use of org.apache.hyracks.algebricks.core.algebra.expressions.VariableReferenceExpression in project asterixdb by apache.
the class InlineSubplanInputForNestedTupleSourceRule method applySpecialFlattening.
private Pair<Boolean, LinkedHashMap<LogicalVariable, LogicalVariable>> applySpecialFlattening(Mutable<ILogicalOperator> opRef, IOptimizationContext context) throws AlgebricksException {
SubplanOperator subplanOp = (SubplanOperator) opRef.getValue();
Mutable<ILogicalOperator> inputOpRef = subplanOp.getInputs().get(0);
LinkedHashMap<LogicalVariable, LogicalVariable> replacedVarMap = new LinkedHashMap<>();
// Recursively applies this rule to the nested plan of the subplan operator,
// for the case where there are nested subplan operators within {@code subplanOp}.
Pair<Boolean, LinkedHashMap<LogicalVariable, LogicalVariable>> result = rewriteSubplanOperator(subplanOp.getNestedPlans().get(0).getRoots().get(0), context);
ILogicalOperator inputOpBackup = inputOpRef.getValue();
// Gets live variables and covering variables from the subplan's input operator.
Pair<ILogicalOperator, Set<LogicalVariable>> primaryOpAndVars = EquivalenceClassUtils.findOrCreatePrimaryKeyOpAndVariables(inputOpBackup, false, context);
ILogicalOperator inputOp = primaryOpAndVars.first;
Set<LogicalVariable> primaryKeyVars = primaryOpAndVars.second;
inputOpRef.setValue(inputOp);
Set<LogicalVariable> liveVars = new HashSet<>();
VariableUtilities.getLiveVariables(inputOp, liveVars);
Pair<Set<LogicalVariable>, Mutable<ILogicalOperator>> notNullVarsAndTopJoinRef = SubplanFlatteningUtil.inlineLeftNtsInSubplanJoin(subplanOp, context);
if (notNullVarsAndTopJoinRef.first == null) {
inputOpRef.setValue(inputOpBackup);
return new Pair<>(false, replacedVarMap);
}
Set<LogicalVariable> notNullVars = notNullVarsAndTopJoinRef.first;
Mutable<ILogicalOperator> topJoinRef = notNullVarsAndTopJoinRef.second;
// Creates a group-by operator.
List<Pair<LogicalVariable, Mutable<ILogicalExpression>>> groupByList = new ArrayList<Pair<LogicalVariable, Mutable<ILogicalExpression>>>();
List<Pair<LogicalVariable, Mutable<ILogicalExpression>>> groupByDecorList = new ArrayList<Pair<LogicalVariable, Mutable<ILogicalExpression>>>();
GroupByOperator groupbyOp = new GroupByOperator(groupByList, groupByDecorList, subplanOp.getNestedPlans());
for (LogicalVariable coverVar : primaryKeyVars) {
LogicalVariable newVar = context.newVar();
groupByList.add(new Pair<>(newVar, new MutableObject<>(new VariableReferenceExpression(coverVar))));
// Adds variables for replacements in ancestors.
replacedVarMap.put(coverVar, newVar);
}
for (LogicalVariable liveVar : liveVars) {
if (primaryKeyVars.contains(liveVar)) {
continue;
}
groupByDecorList.add(new Pair<>(null, new MutableObject<>(new VariableReferenceExpression(liveVar))));
}
groupbyOp.getInputs().add(new MutableObject<>(topJoinRef.getValue()));
if (!notNullVars.isEmpty()) {
// Adds a select operator into the nested plan for group-by to remove tuples with NULL on {@code assignVar}, i.e.,
// subplan input tuples that are filtered out within a subplan.
