package main import ( "bufio" "flag" "fmt" "github.com/yuin/gopher-lua" "github.com/yuin/gopher-lua/parse" "os" "runtime/pprof" ) func main() { os.Exit(mainAux()) } func mainAux() int { var opt_e, opt_l, opt_p string var opt_i, opt_v, opt_dt, opt_dc bool var opt_m int flag.StringVar(&opt_e, "e", "", "") flag.StringVar(&opt_l, "l", "", "") flag.StringVar(&opt_p, "p", "", "") flag.IntVar(&opt_m, "mx", 0, "") flag.BoolVar(&opt_i, "i", false, "") flag.BoolVar(&opt_v, "v", false, "") flag.BoolVar(&opt_dt, "dt", false, "") flag.BoolVar(&opt_dc, "dc", false, "") flag.Usage = func() { fmt.Println(`Usage: glua [options] [script [args]]. Available options are: -e stat execute string 'stat' -l name require library 'name' -mx MB memory limit(default: unlimited) -dt dump AST trees -dc dump VM codes -i enter interactive mode after executing 'script' -p file write cpu profiles to the file -v show version information `) } flag.Parse() if len(opt_p) != 0 { f, err := os.Create(opt_p) if err != nil { fmt.Println(err.Error()) os.Exit(1) } pprof.StartCPUProfile(f) defer pprof.StopCPUProfile() } if len(opt_e) == 0 && !opt_i && !opt_v && flag.NArg() == 0 { opt_i = true } status := 0 L := lua.NewState() defer L.Close() if opt_m > 0 { L.SetMx(opt_m) } if opt_v || opt_i { fmt.Println(lua.PackageCopyRight) } if len(opt_l) > 0 { if err := L.DoFile(opt_l); err != nil { fmt.Println(err.Error()) } } if nargs := flag.NArg(); nargs > 0 { script := flag.Arg(0) argtb := L.NewTable() for i := 1; i < nargs; i++ { L.RawSet(argtb, lua.LNumber(i), lua.LString(flag.Arg(i))) } L.SetGlobal("arg", argtb) if opt_dt || opt_dc { file, err := os.Open(script) if err != nil { fmt.Println(err.Error()) return 1 } chunk, err2 := parse.Parse(file, script) if err2 != nil { fmt.Println(err2.Error()) return 1 } if opt_dt { fmt.Println(parse.Dump(chunk)) } if opt_dc { proto, err3 := lua.Compile(chunk, script) if err3 != nil { fmt.Println(err3.Error()) return 1 } fmt.Println(proto.String()) } } if err := L.DoFile(script); err != nil { fmt.Println(err.Error()) status = 1 } } if len(opt_e) > 0 { if err := L.DoString(opt_e); err != nil { fmt.Println(err.Error()) status = 1 } } if opt_i { doREPL(L) } return status } // do read/eval/print/loop func doREPL(L *lua.LState) { reader := bufio.NewReader(os.Stdin) for { if str, err := loadline(reader, L); err == nil { if err := L.DoString(str); err != nil { fmt.Println(err) } } else { // error on loadline fmt.Println(err) return } } } func incomplete(err error) bool { if lerr, ok := err.(*lua.ApiError); ok { if perr, ok := lerr.Cause.(*parse.Error); ok { return perr.Pos.Line == parse.EOF } } return false } func loadline(reader *bufio.Reader, L *lua.LState) (string, error) { fmt.Print("> ") if line, err := reader.ReadString('\n'); err == nil { if _, err := L.LoadString("return " + line); err == nil { // try add return <...> then compile return line, nil } else { return multiline(line, reader, L) } } else { return "", err } } func multiline(ml string, reader *bufio.Reader, L *lua.LState) (string, error) { for { if _, err := L.LoadString(ml); err == nil { // try compile return ml, nil } else if !incomplete(err) { // syntax error , but not EOF return ml, nil } else { fmt.Print(">> ") if line, err := reader.ReadString('\n'); err == nil { ml = ml + "\n" + line } else { return "", err } } } }