Examples with NestedTupleSourceOperator org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator used on opensource projects

Example 16 with NestedTupleSourceOperator

use of org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator in project asterixdb by apache.

the class AqlExpressionToPlanTranslator method visit.

@Override
public Pair<ILogicalOperator, LogicalVariable> visit(FLWOGRExpression flwor, Mutable<ILogicalOperator> tupSource) throws CompilationException {
    Mutable<ILogicalOperator> flworPlan = tupSource;
    boolean isTop = context.isTopFlwor();
    if (!isTop) {
        context.enterSubplan();
    }
    if (isTop) {
        context.setTopFlwor(false);
    }
    for (Clause c : flwor.getClauseList()) {
        Pair<ILogicalOperator, LogicalVariable> pC = c.accept(this, flworPlan);
        flworPlan = new MutableObject<>(pC.first);
    }
    Expression r = flwor.getReturnExpr();
    boolean noForClause = flwor.noForClause();
    Pair<ILogicalOperator, LogicalVariable> result;
    if (r.getKind() == Kind.VARIABLE_EXPRESSION) {
        VariableExpr v = (VariableExpr) r;
        LogicalVariable var = context.getVar(v.getVar().getId());
        result = produceFlworPlan(noForClause, isTop, flworPlan, var);
    } else {
        Mutable<ILogicalOperator> baseOp = new MutableObject<>(flworPlan.getValue());
        Pair<ILogicalOperator, LogicalVariable> rRes = r.accept(this, baseOp);
        ILogicalOperator rOp = rRes.first;
        ILogicalOperator resOp;
        if (expressionNeedsNoNesting(r)) {
            baseOp.setValue(flworPlan.getValue());
            resOp = rOp;
        } else {
            SubplanOperator s = new SubplanOperator(rOp);
            s.getInputs().add(flworPlan);
            resOp = s;
            baseOp.setValue(new NestedTupleSourceOperator(new MutableObject<ILogicalOperator>(s)));
        }
        Mutable<ILogicalOperator> resOpRef = new MutableObject<>(resOp);
        result = produceFlworPlan(noForClause, isTop, resOpRef, rRes.second);
    }
    if (!isTop) {
        context.exitSubplan();
    }
    return result;
}

Example 17 with NestedTupleSourceOperator

use of org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator in project asterixdb by apache.

the class SqlppExpressionToPlanTranslator method visit.

