// Package stopwatch provides a simple stopwatch component. package stopwatch import ( "sync" "time" tea "github.com/charmbracelet/bubbletea" ) var ( lastID int idMtx sync.Mutex ) func nextID() int { idMtx.Lock() defer idMtx.Unlock() lastID++ return lastID } // TickMsg is a message that is sent on every timer tick. type TickMsg struct { // ID is the identifier of the stopwatch that send the message. This makes // it possible to determine which stopwatch a tick belongs to when there // are multiple stopwatches running. // // Note, however, that a stopwatch will reject ticks from other // stopwatches, so it's safe to flow all TickMsgs through all stopwatches // and hvae them still behave appropriately. ID int } type startStopMsg struct { running bool } type resetMsg struct{} // Model for the stopwatch component. type Model struct { d time.Duration id int running bool // How long to wait before every tick. Defaults to 1 second. Interval time.Duration } // NewWithInterval creates a new stopwatch with the given timeout and tick // interval. func NewWithInterval(interval time.Duration) Model { return Model{ Interval: interval, id: nextID(), } } // New creates a new stopwatch with 1s interval. func New() Model { return NewWithInterval(time.Second) } // ID returns the unique ID of the model. func (m Model) ID() int { return m.id } // Init starts the stopwatch.. func (m Model) Init() tea.Cmd { return m.Start() } // Start starts the stopwatch. func (m Model) Start() tea.Cmd { return tea.Batch(func() tea.Msg { return startStopMsg{true} }, tick(m.id, m.Interval)) } // Stop stops the stopwatch. func (m Model) Stop() tea.Cmd { return func() tea.Msg { return startStopMsg{false} } } // Toggle stops the stopwatch if it is running and starts it if it is stopped. func (m Model) Toggle() tea.Cmd { if m.Running() { return m.Stop() } return m.Start() } // Reset restes the stopwatch to 0. func (m Model) Reset() tea.Cmd { return func() tea.Msg { return resetMsg{} } } // Running returns true if the stopwatch is running or false if it is stopped. func (m Model) Running() bool { return m.running } // Update handles the timer tick. func (m Model) Update(msg tea.Msg) (Model, tea.Cmd) { switch msg := msg.(type) { case startStopMsg: m.running = msg.running case resetMsg: m.d = 0 case TickMsg: if !m.running || (msg.ID != 0 && msg.ID != m.id) { break } m.d += m.Interval return m, tick(m.id, m.Interval) } return m, nil } // Elapsed returns the time elapsed. func (m Model) Elapsed() time.Duration { return m.d } // View of the timer component. func (m Model) View() string { return m.d.String() } func tick(id int, d time.Duration) tea.Cmd { return tea.Tick(d, func(_ time.Time) tea.Msg { return TickMsg{ID: id} }) }