package restic import ( "fmt" "sort" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/debug" ) // Tree is an ordered list of nodes. type Tree struct { Nodes []*Node `json:"nodes"` } // NewTree creates a new tree object. func NewTree() *Tree { return &Tree{ Nodes: []*Node{}, } } func (t Tree) String() string { return fmt.Sprintf("Tree<%d nodes>", len(t.Nodes)) } // Equals returns true if t and other have exactly the same nodes. func (t Tree) Equals(other *Tree) bool { if len(t.Nodes) != len(other.Nodes) { debug.Log("tree.Equals(): trees have different number of nodes") return false } for i := 0; i < len(t.Nodes); i++ { if !t.Nodes[i].Equals(*other.Nodes[i]) { debug.Log("tree.Equals(): node %d is different:", i) debug.Log(" %#v", t.Nodes[i]) debug.Log(" %#v", other.Nodes[i]) return false } } return true } // Insert adds a new node at the correct place in the tree. func (t *Tree) Insert(node *Node) error { pos, _, err := t.binarySearch(node.Name) if err == nil { return errors.New("node already present") } // https://code.google.com/p/go-wiki/wiki/SliceTricks t.Nodes = append(t.Nodes, &Node{}) copy(t.Nodes[pos+1:], t.Nodes[pos:]) t.Nodes[pos] = node return nil } func (t Tree) binarySearch(name string) (int, *Node, error) { pos := sort.Search(len(t.Nodes), func(i int) bool { return t.Nodes[i].Name >= name }) if pos < len(t.Nodes) && t.Nodes[pos].Name == name { return pos, t.Nodes[pos], nil } return pos, nil, errors.New("named node not found") } // Subtrees returns a slice of all subtree IDs of the tree. func (t Tree) Subtrees() (trees IDs) { for _, node := range t.Nodes { if node.Type == "dir" && node.Subtree != nil { trees = append(trees, *node.Subtree) } } return trees }