package asset import ( "context" "fmt" "time" "code.humancabbage.net/sam/moonmath/coindesk" "code.humancabbage.net/sam/moonmath/config" "code.humancabbage.net/sam/moonmath/moon" "github.com/charmbracelet/bubbles/spinner" "github.com/charmbracelet/bubbles/table" tea "github.com/charmbracelet/bubbletea" "github.com/charmbracelet/lipgloss" ) type Model struct { math moon.Math refreshing bool indicator spinner.Model properties table.Model projections table.Model } type Msg struct { Asset coindesk.Asset inner tea.Msg } func New(cfg config.Data) (m Model) { m.math = moon.NewMath( cfg.Asset, cfg.Goals, config.GetBases(&cfg), ) tableStyle := table.DefaultStyles() tableStyle.Selected = tableStyle.Cell.Copy(). Padding(0) tableStyle.Header = tableStyle.Header. Bold(true). Foreground(lipgloss.Color("214")). Border(baseStyle.GetBorderStyle(), false, false, true, false) // properties table m.properties = table.New( table.WithColumns([]table.Column{ {Title: "Property", Width: 9}, {Title: "Value", Width: 9}, }), table.WithHeight(2), table.WithStyles(tableStyle), ) // projections table labelsWidth := 0 for _, l := range m.math.Labels { if len(l) > labelsWidth { labelsWidth = len(l) } } projectionCols := []table.Column{ {Title: "Labels", Width: labelsWidth}, } for _, c := range m.math.Columns { projectionCols = append(projectionCols, table.Column{ Title: c.Base.Label(), Width: 10, }) } m.projections = table.New( table.WithColumns(projectionCols), table.WithHeight(len(m.math.Labels)), table.WithStyles(tableStyle), ) // indicator spinner m.indicator = spinner.New() m.indicator.Spinner = spinner.Points m.indicator.Style = lipgloss.NewStyle(). Foreground(lipgloss.Color("69")) return } func (m Model) Handles(a coindesk.Asset) bool { return m.math.Asset == a } func (m Model) Init() tea.Cmd { return tea.Batch( m.indicator.Tick, func() tea.Msg { return Msg{m.math.Asset, refresh{}} }, ) } func (m Model) Update(msg tea.Msg) (Model, tea.Cmd) { switch msg := msg.(type) { case Msg: switch msg := msg.inner.(type) { case refresh: m.refreshing = true return m, tea.Batch( func() tea.Msg { return m.indicator.Tick() }, func() tea.Msg { // TODO: log errors _ = m.math.Refresh(context.TODO()) return Msg{m.math.Asset, m.math} }, ) case moon.Math: m.math = msg refillProperties(&m) refillProjections(&m) return m, tea.Batch( // schedule the next refresh tea.Tick(time.Second*30, func(t time.Time) tea.Msg { return Msg{m.math.Asset, refresh{}} }), // wait a bit to stop the indicator, so that it's more obvious // even when the refresh completes quickly. tea.Tick(time.Millisecond*500, func(t time.Time) tea.Msg { return Msg{m.math.Asset, stopIndicator{}} }), ) case stopIndicator: m.refreshing = false return m, nil } case spinner.TickMsg: if !m.refreshing { return m, nil } var cmd tea.Cmd m.indicator, cmd = m.indicator.Update(msg) return m, cmd } return m, nil } type refresh struct{} type stopIndicator struct{} func refillProperties(m *Model) { rows := []table.Row{ {"Asset", string(m.math.Asset)}, {"Price", fmt.Sprintf("$%0.2f", m.math.CurrentPrice)}, } m.properties.SetRows(rows) } func refillProjections(m *Model) { rows := []table.Row{m.math.Labels} for i := range m.math.Columns { rows = append(rows, m.math.Columns[i].Column()) } rows = transpose(rows) m.projections.SetRows(rows) } func transpose(slice []table.Row) []table.Row { xl := len(slice[0]) yl := len(slice) result := make([]table.Row, xl) for i := range result { result[i] = make(table.Row, yl) } for i := 0; i < xl; i++ { for j := 0; j < yl; j++ { result[i][j] = slice[j][i] } } return result } func (m Model) View() string { var s string indicator := "" if m.refreshing { indicator = m.indicator.View() } right := lipgloss.JoinVertical( lipgloss.Center, baseStyle.Render(m.properties.View()), indicator, ) s += lipgloss.JoinHorizontal( lipgloss.Center, right, baseStyle.Render(m.projections.View()), ) return s + "\n" } var baseStyle = lipgloss.NewStyle(). BorderStyle(lipgloss.RoundedBorder()). BorderForeground(lipgloss.Color("240"))