Пример #1
0
func readEdges(ctx context.Context, es xrefs.NodesEdgesService, files []string, edges chan<- *xpb.EdgesReply, filters []string, kinds []string) error {
	var eErr error
	for _, file := range files {
		if eErr == nil {
			reply, err := es.Edges(ctx, &xpb.EdgesRequest{
				Ticket: []string{file},
				Filter: filters,
				Kind:   kinds,
			})
			if err != nil {
				eErr = err
				continue
			}
			if len(reply.EdgeSet) == 0 {
				// File does not have any decorations, but we still want the source text/encoding.
				nodeReply, err := es.Nodes(ctx, &xpb.NodesRequest{
					Ticket: []string{file},
					Filter: filters,
				})
				if err != nil {
					return fmt.Errorf("error getting file node: %v", err)
				}
				reply.Node = nodeReply.Node
			}
			edges <- reply
		}
	}
	return eErr
}
Пример #2
0
Файл: xrefs.go Проект: bzz/kythe
func completeAnchors(ctx context.Context, xs xrefs.NodesEdgesService, retrieveText bool, files map[string]*fileNode, edgeKind string, anchors []string) ([]*xpb.CrossReferencesReply_RelatedAnchor, error) {
	edgeKind = schema.Canonicalize(edgeKind)

	// AllEdges is relatively safe because each anchor will have very few parents (almost always 1)
	reply, err := xrefs.AllEdges(ctx, xs, &xpb.EdgesRequest{
		Ticket: anchors,
		Kind:   []string{schema.ChildOfEdge},
		Filter: []string{
			schema.NodeKindFact,
			schema.AnchorLocFilter,
			schema.SnippetLocFilter,
		},
	})
	if err != nil {
		return nil, err
	}
	nodes := xrefs.NodesMap(reply.Nodes)

	var result []*xpb.CrossReferencesReply_RelatedAnchor
	for ticket, es := range reply.EdgeSets {
		if nodeKind := string(nodes[ticket][schema.NodeKindFact]); nodeKind != schema.AnchorKind {
			log.Printf("Found non-anchor target to %q edge: %q (kind: %q)", edgeKind, ticket, nodeKind)
			continue
		}

		// Parse anchor location start/end facts
		so, eo, err := getSpan(nodes[ticket], schema.AnchorStartFact, schema.AnchorEndFact)
		if err != nil {
			log.Printf("Invalid anchor span for %q: %v", ticket, err)
			continue
		}

		// For each file parent to the anchor, add an Anchor to the result.
		for kind, g := range es.Groups {
			if kind != schema.ChildOfEdge {
				continue
			}

			for _, edge := range g.Edge {
				parent := edge.TargetTicket
				if parentKind := string(nodes[parent][schema.NodeKindFact]); parentKind != schema.FileKind {
					log.Printf("Found non-file parent to anchor: %q (kind: %q)", parent, parentKind)
					continue
				}

				a := &xpb.Anchor{
					Ticket: ticket,
					Kind:   edgeKind,
					Parent: parent,
				}

				file, ok := files[a.Parent]
				if !ok {
					nReply, err := xs.Nodes(ctx, &xpb.NodesRequest{Ticket: []string{a.Parent}})
					if err != nil {
						return nil, fmt.Errorf("error getting file contents for %q: %v", a.Parent, err)
					}
					nMap := xrefs.NodesMap(nReply.Nodes)
					text := nMap[a.Parent][schema.TextFact]
					file = &fileNode{
						text:     text,
						encoding: string(nMap[a.Parent][schema.TextEncodingFact]),
						norm:     xrefs.NewNormalizer(text),
					}
					files[a.Parent] = file
				}

				a.Start, a.End, err = normalizeSpan(file.norm, int32(so), int32(eo))
				if err != nil {
					log.Printf("Invalid anchor span %q in file %q: %v", ticket, a.Parent, err)
					continue
				}

				if retrieveText && a.Start.ByteOffset < a.End.ByteOffset {
					a.Text, err = text.ToUTF8(file.encoding, file.text[a.Start.ByteOffset:a.End.ByteOffset])
					if err != nil {
						log.Printf("Error decoding anchor text: %v", err)
					}
				}

				if snippetStart, snippetEnd, err := getSpan(nodes[ticket], schema.SnippetStartFact, schema.SnippetEndFact); err == nil {
					startPoint, endPoint, err := normalizeSpan(file.norm, int32(snippetStart), int32(snippetEnd))
					if err != nil {
						log.Printf("Invalid snippet span %q in file %q: %v", ticket, a.Parent, err)
					} else {
						a.Snippet, err = text.ToUTF8(file.encoding, file.text[startPoint.ByteOffset:endPoint.ByteOffset])
						if err != nil {
							log.Printf("Error decoding snippet text: %v", err)
						}
						a.SnippetStart = startPoint
						a.SnippetEnd = endPoint
					}
				}

				// fallback to a line-based snippet if the indexer did not provide its own snippet offsets
				if a.Snippet == "" {
					a.SnippetStart = &xpb.Location_Point{
						ByteOffset: a.Start.ByteOffset - a.Start.ColumnOffset,
						LineNumber: a.Start.LineNumber,
					}
					nextLine := file.norm.Point(&xpb.Location_Point{LineNumber: a.Start.LineNumber + 1})
					a.SnippetEnd = &xpb.Location_Point{
						ByteOffset:   nextLine.ByteOffset - 1,
						LineNumber:   a.Start.LineNumber,
						ColumnOffset: a.Start.ColumnOffset + (nextLine.ByteOffset - a.Start.ByteOffset - 1),
					}
					a.Snippet, err = text.ToUTF8(file.encoding, file.text[a.SnippetStart.ByteOffset:a.SnippetEnd.ByteOffset])
					if err != nil {
						log.Printf("Error decoding snippet text: %v", err)
					}
				}

				result = append(result, &xpb.CrossReferencesReply_RelatedAnchor{Anchor: a})
			}

			break // we've handled the only /kythe/edge/childof group
		}
	}

	return result, nil
}