List<Mutable<ILogicalExpression>> nullCheckExprRefs = new ArrayList<>();
for (LogicalVariable notNullVar : notNullVars) {
Mutable<ILogicalExpression> filterVarExpr = new MutableObject<>(new VariableReferenceExpression(notNullVar));
List<Mutable<ILogicalExpression>> args = new ArrayList<>();
args.add(filterVarExpr);
List<Mutable<ILogicalExpression>> argsForNotFunction = new ArrayList<>();
argsForNotFunction.add(new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.IS_MISSING), args)));
nullCheckExprRefs.add(new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.NOT), argsForNotFunction)));
}
Mutable<ILogicalExpression> selectExprRef = nullCheckExprRefs.size() > 1 ? new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.AND), nullCheckExprRefs)) : nullCheckExprRefs.get(0);
SelectOperator selectOp = new SelectOperator(selectExprRef, false, null);
topJoinRef.setValue(selectOp);
selectOp.getInputs().add(new MutableObject<>(new NestedTupleSourceOperator(new MutableObject<>(groupbyOp))));
} else {
// The original join operator in the Subplan is a left-outer join.
// Therefore, no null-check variable is injected and no SelectOperator needs to be added.
topJoinRef.setValue(new NestedTupleSourceOperator(new MutableObject<>(groupbyOp)));
}
opRef.setValue(groupbyOp);
OperatorManipulationUtil.computeTypeEnvironmentBottomUp(groupbyOp, context);
VariableUtilities.substituteVariables(groupbyOp, result.second, context);
replacedVarMap.putAll(result.second);
return new Pair<>(true, replacedVarMap);
}
use of org.apache.hyracks.algebricks.core.algebra.expressions.VariableReferenceExpression in project asterixdb by apache.
the class InlineSubplanInputForNestedTupleSourceRule method applyGeneralFlattening.
private Pair<Boolean, LinkedHashMap<LogicalVariable, LogicalVariable>> applyGeneralFlattening(Mutable<ILogicalOperator> opRef, IOptimizationContext context) throws AlgebricksException {
SubplanOperator subplanOp = (SubplanOperator) opRef.getValue();
if (!SubplanFlatteningUtil.containsOperators(subplanOp, ImmutableSet.of(LogicalOperatorTag.DATASOURCESCAN, LogicalOperatorTag.INNERJOIN, // We don't have nested runtime for union-all and distinct hence we have to include them here.
LogicalOperatorTag.LEFTOUTERJOIN, LogicalOperatorTag.UNIONALL, LogicalOperatorTag.DISTINCT))) {
return new Pair<>(false, new LinkedHashMap<>());
}
Mutable<ILogicalOperator> inputOpRef = subplanOp.getInputs().get(0);
ILogicalOperator inputOpBackup = inputOpRef.getValue();
// Creates parameters for the left outer join operator.
Pair<ILogicalOperator, Set<LogicalVariable>> primaryOpAndVars = EquivalenceClassUtils.findOrCreatePrimaryKeyOpAndVariables(inputOpBackup, true, context);
ILogicalOperator inputOp = primaryOpAndVars.first;
Set<LogicalVariable> primaryKeyVars = primaryOpAndVars.second;
inputOpRef.setValue(inputOp);
Set<LogicalVariable> inputLiveVars = new HashSet<>();
VariableUtilities.getLiveVariables(inputOp, inputLiveVars);
Pair<Map<LogicalVariable, LogicalVariable>, List<Pair<IOrder, Mutable<ILogicalExpression>>>> varMapAndOrderExprs = SubplanFlatteningUtil.inlineAllNestedTupleSource(subplanOp, context);
Map<LogicalVariable, LogicalVariable> varMap = varMapAndOrderExprs.first;
if (varMap == null) {
inputOpRef.setValue(inputOpBackup);
return new Pair<>(false, new LinkedHashMap<>());
}
Mutable<ILogicalOperator> lowestAggregateRefInSubplan = SubplanFlatteningUtil.findLowestAggregate(subplanOp.getNestedPlans().get(0).getRoots().get(0));
Mutable<ILogicalOperator> rightInputOpRef = lowestAggregateRefInSubplan.getValue().getInputs().get(0);
ILogicalOperator rightInputOp = rightInputOpRef.getValue();
// Creates a variable to indicate whether a left input tuple is killed in the plan rooted at rightInputOp.
