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// Copyright 2019 The Hugo Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package helpers
import (
"errors"
"fmt"
"io"
"os"
"path/filepath"
"regexp"
"sort"
"strings"
"unicode"
"github.com/gohugoio/hugo/common/text"
"github.com/gohugoio/hugo/config"
"github.com/gohugoio/hugo/hugofs"
"github.com/gohugoio/hugo/common/hugio"
_errors "github.com/pkg/errors"
"github.com/spf13/afero"
)
// ErrThemeUndefined is returned when a theme has not be defined by the user.
var ErrThemeUndefined = errors.New("no theme set")
// MakePath takes a string with any characters and replace it
// so the string could be used in a path.
// It does so by creating a Unicode-sanitized string, with the spaces replaced,
// whilst preserving the original casing of the string.
// E.g. Social Media -> Social-Media
func (p *PathSpec) MakePath(s string) string {
return p.UnicodeSanitize(s)
}
// MakePathsSanitized applies MakePathSanitized on every item in the slice
func (p *PathSpec) MakePathsSanitized(paths []string) {
for i, path := range paths {
paths[i] = p.MakePathSanitized(path)
}
}
// MakePathSanitized creates a Unicode-sanitized string, with the spaces replaced
func (p *PathSpec) MakePathSanitized(s string) string {
if p.DisablePathToLower {
return p.MakePath(s)
}
return strings.ToLower(p.MakePath(s))
}
// ToSlashTrimLeading is just a filepath.ToSlaas with an added / prefix trimmer.
func ToSlashTrimLeading(s string) string {
return strings.TrimPrefix(filepath.ToSlash(s), "/")
}
// MakeTitle converts the path given to a suitable title, trimming whitespace
// and replacing hyphens with whitespace.
func MakeTitle(inpath string) string {
return strings.Replace(strings.TrimSpace(inpath), "-", " ", -1)
}
// From https://golang.org/src/net/url/url.go
func ishex(c rune) bool {
switch {
case '0' <= c && c <= '9':
return true
case 'a' <= c && c <= 'f':
return true
case 'A' <= c && c <= 'F':
return true
}
return false
}
// UnicodeSanitize sanitizes string to be used in Hugo URL's, allowing only
// a predefined set of special Unicode characters.
// If RemovePathAccents configuration flag is enabled, Unicode accents
// are also removed.
// Spaces will be replaced with a single hyphen, and sequential hyphens will be reduced to one.
func (p *PathSpec) UnicodeSanitize(s string) string {
if p.RemovePathAccents {
s = text.RemoveAccentsString(s)
}
source := []rune(s)
target := make([]rune, 0, len(source))
var prependHyphen bool
for i, r := range source {
isAllowed := r == '.' || r == '/' || r == '\\' || r == '_' || r == '#' || r == '+' || r == '~'
isAllowed = isAllowed || unicode.IsLetter(r) || unicode.IsDigit(r) || unicode.IsMark(r)
isAllowed = isAllowed || (r == '%' && i+2 < len(source) && ishex(source[i+1]) && ishex(source[i+2]))
if isAllowed {
if prependHyphen {
target = append(target, '-')
prependHyphen = false
}
target = append(target, r)
} else if len(target) > 0 && (r == '-' || unicode.IsSpace(r)) {
prependHyphen = true
}
}
return string(target)
}
func makePathRelative(inPath string, possibleDirectories ...string) (string, error) {
for _, currentPath := range possibleDirectories {
if strings.HasPrefix(inPath, currentPath) {
return strings.TrimPrefix(inPath, currentPath), nil
}
}
return inPath, errors.New("can't extract relative path, unknown prefix")
}
// Should be good enough for Hugo.
var isFileRe = regexp.MustCompile(`.*\..{1,6}$`)
// GetDottedRelativePath expects a relative path starting after the content directory.
