package main import ( "fmt" "io" "strings" "github.com/maxlandon/readline" "github.com/yuin/gopher-lua" ) type lineReader struct { rl *readline.Instance } var fileHist *fileHistory // other gophers might hate this naming but this is local, shut up func newLineReader(prompt string) *lineReader { rl := readline.NewInstance() fh, err := newFileHistory() fileHist = fh // go stupid if err != nil { panic(err) } rl.SetHistoryCtrlR("file", fileHist) rl.HistoryAutoWrite = false rl.ShowVimMode = false rl.ViModeCallback = func(mode readline.ViMode) { modeStr := "" switch mode { case readline.VimKeys: modeStr = "normal" case readline.VimInsert: modeStr = "insert" case readline.VimDelete: modeStr = "delete" case readline.VimReplaceOnce: case readline.VimReplaceMany: modeStr = "replace" } setVimMode(modeStr) } rl.TabCompleter = func(line []rune, pos int, _ readline.DelayedTabContext) (string, []*readline.CompletionGroup) { ctx := string(line) var completions []string var compGroup []*readline.CompletionGroup 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 { completions, prefix := binaryComplete(query, ctx, fields) compGroup = append(compGroup, &readline.CompletionGroup{ TrimSlash: false, NoSpace: true, Suggestions: completions, }) return prefix, compGroup } else { if completecb, ok := luaCompletions["command." + fields[0]]; ok { luaFields := l.NewTable() for _, f := range fields { luaFields.Append(lua.LString(f)) } err := l.CallByParam(lua.P{ Fn: completecb, NRet: 1, Protect: true, }, lua.LString(query), lua.LString(ctx), luaFields) if err != nil { return "", compGroup } luacompleteTable := l.Get(-1) l.Pop(1) /* as an example with git, completion table should be structured like: { { items = { 'add', 'clone', 'init' }, type = 'grid' }, { items = { '-c', '--git-dir' }, type = 'list' } } ^ a table of completion groups. it is the responsibility of the completer to work on subcommands and subcompletions */ if cmpTbl, ok := luacompleteTable.(*lua.LTable); ok { cmpTbl.ForEach(func(key lua.LValue, value lua.LValue) { if key.Type() == lua.LTNumber { // completion group if value.Type() == lua.LTTable { luaCmpGroup := value.(*lua.LTable) compType := luaCmpGroup.RawGet(lua.LString("type")) compItems := luaCmpGroup.RawGet(lua.LString("items")) if compType.Type() != lua.LTString { l.RaiseError("bad type name for completion (expected string, got %v)", compType.Type().String()) } if compItems.Type() != lua.LTTable { l.RaiseError("bad items for completion (expected table, got %v)", compItems.Type().String()) } var items []string itemDescriptions := make(map[string]string) compItems.(*lua.LTable).ForEach(func(k lua.LValue, v lua.LValue) { if k.Type() == lua.LTString { // ['--flag'] = {'description', '--flag-alias'} itm := v.(*lua.LTable) items = append(items, k.String()) itemDescriptions[k.String()] = itm.RawGet(lua.LNumber(1)).String() } else { items = append(items, v.String()) } }) var dispType readline.TabDisplayType switch compType.String() { case "grid": dispType = readline.TabDisplayGrid case "list": dispType = readline.TabDisplayList // need special cases, will implement later //case "map": dispType = readline.TabDisplayMap } compGroup = append(compGroup, &readline.CompletionGroup{ DisplayType: dispType, Descriptions: itemDescriptions, Suggestions: items, TrimSlash: false, NoSpace: true, }) } } }) } } if len(compGroup) == 0 { completions = fileComplete(query, ctx, fields) compGroup = append(compGroup, &readline.CompletionGroup{ TrimSlash: false, NoSpace: true, Suggestions: completions, }) } } return "", compGroup } return &lineReader{ rl, } } func (lr *lineReader) Read() (string, error) { hooks.Em.Emit("command.precmd", nil) s, err := lr.rl.Readline() // this is so dumb if err == readline.EOF { fmt.Println("") 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.Multiline = true lr.rl.SetPrompt(strings.Join(halfPrompt[:len(halfPrompt) - 1], "\n")) lr.rl.MultilinePrompt = halfPrompt[len(halfPrompt) - 1:][0] } else { lr.rl.Multiline = false lr.rl.SetPrompt(prompt) } if !running { lr.rl.RefreshPromptInPlace("") } } func (lr *lineReader) AddHistory(cmd string) { fileHist.Write(cmd) } 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 { L.Push(lua.LNumber(fileHist.Len())) return 1 } func (lr *lineReader) luaGetHistory(L *lua.LState) int { idx := L.CheckInt(1) cmd, _ := fileHist.GetLine(idx) L.Push(lua.LString(cmd)) return 0 } func (lr *lineReader) luaAllHistory(L *lua.LState) int { tbl := L.NewTable() size := fileHist.Len() for i := 1; i < size; i++ { cmd, _ := fileHist.GetLine(i) tbl.Append(lua.LString(cmd)) } L.Push(tbl) return 0 } func (lr *lineReader) luaClearHistory(l *lua.LState) int { return 0 }