LogicalVariable assignVar = context.newVar();
ILogicalOperator assignOp = new AssignOperator(assignVar, new MutableObject<>(ConstantExpression.TRUE));
assignOp.getInputs().add(rightInputOpRef);
context.computeAndSetTypeEnvironmentForOperator(assignOp);
rightInputOpRef = new MutableObject<>(assignOp);
// Constructs the join predicate for the leftOuter join.
List<Mutable<ILogicalExpression>> joinPredicates = new ArrayList<>();
for (LogicalVariable liveVar : primaryKeyVars) {
List<Mutable<ILogicalExpression>> arguments = new ArrayList<>();
arguments.add(new MutableObject<>(new VariableReferenceExpression(liveVar)));
LogicalVariable rightVar = varMap.get(liveVar);
arguments.add(new MutableObject<>(new VariableReferenceExpression(rightVar)));
ILogicalExpression expr = new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(AlgebricksBuiltinFunctions.EQ), arguments);
joinPredicates.add(new MutableObject<>(expr));
}
ILogicalExpression joinExpr = joinPredicates.size() > 1 ? new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(AlgebricksBuiltinFunctions.AND), joinPredicates) : joinPredicates.size() > 0 ? joinPredicates.get(0).getValue() : ConstantExpression.TRUE;
LeftOuterJoinOperator leftOuterJoinOp = new LeftOuterJoinOperator(new MutableObject<>(joinExpr), inputOpRef, rightInputOpRef);
OperatorManipulationUtil.computeTypeEnvironmentBottomUp(rightInputOp, context);
context.computeAndSetTypeEnvironmentForOperator(leftOuterJoinOp);
// Creates group-by operator.
List<Pair<LogicalVariable, Mutable<ILogicalExpression>>> groupByList = new ArrayList<Pair<LogicalVariable, Mutable<ILogicalExpression>>>();
List<Pair<LogicalVariable, Mutable<ILogicalExpression>>> groupByDecorList = new ArrayList<Pair<LogicalVariable, Mutable<ILogicalExpression>>>();
List<ILogicalPlan> nestedPlans = new ArrayList<>();
GroupByOperator groupbyOp = new GroupByOperator(groupByList, groupByDecorList, nestedPlans);
LinkedHashMap<LogicalVariable, LogicalVariable> replacedVarMap = new LinkedHashMap<>();
for (LogicalVariable liveVar : primaryKeyVars) {
LogicalVariable newVar = context.newVar();
groupByList.add(new Pair<>(newVar, new MutableObject<>(new VariableReferenceExpression(liveVar))));
// Adds variables for replacements in ancestors.
replacedVarMap.put(liveVar, newVar);
}
for (LogicalVariable liveVar : inputLiveVars) {
if (primaryKeyVars.contains(liveVar)) {
continue;
}
groupByDecorList.add(new Pair<>(null, new MutableObject<>(new VariableReferenceExpression(liveVar))));
}
// Sets up the nested plan for the groupby operator.
Mutable<ILogicalOperator> aggOpRef = subplanOp.getNestedPlans().get(0).getRoots().get(0);
// Clears the input of the lowest aggregate.
lowestAggregateRefInSubplan.getValue().getInputs().clear();
Mutable<ILogicalOperator> currentOpRef = lowestAggregateRefInSubplan;
// Adds an optional order operator.
List<Pair<IOrder, Mutable<ILogicalExpression>>> orderExprs = varMapAndOrderExprs.second;
if (!orderExprs.isEmpty()) {
OrderOperator orderOp = new OrderOperator(orderExprs);
currentOpRef = new MutableObject<>(orderOp);
lowestAggregateRefInSubplan.getValue().getInputs().add(currentOpRef);
}
// Adds a select operator into the nested plan for group-by to remove tuples with NULL on {@code assignVar}, i.e.,
// subplan input tuples that are filtered out within a subplan.
