--- name: build-tui-view description: Provides instructions for building Hatchet TUI views in the Hatchet CLI. version: 1.0 last_updated: 2026-01-09 self_updating: true --- **📝 SELF-UPDATING DOCUMENT**: This skill automatically updates itself when inaccuracies are discovered or new patterns are learned. Always verify information against the actual codebase and update this file when needed. ## Overview This skill provides instructions for creating and maintaining Terminal User Interface (TUI) views in the Hatchet CLI using bubbletea and lipgloss. The TUI system uses a modular view architecture where individual views are isolated in separate files within the `views/` directory. **IMPORTANT**: Always start by finding the corresponding view in the frontend application to understand the structure, columns, and API calls. ## Self-Updating Skill Instructions **CRITICAL - READ FIRST**: This skill document is designed to be continuously improved and kept accurate. ### When to Update This Skill You MUST update this skill file in the following situations: 1. **Discovering Inaccuracies** - When you find incorrect file paths or directory structures - When code examples don't compile or don't match actual implementations - When API signatures have changed - When referenced files don't exist at specified locations 2. **Learning New Patterns** - When implementing a new view and discovering better approaches - When the user teaches you new conventions or patterns - When you find reusable patterns that should be documented - When you discover common pitfalls that should be warned about 3. **Finding Missing Information** - When you need information that isn't documented here - When new components or utilities are added to the codebase - When new bubbletea/lipgloss patterns are adopted 4. **User Corrections** - When the user corrects any information in this document - When the user provides updated approaches or conventions - When the user points out outdated information ### How to Update This Skill When updating this skill: 1. **Verify Before Adding**: Always verify paths, code, and API signatures against the actual codebase before adding to this document 2. **Use Read/Glob/Grep**: Check the actual files to ensure accuracy 3. **Test Code Examples**: Ensure code examples compile and follow current patterns 4. **Be Specific**: Include exact file paths, function signatures, and working code examples 5. **Update Immediately**: Make updates as soon as inaccuracies are discovered, not at the end of a session 6. **Preserve Structure**: Maintain the existing document structure and formatting 7. **Add Context**: When adding new sections, explain why the pattern is recommended ### Verification Checklist Before using information from this skill, verify: - [ ] File paths exist and are correct - [ ] Code examples match current implementations - [ ] API signatures match the generated REST client - [ ] Reusable components are correctly referenced - [ ] Directory structures are accurate ### Self-Correction Process If you discover an inaccuracy while working: 1. Immediately note the issue 2. Verify the correct information by reading the actual files 3. Update this skill document with the correction 4. Continue with the user's task using the corrected information **Remember**: This skill should be a living document that grows more accurate and comprehensive with each use. ## Project Context - **Framework**: [bubbletea](https://github.com/charmbracelet/bubbletea) (TUI framework) - **Styling**: [lipgloss](https://github.com/charmbracelet/lipgloss) (style definitions) - **TUI Command Location**: `cmd/hatchet-cli/cli/tui.go` - **Views Location**: `cmd/hatchet-cli/cli/tui/` directory - **Theme**: Pre-defined Hatchet theme in `cmd/hatchet-cli/cli/internal/styles/styles.go` - **Frontend Reference**: `frontend/app/src/pages/main/v1/` directory ## Finding Frontend Prior Art **CRITICAL FIRST STEP**: Before implementing any TUI view, locate the corresponding frontend view to understand: 1. Column structure and names 2. API endpoints and query parameters 3. Data types and fields used 4. Filtering and sorting logic ### Process for Finding Frontend Reference: 1. **Locate the Frontend View** ```bash # Navigate to frontend pages cd frontend/app/src/pages/main/v1/ # Find views related to your feature (e.g., workflow-runs, tasks, events) ls -la ``` 2. **Study the Column Definitions** - Look for files like `{feature}-columns.tsx` - Note the column keys, titles, and accessors - Example: `frontend/app/src/pages/main/v1/workflow-runs-v1/components/v1/task-runs-columns.tsx` ```typescript export const TaskRunColumn = { taskName: "Task Name", status: "Status", workflow: "Workflow", createdAt: "Created At", startedAt: "Started At", duration: "Duration", }; ``` 3. **Identify the Data Hook** - Look for `use-{feature}.tsx` files in the `hooks/` directory - These contain the API query logic - Example: `frontend/app/src/pages/main/v1/workflow-runs-v1/hooks/use-runs.tsx` 4. **Find the API Query** - Check `frontend/app/src/lib/api/queries.ts` for the query definition - Note the endpoint name and parameters - Example: ```typescript v1WorkflowRuns: { list: (tenant: string, query: V2ListWorkflowRunsQuery) => ({ queryKey: ['v1:workflow-run:list', tenant, query], queryFn: async () => (await