// +build goreadline,!hilbiline package main // Here we define a generic interface for readline and hilbiline, // making them interchangable during build time // this is hilbiline's, as is obvious by the filename import ( "fmt" "io" "path/filepath" "strings" "os" "github.com/maxlandon/readline" "github.com/yuin/gopher-lua" ) type lineReader struct { rl *readline.Instance } // other gophers might hate this naming but this is local, shut up func newLineReader(prompt string) *lineReader { rl := readline.NewInstance() rl.Multiline = true rl.TabCompleter = func(line []rune, pos int, _ readline.DelayedTabContext) (string, []*readline.CompletionGroup) { ctx := string(line) var completions []string compGroup := []*readline.CompletionGroup{ &readline.CompletionGroup{ TrimSlash: false, NoSpace: true, }, } ctx = strings.TrimLeft(ctx, " ") if len(ctx) == 0 { return "", compGroup } fields := strings.Split(ctx, " ") if len(fields) == 0 { return "", compGroup } query := fields[len(fields) - 1] ctx = aliases.Resolve(ctx) if len(fields) == 1 { fileCompletions := fileComplete(query, ctx, fields) if len(fileCompletions) != 0 { for _, f := range fileCompletions { name := strings.Replace(query + f, "~", curuser.HomeDir, 1) if info, err := os.Stat(name); err == nil && info.Mode().Perm() & 0100 == 0 { continue } completions = append(completions, f) } compGroup[0].Suggestions = completions return "", compGroup } // filter out executables, but in path for _, dir := range filepath.SplitList(os.Getenv("PATH")) { // print dir to stderr for debugging // search for an executable which matches our query string if matches, err := filepath.Glob(filepath.Join(dir, query + "*")); err == nil { // get basename from matches for _, match := range matches { // check if we have execute permissions for our match if info, err := os.Stat(match); err == nil && info.Mode().Perm() & 0100 == 0 { continue } // get basename from match name := filepath.Base(match) // print name to stderr for debugging // add basename to completions completions = append(completions, name) } } } // add lua registered commands to completions for cmdName := range commands { if strings.HasPrefix(cmdName, query) { completions = append(completions, cmdName) } } compGroup[0].Suggestions = completions return query, compGroup } else { if completecb, ok := luaCompletions["command." + fields[0]]; ok { err := l.CallByParam(lua.P{ Fn: completecb, NRet: 1, Protect: true, }) if err != nil { return "", compGroup } luacompleteTable := l.Get(-1) l.Pop(1) if cmpTbl, ok := luacompleteTable.(*lua.LTable); ok { cmpTbl.ForEach(func(key lua.LValue, value lua.LValue) { // if key is a number (index), we just check and complete that if key.Type() == lua.LTNumber { // if we have only 2 fields then this is fine if len(fields) == 2 { if strings.HasPrefix(value.String(), fields[1]) { completions = append(completions, value.String()) } } } else if key.Type() == lua.LTString { if len(fields) == 2 { if strings.HasPrefix(key.String(), fields[1]) { completions = append(completions, key.String()) } } else { // if we have more than 2 fields, we need to check if the key matches // the current field and if it does, we need to check if the value is a string // or table (nested sub completions) if key.String() == fields[1] { // if value is a table, we need to iterate over it // and add each value to completions // check if value is either a table or function if value.Type() == lua.LTTable { valueTbl := value.(*lua.LTable) valueTbl.ForEach(func(key lua.LValue, value lua.LValue) { val := value.String() if val == "" { // complete files completions = append(completions, fileComplete(query, ctx, fields)...) } else { if strings.HasPrefix(val, query) { completions = append(completions, val) } } }) } else if value.Type() == lua.LTFunction { // if value is a function, we need to call it // and add each value to completions // completionsCtx is the context we pass to the function, // removing 2 fields from the fields array completionsCtx := strings.Join(fields[2:], " ") err := l.CallByParam(lua.P{ Fn: value, NRet: 1, Protect: true, }, lua.LString(query), lua.LString(completionsCtx)) if err != nil { return } luacompleteTable := l.Get(-1) l.Pop(1) // just check if its actually a table and add it to the completions if cmpTbl, ok := luacompleteTable.(*lua.LTable); ok { cmpTbl.ForEach(func(key lua.LValue, value lua.LValue) { val := value.String() if strings.HasPrefix(val, query) { completions = append(completions, val) } }) } } else { // throw lua error // complete.cmdname: error message... l.RaiseError("complete." + fields[0] + ": completion value is not a table or function") } } } } }) } } if len(completions) == 0 { completions = fileComplete(query, ctx, fields) } } compGroup[0].Suggestions = completions return "", compGroup } return &lineReader{ rl, } } func (lr *lineReader) Read() (string, error) { s, err := lr.rl.Readline() // this is so dumb if err == readline.EOF { return "", io.EOF } return s, err // might get another error } func (lr *lineReader) SetPrompt(prompt string) { halfPrompt := strings.Split(prompt, "\n") if len(halfPrompt) > 1 { lr.rl.SetPrompt(strings.Join(halfPrompt[:len(halfPrompt) - 1], "\n")) lr.rl.MultilinePrompt = halfPrompt[len(halfPrompt) - 1:][0] } else { // print cursor up ansi code fmt.Printf("\033[1A") lr.rl.SetPrompt("") lr.rl.MultilinePrompt = halfPrompt[len(halfPrompt) - 1:][0] } } func (lr *lineReader) AddHistory(cmd string) { return } func (lr *lineReader) ClearInput() { return } func (lr *lineReader) Resize() { return } // lua module func (lr *lineReader) Loader(L *lua.LState) *lua.LTable { lrLua := map[string]lua.LGFunction{ "add": lr.luaAddHistory, "all": lr.luaAllHistory, "clear": lr.luaClearHistory, "get": lr.luaGetHistory, "size": lr.luaSize, } mod := l.SetFuncs(l.NewTable(), lrLua) return mod } func (lr *lineReader) luaAddHistory(l *lua.LState) int { cmd := l.CheckString(1) lr.AddHistory(cmd) return 0 } func (lr *lineReader) luaSize(l *lua.LState) int { return 0 } func (lr *lineReader) luaGetHistory(l *lua.LState) int { return 0 } func (lr *lineReader) luaAllHistory(l *lua.LState) int { return 0 } func (lr *lineReader) luaClearHistory(l *lua.LState) int { return 0 }