use of io.siddhi.core.executor.ExpressionExecutor in project siddhi by wso2.
the class OrderByEventComparator method compare.
@Override
public int compare(ComplexEvent complexEvent1, ComplexEvent complexEvent2) {
if (groupByExecutors != null) {
for (int i = 0, groupByExecutorsLength = groupByExecutors.length; i < groupByExecutorsLength; i++) {
ExpressionExecutor executor = groupByExecutors[i];
boolean isAscending = isAscendingArray[i];
Object value1 = executor.execute(complexEvent1);
Object value2 = executor.execute(complexEvent2);
if (value1 != null && value2 != null) {
int results = 0;
Attribute.Type type = executor.getReturnType();
switch(type) {
case STRING:
results = ((String) value1).compareTo(((String) value2));
break;
case INT:
results = ((Integer) value1).compareTo(((Integer) value2));
break;
case LONG:
results = ((Long) value1).compareTo(((Long) value2));
break;
case FLOAT:
results = ((Float) value1).compareTo(((Float) value2));
break;
case DOUBLE:
results = ((Double) value1).compareTo(((Double) value2));
break;
case BOOL:
results = ((Boolean) value1).compareTo(((Boolean) value2));
break;
case OBJECT:
int hashDiff = value1.hashCode() - value2.hashCode();
if (hashDiff < 0) {
results = -1;
} else if (hashDiff > 0) {
results = 1;
}
}
if (!isAscending) {
results = results * -1;
}
if (results != 0) {
return results;
}
} else if (value1 != null) {
return -1;
} else if (value2 != null) {
return 1;
}
}
return 0;
} else {
return 0;
}
}
use of io.siddhi.core.executor.ExpressionExecutor in project siddhi by wso2.
the class EventTestCase method testConditionExpressionExecutorValidation.
@Test(expectedExceptions = OperationNotSupportedException.class)
public void testConditionExpressionExecutorValidation() {
// StreamDefinition streamDefinition = StreamDefinition.id("cseEventStream").attribute("symbol", Attribute
// .Type.STRING).attribute("price", Attribute.Type.FLOAT).attribute("volume", Attribute.Type.INT);
VariableExpressionExecutor volumeVariableExpressionExecutor = new VariableExpressionExecutor(new Attribute("volume", Attribute.Type.INT), 0, 0);
volumeVariableExpressionExecutor.setPosition(new int[] { 0, SiddhiConstants.UNKNOWN_STATE, SiddhiConstants.OUTPUT_DATA_INDEX, 2 });
ConstantExpressionExecutor constantExpressionExecutor = new ConstantExpressionExecutor(10f, Attribute.Type.FLOAT);
ExpressionExecutor compareGreaterThanExecutor = new GreaterThanCompareConditionExpressionExecutorIntInt(new ConstantExpressionExecutor(10, Attribute.Type.INT), volumeVariableExpressionExecutor);
ExpressionExecutor andExecutor = new AndConditionExpressionExecutor(constantExpressionExecutor, compareGreaterThanExecutor);
}
use of io.siddhi.core.executor.ExpressionExecutor in project siddhi by wso2.
the class AggregationRuntime method compileExpression.
public CompiledCondition compileExpression(Expression expression, Within within, Expression per, List<Variable> queryGroupByList, MatchingMetaInfoHolder matchingMetaInfoHolder, List<VariableExpressionExecutor> variableExpressionExecutors, Map<String, Table> tableMap, SiddhiQueryContext siddhiQueryContext) {
String aggregationName = aggregationDefinition.getId();
boolean isOptimisedTableLookup = isOptimisedLookup;
Map<TimePeriod.Duration, CompiledCondition> withinTableCompiledConditions = new HashMap<>();
CompiledCondition withinInMemoryCompileCondition;
CompiledCondition onCompiledCondition;
List<Attribute> additionalAttributes = new ArrayList<>();
// Define additional attribute list
additionalAttributes.add(new Attribute("_START", Attribute.Type.LONG));
additionalAttributes.add(new Attribute("_END", Attribute.Type.LONG));
int lowerGranularitySize = this.activeIncrementalDurations.size() - 1;
List<String> lowerGranularityAttributes = new ArrayList<>();
if (isDistributed) {
// for values calculated in in-memory in the shards
for (int i = 0; i < lowerGranularitySize; i++) {
String attributeName = "_AGG_TIMESTAMP_FILTER_" + i;
additionalAttributes.add(new Attribute(attributeName, Attribute.Type.LONG));
lowerGranularityAttributes.add(attributeName);
}
}
// Get table definition. Table definitions for all the tables used to persist aggregates are similar.
