Esempio n. 1
0
func (this *builder) VisitUnion(node *algebra.Union) (interface{}, error) {
	// Inject DISTINCT into both terms
	distinct := this.distinct
	this.distinct = true
	defer func() { this.distinct = distinct }()

	this.order = nil             // Disable aggregates from ORDER BY
	this.delayProjection = false // Disable ORDER BY non-projected expressions
	this.limit = nil

	first, err := node.First().Accept(this)
	if err != nil {
		return nil, err
	}

	second, err := node.Second().Accept(this)
	if err != nil {
		return nil, err
	}

	this.maxParallelism = 0
	unionAll := plan.NewUnionAll(first.(plan.Operator), second.(plan.Operator))
	return plan.NewSequence(unionAll, plan.NewDistinct()), nil
}
Esempio n. 2
0
func (this *builder) VisitSubselect(node *algebra.Subselect) (interface{}, error) {
	prevCover := this.cover
	prevCorrelated := this.correlated
	defer func() {
		this.cover = prevCover
		this.correlated = prevCorrelated
	}()

	this.correlated = node.IsCorrelated()

	if this.cover == nil {
		this.cover = node
	}

	aggs, err := allAggregates(node, this.order)
	if err != nil {
		return nil, err
	}

	this.where = node.Where()

	group := node.Group()
	if group == nil && len(aggs) > 0 {
		group = algebra.NewGroup(nil, nil, nil)
		this.where = constrainAggregate(this.where, aggs)
	}

	this.children = make([]plan.Operator, 0, 16)    // top-level children, executed sequentially
	this.subChildren = make([]plan.Operator, 0, 16) // sub-children, executed across data-parallel streams

	err = this.visitFrom(node, group)
	if err != nil {
		return nil, err
	}

	if this.coveringScan != nil {
		coverer := expression.NewCoverer(this.coveringScan.Covers())
		err = this.cover.MapExpressions(coverer)
		if err != nil {
			return nil, err
		}

		if this.where != nil {
			this.where, err = coverer.Map(this.where)
			if err != nil {
				return nil, err
			}
		}
	}

	if node.Let() != nil {
		this.subChildren = append(this.subChildren, plan.NewLet(node.Let()))
	}

	if node.Where() != nil {
		this.subChildren = append(this.subChildren, plan.NewFilter(node.Where()))
	}

	if group != nil {
		this.visitGroup(group, aggs)
	}

	projection := node.Projection()
	this.subChildren = append(this.subChildren, plan.NewInitialProject(projection))

	// Initial DISTINCT (parallel)
	if projection.Distinct() || this.distinct {
		this.subChildren = append(this.subChildren, plan.NewDistinct())
	}

	if !this.delayProjection {
		// Perform the final projection if there is no subsequent ORDER BY
		this.subChildren = append(this.subChildren, plan.NewFinalProject())
	}

	// Parallelize the subChildren
	this.children = append(this.children, plan.NewParallel(plan.NewSequence(this.subChildren...), this.maxParallelism))

	// Final DISTINCT (serial)
	if projection.Distinct() || this.distinct {
		this.children = append(this.children, plan.NewDistinct())
	}

	// Serialize the top-level children
	return plan.NewSequence(this.children...), nil
}