Пример #1
0
        private static void RecursiveCompile(
            EvalFactoryNode evalNode,
            StatementContext context,
            ExprEvaluatorContext evaluatorContext,
            ICollection <string> eventTypeReferences,
            bool isInsertInto,
            MatchEventSpec tags,
            Deque <int> subexpressionIdStack,
            Stack <EvalFactoryNode> parentNodeStack,
            ICollection <string> allTagNamesOrdered)
        {
            var counter = 0;

            parentNodeStack.Push(evalNode);
            foreach (var child in evalNode.ChildNodes)
            {
                subexpressionIdStack.AddLast(counter++);
                RecursiveCompile(
                    child, context, evaluatorContext, eventTypeReferences, isInsertInto, tags, subexpressionIdStack,
                    parentNodeStack, allTagNamesOrdered);
                subexpressionIdStack.RemoveLast();
            }
            parentNodeStack.Pop();

            LinkedHashMap <string, Pair <EventType, string> > newTaggedEventTypes = null;
            LinkedHashMap <string, Pair <EventType, string> > newArrayEventTypes  = null;

            if (evalNode is EvalFilterFactoryNode)
            {
                var filterNode = (EvalFilterFactoryNode)evalNode;
                var eventName  = filterNode.RawFilterSpec.EventTypeName;
                if (context.TableService.GetTableMetadata(eventName) != null)
                {
                    throw new ExprValidationException("Tables cannot be used in pattern filter atoms");
                }

                var resolvedEventType = FilterStreamSpecRaw.ResolveType(
                    context.EngineURI, eventName, context.EventAdapterService, context.PlugInTypeResolutionURIs);
                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 =
                        PropertyEvaluatorFactory.MakeEvaluator(
                            context.Container,
                            filterNode.RawFilterSpec.OptionalPropertyEvalSpec,
                            resolvedEventType,
                            filterNode.EventAsName,
                            context.EventAdapterService,
                            context.EngineImportService,
                            context.SchedulingService,
                            context.VariableService,
                            context.ScriptingService,
                            context.TableService,
                            context.EngineURI,
                            context.StatementId,
                            context.StatementName,
                            context.Annotations,
                            subexpressionIdStack,
                            context.ConfigSnapshot,
                            context.NamedWindowMgmtService,
                            context.StatementExtensionServicesContext);
                    finalEventType       = optionalPropertyEvaluator.FragmentEventType;
                    isPropertyEvaluation = true;
                }

                if (finalEventType is EventTypeSPI)
                {
                    eventTypeReferences.Add(((EventTypeSPI)finalEventType).Metadata.PrimaryName);
                }

                // 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.FullName);
                    }
                    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)
                LinkedHashMap <string, Pair <EventType, string> > arrayCompositeEventTypes = null;
                if (tags.ArrayEventTypes != null && !tags.ArrayEventTypes.IsEmpty())
                {
                    arrayCompositeEventTypes = new LinkedHashMap <string, Pair <EventType, string> >();
                    var patternSubexEventType = GetPatternSubexEventType(
                        context.StatementId, "pattern", subexpressionIdStack);

                    foreach (var entry in tags.ArrayEventTypes)
                    {
                        var specificArrayType = new LinkedHashMap <string, Pair <EventType, string> >();
                        specificArrayType.Put(entry.Key, entry.Value);
                        var arrayTagCompositeEventType =
                            context.EventAdapterService.CreateSemiAnonymousMapType(
                                patternSubexEventType, Collections.GetEmptyMap <string, Pair <EventType, string> >(),
                                specificArrayType, isInsertInto);
                        context.StatementSemiAnonymousTypeRegistry.Register(arrayTagCompositeEventType);

                        var tag = entry.Key;
                        if (!filterTypes.ContainsKey(tag))
                        {
                            var pair = new Pair <EventType, string>(arrayTagCompositeEventType, tag);
                            filterTypes.Put(tag, pair);
                            arrayCompositeEventTypes.Put(tag, pair);
                        }
                    }
                }

