internal JoinPlanResult( Viewable viewable, JoinPreloadMethod preloadMethod, JoinSetComposerDesc joinSetComposerDesc) { Viewable = viewable; PreloadMethod = preloadMethod; JoinSetComposerDesc = joinSetComposerDesc; }
public JoinPlanResult( OutputProcessView viewable, JoinPreloadMethod preloadMethod, JoinSetComposerDesc joinSetComposerDesc) { this._outputProcessView = viewable; this._preloadMethod = preloadMethod; this._joinSetComposerDesc = joinSetComposerDesc; }
private JoinPlanResult HandleJoin( String[] streamNames, Viewable[] streamViews, ResultSetProcessor resultSetProcessor, AgentInstanceContext agentInstanceContext, IList <StopCallback> stopCallbacks, StreamJoinAnalysisResult joinAnalysisResult) { JoinSetComposerDesc joinSetComposerDesc = _joinSetComposerPrototype.Create(streamViews, false, agentInstanceContext); stopCallbacks.Add(() => joinSetComposerDesc.JoinSetComposer.Destroy()); var filter = new JoinSetFilter(joinSetComposerDesc.PostJoinFilterEvaluator); var indicatorView = _outputProcessViewFactory.MakeView(resultSetProcessor, agentInstanceContext); // Create strategy for join execution JoinExecutionStrategy execution = new JoinExecutionStrategyImpl(joinSetComposerDesc.JoinSetComposer, filter, indicatorView, agentInstanceContext); // The view needs a reference to the join execution to pull iterator values indicatorView.JoinExecutionStrategy = execution; // Hook up dispatchable with buffer and execution strategy var joinStatementDispatch = new JoinExecStrategyDispatchable(execution, _statementSpec.StreamSpecs.Length); agentInstanceContext.EpStatementAgentInstanceHandle.OptionalDispatchable = joinStatementDispatch; JoinPreloadMethod preloadMethod; if (joinAnalysisResult.UnidirectionalStreamNumber >= 0) { preloadMethod = new JoinPreloadMethodNull(); } else { preloadMethod = new JoinPreloadMethodImpl(streamNames.Length, joinSetComposerDesc.JoinSetComposer); } // Create buffer for each view. Point buffer to dispatchable for join. for (var i = 0; i < _statementSpec.StreamSpecs.Length; i++) { var buffer = new BufferView(i); streamViews[i].AddView(buffer); buffer.Observer = joinStatementDispatch; preloadMethod.SetBuffer(buffer, i); } return(new JoinPlanResult(indicatorView, preloadMethod, joinSetComposerDesc)); }
public StatementAgentInstancePostLoadSelect( Viewable[] streamViews, JoinSetComposerDesc joinSetComposer, NamedWindowTailViewInstance[] namedWindowTailViews, FilterSpecCompiled[] namedWindowPostloadFilters, IList <ExprNode>[] namedWindowFilters, Attribute[] annotations, ExprEvaluatorContext exprEvaluatorContext) { _streamViews = streamViews; _joinSetComposer = joinSetComposer; _namedWindowTailViews = namedWindowTailViews; _namedWindowPostloadFilters = namedWindowPostloadFilters; _namedWindowFilters = namedWindowFilters; _annotations = annotations; _exprEvaluatorContext = exprEvaluatorContext; }
protected override StatementAgentInstanceFactoryResult NewContextInternal(AgentInstanceContext agentInstanceContext, bool isRecoveringResilient) { IList <StopCallback> stopCallbacks = new List <StopCallback>(2); Viewable finalView; var viewableActivationResult = new ViewableActivationResult[_eventStreamParentViewableActivators.Length]; IDictionary <ExprSubselectNode, SubSelectStrategyHolder> subselectStrategies; AggregationService aggregationService; Viewable[] streamViews; Viewable[] eventStreamParentViewable; Viewable[] topViews; IDictionary <ExprPriorNode, ExprPriorEvalStrategy> priorNodeStrategies; IDictionary <ExprPreviousNode, ExprPreviousEvalStrategy> previousNodeStrategies; IDictionary <ExprTableAccessNode, ExprTableAccessEvalStrategy> tableAccessStrategies; RegexExprPreviousEvalStrategy regexExprPreviousEvalStrategy = null; IList <StatementAgentInstancePreload> preloadList = new List <StatementAgentInstancePreload>(); EvalRootState[] patternRoots; StatementAgentInstancePostLoad postLoadJoin = null; var suppressSameEventMatches = false; var discardPartialsOnMatch = false; EvalRootMatchRemover evalRootMatchRemover = null; try { // create root viewables eventStreamParentViewable = new Viewable[_numStreams]; patternRoots = new EvalRootState[_numStreams]; for (var stream = 0; stream < _eventStreamParentViewableActivators.Length; stream++) { var activationResult = _eventStreamParentViewableActivators[stream].Activate(agentInstanceContext, false, isRecoveringResilient); viewableActivationResult[stream] = activationResult; stopCallbacks.Add(activationResult.StopCallback); suppressSameEventMatches = activationResult.IsSuppressSameEventMatches; discardPartialsOnMatch = activationResult.IsDiscardPartialsOnMatch; // add stop callback for any stream-level viewable when applicable if (activationResult.Viewable is StopCallback) { stopCallbacks.Add((StopCallback)activationResult.Viewable); } eventStreamParentViewable[stream] = activationResult.Viewable; patternRoots[stream] = activationResult.OptionalPatternRoot; if (stream == 0) { evalRootMatchRemover = activationResult.OptEvalRootMatchRemover; } if (activationResult.OptionalLock != null) { agentInstanceContext.EpStatementAgentInstanceHandle.StatementAgentInstanceLock = activationResult.OptionalLock; _statementContext.DefaultAgentInstanceLock = activationResult.OptionalLock; } } // compile view factories adding "prior" as necessary var viewFactoryChains = new IList <ViewFactory> [_numStreams]; for (var i = 0; i < _numStreams; i++) { var viewFactoryChain = _unmaterializedViewChain[i].FactoryChain; // add "prior" view factory var hasPrior = _viewResourceDelegate.PerStream[i].PriorRequests != null && !_viewResourceDelegate.PerStream[i].PriorRequests.IsEmpty(); if (hasPrior) { var priorEventViewFactory = EPStatementStartMethodHelperPrior.GetPriorEventViewFactory( agentInstanceContext.StatementContext, i, viewFactoryChain.IsEmpty(), false, -1); viewFactoryChain = new List <ViewFactory>(viewFactoryChain); viewFactoryChain.Add(priorEventViewFactory); } viewFactoryChains[i] = viewFactoryChain; } // create view factory chain context: holds stream-specific services var viewFactoryChainContexts = new AgentInstanceViewFactoryChainContext[_numStreams]; for (var i = 0; i < _numStreams; i++) { viewFactoryChainContexts[i] = AgentInstanceViewFactoryChainContext.Create(viewFactoryChains[i], agentInstanceContext, _viewResourceDelegate.PerStream[i]); } // handle "prior" nodes and their strategies priorNodeStrategies = EPStatementStartMethodHelperPrior.CompilePriorNodeStrategies(_viewResourceDelegate, viewFactoryChainContexts); // handle "previous" nodes and their strategies previousNodeStrategies = EPStatementStartMethodHelperPrevious.CompilePreviousNodeStrategies(_viewResourceDelegate, viewFactoryChainContexts); // materialize views streamViews = new Viewable[_numStreams]; topViews = new Viewable[_numStreams]; for (var i = 0; i < _numStreams; i++) { var hasPreviousNode = _viewResourceDelegate.PerStream[i].PreviousRequests != null && !_viewResourceDelegate.PerStream[i].PreviousRequests.IsEmpty(); var createResult = _services.ViewService.CreateViews(eventStreamParentViewable[i], viewFactoryChains[i], viewFactoryChainContexts[i], hasPreviousNode); topViews[i] = createResult.TopViewable; streamViews[i] = createResult.FinalViewable; var isReuseableView = _eventStreamParentViewableActivators[i] is ViewableActivatorStreamReuseView; if (isReuseableView) { var viewsCreated = createResult.NewViews; var stopCallback = new ProxyStopCallback(() => { ViewServiceHelper.RemoveFirstUnsharedView(viewsCreated); }); stopCallbacks.Add(stopCallback); } // add views to stop callback if applicable AddViewStopCallback(stopCallbacks, createResult.NewViews); } // determine match-recognize "previous"-node strategy (none if not present, or one handling and number of nodes) var matchRecognize = EventRowRegexHelper.RecursiveFindRegexService(topViews[0]); if (matchRecognize != null) { regexExprPreviousEvalStrategy = matchRecognize.PreviousEvaluationStrategy; stopCallbacks.Add(new ProxyStopCallback(matchRecognize.Stop)); } // start subselects subselectStrategies = EPStatementStartMethodHelperSubselect.StartSubselects(_services, _subSelectStrategyCollection, agentInstanceContext, stopCallbacks, isRecoveringResilient); // plan table access tableAccessStrategies = EPStatementStartMethodHelperTableAccess.AttachTableAccess(_services, agentInstanceContext, _statementSpec.TableNodes); // obtain result set processor and aggregation services var processorPair = EPStatementStartMethodHelperUtil.StartResultSetAndAggregation(_resultSetProcessorFactoryDesc, agentInstanceContext, false, null); var