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Example 1 with LongMinAggregatorFactory

use of io.druid.query.aggregation.LongMinAggregatorFactory in project druid by druid-io.

the class GroupByRules method translateAggregateCall.

/**
   * Translate an AggregateCall to Druid equivalents.
   *
   * @return translated aggregation, or null if translation failed.
   */
private static Aggregation translateAggregateCall(final PlannerContext plannerContext, final RowSignature sourceRowSignature, final Project project, final AggregateCall call, final DruidOperatorTable operatorTable, final List<Aggregation> existingAggregations, final int aggNumber, final boolean approximateCountDistinct) {
    final List<DimFilter> filters = Lists.newArrayList();
    final List<String> rowOrder = sourceRowSignature.getRowOrder();
    final String name = aggOutputName(aggNumber);
    final SqlKind kind = call.getAggregation().getKind();
    final SqlTypeName outputType = call.getType().getSqlTypeName();
    if (call.filterArg >= 0) {
        // AGG(xxx) FILTER(WHERE yyy)
        if (project == null) {
            // We need some kind of projection to support filtered aggregations.
            return null;
        }
        final RexNode expression = project.getChildExps().get(call.filterArg);
        final DimFilter filter = Expressions.toFilter(operatorTable, plannerContext, sourceRowSignature, expression);
        if (filter == null) {
            return null;
        }
        filters.add(filter);
    }
    if (kind == SqlKind.COUNT && call.getArgList().isEmpty()) {
        // COUNT(*)
        return Aggregation.create(new CountAggregatorFactory(name)).filter(makeFilter(filters, sourceRowSignature));
    } else if (kind == SqlKind.COUNT && call.isDistinct()) {
        // COUNT(DISTINCT x)
        return approximateCountDistinct ? APPROX_COUNT_DISTINCT.toDruidAggregation(name, sourceRowSignature, operatorTable, plannerContext, existingAggregations, project, call, makeFilter(filters, sourceRowSignature)) : null;
    } else if (kind == SqlKind.COUNT || kind == SqlKind.SUM || kind == SqlKind.SUM0 || kind == SqlKind.MIN || kind == SqlKind.MAX || kind == SqlKind.AVG) {
        // Built-in agg, not distinct, not COUNT(*)
        boolean forceCount = false;
        final FieldOrExpression input;
        final int inputField = Iterables.getOnlyElement(call.getArgList());
        final RexNode rexNode = Expressions.fromFieldAccess(sourceRowSignature, project, inputField);
        final FieldOrExpression foe = FieldOrExpression.fromRexNode(operatorTable, plannerContext, rowOrder, rexNode);
        if (foe != null) {
            input = foe;
        } else if (rexNode.getKind() == SqlKind.CASE && ((RexCall) rexNode).getOperands().size() == 3) {
            // Possibly a CASE-style filtered aggregation. Styles supported:
            // A: SUM(CASE WHEN x = 'foo' THEN cnt END) => operands (x = 'foo', cnt, null)
            // B: SUM(CASE WHEN x = 'foo' THEN 1 ELSE 0 END) => operands (x = 'foo', 1, 0)
            // C: COUNT(CASE WHEN x = 'foo' THEN 'dummy' END) => operands (x = 'foo', 'dummy', null)
            // If the null and non-null args are switched, "flip" is set, which negates the filter.
            final RexCall caseCall = (RexCall) rexNode;
            final boolean flip = RexLiteral.isNullLiteral(caseCall.getOperands().get(1)) && !RexLiteral.isNullLiteral(caseCall.getOperands().get(2));
            final RexNode arg1 = caseCall.getOperands().get(flip ? 2 : 1);
            final RexNode arg2 = caseCall.getOperands().get(flip ? 1 : 2);
            // Operand 1: Filter
            final DimFilter filter = Expressions.toFilter(operatorTable, plannerContext, sourceRowSignature, caseCall.getOperands().get(0));
            if (filter == null) {
                return null;
            } else {
                filters.add(flip ? new NotDimFilter(filter) : filter);
            }
            if (call.getAggregation().getKind() == SqlKind.COUNT && arg1 instanceof RexLiteral && !RexLiteral.isNullLiteral(arg1) && RexLiteral.isNullLiteral(arg2)) {
                // Case C
                forceCount = true;
                input = null;
            } else if (call.getAggregation().getKind() == SqlKind.SUM && arg1 instanceof RexLiteral && ((Number) RexLiteral.value(arg1)).intValue() == 1 && arg2 instanceof RexLiteral && ((Number) RexLiteral.value(arg2)).intValue() == 0) {
                // Case B
                forceCount = true;
                input = null;
            } else if (RexLiteral.isNullLiteral(arg2)) {
                // Maybe case A
                input = FieldOrExpression.fromRexNode(operatorTable, plannerContext, rowOrder, arg1);
                if (input == null) {
                    return null;
                }
            } else {
                // Can't translate CASE into a filter.
                return null;
            }
        } else {
            // Can't translate operand.
            return null;
        }
        if (!forceCount) {
