTypes != null) { tags.ArrayEventTypes.PutAll(newArrayEventTypes); } }
public static OnTriggerPlan HandleSplitStream( string aiFactoryProviderClassName, CodegenNamespaceScope namespaceScope, string classPostfix, OnTriggerSplitStreamDesc desc, StreamSpecCompiled streamSpec, OnTriggerActivatorDesc activatorResult, IDictionary<ExprSubselectNode, SubSelectActivationPlan> subselectActivation, StatementBaseInfo @base, StatementCompileTimeServices services) { var raw = @base.StatementSpec.Raw; if (raw.InsertIntoDesc == null) { throw new ExprValidationException( "Required insert-into clause is not provided, the clause is required for split-stream syntax"); } if (raw.GroupByExpressions != null && raw.GroupByExpressions.Count > 0 || raw.HavingClause != null || raw.OrderByList.Count > 0) { throw new ExprValidationException( "A group-by clause, having-clause or order-by clause is not allowed for the split stream syntax"); } var streamName = streamSpec.OptionalStreamName; if (streamName == null) { streamName = "stream_0"; } StreamTypeService typeServiceTrigger = new StreamTypeServiceImpl( new[] {activatorResult.ActivatorResultEventType}, new[] {streamName}, new[] {true}, false, false); // materialize sub-select views var subselectForges = SubSelectHelperForgePlanner.PlanSubSelect( @base, subselectActivation, new[] {streamSpec.OptionalStreamName}, new[] {activatorResult.ActivatorResultEventType}, new[] {activatorResult.TriggerEventTypeName}, services); // compile top-level split var items = new OnSplitItemForge[desc.SplitStreams.Count + 1]; items[0] = OnSplitValidate( typeServiceTrigger, @base.StatementSpec, @base.ContextPropertyRegistry, null, @base.StatementRawInfo, services); // compile each additional split var index = 1; foreach (var splits in desc.SplitStreams) { var splitSpec = new StatementSpecCompiled(); splitSpec.Raw.InsertIntoDesc = splits.InsertInto; splitSpec.SelectClauseCompiled = CompileSelectAllowSubselect(splits.SelectClause); splitSpec.Raw.WhereClause = splits.WhereClause; PropertyEvaluatorForge optionalPropertyEvaluator = null; StreamTypeService typeServiceProperty; if (splits.FromClause != null) { optionalPropertyEvaluator = PropertyEvaluatorForgeFactory.MakeEvaluator( splits.FromClause.PropertyEvalSpec, activatorResult.ActivatorResultEventType, streamName, @base.StatementRawInfo, services); typeServiceProperty = new StreamTypeServiceImpl( new[] {optionalPropertyEvaluator.FragmentEventType}, new[] {splits.FromClause.OptionalStreamName}, new[] {true}, false, false); } else { typeServiceProperty = typeServiceTrigger; } items[index] = OnSplitValidate( typeServiceProperty, splitSpec, @base.ContextPropertyRegistry, optionalPropertyEvaluator, @base.StatementRawInfo, services); index++; } // handle result set processor classes IList<StmtClassForgable> forgables = new List<StmtClassForgable>(); for (var i = 0; i < items.Length; i++) { var classNameRSP = CodeGenerationIDGenerator.GenerateClassNameSimple( typeof(ResultSetProcessorFactoryProvider), classPostfix + "_" + i); forgables.Add( new StmtClassForgableRSPFactoryProvider( classNameRSP, items[i].ResultSetProcessorDesc, namespaceScope, @base.StatementRawInfo)); items[i].ResultSetProcessorClassName = classNameRSP; } // plan table access var tableAccessForges = ExprTableEvalHelperPlan.PlanTableAccess(@base.StatementSpec.TableAccessNodes); // build forge var splitStreamForge = new StatementAgentInstanceFactoryOnTriggerSplitStreamForge( activatorResult.Activator, activatorResult.ActivatorResultEventType, subselectForges, tableAccessForges, items, desc.IsFirst); var triggerForge = new StmtClassForgableAIFactoryProviderOnTrigger( aiFactoryProviderClassName, namespaceScope, splitStreamForge); return new OnTriggerPlan(triggerForge, forgables, new SelectSubscriberDescriptor()); }