Mutable<ILogicalExpression> filterVarExpr = new MutableObject<>(new VariableReferenceExpression(assignVar));
List<Mutable<ILogicalExpression>> args = new ArrayList<>();
args.add(filterVarExpr);
List<Mutable<ILogicalExpression>> argsForNotFunction = new ArrayList<>();
argsForNotFunction.add(new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.IS_MISSING), args)));
SelectOperator selectOp = new SelectOperator(new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.NOT), argsForNotFunction)), false, null);
currentOpRef.getValue().getInputs().add(new MutableObject<>(selectOp));
selectOp.getInputs().add(new MutableObject<>(new NestedTupleSourceOperator(new MutableObject<>(groupbyOp))));
List<Mutable<ILogicalOperator>> nestedRoots = new ArrayList<>();
nestedRoots.add(aggOpRef);
nestedPlans.add(new ALogicalPlanImpl(nestedRoots));
groupbyOp.getInputs().add(new MutableObject<>(leftOuterJoinOp));
// Replaces subplan with the group-by operator.
opRef.setValue(groupbyOp);
OperatorManipulationUtil.computeTypeEnvironmentBottomUp(groupbyOp, context);
// Recursively applys this rule to the nested plan of the subplan operator,
// for the case where there are nested subplan operators within {@code subplanOp}.
Pair<Boolean, LinkedHashMap<LogicalVariable, LogicalVariable>> result = rewriteSubplanOperator(rightInputOpRef, context);
VariableUtilities.substituteVariables(leftOuterJoinOp, result.second, context);
VariableUtilities.substituteVariables(groupbyOp, result.second, context);
// No var mapping from the right input operator should be populated up.
return new Pair<>(true, replacedVarMap);
}
use of org.apache.hyracks.algebricks.core.algebra.expressions.VariableReferenceExpression in project asterixdb by apache.
the class InlineAllNtsInSubplanVisitor method visitOrderOperator.
@Override
public ILogicalOperator visitOrderOperator(OrderOperator op, Void arg) throws AlgebricksException {
visitSingleInputOperator(op);
if (correlatedKeyVars.isEmpty()) {
return op;
}
orderingExprs.clear();
orderingExprs.addAll(cloneOrderingExpression(op.getOrderExpressions()));
List<Pair<IOrder, Mutable<ILogicalExpression>>> orderExprList = new ArrayList<>();
// Adds keyVars to the prefix of sorting columns.
for (LogicalVariable keyVar : correlatedKeyVars) {
orderExprList.add(new Pair<IOrder, Mutable<ILogicalExpression>>(OrderOperator.ASC_ORDER, new MutableObject<ILogicalExpression>(new VariableReferenceExpression(keyVar))));
}
orderExprList.addAll(op.getOrderExpressions());
// Creates an order operator with the new expression list.
OrderOperator orderOp = new OrderOperator(orderExprList);
orderOp.getInputs().addAll(op.getInputs());
context.computeAndSetTypeEnvironmentForOperator(orderOp);
return orderOp;
}
use of org.apache.hyracks.algebricks.core.algebra.expressions.VariableReferenceExpression in project asterixdb by apache.
the class IntroduceLSMComponentFilterRule method changePlan.
private void changePlan(List<IOptimizableFuncExpr> optFuncExprs, AbstractLogicalOperator op, Dataset dataset, IOptimizationContext context) throws AlgebricksException {
Queue<Mutable<ILogicalOperator>> queue = new LinkedList<>(op.getInputs());
while (!queue.isEmpty()) {
AbstractLogicalOperator descendantOp = (AbstractLogicalOperator) queue.poll().getValue();
if (descendantOp == null) {
continue;
}
if (descendantOp.getOperatorTag() == LogicalOperatorTag.DATASOURCESCAN) {
DataSourceScanOperator dataSourceScanOp = (DataSourceScanOperator) descendantOp;
DataSource ds = (DataSource) dataSourceScanOp.getDataSource();
if (dataset.getDatasetName().compareTo(((DatasetDataSource) ds).getDataset().getDatasetName()) == 0) {
List<LogicalVariable> minFilterVars = new ArrayList<>();