api.v1WorkflowRunList(tenant, query)).data, }), } ``` 5. **Map to Go REST Client** - The frontend `api.v1WorkflowRunList()` maps to Go's `client.API().V1WorkflowRunListWithResponse()` - Frontend query parameters map to Go struct parameters - Example mapping: ```typescript // Frontend api.v1WorkflowRunList(tenantId, { offset: 0, limit: 100, since: createdAfter, only_tasks: true, }) // Go equivalent client.API().V1WorkflowRunListWithResponse( ctx, client.TenantId(), &rest.V1WorkflowRunListParams{ Offset: int64Ptr(0), Limit: int64Ptr(100), Since: &since, OnlyTasks: true, }, ) ``` ### Example: Implementing Tasks View from Frontend Reference 1. **Frontend Structure**: `frontend/app/src/pages/main/v1/workflow-runs-v1/` - Columns: `task-runs-columns.tsx` - Hook: `use-runs.tsx` - Table: `runs-table.tsx` 2. **Extract Column Names**: ```typescript taskName, status, workflow, createdAt, startedAt, duration; ``` 3. **Identify API Call**: ```typescript queries.v1WorkflowRuns.list(tenantId, { offset, limit, statuses, workflow_ids, since, until, only_tasks: true, }); ``` 4. **Implement in TUI**: ```go // Create matching columns columns := []table.Column{ {Title: "Task Name", Width: 30}, {Title: "Status", Width: 12}, {Title: "Workflow", Width: 25}, {Title: "Created At", Width: 16}, {Title: "Started At", Width: 16}, {Title: "Duration", Width: 12}, } // Call matching API endpoint response, err := client.API().V1WorkflowRunListWithResponse( ctx, client.TenantId(), &rest.V1WorkflowRunListParams{ Offset: int64Ptr(0), Limit: int64Ptr(100), Since: &since, OnlyTasks: true, }, ) ``` ## Reusable Components (CRITICAL - READ FIRST) **IMPORTANT**: All TUI views MUST use the standardized reusable components defined in `view.go` to ensure consistency across the application. **DO NOT** copy-paste header/footer styling code. ### Header Component **CRITICAL**: ALL headers throughout the TUI use the magenta highlight color (`styles.HighlightColor`) for the title to provide consistent visual emphasis across all views (primary views, detail views, modals, etc.). #### For Detail Views and Modals **Always use `RenderHeader()` for detail views, modals, and secondary screens:** ```go header := RenderHeader("Workflow Details", v.Ctx.ProfileName, v.Width) header := RenderHeader("Task Details", v.Ctx.ProfileName, v.Width) header := RenderHeader("Filter Tasks", v.Ctx.ProfileName, v.Width) ``` #### For Primary Views **Use `RenderHeaderWithViewIndicator()` for primary/list views:** ```go // For primary list views - shows just the view name, no repetitive "Hatchet Workflows [Workflows]" header := RenderHeaderWithViewIndicator("Runs", v.Ctx.ProfileName, v.Width) header := RenderHeaderWithViewIndicator("Workflows", v.Ctx.ProfileName, v.Width) ``` This function renders just the view name (e.g., "Runs" or "Workflows") in the highlight color, keeping it simple and non-repetitive. **Features of both header functions:** - Title rendered in magenta highlight color (`styles.HighlightColor`) - **consistent across ALL views** - Includes the logo (text-based: "HATCHET TUI") on the right - Shows profile name - Bordered bottom edge - Responsive to terminal width **❌ NEVER do this:** ```go // Bad: Copy-pasting header styles headerStyle := lipgloss.NewStyle(). Bold(true). Foreground(styles.AccentColor). BorderStyle(lipgloss.NormalBorder()). // ... more styling header := headerStyle.Render(fmt.Sprintf("My View - Profile: %s", profile)) // Bad: Calling RenderHeaderWithLogo directly (bypasses highlight color) header := RenderHeaderWithLogo(fmt.Sprintf("My View - Profile: %s", profile), v.Width) ``` **✅ ALWAYS do this:** ```go // Good: Use the reusable component for detail views header := RenderHeader("Task Details", v.Ctx.ProfileName, v.Width) // Good: Use the view indicator variant for primary views header := RenderHeaderWithViewIndicator("Runs", v.Ctx.ProfileName, v.Width) ``` ### Instructions Component Use `RenderInstructions()` to display contextual help text: ```go instructions := RenderInstructions( "Your instructions here • Use bullets to separate items", v.Width, ) ``` **Features:** - Muted color styling for reduced visual noise - Automatically handles width constraints - Consistent padding - Uses bullet separators (•) ### Footer Component **Always use `RenderFooter()` for navigation/control hints:** ```go footer := RenderFooter([]string{ "↑/↓: Navigate", "Enter: Select", "Esc: Cancel", "q: Quit", }, v.Width) ``` **Features:** - Consistent styling with top border - Automatically joins control items with bullets (•) - Muted color for non-intrusive display - Responsive to terminal width ## Standard View Structure **Every view should follow this consistent structure:** ```go func (v *YourView) View() string { var b strings.Builder // 1. Header (always) - USE REUSABLE COMPONENT header := RenderHeader("View Title", v.Ctx.ProfileName, v.Width) b.WriteString(header) b.WriteString("\n\n") // 2. Instructions (when helpful) - USE REUSABLE COMPONENT instructions := RenderInstructions("Your instructions", v.Width) b.WriteString(instructions) b.WriteString("\n\n") // 3. Main content // ... your view-specific content ... // 4. Footer (always) - USE REUSABLE COMPONENT footer := RenderFooter([]string{ "control1: Action1", "control2: Action2", }, v.Width) b.WriteString(footer) return b.String() } ``` ## Architecture ### Root TUI Model (`tui.go`) The root TUI command is responsible for: 1. Profile selection and validation 2. Initializing the Hatchet client 3. Creating the view context 4. Managing the current view 5. Delegating updates to views ### View System (`views/` directory) Each view is a separate file that implements the `View` interface: - `view.go` - Base view interface, context, and **reusable components** - `{viewname}.go` - Individual view implementations (e.g., `tasks.go`) ## Core Principles ### 1. File Structure #### TUI Command File - File: `cmd/hatchet-cli/cli/tui.go` - Purpose: Command setup, profile selection, client initialization, view management #### View Files - Location: `cmd/hatchet-cli/cli/tui/` - Files: - `view.go` - View interface and base types - `{viewname}.go` - Individual view implementations ### 2. View Interface All views must implement this interface (defined in `views/view.go`): ```go package views import ( tea "github.com/charmbracelet/bubbletea" "github.com/hatchet-dev/hatchet/pkg/client" ) // ViewContext contains the shared context passed to all views type ViewContext struct { // Profile name for display ProfileName string // Hatchet client for API calls Client client.Client // Terminal dimensions Width int Height int } // View represents a TUI view component type View interface { // Init initializes the view and returns any initial commands Init() tea.Cmd // Update handles messages and updates the view state Update(msg tea.Msg) (View, tea.Cmd) // View renders the view to a string View() string // SetSize updates the view dimensions SetSize(width, height int) } ``` ### 3. Base Model Pattern Use `BaseModel` for common view fields: ```go // BaseModel contains common fields for all views type BaseModel struct { Ctx ViewContext Width int Height int Err error } // Your view embeds BaseModel type YourView struct { BaseModel // Your view-specific fields table table.Model items []YourDataType } ``` ### 4. Creating a New View #### Step 1: Create View File Create `cmd/hatchet-cli/cli/tui/{viewname}.go`: ```go package views import ( tea "github.com/charmbracelet/bubbletea" "github.com/hatchet-dev/hatchet/cmd/hatchet-cli/cli/internal/styles" "github.com/hatchet-dev/hatchet/pkg/client/rest" ) type YourView struct { BaseModel // View-specific fields } // NewYourView creates a new instance of your view func NewYourView(ctx ViewContext) *YourView { v := &YourView{ BaseModel: BaseModel{ Ctx: ctx, }, } // Initialize view components return v } func (v *YourView) Init() tea.Cmd { return nil } func (v *YourView) Update(msg tea.Msg) (View, tea.Cmd) { var cmd tea.Cmd switch msg := msg.(type) { case tea.WindowSizeMsg: v.SetSize(msg.Width, msg.Height) return v, nil case tea.KeyMsg: switch msg.String() { case "r": // Refresh logic return v, nil } } // Update sub-components return v, cmd } func (v *YourView) View() string { if v.Width == 0 { return "Initializing..." } // Build your view return "Your view content" } func (v *YourView) SetSize(width, height int) { v.BaseModel.SetSize(width, height) // Update view-specific components } ``` #### Step 2: Use View in TUI The root TUI model manages views: ```go // In tui.go func newTUIModel(profileName string, hatchetClient client.Client) tuiModel { ctx := views.ViewContext{ ProfileName: profileName, Client: hatchetClient, } // Initialize with your view currentView := views.NewYourView(ctx) return tuiModel{ currentView: currentView, } } ``` ### 5. Client Initialization Pattern Always initialize the Hatchet client in `tui.go`: ```go import ( "github.com/rs/zerolog" "github.com/hatchet-dev/hatchet/pkg/client" ) // In the cobra command Run function profile, err := cli.GetProfile(selectedProfile) if err != nil { cli.Logger.Fatalf("could not get profile '%s': %v", selectedProfile, err) } // Initialize Hatchet client nopLogger := zerolog.Nop() hatchetClient, err := client.New( client.WithToken(profile.Token), client.WithLogger(&nopLogger), ) if err != nil { cli.Logger.Fatalf("could not create Hatchet client: %v", err) } ``` ### 6. Accessing the Client in Views The Hatchet client is available through the view context: ```go func (v *YourView) fetchData() tea.Cmd { return func() tea.Msg { // Access the client client := v.Ctx.Client // Make API calls // response, err := client.API().SomeEndpoint(...) return yourDataMsg{ data: data, err: err, } } } ``` ### 7. Hatchet Theme Integration **CRITICAL**: NEVER hardcode colors or styles in view files. Always use the pre-defined Hatchet theme colors and utilities from `cmd/hatchet-cli/cli/internal/styles`. #### Available Theme Colors ```go import "github.com/hatchet-dev/hatchet/cmd/hatchet-cli/cli/internal/styles" // Primary theme colors: // - styles.AccentColor // - styles.PrimaryColor // - styles.SuccessColor // - styles.HighlightColor // - styles.MutedColor // - styles.Blue, styles.Cyan, styles.Magenta // Status colors (matching frontend badge variants): // - styles.StatusSuccessColor / styles.StatusSuccessBg // - styles.StatusFailedColor / styles.StatusFailedBg // - styles.StatusInProgressColor / styles.StatusInProgressBg // - styles.StatusQueuedColor / styles.StatusQueuedBg // - styles.StatusCancelledColor / styles.StatusCancelledBg // - styles.ErrorColor // Available styles: // - styles.H1, styles.H2 // - styles.Bold, styles.Italic // - styles.Primary, styles.Accent, styles.Success // - styles.Code // - styles.Box, styles.InfoBox, styles.SuccessBox ``` #### Status Rendering **Per-Cell Coloring in Tables**: Use the custom `TableWithStyleFunc` wrapper to enable per-cell styling. For status rendering in tables: ```go // Create table with StyleFunc support t := NewTableWithStyleFunc( table.WithColumns(columns), table.WithFocused(true), table.WithHeight(20), ) // Set StyleFunc for per-cell styling t.SetStyleFunc(func(row, col int) lipgloss.Style { // Column 1 is the status column if col == 1 && row < len(v.tasks) { statusStyle := styles.GetV1TaskStatusStyle(v.tasks[row].Status) return lipgloss.NewStyle().Foreground(statusStyle.Foreground) } return lipgloss.NewStyle() }) // In updateTableRows, use plain text (StyleFunc applies colors) statusStyle := styles.GetV1TaskStatusStyle(task.Status) status := statusStyle.Text // "Succeeded", "Failed", etc. ``` For non-table contexts (headers, footers, standalone text): ```go // Render V1TaskStatus with proper colors status := styles.RenderV1TaskStatus(task.Status) // Render error messages errorMsg := styles.RenderError(fmt.Sprintf("Error: %v", err)) ``` **Why custom TableWithStyleFunc?** - Standard bubbles table doesn't support per-cell or per-column styling - `TableWithStyleFunc` wraps bubbles table and adds StyleFunc support - StyleFunc allows dynamic cell styling based on row/column index - Located in `cmd/hatchet-cli/cli/tui/table_custom.go` - Maintains bubbles table interactivity (cursor, selection, keyboard nav) #### Table Styling ```go s := table.DefaultStyles() s.Header = s.Header. BorderStyle(lipgloss.NormalBorder()). BorderForeground(styles.AccentColor). BorderBottom(true). Bold(true). Foreground(styles.AccentColor) s.Selected = s.Selected. Foreground(lipgloss.AdaptiveColor{Light: "#ffffff", Dark: "#0A1029"}). Background(styles.Blue). Bold(true) ``` **Note**: Use `lipgloss.AdaptiveColor` even for basic colors like white/black to support light/dark terminals. #### Adding New Status Colors If you need to add new status colors: 1. Add the color constants to `cmd/hatchet-cli/cli/internal/styles/styles.go` 2. Create or update the utility function in `cmd/hatchet-cli/cli/internal/styles/status.go` 3. Reference the frontend badge variants in `frontend/app/src/components/v1/ui/badge.tsx` for color values 4. Use adaptive colors for light/dark terminal support ### 8. Standard Keyboard Controls Use consistent key mappings across all views to provide a predictable user experience. #### Global Controls (handled in tui.go) - `q` or `ctrl+c`: Quit the TUI #### View-Specific Controls Implement these in individual views: - **Navigation**: `↑/↓` or arrow keys for list navigation - **Selection**: `Enter` to select/confirm - **Tab Navigation**: `Tab`/`Shift+Tab` for form fields - **Cancel**: `Esc` to go back/cancel - **Refresh**: `r` to manually refresh data - **Filter**: `f` to open filter modal (where applicable) - **Debug**: `d` to toggle debug view (see Debug Logging section) - **Clear**: `c` to clear debug logs (when in debug view) - **Tab Views**: `1`, `2`, `3`, etc. or `tab`/`shift+tab` for switching tabs **Important**: Always document keyboard controls in the footer using `RenderFooter()` ### 9. Layout Components **CRITICAL**: Use the reusable components from `view.go` for headers, instructions, and footers. See "Reusable Components" section above. #### Header **✅ Use the reusable component:** ```go header := RenderHeader("View Title", v.Ctx.ProfileName, v.Width) ``` **❌ DO NOT manually create headers:** ```go // Bad: Don't do this headerStyle := lipgloss.NewStyle(). Bold(true). Foreground(styles.AccentColor). // ... (this violates DRY principle) ``` #### Footer **✅ Use the reusable component:** ```go footer := RenderFooter([]string{ "↑/↓: Navigate", "r: Refresh", "q: Quit", }, v.Width) ``` **❌ DO NOT manually create footers:** ```go // Bad: Don't do this footerStyle := lipgloss.NewStyle(). Foreground(styles.MutedColor). // ... (this violates DRY principle) ``` #### Instructions **✅ Use the reusable component:** ```go instructions := RenderInstructions("Your helpful instructions here", v.Width) ``` #### Stats Bar Custom stats bars are fine for view-specific metrics: ```go statsStyle := lipgloss.NewStyle(). Foreground(styles.MutedColor). Padding(0, 1) stats := statsStyle.Render(fmt.Sprintf( "Total: %d | Status1: %d | Status2: %d", total, status1Count, status2Count, )) ``` ### 10. Data Integration #### REST API Types Use generated REST types from: ```go import "github.com/hatchet-dev/hatchet/pkg/client/rest" ``` Common types: - `rest.V1TaskSummary` - `rest.V1TaskSummaryList` - `rest.V1WorkflowRun` - `rest.V1WorkflowRunDetails` - `rest.Worker` - `rest.WorkerRuntimeInfo` - `rest.Workflow` - `rest.APIResourceMeta` #### Async Data Fetching Pattern ```go // Define custom message types in your view file type yourDataMsg struct { items []YourDataType err error } // Create fetch command func (v *YourView) fetchData() tea.Cmd { return func() tea.Msg { // Use v.Ctx.Client to make API calls // Return yourDataMsg } } // Handle in Update case yourDataMsg: v.loading = false if msg.err != nil { v.HandleError(msg.err) } else { v.items = msg.items v.ClearError() } ``` ### 11. Modal Views When creating modal overlays (like filter forms or confirmation dialogs): 1. Still