            Preconditions.checkNotNull(input, "WTF?! input was null for non-COUNT aggregation");
        }
        if (forceCount || kind == SqlKind.COUNT) {
            // COUNT(x)
            return Aggregation.create(new CountAggregatorFactory(name)).filter(makeFilter(filters, sourceRowSignature));
        } else {
            // Built-in aggregator that is not COUNT.
            final Aggregation retVal;
            final String fieldName = input.getFieldName();
            final String expression = input.getExpression();
            final boolean isLong = SqlTypeName.INT_TYPES.contains(outputType) || SqlTypeName.TIMESTAMP == outputType || SqlTypeName.DATE == outputType;
            if (kind == SqlKind.SUM || kind == SqlKind.SUM0) {
                retVal = isLong ? Aggregation.create(new LongSumAggregatorFactory(name, fieldName, expression)) : Aggregation.create(new DoubleSumAggregatorFactory(name, fieldName, expression));
            } else if (kind == SqlKind.MIN) {
                retVal = isLong ? Aggregation.create(new LongMinAggregatorFactory(name, fieldName, expression)) : Aggregation.create(new DoubleMinAggregatorFactory(name, fieldName, expression));
            } else if (kind == SqlKind.MAX) {
                retVal = isLong ? Aggregation.create(new LongMaxAggregatorFactory(name, fieldName, expression)) : Aggregation.create(new DoubleMaxAggregatorFactory(name, fieldName, expression));
            } else if (kind == SqlKind.AVG) {
                final String sumName = aggInternalName(aggNumber, "sum");
                final String countName = aggInternalName(aggNumber, "count");
                final AggregatorFactory sum = isLong ? new LongSumAggregatorFactory(sumName, fieldName, expression) : new DoubleSumAggregatorFactory(sumName, fieldName, expression);
                final AggregatorFactory count = new CountAggregatorFactory(countName);
                retVal = Aggregation.create(ImmutableList.of(sum, count), new ArithmeticPostAggregator(name, "quotient", ImmutableList.<PostAggregator>of(new FieldAccessPostAggregator(null, sumName), new FieldAccessPostAggregator(null, countName))));
            } else {
                // Not reached.
                throw new ISE("WTF?! Kind[%s] got into the built-in aggregator path somehow?!", kind);
            }
            return retVal.filter(makeFilter(filters, sourceRowSignature));
        }
    } else {
        // Not a built-in aggregator, check operator table.
        final SqlAggregator sqlAggregator = operatorTable.lookupAggregator(call.getAggregation().getName());
        return sqlAggregator != null ? sqlAggregator.toDruidAggregation(name, sourceRowSignature, operatorTable, plannerContext, existingAggregations, project, call, makeFilter(filters, sourceRowSignature)) : null;
    }
}
Also used : RexLiteral(org.apache.calcite.rex.RexLiteral) ArithmeticPostAggregator(io.druid.query.aggregation.post.ArithmeticPostAggregator) DoubleMaxAggregatorFactory(io.druid.query.aggregation.DoubleMaxAggregatorFactory) SqlTypeName(org.apache.calcite.sql.type.SqlTypeName) LongSumAggregatorFactory(io.druid.query.aggregation.LongSumAggregatorFactory) DoubleMinAggregatorFactory(io.druid.query.aggregation.DoubleMinAggregatorFactory) LongMinAggregatorFactory(io.druid.query.aggregation.LongMinAggregatorFactory) RexCall(org.apache.calcite.rex.RexCall) Aggregation(io.druid.sql.calcite.aggregation.Aggregation) ISE(io.druid.java.util.common.ISE) LongMaxAggregatorFactory(io.druid.query.aggregation.LongMaxAggregatorFactory) NotDimFilter(io.druid.query.filter.NotDimFilter) FieldAccessPostAggregator(io.druid.query.aggregation.post.FieldAccessPostAggregator) DoubleSumAggregatorFactory(io.druid.query.aggregation.DoubleSumAggregatorFactory) PostAggregator(io.druid.query.aggregation.PostAggregator) FieldAccessPostAggregator(io.druid.query.aggregation.post.FieldAccessPostAggregator) ArithmeticPostAggregator(io.druid.query.aggregation.post.ArithmeticPostAggregator) SqlKind(org.apache.calcite.sql.SqlKind) CountAggregatorFactory(io.druid.query.aggregation.CountAggregatorFactory) DoubleMaxAggregatorFactory(io.druid.query.aggregation.DoubleMaxAggregatorFactory) LongMaxAggregatorFactory(io.druid.query.aggregation.LongMaxAggregatorFactory) DoubleSumAggregatorFactory(io.druid.query.aggregation.DoubleSumAggregatorFactory) AggregatorFactory(io.druid.query.aggregation.AggregatorFactory) LongMinAggregatorFactory(io.druid.query.aggregation.LongMinAggregatorFactory) PostAggregatorFactory(io.druid.sql.calcite.aggregation.PostAggregatorFactory) DoubleMinAggregatorFactory(io.druid.query.aggregation.DoubleMinAggregatorFactory) LongSumAggregatorFactory(io.druid.query.aggregation.LongSumAggregatorFactory) CountAggregatorFactory(io.druid.query.aggregation.CountAggregatorFactory) SqlAggregator(io.druid.sql.calcite.aggregation.SqlAggregator) ApproxCountDistinctSqlAggregator(io.druid.sql.calcite.aggregation.ApproxCountDistinctSqlAggregator) DimFilter(io.druid.query.filter.DimFilter) NotDimFilter(io.druid.query.filter.NotDimFilter) AndDimFilter(io.druid.query.filter.AndDimFilter) RexNode(org.apache.calcite.rex.RexNode)