@Override
public Pair<ILogicalOperator, LogicalVariable> visit(JoinClause joinClause, Mutable<ILogicalOperator> inputRef) throws CompilationException {
    Mutable<ILogicalOperator> leftInputRef = uncorrelatedLeftBranchStack.pop();
    if (joinClause.getJoinType() == JoinType.INNER) {
        Pair<ILogicalOperator, LogicalVariable> rightBranch = generateUnnestForBinaryCorrelateRightBranch(joinClause, inputRef, true);
        // A join operator with condition TRUE.
        AbstractBinaryJoinOperator joinOperator = new InnerJoinOperator(new MutableObject<ILogicalExpression>(ConstantExpression.TRUE), leftInputRef, new MutableObject<ILogicalOperator>(rightBranch.first));
        Mutable<ILogicalOperator> joinOpRef = new MutableObject<>(joinOperator);
        // Add an additional filter operator.
        Pair<ILogicalExpression, Mutable<ILogicalOperator>> conditionExprOpPair = langExprToAlgExpression(joinClause.getConditionExpression(), joinOpRef);
        SelectOperator filter = new SelectOperator(new MutableObject<ILogicalExpression>(conditionExprOpPair.first), false, null);
        filter.getInputs().add(conditionExprOpPair.second);
        return new Pair<>(filter, rightBranch.second);
    } else {
        // Creates a subplan operator.
        SubplanOperator subplanOp = new SubplanOperator();
        Mutable<ILogicalOperator> ntsRef = new MutableObject<>(new NestedTupleSourceOperator(new MutableObject<ILogicalOperator>(subplanOp)));
        subplanOp.getInputs().add(leftInputRef);
        // Enters the translation for a subplan.
        context.enterSubplan();
        // Adds an unnest operator to unnest to right expression.
        Pair<ILogicalOperator, LogicalVariable> rightBranch = generateUnnestForBinaryCorrelateRightBranch(joinClause, ntsRef, true);
        AbstractUnnestNonMapOperator rightUnnestOp = (AbstractUnnestNonMapOperator) rightBranch.first;
        // Adds an additional filter operator for the join condition.
        Pair<ILogicalExpression, Mutable<ILogicalOperator>> conditionExprOpPair = langExprToAlgExpression(joinClause.getConditionExpression(), new MutableObject<ILogicalOperator>(rightUnnestOp));
        SelectOperator filter = new SelectOperator(new MutableObject<ILogicalExpression>(conditionExprOpPair.first), false, null);
        filter.getInputs().add(conditionExprOpPair.second);
        ILogicalOperator currentTopOp = filter;
        LogicalVariable varToListify;
        boolean hasRightPosVar = rightUnnestOp.getPositionalVariable() != null;
        if (hasRightPosVar) {
            // Creates record to get correlation between the two aggregate variables.
            ScalarFunctionCallExpression recordCreationFunc = new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.CLOSED_RECORD_CONSTRUCTOR), // Field name for the listified right unnest var.
            new MutableObject<ILogicalExpression>(new ConstantExpression(new AsterixConstantValue(new AString("unnestvar")))), // The listified right unnest var
            new MutableObject<ILogicalExpression>(new VariableReferenceExpression(rightUnnestOp.getVariable())), // Field name for the listified right unnest positional var.
            new MutableObject<ILogicalExpression>(new ConstantExpression(new AsterixConstantValue(new AString("posvar")))), // The listified right unnest positional var.
            new MutableObject<ILogicalExpression>(new VariableReferenceExpression(rightUnnestOp.getPositionalVariable())));
            // Assigns the record constructor function to a record variable.
            LogicalVariable recordVar = context.newVar();
            AssignOperator assignOp = new AssignOperator(recordVar, new MutableObject<ILogicalExpression>(recordCreationFunc));
            assignOp.getInputs().add(new MutableObject<ILogicalOperator>(currentTopOp));
            // Sets currentTopOp and varToListify for later usages.
            currentTopOp = assignOp;
            varToListify = recordVar;
        } else {
            varToListify = rightUnnestOp.getVariable();
        }
        // Adds an aggregate operator to listfy unnest variables.
        AggregateFunctionCallExpression fListify = BuiltinFunctions.makeAggregateFunctionExpression(BuiltinFunctions.LISTIFY, mkSingletonArrayList(new MutableObject<ILogicalExpression>(new VariableReferenceExpression(varToListify))));
        LogicalVariable aggVar = context.newSubplanOutputVar();
        AggregateOperator aggOp = new AggregateOperator(mkSingletonArrayList(aggVar), mkSingletonArrayList(new MutableObject<ILogicalExpression>(fListify)));
        aggOp.getInputs().add(new MutableObject<ILogicalOperator>(currentTopOp));
        // Exits the translation of a subplan.
        context.exitSubplan();
        // Sets the nested subplan of the subplan operator.
        ILogicalPlan subplan = new ALogicalPlanImpl(new MutableObject<ILogicalOperator>(aggOp));
        subplanOp.getNestedPlans().add(subplan);
        // Outer unnest the aggregated var from the subplan.
        LogicalVariable outerUnnestVar = context.newVar();
        LeftOuterUnnestOperator outerUnnestOp = new LeftOuterUnnestOperator(outerUnnestVar, new MutableObject<ILogicalExpression>(makeUnnestExpression(new VariableReferenceExpression(aggVar))));
        outerUnnestOp.getInputs().add(new MutableObject<ILogicalOperator>(subplanOp));
        currentTopOp = outerUnnestOp;
        if (hasRightPosVar) {
            ScalarFunctionCallExpression fieldAccessForRightUnnestVar = new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.FIELD_ACCESS_BY_INDEX), new MutableObject<ILogicalExpression>(new VariableReferenceExpression(outerUnnestVar)), new MutableObject<ILogicalExpression>(new ConstantExpression(new AsterixConstantValue(new AInt32(0)))));
            ScalarFunctionCallExpression fieldAccessForRightPosVar = new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.FIELD_ACCESS_BY_INDEX), new MutableObject<ILogicalExpression>(new VariableReferenceExpression(outerUnnestVar)), new MutableObject<ILogicalExpression>(new ConstantExpression(new AsterixConstantValue(new AInt32(1)))));
            // Creates variables for assign.
            LogicalVariable rightUnnestVar = context.newVar();
            LogicalVariable rightPosVar = context.newVar();
            // Relate the assigned variables to the variable expression in AST.
            context.setVar(joinClause.getRightVariable(), rightUnnestVar);
            context.setVar(joinClause.getPositionalVariable(), rightPosVar);
            // Varaibles to assign.
            List<LogicalVariable> assignVars = new ArrayList<>();
            assignVars.add(rightUnnestVar);
            assignVars.add(rightPosVar);
            // Expressions for assign.
            List<Mutable<ILogicalExpression>> assignExprs = new ArrayList<>();
            assignExprs.add(new MutableObject<ILogicalExpression>(fieldAccessForRightUnnestVar));
            assignExprs.add(new MutableObject<ILogicalExpression>(fieldAccessForRightPosVar));
            // Creates the assign operator.
            AssignOperator assignOp = new AssignOperator(assignVars, assignExprs);
            assignOp.getInputs().add(new MutableObject<ILogicalOperator>(currentTopOp));
            currentTopOp = assignOp;
        } else {
            context.setVar(joinClause.getRightVariable(), outerUnnestVar);
        }
        return new Pair<>(currentTopOp, null);
    }
}

