package tea import ( "errors" "io" "log" "log/syslog" "strings" "github.com/pkg/term" ) // Msg represents an action. It's used by Update to update the UI. type Msg interface{} // Model contains the updatable data for an application type Model interface{} // Cmd is an IO operation. If it's nil it's considered a no-op. type Cmd func() Msg // Sub is an event subscription. If it returns nil it's considered a no-op. type Sub func(Model) Msg // Update is called when a message is received. It may update the model and/or // send a command. type Update func(Msg, Model) (Model, Cmd) // View produces a string which will be rendered to the terminal type View func(Model) string // Program is a terminal user interface type Program struct { model Model update Update view View subscriptions []Sub rw io.ReadWriter linesRendered int } // ErrMsg is just a regular message containing an error. We handle it in Update // just like a regular message by case switching. Of course, the developer // could also define her own errors as well. type ErrMsg struct { error } func (e ErrMsg) String() string { return e.Error() } // NewErrMsg is a convenience function for creating a generic ErrMsg func NewErrMsg(s string) ErrMsg { return ErrMsg{errors.New(s)} } // Quit is a command that tells the program to exit func Quit() Msg { return quitMsg{} } // Signals that the program should quit type quitMsg struct{} // NewProgram creates a new Program func NewProgram(model Model, update Update, view View, subs []Sub) *Program { return &Program{ model: model, update: update, view: view, subscriptions: subs, } } // Start initializes the program func (p *Program) Start() error { var ( model = p.model cmd Cmd cmds = make(chan Cmd) msgs = make(chan Msg) done = make(chan struct{}) ) tty, err := term.Open("/dev/tty") if err != nil { return err } p.rw = tty tty.SetRaw() defer func() { showCursor() tty.Restore() }() // Render initial view hideCursor() p.render(model) // Subscribe to user input. We could move this out of here and offer it // as a subscription, but it blocks nicely and seems to be a common enough // need that we're enabling it by default. go func() { for { msg, _ := ReadKey(p.rw) msgs <- KeyMsg(msg) } }() // Initialize subscriptions go func() { if len(p.subscriptions) > 0 { for _, sub := range p.subscriptions { go func(s Sub) { for { msgs <- s(p.model) } }(sub) } } }() // Process commands go func() { for { select { case <-done: return case cmd := <-cmds: if cmd != nil { go func() { msgs <- cmd() }() } } } }() // Handle updates and draw for { select { case msg := <-msgs: if _, ok := msg.(quitMsg); ok { close(done) return nil } model, cmd = p.update(msg, model) cmds <- cmd // process command (if any) p.render(model) p.model = model } } } // Render a view to the terminal func (p *Program) render(model Model) { view := p.view(model) + "\n" // We need to add carriage returns to ensure that the cursor travels to the // start of a column after a newline view = strings.Replace(view, "\n", "\r\n", -1) if p.linesRendered > 0 { clearLines(p.linesRendered) } io.WriteString(p.rw, view) p.linesRendered = strings.Count(view, "\r\n") } // UseSysLog sets up logging to log the system log. This becomes helpful when // debugging since we can't easily print to the terminal since our TUI is // occupying it! // // On macOS this is a just a matter of: tail -f /var/log/system.log func UseSysLog(programName string) error { l, err := syslog.New(syslog.LOG_NOTICE, programName) if err != nil { return err } log.SetOutput(l) return nil }