List<LogicalVariable> maxFilterVars = new ArrayList<>();
AssignOperator assignOp = createAssignOperator(optFuncExprs, minFilterVars, maxFilterVars, context);
dataSourceScanOp.setMinFilterVars(minFilterVars);
dataSourceScanOp.setMaxFilterVars(maxFilterVars);
List<Mutable<ILogicalExpression>> additionalFilteringExpressions = new ArrayList<>();
for (LogicalVariable var : assignOp.getVariables()) {
additionalFilteringExpressions.add(new MutableObject<ILogicalExpression>(new VariableReferenceExpression(var)));
}
dataSourceScanOp.setAdditionalFilteringExpressions(additionalFilteringExpressions);
assignOp.getInputs().add(new MutableObject<>(dataSourceScanOp.getInputs().get(0).getValue()));
dataSourceScanOp.getInputs().get(0).setValue(assignOp);
}
} else if (descendantOp.getOperatorTag() == LogicalOperatorTag.UNNEST_MAP) {
UnnestMapOperator unnestMapOp = (UnnestMapOperator) descendantOp;
ILogicalExpression unnestExpr = unnestMapOp.getExpressionRef().getValue();
if (unnestExpr.getExpressionTag() == LogicalExpressionTag.FUNCTION_CALL) {
AbstractFunctionCallExpression f = (AbstractFunctionCallExpression) unnestExpr;
FunctionIdentifier fid = f.getFunctionIdentifier();
if (!fid.equals(BuiltinFunctions.INDEX_SEARCH)) {
throw new IllegalStateException();
}
AccessMethodJobGenParams jobGenParams = new AccessMethodJobGenParams();
jobGenParams.readFromFuncArgs(f.getArguments());
if (dataset.getDatasetName().compareTo(jobGenParams.datasetName) == 0) {
List<LogicalVariable> minFilterVars = new ArrayList<>();
List<LogicalVariable> maxFilterVars = new ArrayList<>();
AssignOperator assignOp = createAssignOperator(optFuncExprs, minFilterVars, maxFilterVars, context);
unnestMapOp.setMinFilterVars(minFilterVars);
unnestMapOp.setMaxFilterVars(maxFilterVars);
List<Mutable<ILogicalExpression>> additionalFilteringExpressions = new ArrayList<>();
for (LogicalVariable var : assignOp.getVariables()) {
additionalFilteringExpressions.add(new MutableObject<ILogicalExpression>(new VariableReferenceExpression(var)));
}
unnestMapOp.setAdditionalFilteringExpressions(additionalFilteringExpressions);
assignOp.getInputs().add(new MutableObject<>(unnestMapOp.getInputs().get(0).getValue()));
unnestMapOp.getInputs().get(0).setValue(assignOp);
}
}
}
queue.addAll(descendantOp.getInputs());
}
}
use of org.apache.hyracks.algebricks.core.algebra.expressions.VariableReferenceExpression in project asterixdb by apache.
the class InlineAllNtsInSubplanVisitor method createFieldAccessAssignOperator.
private ILogicalOperator createFieldAccessAssignOperator(LogicalVariable recordVar, Set<LogicalVariable> inputLiveVars) {
List<LogicalVariable> fieldAccessVars = new ArrayList<>();
List<Mutable<ILogicalExpression>> fieldAccessExprs = new ArrayList<>();
// Adds field access by name.
for (LogicalVariable inputLiveVar : inputLiveVars) {
if (!correlatedKeyVars.contains(inputLiveVar)) {
// field Var
LogicalVariable newVar = context.newVar();
fieldAccessVars.add(newVar);
// fieldAcess expr
List<Mutable<ILogicalExpression>> argRefs = new ArrayList<>();
argRefs.add(new MutableObject<ILogicalExpression>(new VariableReferenceExpression(recordVar)));
argRefs.add(new MutableObject<ILogicalExpression>(new ConstantExpression(new AsterixConstantValue(new AString(Integer.toString(inputLiveVar.getId()))))));
fieldAccessExprs.add(new MutableObject<ILogicalExpression>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.FIELD_ACCESS_BY_NAME), argRefs)));
// Updates variable mapping for ancestor operators.
updateInputToOutputVarMapping(inputLiveVar, newVar, false);
}
}
AssignOperator fieldAccessAssignOp = new AssignOperator(fieldAccessVars, fieldAccessExprs);
return fieldAccessAssignOp;
}
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