// It returns a relative path with dots ("..") navigating up the path structure.
func GetDottedRelativePath(inPath string) string {
inPath = filepath.Clean(filepath.FromSlash(inPath))
if inPath == "." {
return "./"
}
if !isFileRe.MatchString(inPath) && !strings.HasSuffix(inPath, FilePathSeparator) {
inPath += FilePathSeparator
}
if !strings.HasPrefix(inPath, FilePathSeparator) {
inPath = FilePathSeparator + inPath
}
dir, _ := filepath.Split(inPath)
sectionCount := strings.Count(dir, FilePathSeparator)
if sectionCount == 0 || dir == FilePathSeparator {
return "./"
}
var dottedPath string
for i := 1; i < sectionCount; i++ {
dottedPath += "../"
}
return dottedPath
}
type NamedSlice struct {
Name string
Slice []string
}
func (n NamedSlice) String() string {
if len(n.Slice) == 0 {
return n.Name
}
return fmt.Sprintf("%s%s{%s}", n.Name, FilePathSeparator, strings.Join(n.Slice, ","))
}
func ExtractAndGroupRootPaths(paths []string) []NamedSlice {
if len(paths) == 0 {
return nil
}
pathsCopy := make([]string, len(paths))
hadSlashPrefix := strings.HasPrefix(paths[0], FilePathSeparator)
for i, p := range paths {
pathsCopy[i] = strings.Trim(filepath.ToSlash(p), "/")
}
sort.Strings(pathsCopy)
pathsParts := make([][]string, len(pathsCopy))
for i, p := range pathsCopy {
pathsParts[i] = strings.Split(p, "/")
}
var groups [][]string
for i, p1 := range pathsParts {
c1 := -1
for j, p2 := range pathsParts {
if i == j {
continue
}
c2 := -1
for i, v := range p1 {
if i >= len(p2) {
break
}
if v != p2[i] {
break
}
c2 = i
}
if c1 == -1 || (c2 != -1 && c2 < c1) {
c1 = c2
}
}
if c1 != -1 {
groups = append(groups, p1[:c1+1])
} else {
groups = append(groups, p1)
}
}
groupsStr := make([]string, len(groups))
for i, g := range groups {
groupsStr[i] = strings.Join(g, "/")
}
groupsStr = UniqueStringsSorted(groupsStr)
var result []NamedSlice
for _, g := range groupsStr {
name := filepath.FromSlash(g)
if hadSlashPrefix {
name = FilePathSeparator + name
}
ns := NamedSlice{Name: name}
for _, p := range pathsCopy {
if !strings.HasPrefix(p, g) {
continue
}
p = strings.TrimPrefix(p, g)
if p != "" {
ns.Slice = append(ns.Slice, p)
}
}
ns.Slice = UniqueStrings(ExtractRootPaths(ns.Slice))
result = append(result, ns)
}
return result
}
// ExtractRootPaths extracts the root paths from the supplied list of paths.
// The resulting root path will not contain any file separators, but there
// may be duplicates.
// So "/content/section/" becomes "content"
func ExtractRootPaths(paths []string) []string {
r := make([]string, len(paths))
for i, p := range paths {
root := filepath.ToSlash(p)
sections := strings.Split(root, "/")
for _, section := range sections {
if section != "" {
root = section
break
}
}
r[i] = root
}
return r
}
// FindCWD returns the current working directory from where the Hugo
// executable is run.
func FindCWD() (string, error) {
serverFile, err := filepath.Abs(os.Args[0])
if err != nil {
return "", fmt.Errorf("can't get absolute path for executable: %v", err)
}
path := filepath.Dir(serverFile)
realFile, err := filepath.EvalSymlinks(serverFile)
if err != nil {
if _, err = os.Stat(serverFile + ".exe"); err == nil {
realFile = filepath.Clean(serverFile + ".exe")
}
}
if err == nil && realFile != serverFile {
path = filepath.Dir(realFile)
}
return path, nil
}
// SymbolicWalk is like filepath.Walk, but it follows symbolic links.
func SymbolicWalk(fs afero.Fs, root string, walker hugofs.WalkFunc) error {
if _, isOs := fs.(*afero.OsFs); isOs {
// Mainly to track symlinks.
fs = hugofs.NewBaseFileDecorator(fs)
}
w := hugofs.NewWalkway(hugofs.WalkwayConfig{
Fs: fs,
Root: root,
WalkFn: walker,
})
return w.Walk()
}
// LstatIfPossible can be used to call Lstat if possible, else Stat.
func LstatIfPossible(fs afero.Fs, path string) (os.FileInfo, error) {
if lstater, ok := fs.(afero.Lstater); ok {
fi, _, err := lstater.LstatIfPossible(path)
return fi, err
}
return fs.Stat(path)
}
// SafeWriteToDisk is the same as WriteToDisk
// but it also checks to see if file/directory already exists.
func SafeWriteToDisk(inpath string, r io.Reader, fs afero.Fs) (err error) {
return afero.SafeWriteReader(fs, inpath, r)
}
// WriteToDisk writes content to disk.
