package uilive import ( "bytes" "errors" "io" "os" "sync" "time" ) // ESC is the ASCII code for escape character const ESC = 27 // RefreshInterval is the default refresh interval to update the ui var RefreshInterval = time.Millisecond // Out is the default output writer for the Writer var Out = os.Stdout // ErrClosedPipe is the error returned when trying to writer is not listening var ErrClosedPipe = errors.New("uilive: read/write on closed pipe") // FdWriter is a writer with a file descriptor. type FdWriter interface { io.Writer Fd() uintptr } // Writer is a buffered the writer that updates the terminal. The contents of writer will be flushed on a timed interval or when Flush is called. type Writer struct { // Out is the writer to write to Out io.Writer // RefreshInterval is the time the UI sould refresh RefreshInterval time.Duration ticker *time.Ticker tdone chan bool buf bytes.Buffer mtx *sync.Mutex lineCount int } type bypass struct { writer *Writer } // New returns a new Writer with defaults func New() *Writer { return &Writer{ Out: Out, RefreshInterval: RefreshInterval, mtx: &sync.Mutex{}, } } // Flush writes to the out and resets the buffer. It should be called after the last call to Write to ensure that any data buffered in the Writer is written to output. // Any incomplete escape sequence at the end is considered complete for formatting purposes. // An error is returned if the contents of the buffer cannot be written to the underlying output stream func (w *Writer) Flush() error { w.mtx.Lock() defer w.mtx.Unlock() // do nothing is buffer is empty if len(w.buf.Bytes()) == 0 { return nil } w.clearLines() lines := 0 for _, b := range w.buf.Bytes() { if b == '\n' { lines++ } } w.lineCount = lines _, err := w.Out.Write(w.buf.Bytes()) w.buf.Reset() return err } // Start starts the listener in a non-blocking manner func (w *Writer) Start() { if w.ticker == nil { w.ticker = time.NewTicker(w.RefreshInterval) w.tdone = make(chan bool, 1) } go w.Listen() } // Stop stops the listener that updates the terminal func (w *Writer) Stop() { w.Flush() close(w.tdone) } // Listen listens for updates to the writer's buffer and flushes to the out provided. It blocks the runtime. func (w *Writer) Listen() { for { select { case <-w.ticker.C: if w.ticker != nil { w.Flush() } case <-w.tdone: w.mtx.Lock() w.ticker.Stop() w.ticker = nil w.mtx.Unlock() return } } } // Write save the contents of b to its buffers. The only errors returned are ones encountered while writing to the underlying buffer. func (w *Writer) Write(b []byte) (n int, err error) { w.mtx.Lock() defer w.mtx.Unlock() return w.buf.Write(b) } // Bypass creates an io.Writer which allows non-buffered output to be written to the underlying output func (w *Writer) Bypass() io.Writer { return &bypass{writer: w} } func (b *bypass) Write(p []byte) (n int, err error) { b.writer.mtx.Lock() defer b.writer.mtx.Unlock() b.writer.clearLines() b.writer.lineCount = 0 return b.writer.Out.Write(p) }