package main import ( "fmt" "os" "github.com/charmbracelet/bubbles/textinput" tea "github.com/charmbracelet/bubbletea" "github.com/charmbracelet/lipgloss" ) /* Quick notes to self: # How bubbletea works? Bubbletea is a Init ( once for sync/async opts both ) -> Update ( model ) ( againc an be sync/async ) -> View loop init creates initial model ( model is the global ui state and just a struct ) update modifies model based on an immediate or deferred compute view is purely for rendering based on model notes: - model struct next -> global ui model - createModel is the initial sync model state population I anyways need to create the model struct even if blank - Init func is for bubbletea to call once at start so both are needed - all widths and heights are character count based - async updates are via cmds (tea.Cmd ) that are no arg funcs that return a tea.Msg ( that is basically a struct and hence has the data needed ) this data in msg when returned to the update func is used to update the model */ type model struct { width int terminalWidth int terminalHeight int fsTreeWidth int noteViewWidth int tree *FsTree rootPath string // path to load the tree from loading bool noteView *NoteView isDragging bool isHoveringDivider bool contentHeight int showStatusBar bool // input handling textInput textinput.Model inputMode bool pendingAction FsActionType } func NewModel(rootPath string) *model { ti := textinput.New() ti.CharLimit = 156 ti.Width = 30 return &model{ rootPath: rootPath, loading: true, noteView: NewNoteView(), showStatusBar: false, textInput: ti, } } // =================== bubbletea ui fns =================== // these need to be on the "model" ( duck typing "implements" interface ) type treeLoadedMsg struct { tree *FsTree } func (m *model) loadTreeCmd(path string) tea.Cmd { return func() tea.Msg { var targetPath string if path == "" { cwd, err := os.Getwd() if err != nil { fmt.Println("Error getting cwd:", err) os.Exit(1) } targetPath = cwd } else { targetPath = path } return treeLoadedMsg{tree: NewFsTree(targetPath, fsTreeStartOffset)} } } func (m *model) layout(width, height int) { m.terminalWidth = width m.terminalHeight = height m.fsTreeWidth, m.noteViewWidth = calculateLayout(width, m.fsTreeWidth) h := height if m.showStatusBar || m.inputMode { h -= statusBarHeight } m.contentHeight = max(0, h) } func (m *model) resizeChildren() tea.Cmd { var cmds []tea.Cmd if m.tree != nil { _, cmd := m.tree.Update(tea.WindowSizeMsg{ Width: m.fsTreeWidth, Height: m.contentHeight, }) cmds = append(cmds, cmd) } _, cmd := m.noteView.Update(tea.WindowSizeMsg{ Width: m.noteViewWidth, Height: m.contentHeight, }) cmds = append(cmds, cmd) return tea.Batch(cmds...) } func (m *model) Init() tea.Cmd { return m.loadTreeCmd(m.rootPath) } func (m *model) Update(msg tea.Msg) (tea.Model, tea.Cmd) { switch msg := msg.(type) { // DEV TIP: ALWAYS RETURN IN EACH BRANCH // FALLTHROUGHS ARE BAD case tea.WindowSizeMsg: m.layout(msg.Width, msg.Height) return m, m.resizeChildren() case treeLoadedMsg: m.tree = msg.tree m.loading = false _, cmd := m.tree.Update(tea.WindowSizeMsg{ Height: m.contentHeight, Width: m.fsTreeWidth, }) return m, cmd case nodeSelected: // Forward node selection to noteView _, cmd := m.noteView.Update(loadNote{path: msg.path}) return m, cmd case loadedNote: // Forward loaded note to noteView _, cmd := m.noteView.Update(msg) return m, cmd case PerformActionMsg: if m.tree != nil { _, cmd := m.tree.Update(msg) return m, cmd } case RequestInputMsg: m.inputMode = true m.pendingAction = msg.Action m.textInput.Focus() m.textInput.SetValue("") switch msg.Action { case ActionNewFile: m.textInput.Placeholder = "New File Name" case ActionNewFolder: m.textInput.Placeholder = "New Folder Name" case ActionNewRoot: m.textInput.Placeholder = "New Root Folder