// Copyright GoFrame Author(https://goframe.org). All Rights Reserved. // // This Source Code Form is subject to the terms of the MIT License. // If a copy of the MIT was not distributed with this file, // You can obtain one at https://github.com/gogf/gf. package gres import ( "fmt" "github.com/gogf/gf/internal/intlog" "os" "path/filepath" "strings" "github.com/gogf/gf/os/gtime" "github.com/gogf/gf/container/gtree" "github.com/gogf/gf/os/gfile" ) type Resource struct { tree *gtree.BTree } const ( gDEFAULT_TREE_M = 100 ) // New creates and returns a new resource object. func New() *Resource { return &Resource{ tree: gtree.NewBTree(gDEFAULT_TREE_M, func(v1, v2 interface{}) int { return strings.Compare(v1.(string), v2.(string)) }), } } // Add unpacks and adds the into current resource object. // The unnecessary parameter indicates the prefix // for each file storing into current resource object. func (r *Resource) Add(content string, prefix ...string) error { files, err := UnpackContent(content) if err != nil { intlog.Printf("Add resource files failed: %v", err) return err } namePrefix := "" if len(prefix) > 0 { namePrefix = prefix[0] } for i := 0; i < len(files); i++ { files[i].resource = r r.tree.Set(namePrefix+files[i].file.Name, files[i]) } intlog.Printf("Add %d files to resource manager", r.tree.Size()) return nil } // Load loads, unpacks and adds the data from into current resource object. // The unnecessary parameter indicates the prefix // for each file storing into current resource object. func (r *Resource) Load(path string, prefix ...string) error { realPath, err := gfile.Search(path) if err != nil { return err } return r.Add(gfile.GetContents(realPath), prefix...) } // Get returns the file with given path. func (r *Resource) Get(path string) *File { if path == "" { return nil } path = strings.Replace(path, "\\", "/", -1) path = strings.Replace(path, "//", "/", -1) if path != "/" { for path[len(path)-1] == '/' { path = path[:len(path)-1] } } result := r.tree.Get(path) if result != nil { return result.(*File) } return nil } // GetWithIndex searches file with , if the file is directory // it then does index files searching under this directory. // // GetWithIndex is usually used for http static file service. func (r *Resource) GetWithIndex(path string, indexFiles []string) *File { // Necessary for double char '/' replacement in prefix. path = strings.Replace(path, "\\", "/", -1) path = strings.Replace(path, "//", "/", -1) if path != "/" { for path[len(path)-1] == '/' { path = path[:len(path)-1] } } if file := r.Get(path); file != nil { if len(indexFiles) > 0 && file.FileInfo().IsDir() { var f *File for _, name := range indexFiles { if f = r.Get(path + "/" + name); f != nil { return f } } } return file } return nil } // GetContent directly returns the content of . func (r *Resource) GetContent(path string) []byte { file := r.Get(path) if file != nil { return file.Content() } return nil } // Contains checks whether the exists in current resource object. func (r *Resource) Contains(path string) bool { return r.Get(path) != nil } // IsEmpty checks and returns whether the resource manager is empty. func (r *Resource) IsEmpty() bool { return r.tree.IsEmpty() } // ScanDir returns the files under the given path, the parameter should be a folder type. // // The pattern parameter supports multiple file name patterns, // using the ',' symbol to separate multiple patterns. // // It scans directory recursively if given parameter is true. // // Note that the returned files does not contain given parameter . func (r *Resource) ScanDir(path string, pattern string, recursive ...bool) []*File { isRecursive := false if len(recursive) > 0 { isRecursive = recursive[0] } return r.doScanDir(path, pattern, isRecursive, false) } // ScanDirFile returns all sub-files with absolute paths of given , // It scans directory recursively if given parameter is true. // // Note that it returns only files, exclusive of directories. func (r *Resource) ScanDirFile(path string, pattern string, recursive ...bool) []*File { isRecursive := false if len(recursive) > 0 { isRecursive = recursive[0] } return r.doScanDir(path, pattern, isRecursive, true) } // doScanDir is an internal method which scans directory // and returns the absolute path list of files that are not sorted. // // The pattern parameter supports multiple file name patterns, // using the ',' symbol to separate multiple patterns. // // It scans directory recursively if given parameter is true. func (r *Resource) doScanDir(path string, pattern string, recursive bool, onlyFile bool) []*File { path = strings.Replace(path, "\\", "/", -1) path = strings.Replace(path, "//", "/", -1) if path != "/" { for path[len(path)-1] == '/' { path = path[:len(path)-1] } } var ( name = "" files = make([]*File, 0) length = len(path) patterns = strings.Split(pattern, ",") ) for i := 0; i < len(patterns); i++ { patterns[i] = strings.TrimSpace(patterns[i]) } // Used for type checking for first entry. first := true r.tree.IteratorFrom(path, true, func(key, value interface{}) bool { if first { if !value.(*File).FileInfo().IsDir() { return false } first = false } if onlyFile && value.(*File).FileInfo().IsDir() { return true } name = key.(string) if len(name) <= length { return true } if path != name[:length] { return false } // To avoid of, eg: /i18n and /i18n-dir if !first && name[length] != '/' { return true } if !recursive { if strings.IndexByte(name[length+1:], '/') != -1 { return true } } for _, p := range patterns { if match, err := filepath.Match(p, gfile.Basename(name)); err == nil && match { files = append(files, value.(*File)) return true } } return true }) return files } // Dump prints the files of current resource object. func (r *Resource) Dump() { var info os.FileInfo r.tree.Iterator(func(key, value interface{}) bool { info = value.(*File).FileInfo() fmt.Printf("%v %7s %s\n", gtime.New(info.ModTime()).ISO8601(), gfile.FormatSize(info.Size()), key) return true }) fmt.Printf("TOTAL FILES: %d\n", r.tree.Size()) }