// Therefore it's enough to get the definition from one table.
AbstractDefinition tableDefinition = aggregationTables.get(activeIncrementalDurations.get(0)).getTableDefinition();
boolean isOnDemandQuery = matchingMetaInfoHolder.getMetaStateEvent().getMetaStreamEvents().length == 1;
// Alter existing meta stream event or create new one if a meta stream doesn't exist
// After calling this method the original MatchingMetaInfoHolder's meta stream event would be altered
// Alter meta info holder to contain stream event and aggregate both when it's a on-demand query
MetaStreamEvent metaStreamEventForTableLookups;
if (isOnDemandQuery) {
metaStreamEventForTableLookups = alterMetaStreamEvent(true, new MetaStreamEvent(), additionalAttributes);
matchingMetaInfoHolder = alterMetaInfoHolderForOnDemandQuery(metaStreamEventForTableLookups, matchingMetaInfoHolder);
} else {
metaStreamEventForTableLookups = alterMetaStreamEvent(false, matchingMetaInfoHolder.getMetaStateEvent().getMetaStreamEvent(0), additionalAttributes);
}
// Create new MatchingMetaInfoHolder containing newMetaStreamEventWithStartEnd and table meta event
String aggReferenceId = matchingMetaInfoHolder.getMetaStateEvent().getMetaStreamEvent(1).getInputReferenceId();
String referenceName = aggReferenceId == null ? aggregationName : aggReferenceId;
MetaStreamEvent metaStoreEventForTableLookups = createMetaStoreEvent(tableDefinition, referenceName);
// Create new MatchingMetaInfoHolder containing metaStreamEventForTableLookups and table meta event
MatchingMetaInfoHolder metaInfoHolderForTableLookups = createNewStreamTableMetaInfoHolder(metaStreamEventForTableLookups, metaStoreEventForTableLookups);
// Create per expression executor
ExpressionExecutor perExpressionExecutor;
if (per != null) {
perExpressionExecutor = ExpressionParser.parseExpression(per, matchingMetaInfoHolder.getMetaStateEvent(), matchingMetaInfoHolder.getCurrentState(), tableMap, variableExpressionExecutors, false, 0, ProcessingMode.BATCH, false, siddhiQueryContext);
if (perExpressionExecutor.getReturnType() != Attribute.Type.STRING) {
throw new SiddhiAppCreationException("Query " + siddhiQueryContext.getName() + "'s per value expected a string but found " + perExpressionExecutor.getReturnType(), per.getQueryContextStartIndex(), per.getQueryContextEndIndex());
}
// Additional Per time function verification at compile time if it is a constant
if (perExpressionExecutor instanceof ConstantExpressionExecutor) {
String perValue = ((ConstantExpressionExecutor) perExpressionExecutor).getValue().toString();
try {
normalizeDuration(perValue);
} catch (SiddhiAppValidationException e) {
throw new SiddhiAppValidationException("Aggregation Query's per value is expected to be of a valid time function of the " + "following " + TimePeriod.Duration.SECONDS + ", " + TimePeriod.Duration.MINUTES + ", " + TimePeriod.Duration.HOURS + ", " + TimePeriod.Duration.DAYS + ", " + TimePeriod.Duration.MONTHS + ", " + TimePeriod.Duration.YEARS + ".");