Aggregations

ISE (io.druid.java.util.common.ISE)1 AggregatorFactory (io.druid.query.aggregation.AggregatorFactory)1 CountAggregatorFactory (io.druid.query.aggregation.CountAggregatorFactory)1 DoubleMaxAggregatorFactory (io.druid.query.aggregation.DoubleMaxAggregatorFactory)1 DoubleMinAggregatorFactory (io.druid.query.aggregation.DoubleMinAggregatorFactory)1 DoubleSumAggregatorFactory (io.druid.query.aggregation.DoubleSumAggregatorFactory)1 LongMaxAggregatorFactory (io.druid.query.aggregation.LongMaxAggregatorFactory)1 LongMinAggregatorFactory (io.druid.query.aggregation.LongMinAggregatorFactory)1 LongSumAggregatorFactory (io.druid.query.aggregation.LongSumAggregatorFactory)1 PostAggregator (io.druid.query.aggregation.PostAggregator)1 ArithmeticPostAggregator (io.druid.query.aggregation.post.ArithmeticPostAggregator)1 FieldAccessPostAggregator (io.druid.query.aggregation.post.FieldAccessPostAggregator)1 AndDimFilter (io.druid.query.filter.AndDimFilter)1 DimFilter (io.druid.query.filter.DimFilter)1 NotDimFilter (io.druid.query.filter.NotDimFilter)1 Aggregation (io.druid.sql.calcite.aggregation.Aggregation)1 ApproxCountDistinctSqlAggregator (io.druid.sql.calcite.aggregation.ApproxCountDistinctSqlAggregator)1 PostAggregatorFactory (io.druid.sql.calcite.aggregation.PostAggregatorFactory)1 SqlAggregator (io.druid.sql.calcite.aggregation.SqlAggregator)1 RexCall (org.apache.calcite.rex.RexCall)1