show the header with updated title using `RenderHeader()` 2. Show instructions specific to the modal interaction using `RenderInstructions()` 3. Show the modal content 4. Show a footer with modal-specific controls using `RenderFooter()` **Example Modal Structure:** ```go func (v *TasksView) renderFilterModal() string { var b strings.Builder // 1. Header - USE REUSABLE COMPONENT header := RenderHeader("Filter Tasks", v.Ctx.ProfileName, v.Width) b.WriteString(header) b.WriteString("\n\n") // 2. Instructions - USE REUSABLE COMPONENT instructions := RenderInstructions("Configure filters and press Enter to apply", v.Width) b.WriteString(instructions) b.WriteString("\n\n") // 3. Modal content (form, etc.) b.WriteString(v.filterForm.View()) b.WriteString("\n") // 4. Footer - USE REUSABLE COMPONENT footer := RenderFooter([]string{"Enter: Apply", "Esc: Cancel"}, v.Width) b.WriteString(footer) return b.String() } ``` **Important**: Modals should maintain the same visual structure as regular views (header, instructions, content, footer) for consistency. ### 12. Form Integration When using `huh` forms in views: 1. **Set the Hatchet theme**: `.WithTheme(styles.HatchetTheme())` 2. **Integrate forms directly into the main tea.Program** (don't run separate programs) 3. **Handle form completion** by checking `form.State == huh.StateCompleted` 4. **Pass ALL messages to the form** when it's active (not just key messages) **Example:** ```go import "github.com/charmbracelet/huh" // In Update() if v.showingFilter && v.filterForm != nil { // Pass ALL messages to form when active form, cmd := v.filterForm.Update(msg) v.filterForm = form.(*huh.Form) // Check if form completed if v.filterForm.State == huh.StateCompleted { v.showingFilter = false // Process form values } return v, cmd } ``` ### 13. Table Component Using `github.com/charmbracelet/bubbles/table`: ```go import "github.com/charmbracelet/bubbles/table" // Define columns columns := []table.Column{ {Title: "Column1", Width: 20}, {Title: "Column2", Width: 30}, } // Create table t := table.New( table.WithColumns(columns), table.WithFocused(true), table.WithHeight(20), ) // Apply Hatchet styles s := table.DefaultStyles() s.Header = s.Header. BorderStyle(lipgloss.NormalBorder()). BorderForeground(styles.AccentColor). BorderBottom(true). Bold(true). Foreground(styles.AccentColor) s.Selected = s.Selected. Foreground(lipgloss.AdaptiveColor{Light: "#ffffff", Dark: "#0A1029"}). Background(styles.Blue). Bold(true) t.SetStyles(s) // Update rows rows := make([]table.Row, len(items)) for i, item := range items { rows[i] = table.Row{item.Field1, item.Field2} } t.SetRows(rows) ``` ### 14. Table Height Calculations and Layout Optimization **CRITICAL**: Proper table height calculation is essential for optimal use of terminal space. Different view types require different calculations based on the UI elements displayed above and below the table. #### Standard Height Calculations by View Type **Primary List Views** (e.g., runs_list, workflows): - Calculation: `height - 12` - Accounts for: header (3 lines), stats bar (2 lines), spacing (2 lines), footer (2 lines), buffer (3 lines) ```go func (v *RunsListView) Update(msg tea.Msg) (View, tea.Cmd) { switch msg := msg.(type) { case tea.WindowSizeMsg: v.SetSize(msg.Width, msg.Height) v.table.SetHeight(msg.Height - 12) // Primary view calculation return v, nil } // ... } func (v *RunsListView) SetSize(width, height int) { v.BaseModel.SetSize(width, height) if height > 12 { v.table.SetHeight(height - 12) } } ``` **Detail Views with Additional Info Sections** (e.g., workflow_details with workflow info + runs table): - Calculation: `height - 16` (or adjust based on info section size) - Accounts for: header (3 lines), info section (4 lines), section header (2 lines), spacing (2 lines), footer (2 lines), buffer (3 lines) ```go func (v *WorkflowDetailsView) Update(msg tea.Msg) (View, tea.Cmd) { switch msg := msg.(type) { case tea.WindowSizeMsg: v.SetSize(msg.Width, msg.Height) v.table.SetHeight(msg.Height - 16) // Detail view with extra info return v, nil } // ... } func (v *WorkflowDetailsView) SetSize(width, height int) { v.BaseModel.SetSize(width, height) if height > 16 { v.table.SetHeight(height - 16) } } ``` #### Guidelines for Height Calculation 1. **Count Your UI Elements**: List all elements that appear above and below the table 2. **Estimate Line Counts**: - Header: ~3 lines (with spacing) - Stats bar: ~2 lines (with spacing) - Section headers: ~2 lines each - Info sections: ~3-5 lines depending on content - Footer: ~2 lines (with spacing) - Buffer: ~2-3 lines for safety 3. **Test at Different Sizes**: Verify the table has adequate space at minimum terminal size (80x24) 4. **Iterate if Needed**: If the table feels cramped, reduce the height offset by 2-4 lines **Common Mistake**: Using the same height calculation for all views without accounting for additional UI elements. **❌ Wrong:** ```go // Detail view with extra info section but using primary view calculation v.table.SetHeight(msg.Height - 12) // Table will be too large, overlapping footer ``` **✅ Correct:** ```go // Adjust calculation based on actual UI elements in the view v.table.SetHeight(msg.Height - 16) // Accounts for extra info section ``` ### 15. Column Consistency Between Related Views **CRITICAL**: When a detail view displays a list that's conceptually similar to a primary list view (e.g., workflow details showing recent runs, same as the main runs list), the columns MUST match exactly to maintain consistency and user expectations. #### Why Column Consistency Matters 1. **User Experience**: Users expect the same information in the same format across views 2. **Cognitive Load**: Consistent columns reduce mental overhead when switching contexts 3. **Visual Familiarity**: Same column structure reinforces the relationship between views #### Example: Runs List Columns **Primary View** (`runs_list.go`): ```go columns := []table.Column{ {Title: "Task Name", Width: 30}, {Title: "Status", Width: 12}, {Title: "Workflow", Width: 25}, {Title: "Created At", Width: 16}, {Title: "Started At", Width: 16}, {Title: "Duration", Width: 12}, } ``` **Detail View** (`workflow_details.go` showing recent runs for a workflow): ```go // MUST use the same columns as runs_list.go columns := []table.Column{ {Title: "Task Name", Width: 30}, {Title: "Status", Width: 12}, {Title: "Workflow", Width: 25}, // Keep this even if redundant {Title: "Created At", Width: 16}, {Title: "Started At", Width: 16}, {Title: "Duration", Width: 12}, } ``` #### Implementing Column Consistency When implementing a detail view with a related list: 1. **Reference the primary view**: Check which columns the primary list view uses 2. **Copy the column structure exactly**: Same titles, same order, same widths 3. **Keep all columns**: Don't remove columns even if they seem redundant in the detail context 4. **Update row population**: Ensure `updateTableRows()` populates all columns correctly **❌ Wrong:** ```go // Workflow details view using different columns than runs list columns := []table.Column{ {Title: "Name", Width: 40}, // Different title {Title: "Created At", Width: 16}, {Title: "Status", Width: 12}, // Different order // Missing: Workflow, Started At, Duration } ``` **✅ Correct:** ```go // Workflow details view matching runs list exactly columns := []table.Column{ {Title: "Task Name", Width: 30}, // Same titles {Title: "Status", Width: 12}, {Title: "Workflow", Width: 25}, // Same order {Title: "Created At", Width: 16}, {Title: "Started At", Width: 16}, {Title: "Duration", Width: 12}, // All columns included } ``` ### 16. View Navigation and Modal Selector The TUI uses a navigation stack system for drilling down into details and a modal selector for switching between primary views. #### Navigation Stack Pattern The root TUI model maintains a `viewStack` for back navigation: ```go type tuiModel struct { currentView tui.View viewStack []tui.View // Stack for back navigation // ... } ``` **Navigating to a Detail View**: ```go case tui.NavigateToWorkflowMsg: // Push current view onto stack m.viewStack = append(m.viewStack, m.currentView) // Create and initialize detail view detailView := tui.NewWorkflowDetailsView(m.ctx, msg.WorkflowID) detailView.SetSize(m.width, m.height) m.currentView = detailView return m, detailView.Init() ``` **Navigating Back**: ```go case tui.NavigateBackMsg: // Pop view from stack if len(m.viewStack) > 0 { m.currentView = m.viewStack[len(m.viewStack)-1] m.viewStack = m.viewStack[:len(m.viewStack)-1] m.currentView.SetSize(m.width, m.height) } return m, nil ``` **In Detail Views** (handle Esc key for back navigation): ```go case tea.KeyMsg: switch msg.String() { case "esc": // Navigate back to previous view return v, NewNavigateBackMsg() } ``` #### Modal View Selector Pattern The modal selector allows switching between primary views using `Shift+Tab`: **Opening the Modal**: ```go case tea.KeyMsg: switch msg.String() { case "shift+tab": // Find current view type in the list for i, opt := range availableViews { if opt.Type == m.currentViewType { m.selectedViewIndex = i break } } m.showViewSelector = true return m, nil } ``` **Modal Navigation** (supports Tab, arrow keys, vim keys): ```go if m.showViewSelector { switch msg.String() { case "shift+tab", "tab", "down", "j": // Cycle forward m.selectedViewIndex = (m.selectedViewIndex + 1) % len(availableViews) return m, nil case "up", "k": // Cycle backward m.selectedViewIndex = (m.selectedViewIndex - 1 + len(availableViews)) % len(availableViews) return m, nil case "enter": // Confirm selection and switch view selectedType := availableViews[m.selectedViewIndex].Type if selectedType != m.currentViewType { // Only switch if in a primary view if m.isInPrimaryView() { m.currentViewType = selectedType m.currentView = m.createViewForType(selectedType) m.currentView.SetSize(m.width, m.height) m.showViewSelector = false return m, m.currentView.Init() } } m.showViewSelector = false return m, nil case "esc": // Cancel without switching m.showViewSelector = false return m, nil } return m, nil } ``` **Rendering the Modal**: ```go func (m tuiModel) renderViewSelector() string { var b strings.Builder // Use reusable header component header := tui.RenderHeader("Select View", m.ctx.ProfileName, m.width) b.WriteString(header) b.WriteString("\n\n") // Instructions instructions := tui.RenderInstructions( "↑/↓ or Tab: Navigate • Enter: Confirm • Esc: Cancel", m.width, ) b.WriteString(instructions) b.WriteString("\n\n") // View options with highlighting for i, opt := range availableViews { if i == m.selectedViewIndex { // Highlighted