}
}
} else {
throw new SiddhiAppCreationException("Syntax Error: Aggregation join query must contain a `per` " + "definition for granularity");
}
// Create start and end time expression
Expression startEndTimeExpression;
ExpressionExecutor startTimeEndTimeExpressionExecutor;
if (within != null) {
if (within.getTimeRange().size() == 1) {
startEndTimeExpression = new AttributeFunction("incrementalAggregator", "startTimeEndTime", within.getTimeRange().get(0));
} else {
// within.getTimeRange().size() == 2
startEndTimeExpression = new AttributeFunction("incrementalAggregator", "startTimeEndTime", within.getTimeRange().get(0), within.getTimeRange().get(1));
}
startTimeEndTimeExpressionExecutor = ExpressionParser.parseExpression(startEndTimeExpression, matchingMetaInfoHolder.getMetaStateEvent(), matchingMetaInfoHolder.getCurrentState(), tableMap, variableExpressionExecutors, false, 0, ProcessingMode.BATCH, false, siddhiQueryContext);
} else {
throw new SiddhiAppCreationException("Syntax Error : Aggregation read query must contain a `within` " + "definition for filtering of aggregation data.");
}
// Create within expression
Expression timeFilterExpression;
if (isProcessingOnExternalTime) {
timeFilterExpression = Expression.variable(AGG_EXTERNAL_TIMESTAMP_COL);
} else {
timeFilterExpression = Expression.variable(AGG_START_TIMESTAMP_COL);
}
Expression withinExpression;
Expression start = Expression.variable(additionalAttributes.get(0).getName());
Expression end = Expression.variable(additionalAttributes.get(1).getName());
Expression compareWithStartTime = Compare.compare(start, Compare.Operator.LESS_THAN_EQUAL, timeFilterExpression);
Expression compareWithEndTime = Compare.compare(timeFilterExpression, Compare.Operator.LESS_THAN, end);
withinExpression = Expression.and(compareWithStartTime, compareWithEndTime);
List<ExpressionExecutor> timestampFilterExecutors = new ArrayList<>();
if (isDistributed) {
for (int i = 0; i < lowerGranularitySize; i++) {
Expression[] expressionArray = new Expression[] { new AttributeFunction("", "currentTimeMillis", null), Expression.value(this.activeIncrementalDurations.get(i + 1).toString()) };
Expression filterExpression = new AttributeFunction("incrementalAggregator", "getAggregationStartTime", expressionArray);
timestampFilterExecutors.add(ExpressionParser.parseExpression(filterExpression, matchingMetaInfoHolder.getMetaStateEvent(), matchingMetaInfoHolder.getCurrentState(), tableMap, variableExpressionExecutors, false, 0, ProcessingMode.BATCH, false, siddhiQueryContext));
}
}
// Create compile condition per each table used to persist aggregates.
// These compile conditions are used to check whether the aggregates in tables are within the given duration.