Example 18 with NestedTupleSourceOperator

use of org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator in project asterixdb by apache.

the class LangExpressionToPlanTranslator method visit.

@Override
public Pair<ILogicalOperator, LogicalVariable> visit(GroupbyClause gc, Mutable<ILogicalOperator> tupSource) throws CompilationException {
    Mutable<ILogicalOperator> topOp = tupSource;
    if (gc.hasGroupVar()) {
        List<Pair<Expression, Identifier>> groupFieldList = gc.getGroupFieldList();
        List<Mutable<ILogicalExpression>> groupRecordConstructorArgList = new ArrayList<>();
        for (Pair<Expression, Identifier> groupField : groupFieldList) {
            ILogicalExpression groupFieldNameExpr = langExprToAlgExpression(new LiteralExpr(new StringLiteral(groupField.second.getValue())), topOp).first;
            groupRecordConstructorArgList.add(new MutableObject<>(groupFieldNameExpr));
            ILogicalExpression groupFieldExpr = langExprToAlgExpression(groupField.first, topOp).first;
            groupRecordConstructorArgList.add(new MutableObject<>(groupFieldExpr));
        }
        LogicalVariable groupVar = context.newVarFromExpression(gc.getGroupVar());
        AssignOperator groupVarAssignOp = new AssignOperator(groupVar, new MutableObject<>(new ScalarFunctionCallExpression(FunctionUtil.getFunctionInfo(BuiltinFunctions.OPEN_RECORD_CONSTRUCTOR), groupRecordConstructorArgList)));
        groupVarAssignOp.getInputs().add(topOp);
        topOp = new MutableObject<>(groupVarAssignOp);
    }
    GroupByOperator gOp = new GroupByOperator();
    for (GbyVariableExpressionPair ve : gc.getGbyPairList()) {
        VariableExpr vexpr = ve.getVar();
        LogicalVariable v = vexpr == null ? context.newVar() : context.newVarFromExpression(vexpr);
        Pair<ILogicalExpression, Mutable<ILogicalOperator>> eo = langExprToAlgExpression(ve.getExpr(), topOp);
        gOp.addGbyExpression(v, eo.first);
        topOp = eo.second;
    }
    for (GbyVariableExpressionPair ve : gc.getDecorPairList()) {
        VariableExpr vexpr = ve.getVar();
        LogicalVariable v = vexpr == null ? context.newVar() : context.newVarFromExpression(vexpr);
        Pair<ILogicalExpression, Mutable<ILogicalOperator>> eo = langExprToAlgExpression(ve.getExpr(), topOp);
        gOp.addDecorExpression(v, eo.first);
        topOp = eo.second;
    }
    gOp.getInputs().add(topOp);
    for (Entry<Expression, VariableExpr> entry : gc.getWithVarMap().entrySet()) {
        Pair<ILogicalExpression, Mutable<ILogicalOperator>> listifyInput = langExprToAlgExpression(entry.getKey(), new MutableObject<>(new NestedTupleSourceOperator(new MutableObject<>(gOp))));
        List<Mutable<ILogicalExpression>> flArgs = new ArrayList<>(1);
        flArgs.add(new MutableObject<>(listifyInput.first));
        AggregateFunctionCallExpression fListify = BuiltinFunctions.makeAggregateFunctionExpression(BuiltinFunctions.LISTIFY, flArgs);
        LogicalVariable aggVar = context.newVar();
        AggregateOperator agg = new AggregateOperator(mkSingletonArrayList(aggVar), mkSingletonArrayList(new MutableObject<>(fListify)));
        agg.getInputs().add(listifyInput.second);
        ILogicalPlan plan = new ALogicalPlanImpl(new MutableObject<>(agg));
        gOp.getNestedPlans().add(plan);
        // Hide the variable that was part of the "with", replacing it with
        // the one bound by the aggregation op.
        context.setVar(entry.getValue(), aggVar);
    }
    gOp.setGroupAll(gc.isGroupAll());
    gOp.getAnnotations().put(OperatorAnnotations.USE_HASH_GROUP_BY, gc.hasHashGroupByHint());
    return new Pair<>(gOp, null);
}