option selectedStyle := lipgloss.NewStyle(). Foreground(lipgloss.AdaptiveColor{Light: "#ffffff", Dark: "#0A1029"}). Background(styles.Blue). Bold(true). Padding(0, 2) b.WriteString(selectedStyle.Render(fmt.Sprintf("▶ %s - %s", opt.Name, opt.Description))) } else { // Non-highlighted option normalStyle := lipgloss.NewStyle(). Foreground(styles.MutedColor). Padding(0, 2) b.WriteString(normalStyle.Render(fmt.Sprintf(" %s - %s", opt.Name, opt.Description))) } b.WriteString("\n") } // Footer footer := tui.RenderFooter([]string{ "Tab: Cycle", "Enter: Confirm", "Esc: Cancel", }, m.width) b.WriteString("\n") b.WriteString(footer) return b.String() } ``` **Key Principles**: 1. **Navigation Stack**: Use for hierarchical navigation (list → detail → back) 2. **Modal Selector**: Use for switching between top-level views 3. **Primary View Check**: Only allow view switching when not in a detail view 4. **Consistent Key Bindings**: - `Shift+Tab`: Open view selector - `Esc`: Go back (in detail views) or cancel (in modals) - `Enter`: Select item or confirm action - Arrow keys/vim keys: Navigate within lists and modals ## Common Patterns ### Formatting Utilities #### Duration Formatting ```go func formatDuration(ms int) string { duration := time.Duration(ms) * time.Millisecond if duration < time.Second { return fmt.Sprintf("%dms", ms) } seconds := duration.Seconds() if seconds < 60 { return fmt.Sprintf("%.1fs", seconds) } minutes := int(seconds / 60) secs := int(seconds) % 60 return fmt.Sprintf("%dm%ds", minutes, secs) } ``` #### ID Truncation ```go func truncateID(id string, length int) string { if len(id) > length { return id[:length] } return id } ``` #### Status Rendering **IMPORTANT**: Do not manually style statuses. Use the status utility functions: ```go // For V1TaskStatus (from REST API) status := styles.RenderV1TaskStatus(task.Status) // The utility automatically handles: // - COMPLETED -> Green "Succeeded" // - FAILED -> Red "Failed" // - CANCELLED -> Orange "Cancelled" // - RUNNING -> Yellow "Running" // - QUEUED -> Gray "Queued" // All colors match frontend badge variants ``` ### Auto-refresh Pattern ```go // Define tick message in your view file type tickMsg time.Time // Create tick command func tick() tea.Cmd { return tea.Tick(5*time.Second, func(t time.Time) tea.Msg { return tickMsg(t) }) } // Handle in Update case tickMsg: // Refresh data return v, tea.Batch(v.fetchData(), tick()) ``` ### Debug Logging Pattern **Important**: For views that make API calls or have complex state management, implement a debug logging system using a ring buffer to prevent memory leaks. #### Step 1: Create Debug Logger (if not exists) Create `cmd/hatchet-cli/cli/tui/debug.go`: ```go package views import ( "fmt" "sync" "time" ) // DebugLog represents a single debug log entry type DebugLog struct { Timestamp time.Time Message string } // DebugLogger is a fixed-size ring buffer for debug logs type DebugLogger struct { mu sync.RWMutex logs []DebugLog capacity int index int size int } // NewDebugLogger creates a new debug logger with the specified capacity func NewDebugLogger(capacity int) *DebugLogger { return &DebugLogger{ logs: make([]DebugLog, capacity), capacity: capacity, index: 0, size: 0, } } // Log adds a new log entry to the ring buffer func (d *DebugLogger) Log(format string, args ...interface{}) { d.mu.Lock() defer d.mu.Unlock() d.logs[d.index] = DebugLog{ Timestamp: time.Now(), Message: fmt.Sprintf(format, args...), } d.index = (d.index + 1) % d.capacity if d.size < d.capacity { d.size++ } } // GetLogs returns all logs in chronological order func (d *DebugLogger) GetLogs() []DebugLog { d.mu.RLock() defer d.mu.RUnlock() if d.size == 0 { return []DebugLog{} } result := make([]DebugLog, d.size) if d.size < d.capacity { // Buffer not full yet, logs are from 0 to index-1 copy(result, d.logs[:d.size]) } else { // Buffer is full, logs wrap around // Copy from index to end (older logs) n := copy(result, d.logs[d.index:]) // Copy from start to index (newer logs) copy(result[n:], d.logs[:d.index]) } return result } // Clear removes all logs func (d *DebugLogger) Clear() { d.mu.Lock() defer d.mu.Unlock() d.index = 0 d.size = 0 } // Size returns the current number of logs func (d *DebugLogger) Size() int { d.mu.RLock() defer d.mu.RUnlock() return d.size } // Capacity returns the maximum capacity func (d *DebugLogger) Capacity() int { return d.capacity } ``` #### Step 2: Integrate Debug Logger in Your View ```go type YourView struct { BaseModel // ... other fields debugLogger *DebugLogger showDebug bool // Whether to show debug overlay } func NewYourView(ctx ViewContext) *YourView { v := &YourView{ BaseModel: BaseModel{ Ctx: ctx, }, debugLogger: NewDebugLogger(5000), // 5000 log entries max showDebug: false, } v.debugLogger.Log("YourView initialized") return v } ``` #### Step 3: Add Debug Logging Throughout View ```go // Log important events func (v *YourView) fetchData() tea.Cmd { return func() tea.Msg { v.debugLogger.Log("Fetching data...") // Make API call response, err := v.Ctx.Client.API().SomeEndpoint(...) if err != nil { v.debugLogger.Log("Error fetching data: %v", err) return dataMsg{err: err} } v.debugLogger.Log("Successfully fetched %d items", len(response.Items)) return dataMsg{data: response.Items} } } ``` #### Step 4: Add Toggle Key Handler ```go func (v *YourView) Update(msg tea.Msg) (View, tea.Cmd) { switch msg := msg.