                StreamTypeService streamTypeService = new StreamTypeServiceImpl(
                    filterTypes, context.EngineURI, true, false);
                var exprNodes = filterNode.RawFilterSpec.FilterExpressions;

                var spec = FilterSpecCompiler.MakeFilterSpec(
                    resolvedEventType, eventName, exprNodes,
                    filterNode.RawFilterSpec.OptionalPropertyEvalSpec,
                    filterTaggedEventTypes,
                    arrayCompositeEventTypes,
                    streamTypeService,
                    null, context, subexpressionIdStack);
                filterNode.FilterSpec = spec;
            }
            else if (evalNode is EvalObserverFactoryNode)
            {
                var observerNode = (EvalObserverFactoryNode)evalNode;
                try
                {
                    var observerFactory = context.PatternResolutionService.Create(observerNode.PatternObserverSpec);

                    var streamTypeService = GetStreamTypeService(
                        context.EngineURI, context.StatementId, context.EventAdapterService, tags.TaggedEventTypes,
                        tags.ArrayEventTypes, subexpressionIdStack, "observer", context);
                    var validationContext = new ExprValidationContext(
                        context.Container,
                        streamTypeService,
                        context.EngineImportService,
                        context.StatementExtensionServicesContext, null,
                        context.SchedulingService,
                        context.VariableService,
                        context.TableService, evaluatorContext,
                        context.EventAdapterService,
                        context.StatementName,
                        context.StatementId,
                        context.Annotations,
                        context.ContextDescriptor,
                        context.ScriptingService,
                        false, false, false, false, null, false);
                    var validated = ValidateExpressions(
                        ExprNodeOrigin.PATTERNOBSERVER, observerNode.PatternObserverSpec.ObjectParameters,
                        validationContext);

                    MatchedEventConvertor convertor = new MatchedEventConvertorImpl(
                        tags.TaggedEventTypes, tags.ArrayEventTypes, allTagNamesOrdered, context.EventAdapterService);

                    observerNode.ObserverFactory = observerFactory;
                    observerFactory.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 EvalGuardFactoryNode)
            {
                var guardNode = (EvalGuardFactoryNode)evalNode;
                try
                {
                    var guardFactory = context.PatternResolutionService.Create(guardNode.PatternGuardSpec);

                    var streamTypeService = GetStreamTypeService(
                        context.EngineURI, context.StatementId, context.EventAdapterService, tags.TaggedEventTypes,
                        tags.ArrayEventTypes, subexpressionIdStack, "guard", context);
                    var validationContext = new ExprValidationContext(
                        context.Container,
                        streamTypeService,
                        context.EngineImportService,
                        context.StatementExtensionServicesContext, null,
                        context.SchedulingService,
                        context.VariableService,
                        context.TableService, evaluatorContext,
                        context.EventAdapterService,
                        context.StatementName,
                        context.StatementId,
                        context.Annotations,
                        context.ContextDescriptor,
                        context.ScriptingService,
                        false, false, false, false, null, false);
                    var validated = ValidateExpressions(
                        ExprNodeOrigin.PATTERNGUARD, guardNode.PatternGuardSpec.ObjectParameters, validationContext);

                    MatchedEventConvertor convertor = new MatchedEventConvertorImpl(
                        tags.TaggedEventTypes, tags.ArrayEventTypes, allTagNamesOrdered, context.EventAdapterService);

                    guardNode.GuardFactory = guardFactory;
                    guardFactory.SetGuardParameters(validated, convertor);
                }
                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 EvalEveryDistinctFactoryNode)
            {
                var distinctNode             = (EvalEveryDistinctFactoryNode)evalNode;
                var matchEventFromChildNodes = AnalyzeMatchEvent(distinctNode);
                var streamTypeService        = GetStreamTypeService(
                    context.EngineURI, context.StatementId, context.EventAdapterService,
                    matchEventFromChildNodes.TaggedEventTypes, matchEventFromChildNodes.ArrayEventTypes,
                    subexpressionIdStack, "every-distinct", context);
                var validationContext = new ExprValidationContext(
                    context.Container,
                    streamTypeService,
                    context.EngineImportService,
                    context.StatementExtensionServicesContext, null,
                    context.SchedulingService,
                    context.VariableService,
                    context.TableService, evaluatorContext,
                    context.EventAdapterService,
                    context.StatementName,
                    context.StatementId,
                    context.Annotations,
                    context.ContextDescriptor,
                    context.ScriptingService,
                    false, false, false, false, null, false);
                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);
                }

                MatchedEventConvertor convertor =
                    new MatchedEventConvertorImpl(
                        matchEventFromChildNodes.TaggedEventTypes, matchEventFromChildNodes.ArrayEventTypes,
                        allTagNamesOrdered, context.EventAdapterService);

                distinctNode.Convertor = convertor;