Example 19 with NestedTupleSourceOperator

use of org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator in project asterixdb by apache.

the class OperatorManipulationUtil method setDataSource.

private static void setDataSource(Mutable<ILogicalOperator> opRef, ILogicalOperator dataSource) {
    ILogicalOperator op = opRef.getValue();
    if (op.getOperatorTag() == LogicalOperatorTag.NESTEDTUPLESOURCE) {
        NestedTupleSourceOperator nts = (NestedTupleSourceOperator) op;
        nts.setDataSourceReference(new MutableObject<ILogicalOperator>(dataSource));
    }
    for (Mutable<ILogicalOperator> childRef : op.getInputs()) {
        setDataSource(childRef, dataSource);
    }
}

Example 20 with NestedTupleSourceOperator

use of org.apache.hyracks.algebricks.core.algebra.operators.logical.NestedTupleSourceOperator in project asterixdb by apache.

the class OperatorManipulationUtil method substituteVarRec.

public static void substituteVarRec(AbstractLogicalOperator op, LogicalVariable v1, LogicalVariable v2, boolean goThroughNts, ITypingContext ctx) throws AlgebricksException {
    VariableUtilities.substituteVariables(op, v1, v2, goThroughNts, ctx);
    for (Mutable<ILogicalOperator> opRef2 : op.getInputs()) {
        substituteVarRec((AbstractLogicalOperator) opRef2.getValue(), v1, v2, goThroughNts, ctx);
    }
    if (op.getOperatorTag() == LogicalOperatorTag.NESTEDTUPLESOURCE && goThroughNts) {
        NestedTupleSourceOperator nts = (NestedTupleSourceOperator) op;
        if (nts.getDataSourceReference() != null) {
            AbstractLogicalOperator op2 = (AbstractLogicalOperator) nts.getDataSourceReference().getValue().getInputs().get(0).getValue();
            substituteVarRec(op2, v1, v2, goThroughNts, ctx);
        }
    }
    if (op.hasNestedPlans()) {
        AbstractOperatorWithNestedPlans aonp = (AbstractOperatorWithNestedPlans) op;
        for (ILogicalPlan p : aonp.getNestedPlans()) {
            for (Mutable<ILogicalOperator> ref : p.getRoots()) {
                AbstractLogicalOperator aop = (AbstractLogicalOperator) ref.getValue();
                substituteVarRec(aop, v1, v2, goThroughNts, ctx);
            }
        }
    }
}