rclone/fs/dirtree/dirtree.go

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// Package dirtree contains the DirTree type which is used for
// building filesystem hierarchies in memory.
package dirtree
import (
"bytes"
"fmt"
"path"
"sort"
"time"
"github.com/rclone/rclone/fs"
)
// DirTree is a map of directories to entries
type DirTree map[string]fs.DirEntries
// New returns a fresh DirTree
func New() DirTree {
return make(DirTree)
}
// parentDir finds the parent directory of path
func parentDir(entryPath string) string {
dirPath := path.Dir(entryPath)
if dirPath == "." {
dirPath = ""
}
return dirPath
}
// Add an entry to the tree
// it doesn't create parents
func (dt DirTree) Add(entry fs.DirEntry) {
dirPath := parentDir(entry.Remote())
dt[dirPath] = append(dt[dirPath], entry)
}
// AddDir adds a directory entry to the tree
// this creates the directory itself if required
// it doesn't create parents
func (dt DirTree) AddDir(entry fs.DirEntry) {
dirPath := entry.Remote()
if dirPath == "" {
return
}
dt.Add(entry)
// create the directory itself if it doesn't exist already
if _, ok := dt[dirPath]; !ok {
dt[dirPath] = nil
}
}
// AddEntry adds the entry and creates the parents for it regardless
// of whether it is a file or a directory.
func (dt DirTree) AddEntry(entry fs.DirEntry) {
switch entry.(type) {
case fs.Directory:
dt.AddDir(entry)
case fs.Object:
dt.Add(entry)
default:
panic("unknown entry type")
}
remoteParent := parentDir(entry.Remote())
dt.checkParent("", remoteParent, nil)
}
// Find returns the DirEntry for filePath or nil if not found
//
// None that Find does a O(N) search so can be slow
func (dt DirTree) Find(filePath string) (parentPath string, entry fs.DirEntry) {
parentPath = parentDir(filePath)
for _, entry := range dt[parentPath] {
if entry.Remote() == filePath {
return parentPath, entry
}
}
return parentPath, nil
}
// checkParent checks that dirPath has a *Dir in its parent
//
// If dirs is not nil it must contain entries for every *Dir found in
// the tree. It is used to speed up the checking when calling this
// repeatedly.
func (dt DirTree) checkParent(root, dirPath string, dirs map[string]struct{}) {
var parentPath string
for {
if dirPath == root {
return
}
// Can rely on dirs to have all directories in it so
// we don't need to call Find.
if dirs != nil {
if _, found := dirs[dirPath]; found {
return
}
parentPath = parentDir(dirPath)
} else {
var entry fs.DirEntry
parentPath, entry = dt.Find(dirPath)
if entry != nil {
return
}
}
dt[parentPath] = append(dt[parentPath], fs.NewDir(dirPath, time.Now()))
if dirs != nil {
dirs[dirPath] = struct{}{}
}
dirPath = parentPath
}
}
// CheckParents checks every directory in the tree has *Dir in its parent
func (dt DirTree) CheckParents(root string) {
dirs := make(map[string]struct{})
// Find all the directories and stick them in dirs
for _, entries := range dt {
for _, entry := range entries {
if _, ok := entry.(fs.Directory); ok {
dirs[entry.Remote()] = struct{}{}
}
}
}
for dirPath := range dt {
dt.checkParent(root, dirPath, dirs)
}
}
// Sort sorts all the Entries
func (dt DirTree) Sort() {
for _, entries := range dt {
sort.Stable(entries)
}
}
// Dirs returns the directories in sorted order
func (dt DirTree) Dirs() (dirNames []string) {
for dirPath := range dt {
dirNames = append(dirNames, dirPath)
}
sort.Strings(dirNames)
return dirNames
}
// Prune remove directories from a directory tree. dirNames contains
// all directories to remove as keys, with true as values. dirNames
// will be modified in the function.
func (dt DirTree) Prune(dirNames map[string]bool) error {
// We use map[string]bool to avoid recursion (and potential
// stack exhaustion).
// First we need delete directories from their parents.
for dName, remove := range dirNames {
if !remove {
// Currently all values should be
// true, therefore this should not
// happen. But this makes function
// more predictable.
fs.Infof(dName, "Directory in the map for prune, but the value is false")
continue
}
if dName == "" {
// if dName is root, do nothing (no parent exist)
continue
}
parent := parentDir(dName)
// It may happen that dt does not have a dName key,
// since directory was excluded based on a filter. In
// such case the loop will be skipped.
for i, entry := range dt[parent] {
switch x := entry.(type) {
case fs.Directory:
if x.Remote() == dName {
// the slice is not sorted yet
// to delete item
// a) replace it with the last one
dt[parent][i] = dt[parent][len(dt[parent])-1]
// b) remove last
dt[parent] = dt[parent][:len(dt[parent])-1]
// we modify a slice within a loop, but we stop
// iterating immediately
break
}
case fs.Object:
// do nothing
default:
return fmt.Errorf("unknown object type %T", entry)
}
}
}
for len(dirNames) > 0 {
// According to golang specs, if new keys were added
// during range iteration, they may be skipped.
for dName, remove := range dirNames {
if !remove {
fs.Infof(dName, "Directory in the map for prune, but the value is false")
continue
}
// First, add all subdirectories to dirNames.
// It may happen that dt[dName] does not exist.
// If so, the loop will be skipped.
for _, entry := range dt[dName] {
switch x := entry.(type) {
case fs.Directory:
excludeDir := x.Remote()
dirNames[excludeDir] = true
case fs.Object:
// do nothing
default:
return fmt.Errorf("unknown object type %T", entry)
}
}
// Then remove current directory from DirTree
delete(dt, dName)
// and from dirNames
delete(dirNames, dName)
}
}
return nil
}
// String emits a simple representation of the DirTree
func (dt DirTree) String() string {
out := new(bytes.Buffer)
for _, dir := range dt.Dirs() {
_, _ = fmt.Fprintf(out, "%s/\n", dir)
for _, entry := range dt[dir] {
flag := ""
if _, ok := entry.(fs.Directory); ok {
flag = "/"
}
_, _ = fmt.Fprintf(out, " %s%s\n", path.Base(entry.Remote()), flag)
}
}
return out.String()
}