Esempio n. 1
0
// applyWindow applies windowing to sg.sorted.
func (sg *SubGraph) applyPagination(ctx context.Context) error {
	params := sg.Params
	if params.Count == 0 && params.Offset == 0 { // No pagination.
		return nil
	}
	x.AssertTrue(len(sg.SrcUIDs.Uids) == len(sg.uidMatrix))
	for _, l := range sg.uidMatrix {
		algo.IntersectWith(l, sg.DestUIDs)
		start, end := pageRange(&sg.Params, len(l.Uids))
		l.Uids = l.Uids[start:end]
	}
	// Re-merge the UID matrix.
	sg.DestUIDs = algo.MergeSorted(sg.uidMatrix)
	return nil
}
Esempio n. 2
0
// ProcessGraph processes the SubGraph instance accumulating result for the query
// from different instances. Note: taskQuery is nil for root node.
func ProcessGraph(ctx context.Context, sg, parent *SubGraph, rch chan error) {
	var err error

	if len(sg.Attr) == 0 {
		// If we have a filter SubGraph which only contains an operator,
		// it won't have any attribute to work on.
		// This is to allow providing SrcUIDs to the filter children.
		sg.DestUIDs = sg.SrcUIDs

	} else if parent == nil && len(sg.SrcFunc) == 0 {
		// I am root. I don't have any function to execute, and my
		// result has been prepared for me already.
		sg.DestUIDs = algo.MergeSorted(sg.uidMatrix) // Could also be = sg.SrcUIDs

	} else {
		taskQuery := createTaskQuery(sg)
		result, err := worker.ProcessTaskOverNetwork(ctx, taskQuery)
		if err != nil {
			x.TraceError(ctx, x.Wrapf(err, "Error while processing task"))
			rch <- err
			return
		}

		sg.uidMatrix = result.UidMatrix
		sg.values = result.Values
		if len(sg.values) > 0 {
			v := sg.values[0]
			x.Trace(ctx, "Sample value for attr: %v Val: %v", sg.Attr, string(v.Val))
		}
		sg.counts = result.Counts

		if sg.Params.DoCount && len(sg.Filters) == 0 {
			// If there is a filter, we need to do more work to get the actual count.
			x.Trace(ctx, "Zero uids. Only count requested")
			rch <- nil
			return
		}

		if result.IntersectDest {
			sg.DestUIDs = algo.IntersectSorted(result.UidMatrix)
		} else {
			sg.DestUIDs = algo.MergeSorted(result.UidMatrix)
		}
	}

	if len(sg.DestUIDs.Uids) == 0 {
		// Looks like we're done here. Be careful with nil srcUIDs!
		x.Trace(ctx, "Zero uids for %q. Num attr children: %v", sg.Attr, len(sg.Children))
		rch <- nil
		return
	}

	// Apply filters if any.
	if len(sg.Filters) > 0 {
		// Run all filters in parallel.
		filterChan := make(chan error, len(sg.Filters))
		for _, filter := range sg.Filters {
			filter.SrcUIDs = sg.DestUIDs
			go ProcessGraph(ctx, filter, sg, filterChan)
		}

		for _ = range sg.Filters {
			select {
			case err = <-filterChan:
				if err != nil {
					x.TraceError(ctx, x.Wrapf(err, "Error while processing filter task"))
					rch <- err
					return
				}

			case <-ctx.Done():
				x.TraceError(ctx, x.Wrapf(ctx.Err(), "Context done before full execution"))
				rch <- ctx.Err()
				return
			}
		}

		// Now apply the results from filter.
		var lists []*task.List
		for _, filter := range sg.Filters {
			lists = append(lists, filter.DestUIDs)
		}
		if sg.FilterOp == "|" {
			sg.DestUIDs = algo.MergeSorted(lists)
		} else {
			sg.DestUIDs = algo.IntersectSorted(lists)
		}
	}

	if len(sg.Params.Order) == 0 {
		// There is no ordering. Just apply pagination and return.
		if err = sg.applyPagination(ctx); err != nil {
			rch <- err
			return
		}
	} else {
		// We need to sort first before pagination.
		if err = sg.applyOrderAndPagination(ctx); err != nil {
			rch <- err
			return
		}
	}

	// Here we consider handling _count_ with filtering. We do this after
	// pagination because otherwise, we need to do the count with pagination
	// taken into account. For example, a PL might have only 50 entries but the
	// user wants to skip 100 entries and return 10 entries. In this case, you
	// should return a count of 0, not 10.
	if sg.Params.DoCount {
		x.AssertTrue(len(sg.Filters) > 0)
		sg.counts = make([]uint32, len(sg.uidMatrix))
		for i, ul := range sg.uidMatrix {
			// A possible optimization is to return the size of the intersection
			// without forming the intersection.
			algo.IntersectWith(ul, sg.DestUIDs)
			sg.counts[i] = uint32(len(ul.Uids))
		}
		rch <- nil
		return
	}

	childChan := make(chan error, len(sg.Children))
	for i := 0; i < len(sg.Children); i++ {
		child := sg.Children[i]
		child.SrcUIDs = sg.DestUIDs // Make the connection.
		go ProcessGraph(ctx, child, sg, childChan)
	}

	// Now get all the results back.
	for _ = range sg.Children {
		select {
		case err = <-childChan:
			if err != nil {
				x.TraceError(ctx, x.Wrapf(err, "Error while processing child task"))
				rch <- err
				return
			}
		case <-ctx.Done():
			x.TraceError(ctx, x.Wrapf(ctx.Err(), "Context done before full execution"))
			rch <- ctx.Err()
			return
		}
	}
	rch <- nil
}