                // Determine whether some expressions are constants or time period
                IList <ExprNode>             distinctExpressions  = new List <ExprNode>();
                ExprTimePeriodEvalDeltaConst timeDeltaComputation = 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;
                        timeDeltaComputation =
                            timePeriodExpr.ConstEvaluator(new ExprEvaluatorContextStatement(context, false));
                    }
                    else if (expr.IsConstantResult)
                    {
                        if (count == last)
                        {
                            var evaluateParams = new EvaluateParams(null, true, evaluatorContext);
                            var value          = expr.ExprEvaluator.Evaluate(evaluateParams);
                            if (!(value.IsNumber()))
                            {
                                throw new ExprValidationException(
                                          "Invalid parameter for every-distinct, expected number of seconds constant (constant not considered for distinct)");
                            }

                            var secondsExpire = expr.ExprEvaluator.Evaluate(evaluateParams);

                            long?timeExpire;
                            if (secondsExpire == null)
                            {
                                timeExpire = null;
                            }
                            else
                            {
                                timeExpire = context.TimeAbacus.DeltaForSecondsNumber(secondsExpire);
                            }

                            if (timeExpire != null && timeExpire > 0)
                            {
                                timeDeltaComputation = new ExprTimePeriodEvalDeltaConstGivenDelta(timeExpire.Value);
                                expiryTimeExp        = expr;
                            }
                            else
                            {
                                Log.Warn("Invalid seconds-expire " + timeExpire + " for " + ExprNodeUtility.ToExpressionStringMinPrecedenceSafe(expr));
                            }
                        }
                        else
                        {
                            Log.Warn(
                                "Every-distinct node utilizes an expression returning a constant value, please check expression '{0}', not adding expression to distinct-value expression list",
                                expr.ToExpressionStringMinPrecedenceSafe());
                        }
                    }
                    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, timeDeltaComputation, expiryTimeExp);
            }
            else if (evalNode is EvalMatchUntilFactoryNode)
            {
                var matchUntilNode = (EvalMatchUntilFactoryNode)evalNode;

                // compile bounds expressions, if any
                var untilMatchEventSpec = new MatchEventSpec(tags.TaggedEventTypes, tags.ArrayEventTypes);
                var streamTypeService   = GetStreamTypeService(
                    context.EngineURI, context.StatementId, context.EventAdapterService,
                    untilMatchEventSpec.TaggedEventTypes, untilMatchEventSpec.ArrayEventTypes, subexpressionIdStack,
                    "until", context);
                var validationContext = new ExprValidationContext(
                    context.Container,
                    streamTypeService,
                    context.EngineImportService,
                    context.StatementExtensionServicesContext, null,
                    context.SchedulingService,
                    context.VariableService,
                    context.TableService, evaluatorContext,
                    context.EventAdapterService,
                    context.StatementName,
                    context.StatementId,
                    context.Annotations,
                    context.ContextDescriptor,
                    context.ScriptingService,
                    false, false, false, false, null, false);

                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;

                var convertor = new MatchedEventConvertorImpl(
                    untilMatchEventSpec.TaggedEventTypes, untilMatchEventSpec.ArrayEventTypes, allTagNamesOrdered,
                    context.EventAdapterService);
                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.TagsArrayed = GetIndexesForTags(allTagNamesOrdered, arrayTags);
            }
            else if (evalNode is EvalFollowedByFactoryNode)
            {
                var followedByNode = (EvalFollowedByFactoryNode)evalNode;
                StreamTypeService streamTypeService = new StreamTypeServiceImpl(context.EngineURI, false);
                var validationContext = new ExprValidationContext(
                    context.Container,
                    streamTypeService,
                    context.EngineImportService,
                    context.StatementExtensionServicesContext, null,
                    context.SchedulingService,
                    context.VariableService,
                    context.TableService,
                    evaluatorContext,
                    context.EventAdapterService,
                    context.StatementName,
                    context.StatementId,
                    context.Annotations,
                    context.ContextDescriptor,
                    context.ScriptingService,
                    false, false, false, false, null, false);

                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.GetMessage() +
                                                   " are not allowed within the expression";
                                Log.Error(errorMessage);
                                throw new ExprValidationException(errorMessage);
                            }

                            var validatedExpr = ExprNodeUtility.GetValidatedSubtree(
                                ExprNodeOrigin.FOLLOWEDBYMAX, maxExpr, validationContext);
                            validated.Add(validatedExpr);
                            if ((validatedExpr.ExprEvaluator.ReturnType == null) ||
                                (!validatedExpr.ExprEvaluator.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);
            }
        }
Пример #2
0
        private FilterSpecCompiled Compile(FilterStreamSpecRaw raw)
        {
            var compiled = (FilterStreamSpecCompiled)raw.Compile(SupportStatementContextFactory.MakeContext(), new HashSet <String>(), false, Collections.GetEmptyList <int>(), false, false, false, null);

            return(compiled.FilterSpec);
        }