resultSetProcessor = processorPair.First; aggregationService = processorPair.Second; stopCallbacks.Add(aggregationService); stopCallbacks.Add(resultSetProcessor); // for just 1 event stream without joins, handle the one-table process separately. JoinPreloadMethod joinPreloadMethod; JoinSetComposerDesc joinSetComposer = null; if (streamViews.Length == 1) { finalView = HandleSimpleSelect(streamViews[0], resultSetProcessor, agentInstanceContext, evalRootMatchRemover, suppressSameEventMatches, discardPartialsOnMatch); joinPreloadMethod = null; } else { var joinPlanResult = HandleJoin(_typeService.StreamNames, streamViews, resultSetProcessor, agentInstanceContext, stopCallbacks, _joinAnalysisResult, isRecoveringResilient); finalView = joinPlanResult.Viewable; joinPreloadMethod = joinPlanResult.PreloadMethod; joinSetComposer = joinPlanResult.JoinSetComposerDesc; } // for stoppable final views, add callback if (finalView is StopCallback) { stopCallbacks.Add((StopCallback)finalView); } // Replay any named window data, for later consumers of named data windows if (_services.EventTableIndexService.AllowInitIndex(isRecoveringResilient)) { var hasNamedWindow = false; var namedWindowPostloadFilters = new FilterSpecCompiled[_statementSpec.StreamSpecs.Length]; var namedWindowTailViews = new NamedWindowTailViewInstance[_statementSpec.StreamSpecs.Length]; var namedWindowFilters = new IList <ExprNode> [_statementSpec.StreamSpecs.Length]; for (var i = 0; i < _statementSpec.StreamSpecs.Length; i++) { var streamNum = i; var streamSpec = _statementSpec.StreamSpecs[i]; if (streamSpec is NamedWindowConsumerStreamSpec) { hasNamedWindow = true; var namedSpec = (NamedWindowConsumerStreamSpec)streamSpec; NamedWindowProcessor processor = _services.NamedWindowMgmtService.GetProcessor(namedSpec.WindowName); var processorInstance = processor.GetProcessorInstance(agentInstanceContext); if (processorInstance != null) { var consumerView = processorInstance.TailViewInstance; namedWindowTailViews[i] = consumerView; var view = (NamedWindowConsumerView)viewableActivationResult[i].Viewable; // determine preload/postload filter for index access if (!namedSpec.FilterExpressions.IsEmpty()) { namedWindowFilters[streamNum] = namedSpec.FilterExpressions; try { var streamName = streamSpec.OptionalStreamName != null ? streamSpec.OptionalStreamName : consumerView.EventType.Name; var types = new StreamTypeServiceImpl(consumerView.EventType, streamName, false, _services.EngineURI); var tagged = new LinkedHashMap <string, Pair <EventType, string> >(); namedWindowPostloadFilters[i] = FilterSpecCompiler.MakeFilterSpec(types.EventTypes[0], types.StreamNames[0], namedSpec.FilterExpressions, null, tagged, tagged, types, null, _statementContext, Collections.SingletonSet(0)); } catch (Exception ex) { Log.Warn("Unexpected exception analyzing filter paths: " + ex.Message, ex); } } // preload view for stream unless the expiry policy is batch window var preload = !consumerView.TailView.IsParentBatchWindow && consumerView.HasFirst(); if (preload) { if (isRecoveringResilient && _numStreams < 2) { preload = false; } } if (preload) { var yesRecoveringResilient = isRecoveringResilient; var preloadFilterSpec = namedWindowPostloadFilters[i]; preloadList.Add(new ProxyStatementAgentInstancePreload() { ProcExecutePreload = () => { var snapshot = consumerView.Snapshot(preloadFilterSpec, _statementContext.Annotations); var eventsInWindow = new List <EventBean>(snapshot.Count); ExprNodeUtility.ApplyFilterExpressionsIterable(snapshot, namedSpec.FilterExpressions, agentInstanceContext, eventsInWindow); EventBean[] newEvents = eventsInWindow.ToArray(); view.Update(newEvents, null); if (!yesRecoveringResilient && joinPreloadMethod != null && !joinPreloadMethod.IsPreloading && agentInstanceContext.EpStatementAgentInstanceHandle.OptionalDispatchable != null) { agentInstanceContext.EpStatementAgentInstanceHandle.OptionalDispatchable.Execute(); } }, }); } } else { Log.Info("Named window access is out-of-context, the named window '" + namedSpec.WindowName + "' has been declared for a different context then the current statement, the aggregation and join state will not be initialized for statement expression [" + _statementContext.Expression + "]"); } preloadList.Add(new ProxyStatementAgentInstancePreload() { ProcExecutePreload = () => { // in a join, preload indexes, if any if (joinPreloadMethod != null) { joinPreloadMethod.PreloadFromBuffer(streamNum); } else { if (agentInstanceContext.EpStatementAgentInstanceHandle.OptionalDispatchable != null) { agentInstanceContext.EpStatementAgentInstanceHandle.OptionalDispatchable.Execute(); } } }, }); } } // last, for aggregation we need to send the current join results to the result set processor if ((hasNamedWindow) && (joinPreloadMethod != null) && (!isRecoveringResilient) && _resultSetProcessorFactoryDesc.ResultSetProcessorFactory.HasAggregation) { preloadList.Add(new ProxyStatementAgentInstancePreload() { ProcExecutePreload = () => { joinPreloadMethod.PreloadAggregation(resultSetProcessor); }, }); } if (isRecoveringResilient) { postLoadJoin = new StatementAgentInstancePostLoadSelect(streamViews, joinSetComposer, namedWindowTailViews, namedWindowPostloadFilters, namedWindowFilters, _statementContext.Annotations, agentInstanceContext); } else if (joinSetComposer != null) { postLoadJoin = new StatementAgentInstancePostLoadIndexVisiting(joinSetComposer.JoinSetComposer); } } } catch (Exception) { var stopCallback = StatementAgentInstanceUtil.GetStopCallback(stopCallbacks, agentInstanceContext); StatementAgentInstanceUtil.StopSafe(stopCallback, _statementContext); if (InstrumentationHelper.ENABLED) { InstrumentationHelper.Get().AContextPartitionAllocate(); } throw; } var selectResult = new StatementAgentInstanceFactorySelectResult(finalView, null, agentInstanceContext, aggregationService, subselectStrategies, priorNodeStrategies, previousNodeStrategies, regexExprPreviousEvalStrategy, tableAccessStrategies, preloadList, patternRoots, postLoadJoin, topViews, eventStreamParentViewable, viewableActivationResult); if (_statementContext.StatementExtensionServicesContext != null) { _statementContext.StatementExtensionServicesContext.ContributeStopCallback(selectResult, stopCallbacks); } var stopCallbackX = StatementAgentInstanceUtil.GetStopCallback(stopCallbacks, agentInstanceContext); selectResult.StopCallback = stopCallbackX; return(selectResult); }
public EPPreparedQueryResult Execute( FAFQueryMethodSelect select, ContextPartitionSelector[] contextPartitionSelectors, FAFQueryMethodAssignerSetter assignerSetter, ContextManagementService contextManagementService) { int numStreams = select.Processors.Length; ICollection<EventBean>[] snapshots = new ICollection<EventBean>[numStreams]; AgentInstanceContext agentInstanceContext = null; Viewable[] viewablePerStream = new Viewable[numStreams]; for (int i = 0; i < numStreams; i++) { FireAndForgetProcessor processor = select.Processors[i]; FireAndForgetInstance processorInstance = processor.ProcessorInstanceNoContext; snapshots[i] = Snapshot( select.ConsumerFilters[i], processorInstance, select.QueryGraph, select.Annotations); agentInstanceContext = processorInstance.AgentInstanceContext; viewablePerStream[i] = processorInstance.TailViewInstance; } // get RSP ResultSetProcessor resultSetProcessor = ProcessorWithAssign( select.ResultSetProcessorFactoryProvider, agentInstanceContext, assignerSetter, select.TableAccesses, select.Subselects); // determine join JoinSetComposerDesc joinSetComposerDesc = select.JoinSetComposerPrototype.Create( viewablePerStream, true, agentInstanceContext, false); JoinSetComposer joinComposer = joinSetComposerDesc.JoinSetComposer; EventBean[][] oldDataPerStream = new EventBean[numStreams][]; EventBean[][] newDataPerStream = new EventBean[numStreams][]; for (int i = 0; i < numStreams; i++) { newDataPerStream[i] = snapshots[i].ToArray(); } UniformPair<ISet<MultiKeyArrayOfKeys<EventBean>>> result = joinComposer.Join( newDataPerStream, oldDataPerStream, agentInstanceContext); if (joinSetComposerDesc.PostJoinFilterEvaluator != null) { JoinSetComposerUtil.Filter( joinSetComposerDesc.PostJoinFilterEvaluator, result.First, true, agentInstanceContext); } UniformPair<EventBean[]> results = resultSetProcessor.ProcessJoinResult(result.First, null, true); EventBean[] distinct = EventBeanUtility.GetDistinctByProp(results.First, select.DistinctKeyGetter); return new EPPreparedQueryResult(resultSetProcessor.ResultEventType, distinct); }