func WriteToDisk(inpath string, r io.Reader, fs afero.Fs) (err error) {
return afero.WriteReader(fs, inpath, r)
}
// OpenFilesForWriting opens all the given filenames for writing.
func OpenFilesForWriting(fs afero.Fs, filenames ...string) (io.WriteCloser, error) {
var writeClosers []io.WriteCloser
for _, filename := range filenames {
f, err := OpenFileForWriting(fs, filename)
if err != nil {
for _, wc := range writeClosers {
wc.Close()
}
return nil, err
}
writeClosers = append(writeClosers, f)
}
return hugio.NewMultiWriteCloser(writeClosers...), nil
}
// OpenFileForWriting opens or creates the given file. If the target directory
// does not exist, it gets created.
func OpenFileForWriting(fs afero.Fs, filename string) (afero.File, error) {
filename = filepath.Clean(filename)
// Create will truncate if file already exists.
// os.Create will create any new files with mode 0666 (before umask).
f, err := fs.Create(filename)
if err != nil {
if !os.IsNotExist(err) {
return nil, err
}
if err = fs.MkdirAll(filepath.Dir(filename), 0777); err != nil { // before umask
return nil, err
}
f, err = fs.Create(filename)
}
return f, err
}
// GetCacheDir returns a cache dir from the given filesystem and config.
// The dir will be created if it does not exist.
func GetCacheDir(fs afero.Fs, cfg config.Provider) (string, error) {
cacheDir := getCacheDir(cfg)
if cacheDir != "" {
exists, err := DirExists(cacheDir, fs)
if err != nil {
return "", err
}
if !exists {
err := fs.MkdirAll(cacheDir, 0777) // Before umask
if err != nil {
return "", _errors.Wrap(err, "failed to create cache dir")
}
}
return cacheDir, nil
}
// Fall back to a cache in /tmp.
return GetTempDir("hugo_cache", fs), nil
}
func getCacheDir(cfg config.Provider) string {
// Always use the cacheDir config if set.
cacheDir := cfg.GetString("cacheDir")
if len(cacheDir) > 1 {
return addTrailingFileSeparator(cacheDir)
}
// This is always set to true when running on Netlify.
if os.Getenv("NETLIFY") == "true" {
// Netlify's cache behaviour is not documented, the currently best example
// is this project:
// https://github.com/philhawksworth/content-shards/blob/master/gulpfile.js
return "/opt/build/cache/hugo_cache/"
}
// This will fall back to an hugo_cache folder in the tmp dir, which should work fine for most CI
// providers. See this for a working CircleCI setup:
// https://github.com/bep/hugo-sass-test/blob/6c3960a8f4b90e8938228688bc49bdcdd6b2d99e/.circleci/config.yml
// If not, they can set the HUGO_CACHEDIR environment variable or cacheDir config key.
return ""
}
func addTrailingFileSeparator(s string) string {
if !strings.HasSuffix(s, FilePathSeparator) {
s = s + FilePathSeparator
}
return s
}
// GetTempDir returns a temporary directory with the given sub path.
func GetTempDir(subPath string, fs afero.Fs) string {
return afero.GetTempDir(fs, subPath)
}
// DirExists checks if a path exists and is a directory.
func DirExists(path string, fs afero.Fs) (bool, error) {
return afero.DirExists(fs, path)
}
// IsDir checks if a given path is a directory.
func IsDir(path string, fs afero.Fs) (bool, error) {
return afero.IsDir(fs, path)
}
// IsEmpty checks if a given path is empty.
func IsEmpty(path string, fs afero.Fs) (bool, error) {
return afero.IsEmpty(fs, path)
}
// FileContains checks if a file contains a specified string.
func FileContains(filename string, subslice []byte, fs afero.Fs) (bool, error) {
return afero.FileContainsBytes(fs, filename, subslice)
}
// FileContainsAny checks if a file contains any of the specified strings.
func FileContainsAny(filename string, subslices [][]byte, fs afero.Fs) (bool, error) {
return afero.FileContainsAnyBytes(fs, filename, subslices)
}
// Exists checks if a file or directory exists.
func Exists(path string, fs afero.Fs) (bool, error) {
return afero.Exists(fs, path)
}
// AddTrailingSlash adds a trailing Unix styled slash (/) if not already
// there.
func AddTrailingSlash(path string) string {
if !strings.HasSuffix(path, "/") {
path += "/"
}
return path
}
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