// filesystem interaction and functionality library /* The fs module provides filesystem functions to Hilbish. While Lua's standard library has some I/O functions, they're missing a lot of the basics. The `fs` library offers more functions and will work on any operating system Hilbish does. #field pathSep The operating system's path separator. */ package fs import ( "fmt" "path/filepath" "strconv" "os" "strings" "hilbish/util" rt "github.com/arnodel/golua/runtime" "github.com/arnodel/golua/lib/packagelib" "github.com/arnodel/golua/lib/iolib" ) var Loader = packagelib.Loader{ Load: loaderFunc, Name: "fs", } func loaderFunc(rtm *rt.Runtime) (rt.Value, func()) { exports := map[string]util.LuaExport{ "cd": util.LuaExport{fcd, 1, false}, "mkdir": util.LuaExport{fmkdir, 2, false}, "stat": util.LuaExport{fstat, 1, false}, "readdir": util.LuaExport{freaddir, 1, false}, "abs": util.LuaExport{fabs, 1, false}, "basename": util.LuaExport{fbasename, 1, false}, "dir": util.LuaExport{fdir, 1, false}, "glob": util.LuaExport{fglob, 1, false}, "join": util.LuaExport{fjoin, 0, true}, "pipe": util.LuaExport{fpipe, 0, false}, } mod := rt.NewTable() util.SetExports(rtm, mod, exports) mod.Set(rt.StringValue("pathSep"), rt.StringValue(string(os.PathSeparator))) mod.Set(rt.StringValue("pathListSep"), rt.StringValue(string(os.PathListSeparator))) return rt.TableValue(mod), nil } // abs(path) -> string // Returns an absolute version of the `path`. // This can be used to resolve short paths like `..` to `/home/user`. // #param path string // #returns string func fabs(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { path, err := c.StringArg(0) if err != nil { return nil, err } path = util.ExpandHome(path) abspath, err := filepath.Abs(path) if err != nil { return nil, err } return c.PushingNext1(t.Runtime, rt.StringValue(abspath)), nil } // basename(path) -> string // Returns the "basename," or the last part of the provided `path`. If path is empty, // `.` will be returned. // #param path string Path to get the base name of. // #returns string func fbasename(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } path, err := c.StringArg(0) if err != nil { return nil, err } return c.PushingNext(t.Runtime, rt.StringValue(filepath.Base(path))), nil } // cd(dir) // Changes Hilbish's directory to `dir`. // #param dir string Path to change directory to. func fcd(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } path, err := c.StringArg(0) if err != nil { return nil, err } path = util.ExpandHome(strings.TrimSpace(path)) err = os.Chdir(path) if err != nil { return nil, err } return c.Next(), err } // dir(path) -> string // Returns the directory part of `path`. If a file path like // `~/Documents/doc.txt` then this function will return `~/Documents`. // #param path string Path to get the directory for. // #returns string func fdir(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } path, err := c.StringArg(0) if err != nil { return nil, err } return c.PushingNext(t.Runtime, rt.StringValue(filepath.Dir(path))), nil } // glob(pattern) -> matches (table) // Match all files based on the provided `pattern`. // For the syntax' refer to Go's filepath.Match function: https://pkg.go.dev/path/filepath#Match // #param pattern string Pattern to compare files with. // #returns table A list of file names/paths that match. /* #example --[[ Within a folder that contains the following files: a.txt init.lua code.lua doc.pdf ]]-- local matches = fs.glob './*.lua' print(matches) -- -> {'init.lua', 'code.lua'} #example */ func fglob(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } pattern, err := c.StringArg(0) if err != nil { return nil, err } matches, err := filepath.Glob(pattern) if err != nil { return nil, err } luaMatches := rt.NewTable() for i, match := range matches { luaMatches.Set(rt.IntValue(int64(i + 1)), rt.StringValue(match)) } return c.PushingNext(t.Runtime, rt.TableValue(luaMatches)), nil } // join(...path) -> string // Takes any list of paths and joins them based on the operating system's path separator. // #param path ...string Paths to join together // #returns string The joined path. /* #example -- This prints the directory for Hilbish's config! print(fs.join(hilbish.userDir.config, 'hilbish')) -- -> '/home/user/.config/hilbish' on Linux #example */ func fjoin(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { strs := make([]string, len(c.Etc())) for i, v := range c.Etc() { if v.Type() != rt.StringType { // +2; go indexes of 0 and first arg from above return nil, fmt.Errorf("bad argument #%d to run (expected string, got %s)", i + 1, v.TypeName()) } strs[i] = v.AsString() } res := filepath.Join(strs...) return c.PushingNext(t.Runtime, rt.StringValue(res)), nil } // mkdir(name, recursive) // Creates a new directory with the provided `name`. // With `recursive`, mkdir will create parent directories. // #param name string Name of the directory // #param recursive boolean Whether to create parent directories for the provided name /* #example -- This will create the directory foo, then create the directory bar in the -- foo directory. If recursive is false in this case, it will fail. fs.mkdir('./foo/bar', true) #example */ func fmkdir(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.CheckNArgs(2); err != nil { return nil, err } path, err := c.StringArg(0) if err != nil { return nil, err } recursive, err := c.BoolArg(1) if err != nil { return nil, err } path = util.ExpandHome(strings.TrimSpace(path)) if recursive { err = os.MkdirAll(path, 0744) } else { err = os.Mkdir(path, 0744) } if err != nil { return nil, err } return c.Next(), err } func fpipe(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { rf, wf, err := os.Pipe() if err != nil { return nil, err } rfLua := iolib.NewFile(rf, 0) wfLua := iolib.NewFile(wf, 0) return c.PushingNext(t.Runtime, rfLua.Value(t.Runtime), wfLua.Value(t.Runtime)), nil } // readdir(path) -> table[string] // Returns a list of all files and directories in the provided path. // #param dir string // #returns table func freaddir(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } dir, err := c.StringArg(0) if err != nil { return nil, err } dir = util.ExpandHome(dir) names := rt.NewTable() dirEntries, err := os.ReadDir(dir) if err != nil { return nil, err } for i, entry := range dirEntries { names.Set(rt.IntValue(int64(i + 1)), rt.StringValue(entry.Name())) } return c.PushingNext1(t.Runtime, rt.TableValue(names)), nil } // stat(path) -> {} // Returns the information about a given `path`. // The returned table contains the following values: // name (string) - Name of the path // size (number) - Size of the path in bytes // mode (string) - Unix permission mode in an octal format string (with leading 0) // isDir (boolean) - If the path is a directory // #param path string // #returns table /* #example local inspect = require 'inspect' local stat = fs.stat '~' print(inspect(stat)) --[[ Would print the following: { isDir = true, mode = "0755", name = "username", size = 12288 } ]]-- #example */ func fstat(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) { if err := c.Check1Arg(); err != nil { return nil, err } path, err := c.StringArg(0) if err != nil { return nil, err } path = util.ExpandHome(path) pathinfo, err := os.Stat(path) if err != nil { return nil, err } statTbl := rt.NewTable() statTbl.Set(rt.StringValue("name"), rt.StringValue(pathinfo.Name())) statTbl.Set(rt.StringValue("size"), rt.IntValue(pathinfo.Size())) statTbl.Set(rt.StringValue("mode"), rt.StringValue("0" + strconv.FormatInt(int64(pathinfo.Mode().Perm()), 8))) statTbl.Set(rt.StringValue("isDir"), rt.BoolValue(pathinfo.IsDir())) return c.PushingNext1(t.Runtime, rt.TableValue(statTbl)), nil }