// Combine with and on condition for table query
boolean shouldApplyReducedCondition = false;
Expression reducedExpression = null;
// Check if there is no on conditions
if (!(expression instanceof BoolConstant)) {
// For abstract queryable table
AggregationExpressionBuilder aggregationExpressionBuilder = new AggregationExpressionBuilder(expression);
AggregationExpressionVisitor expressionVisitor = new AggregationExpressionVisitor(metaStreamEventForTableLookups.getInputReferenceId(), metaStreamEventForTableLookups.getLastInputDefinition().getAttributeList(), this.tableAttributesNameList);
aggregationExpressionBuilder.build(expressionVisitor);
shouldApplyReducedCondition = expressionVisitor.applyReducedExpression();
reducedExpression = expressionVisitor.getReducedExpression();
}
Expression withinExpressionTable;
if (shouldApplyReducedCondition) {
withinExpressionTable = Expression.and(withinExpression, reducedExpression);
} else {
withinExpressionTable = withinExpression;
}
List<Variable> queryGroupByListCopy = new ArrayList<>(queryGroupByList);
Variable timestampVariable = new Variable(AGG_START_TIMESTAMP_COL);
List<String> queryGroupByNamesList = queryGroupByListCopy.stream().map(Variable::getAttributeName).collect(Collectors.toList());
boolean queryGroupByContainsTimestamp = queryGroupByNamesList.remove(AGG_START_TIMESTAMP_COL);
boolean isQueryGroupBySameAsAggGroupBy = queryGroupByListCopy.isEmpty() || (queryGroupByListCopy.contains(timestampVariable) && queryGroupByNamesList.equals(groupByVariablesList));
List<VariableExpressionExecutor> variableExpExecutorsForTableLookups = new ArrayList<>();
Map<TimePeriod.Duration, CompiledSelection> withinTableCompiledSelection = new HashMap<>();
if (isOptimisedTableLookup) {
Selector selector = Selector.selector();
List<Variable> groupByList = new ArrayList<>();
if (!isQueryGroupBySameAsAggGroupBy) {
if (queryGroupByContainsTimestamp) {
if (isProcessingOnExternalTime) {
groupByList.add(new Variable(AGG_EXTERNAL_TIMESTAMP_COL));
} else {
groupByList.add(new Variable(AGG_START_TIMESTAMP_COL));
}
// Remove timestamp to process the rest
queryGroupByListCopy.remove(timestampVariable);
}
for (Variable queryGroupBy : queryGroupByListCopy) {
String referenceId = queryGroupBy.getStreamId();
if (referenceId == null) {
if (tableAttributesNameList.contains(queryGroupBy.getAttributeName())) {
groupByList.add(queryGroupBy);
}
} else if (referenceId.equalsIgnoreCase(referenceName)) {
groupByList.add(queryGroupBy);
}
}
// If query group bys are based on joining stream
if (groupByList.isEmpty()) {
isQueryGroupBySameAsAggGroupBy = true;
}
}
groupByList.forEach((groupBy) -> groupBy.setStreamId(referenceName));
selector.addGroupByList(groupByList);
List<OutputAttribute> selectorList;
if (!isQueryGroupBySameAsAggGroupBy) {
selectorList = constructSelectorList(isProcessingOnExternalTime, isDistributed, isLatestEventColAdded, baseAggregatorBeginIndex, groupByVariablesList.size(), finalBaseExpressionsList, tableDefinition, groupByList);
} else {
selectorList = defaultSelectorList;
}
for (OutputAttribute outputAttribute : selectorList) {
if (outputAttribute.getExpression() instanceof Variable) {
((Variable) outputAttribute.getExpression()).setStreamId(referenceName);
} else {
for (Expression parameter : ((AttributeFunction) outputAttribute.getExpression()).getParameters()) {
((Variable) parameter).setStreamId(referenceName);
}
}
}
selector.addSelectionList(selectorList);
try {
aggregationTables.entrySet().forEach((durationTableEntry -> {
CompiledSelection compiledSelection = ((QueryableProcessor) durationTableEntry.getValue()).compileSelection(selector, tableDefinition.getAttributeList(), metaInfoHolderForTableLookups, variableExpExecutorsForTableLookups, tableMap, siddhiQueryContext);
withinTableCompiledSelection.put(durationTableEntry.getKey(), compiledSelection);
}));
} catch (SiddhiAppCreationException | SiddhiAppValidationException | QueryableRecordTableException e) {
if (LOG.isDebugEnabled()) {
LOG.debug("Aggregation Query optimization failed for aggregation: '" + aggregationName + "'. " + "Creating table lookup query in normal mode. Reason for failure: " + e.getMessage(), e);
}
isOptimisedTableLookup = false;
}
}
for (Map.Entry<TimePeriod.Duration, Table> entry : aggregationTables.entrySet()) {
CompiledCondition withinTableCompileCondition = entry.getValue().compileCondition(withinExpressionTable, metaInfoHolderForTableLookups, variableExpExecutorsForTableLookups, tableMap, siddhiQueryContext);
withinTableCompiledConditions.put(entry.getKey(), withinTableCompileCondition);
}
// Create compile condition for in-memory data.