Name" } m.layout(m.terminalWidth, m.terminalHeight) // recalc layout for status bar area return m, m.resizeChildren() case tea.KeyMsg: if m.inputMode { switch msg.String() { case "enter": val := m.textInput.Value() m.inputMode = false m.textInput.Blur() m.layout(m.terminalWidth, m.terminalHeight) cmds := []tea.Cmd{m.resizeChildren()} if val != "" { cmds = append(cmds, func() tea.Msg { return PerformActionMsg{ Action: m.pendingAction, Name: val, } }) } return m, tea.Batch(cmds...) case "esc": m.inputMode = false m.textInput.Blur() m.layout(m.terminalWidth, m.terminalHeight) return m, m.resizeChildren() } var cmd tea.Cmd m.textInput, cmd = m.textInput.Update(msg) return m, cmd } // If editing, forward all keys to noteView and ignore global bindings if m.noteView.IsEditing() { _, cmd := m.noteView.Update(msg) return m, cmd } switch msg.String() { case "q", "ctrl+c": return m, tea.Quit case "i": m.showStatusBar = !m.showStatusBar m.layout(m.terminalWidth, m.terminalHeight) return m, m.resizeChildren() } var cmds []tea.Cmd // Forward keyboard input to tree if m.tree != nil { _, cmd := m.tree.Update(msg) cmds = append(cmds, cmd) } // Forward keyboard input to noteView _, cmd := m.noteView.Update(msg) cmds = append(cmds, cmd) return m, tea.Batch(cmds...) case tea.MouseMsg: if msg.Action == tea.MouseActionRelease { m.isDragging = false } if msg.Action == tea.MouseActionMotion { m.isHoveringDivider = isHoveringDivider(msg.X, m.fsTreeWidth) if m.isDragging { m.fsTreeWidth, m.noteViewWidth = calculateLayout(m.terminalWidth, msg.X) // Update children with new sizes return m, m.resizeChildren() } } if msg.Action == tea.MouseActionPress && msg.Button == tea.MouseButtonLeft { if isHoveringDivider(msg.X, m.fsTreeWidth) { m.isDragging = true return m, nil } } // Forward mouse input to children if not dragging var cmds []tea.Cmd if !m.isDragging { if m.tree != nil && msg.X < m.fsTreeWidth { _, cmd := m.tree.Update(msg) cmds = append(cmds, cmd) } if msg.X > m.fsTreeWidth { _, cmd := m.noteView.Update(msg) cmds = append(cmds, cmd) } } return m, tea.Batch(cmds...) } return m, nil } func (m model) View() string { if m.loading { return "Loading files..." } tree := m.tree.View() tree = lipgloss.NewStyle(). Height(m.contentHeight). Width(m.fsTreeWidth). Align(lipgloss.Left). PaddingTop(fsTreeStartOffset). PaddingRight(1). Render(tree) var dividerChar string if m.isDragging || m.isHoveringDivider { dividerChar = "█" } else { dividerChar = "│" } // Repeat the character vertically to fill height dividerLines := make([]string, m.contentHeight) for i := range dividerLines { dividerLines[i] = dividerChar } divider := lipgloss.JoinVertical(lipgloss.Left, dividerLines...) // Ensure divider has the correct height style applied (though JoinVertical does most of it) divider = lipgloss.NewStyle(). Height(m.contentHeight). Render(divider) notes := m.noteView.View() full := lipgloss.JoinHorizontal( lipgloss.Top, tree, divider, notes, ) if !m.showStatusBar && !m.inputMode { return full } statusContent := "" if m.inputMode { statusContent = m.textInput.View() } else if m.tree != nil && m.tree.errMsg != "" { statusContent = lipgloss.NewStyle().Foreground(lipgloss.Color("9")).Render(m.tree.errMsg) } statusBar := lipgloss.NewStyle(). Width(m.terminalWidth - 2). // Subtract borders Height(1). Border(lipgloss.NormalBorder()). Render(statusContent) return lipgloss.JoinVertical( lipgloss.Left, full, statusBar, ) } // =================== bubbletea ui fns =================== func main() { var rootPath string if len(os.Args) > 1 { rootPath = os.Args[1] } // if rootPath is empty, createModel will use cwd p := tea.NewProgram( NewModel(rootPath), tea.WithAltScreen(), // full screen tui tea.WithMouseAllMotion(), ) if _, err := p.Run(); err != nil { fmt.Printf("Error: %v", err) os.Exit(1) } }