Beispiel #1
0
func (b *executorBuilder) buildAggregation(v *plan.Aggregation) Executor {
	return &AggregationExec{
		Src:          b.build(v.GetChildByIndex(0)).(NewExecutor),
		schema:       v.GetSchema(),
		ctx:          b.ctx,
		AggFuncs:     v.AggFuncs,
		GroupByItems: v.GroupByItems,
	}
}
Beispiel #2
0
func (b *executorBuilder) buildAggregation(v *plan.Aggregation) Executor {
	src := b.build(v.GetChildByIndex(0))
	e := &AggregationExec{
		Src:          src,
		schema:       v.GetSchema(),
		ctx:          b.ctx,
		AggFuncs:     v.AggFuncs,
		GroupByItems: v.GroupByItems,
	}
	// Check if the underlying is xapi executor, we should try to push aggregate function down.
	xSrc, ok := src.(NewXExecutor)
	if !ok {
		return e
	}
	txn, err := b.ctx.GetTxn(false)
	if err != nil {
		b.err = err
		return nil
	}
	client := txn.GetClient()
	if len(v.GroupByItems) > 0 && !client.SupportRequestType(kv.ReqTypeSelect, kv.ReqSubTypeGroupBy) {
		return e
	}
	// Convert aggregate function exprs to pb.
	pbAggFuncs := make([]*tipb.Expr, 0, len(v.AggFuncs))
	for _, af := range v.AggFuncs {
		if af.IsDistinct() {
			// We do not support distinct push down.
			return e
		}
		pbAggFunc := b.newAggFuncToPBExpr(client, af, xSrc.GetTable())
		if pbAggFunc == nil {
			return e
		}
		pbAggFuncs = append(pbAggFuncs, pbAggFunc)
	}
	pbByItems := make([]*tipb.ByItem, 0, len(v.GroupByItems))
	// Convert groupby to pb
	for _, item := range v.GroupByItems {
		pbByItem := b.newGroupByItemToPB(client, item, xSrc.GetTable())
		if pbByItem == nil {
			return e
		}
		pbByItems = append(pbByItems, pbByItem)
	}
	// compose aggregate info
	// We should infer fields type.
	// Each agg item will be splitted into two datums: count and value
	// The first field should be group key.
	fields := make([]*types.FieldType, 0, 1+2*len(v.AggFuncs))
	gk := types.NewFieldType(mysql.TypeBlob)
	gk.Charset = charset.CharsetBin
	gk.Collate = charset.CollationBin
	fields = append(fields, gk)
	// There will be one or two fields in the result row for each AggregateFuncExpr.
	// Count needs count partial result field.
	// Sum, FirstRow, Max, Min, GroupConcat need value partial result field.
	// Avg needs both count and value partial result field.
	for i, agg := range v.AggFuncs {
		name := strings.ToLower(agg.GetName())
		if needCount(name) {
			// count partial result field
			ft := types.NewFieldType(mysql.TypeLonglong)
			ft.Flen = 21
			ft.Charset = charset.CharsetBin
			ft.Collate = charset.CollationBin
			fields = append(fields, ft)
		}
		if needValue(name) {
			// value partial result field
			col := v.GetSchema()[i]
			fields = append(fields, col.GetType())
		}
	}
	xSrc.AddAggregate(pbAggFuncs, pbByItems, fields)
	hasGroupBy := len(v.GroupByItems) > 0
	xe := &NewXAggregateExec{
		Src:        src,
		ctx:        b.ctx,
		AggFuncs:   v.AggFuncs,
		hasGroupBy: hasGroupBy,
		schema:     v.GetSchema(),
	}
	log.Debugf("Use XAggregateExec with %d aggs", len(v.AggFuncs))
	return xe
}