// This compile condition is used to check whether the running aggregates (in-memory data)
// are within given duration
withinInMemoryCompileCondition = OperatorParser.constructOperator(new ComplexEventChunk<>(), withinExpression, metaInfoHolderForTableLookups, variableExpExecutorsForTableLookups, tableMap, siddhiQueryContext);
// Create compile condition for in-memory data, in case of distributed
// Look at the lower level granularities
Map<TimePeriod.Duration, CompiledCondition> withinTableLowerGranularityCompileCondition = new HashMap<>();
Expression lowerGranularity;
if (isDistributed) {
for (int i = 0; i < lowerGranularitySize; i++) {
if (isProcessingOnExternalTime) {
lowerGranularity = Expression.and(Expression.compare(Expression.variable("AGG_TIMESTAMP"), Compare.Operator.GREATER_THAN_EQUAL, Expression.variable(lowerGranularityAttributes.get(i))), withinExpressionTable);
} else {
if (shouldApplyReducedCondition) {
lowerGranularity = Expression.and(Expression.compare(Expression.variable("AGG_TIMESTAMP"), Compare.Operator.GREATER_THAN_EQUAL, Expression.variable(lowerGranularityAttributes.get(i))), reducedExpression);
} else {
lowerGranularity = Expression.compare(Expression.variable("AGG_TIMESTAMP"), Compare.Operator.GREATER_THAN_EQUAL, Expression.variable(lowerGranularityAttributes.get(i)));
}
}
TimePeriod.Duration duration = this.activeIncrementalDurations.get(i);
String tableName = aggregationName + "_" + duration.toString();
CompiledCondition compiledCondition = tableMap.get(tableName).compileCondition(lowerGranularity, metaInfoHolderForTableLookups, variableExpExecutorsForTableLookups, tableMap, siddhiQueryContext);
withinTableLowerGranularityCompileCondition.put(duration, compiledCondition);
}
}
QueryParserHelper.reduceMetaComplexEvent(metaInfoHolderForTableLookups.getMetaStateEvent());
// On compile condition.
// After finding all the aggregates belonging to within duration, the final on condition (given as
// "on stream1.name == aggregator.nickName ..." in the join query) must be executed on that data.
// This condition is used for that purpose.
onCompiledCondition = OperatorParser.constructOperator(new ComplexEventChunk<>(), expression, matchingMetaInfoHolder, variableExpressionExecutors, tableMap, siddhiQueryContext);
return new IncrementalAggregateCompileCondition(isOnDemandQuery, aggregationName, isProcessingOnExternalTime, isDistributed, activeIncrementalDurations, aggregationTables, outputExpressionExecutors, isOptimisedTableLookup, withinTableCompiledSelection, withinTableCompiledConditions, withinInMemoryCompileCondition, withinTableLowerGranularityCompileCondition, onCompiledCondition, additionalAttributes, perExpressionExecutor, startTimeEndTimeExpressionExecutor, timestampFilterExecutors, aggregateMetaSteamEvent, matchingMetaInfoHolder, metaInfoHolderForTableLookups, variableExpExecutorsForTableLookups);
}
use of io.siddhi.core.executor.ExpressionExecutor in project siddhi by wso2.
the class IncrementalDataAggregator method aggregateInMemoryData.
public ComplexEventChunk<StreamEvent> aggregateInMemoryData(Map<TimePeriod.Duration, Executor> incrementalExecutorMap) {
int startIndex = incrementalDurations.indexOf(durationToAggregate);
Set<String> groupByKeys = new HashSet<>();
for (int k = startIndex; k >= 0; k--) {
TimePeriod.Duration duration = incrementalDurations.get(k);
Executor incrementalExecutor = incrementalExecutorMap.get(duration);
if (incrementalExecutor instanceof IncrementalExecutor) {
BaseIncrementalValueStore aBaseIncrementalValueStore = ((IncrementalExecutor) incrementalExecutor).getBaseIncrementalValueStore();
Map<String, StreamEvent> groupedByEvents = aBaseIncrementalValueStore.getGroupedByEvents();
for (Map.Entry<String, StreamEvent> eventEntry : groupedByEvents.entrySet()) {
long startTimeOfAggregates = IncrementalTimeConverterUtil.getStartTimeOfAggregates(eventEntry.getValue().getTimestamp(), durationToAggregate, timeZone);
String groupByKey = eventEntry.getKey() + "-" + startTimeOfAggregates;
synchronized (this) {
groupByKeys.add(groupByKey);
SiddhiAppContext.startGroupByFlow(groupByKey);
ValueState state = (ValueState) valueStateHolder.getState();
try {
boolean shouldUpdate = true;
if (shouldUpdateTimestamp != null) {
shouldUpdate = shouldUpdate(shouldUpdateTimestamp.execute(eventEntry.getValue()), state);
} else {
state.lastTimestamp = oldestEventTimestamp;
}
// keeping timestamp value location as null
for (int i = 0; i < baseExecutorsForFind.size(); i++) {
ExpressionExecutor expressionExecutor = baseExecutorsForFind.get(i);
if (shouldUpdate) {
state.setValue(expressionExecutor.execute(eventEntry.getValue()), i + 1);
} else if (!(expressionExecutor instanceof VariableExpressionExecutor)) {
state.setValue(expressionExecutor.execute(eventEntry.getValue()), i + 1);
}
}
} finally {
valueStateHolder.returnState(state);
SiddhiAppContext.stopGroupByFlow();
}
}
}
}
}
// clean all executors
for (String groupByKey : groupByKeys) {
SiddhiAppContext.startGroupByFlow(groupByKey);
try {
for (ExpressionExecutor expressionExecutor : baseExecutorsForFind) {
expressionExecutor.execute(resetEvent);
}
} finally {
SiddhiAppContext.stopGroupByFlow();
}
}
return getProcessedEventChunk();
}
use of io.siddhi.core.executor.ExpressionExecutor in project siddhi by wso2.
the class OutOfOrderEventsDataAggregator method aggregateData.
public ComplexEventChunk<StreamEvent> aggregateData(ComplexEventChunk<StreamEvent> retrievedData) {
Set<String> groupByKeys = new HashSet<>();
while (retrievedData.hasNext()) {
StreamEvent streamEvent = retrievedData.next();
String groupByKey = groupByKeyGenerator.constructEventKey(streamEvent);
groupByKeys.add(groupByKey);
SiddhiAppContext.startGroupByFlow(groupByKey);
synchronized (this) {
ValueState state = (ValueState) valueStateHolder.getState();
try {
boolean shouldUpdate = true;
if (shouldUpdateTimestamp != null) {
shouldUpdate = shouldUpdate(shouldUpdateTimestamp.execute(streamEvent), state);
}
for (int i = 0; i < baseExecutors.size(); i++) {
// keeping timestamp value location as null
ExpressionExecutor expressionExecutor = baseExecutors.get(i);
if (shouldUpdate) {
state.setValue(expressionExecutor.execute(streamEvent), i + 1);
} else if (!(expressionExecutor instanceof VariableExpressionExecutor)) {
state.setValue(expressionExecutor.execute(streamEvent), i + 1);
}
}
} finally {
valueStateHolder.returnState(state);
SiddhiAppContext.stopGroupByFlow();
}
}
}
// clean all executors
for (String groupByKey : groupByKeys) {
SiddhiAppContext.startGroupByFlow(groupByKey);
try {
for (ExpressionExecutor expressionExecutor : baseExecutors) {
expressionExecutor.execute(resetEvent);
}
} finally {
SiddhiAppContext.stopGroupByFlow();
}
}
return createEventChunkFromAggregatedData();
}
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