(type) { case tea.KeyMsg: switch msg.String() { case "d": // Toggle debug view v.showDebug = !v.showDebug v.debugLogger.Log("Debug view toggled: %v", v.showDebug) return v, nil case "c": // Clear debug logs (only when in debug view) if v.showDebug { v.debugLogger.Clear() v.debugLogger.Log("Debug logs cleared") } return v, nil } } // ... rest of update logic } ``` #### Step 5: Implement Debug View Rendering ```go func (v *YourView) View() string { if v.Width == 0 { return "Initializing..." } // If debug view is enabled, show debug overlay if v.showDebug { return v.renderDebugView() } // ... normal view rendering } func (v *YourView) renderDebugView() string { logs := v.debugLogger.GetLogs() // Header headerStyle := lipgloss.NewStyle(). Bold(true). Foreground(styles.AccentColor). BorderStyle(lipgloss.NormalBorder()). BorderBottom(true). BorderForeground(styles.AccentColor). Width(v.Width-4). Padding(0, 1) header := headerStyle.Render(fmt.Sprintf( "Debug Logs - %d/%d entries", v.debugLogger.Size(), v.debugLogger.Capacity(), )) // Log entries logStyle := lipgloss.NewStyle(). Padding(0, 1). Width(v.Width - 4) var b strings.Builder b.WriteString(header) b.WriteString("\n\n") // Calculate how many logs we can show maxLines := v.Height - 8 // Reserve space for header, footer, controls if maxLines < 1 { maxLines = 1 } // Show most recent logs first startIdx := 0 if len(logs) > maxLines { startIdx = len(logs) - maxLines } for i := startIdx; i < len(logs); i++ { log := logs[i] timestamp := log.Timestamp.Format("15:04:05.000") logLine := fmt.Sprintf("[%s] %s", timestamp, log.Message) b.WriteString(logStyle.Render(logLine)) b.WriteString("\n") } // Footer with controls footerStyle := lipgloss.NewStyle(). Foreground(styles.MutedColor). BorderStyle(lipgloss.NormalBorder()). BorderTop(true). BorderForeground(styles.AccentColor). Width(v.Width-4). Padding(0, 1) controls := footerStyle.Render("d: Close Debug | c: Clear Logs | q: Quit") b.WriteString("\n") b.WriteString(controls) return b.String() } ``` #### Step 6: Update Footer Controls Add debug controls to your normal view footer: ```go controls := footerStyle.Render("↑/↓: Navigate | r: Refresh | d: Debug | q: Quit") ``` **Benefits**: - Fixed-size ring buffer prevents memory leaks - Thread-safe with mutex protection - Toggle on/off without restarting TUI - Helps diagnose API issues and state changes - No performance impact when not viewing logs ## Testing Approach ### Dummy Data Generation During development, create dummy data generators in your view file: ```go func generateDummyData() []YourDataType { now := time.Now() return []YourDataType{ { Field1: "value1", Field2: "value2", CreatedAt: now.Add(-5 * time.Minute), }, // ... more dummy items } } ``` ## Example Reference ### File Structure Example ``` cmd/hatchet-cli/cli/ ├── tui.go # Root TUI command └── views/ ├── view.go # View interface and base types ├── tasks.go # Tasks view implementation └── workflows.go # Workflows view implementation (future) ``` ### Complete View Example See `cmd/hatchet-cli/cli/tui/tasks.go` for a complete implementation. ## Compilation and Testing **CRITICAL**: Always ensure the CLI binary compiles before considering work complete. ### Compilation Check After implementing or modifying any view: ```bash # Build the CLI binary go build -o /tmp/hatchet-test ./cmd/hatchet-cli # Check for errors echo $? # Should be 0 for success ``` ### Common Compilation Issues 1. **UUID Type Mismatches** ```go // ❌ Wrong - string to UUID client.API().SomeMethod(ctx, client.TenantId(), ...) // ✅ Correct - parse and convert tenantUUID, err := uuid.Parse(client.TenantId()) if err != nil { return msg{err: fmt.Errorf("invalid tenant ID: %w", err)} } client.API().SomeMethod(ctx, openapi_types.UUID(tenantUUID), ...) ``` 2. **Required Imports** ```go import ( "github.com/google/uuid" openapi_types "github.com/oapi-codegen/runtime/types" ) ``` 3. **Type Conversions for API Params** - `*int64` not `*int` for offset/limit - `time.Time` not `*time.Time` for Since parameter (check the generated types) - `openapi_types.UUID` for tenant and workflow IDs - Check `pkg/client/rest/gen.go` for exact parameter types 4. **Pointer Helper Functions** ```go func int64Ptr(i int64) *int64 { return &i } ``` ### Testing Workflow 1. **Compilation Test** ```bash go build -o /tmp/hatchet-test ./cmd/hatchet-cli ``` 2. **Linting Test** After the build succeeds, run the linting checks: ```bash task pre-commit-run ``` Continue running this command until it succeeds. Fix any linting issues that are reported before proceeding. 3. **Basic Functionality Test** ```bash # Test with profile selection /tmp/hatchet-test tui # Test with specific profile /tmp/hatchet-test tui --profile your-profile ``` 4. **Error Handling Test** - Try without profiles configured - Try with invalid profile - Test keyboard controls (q, r, arrows) 5. **Visual/Layout Testing** When implementing a new view: - Test at various terminal sizes (minimum 80x24) - Ensure header and footer are always visible - Verify instructions are clear and helpful - Check that navigation controls are consistent with other views - Test with both light and dark terminal backgrounds - Verify all reusable components render correctly ## Checklist for New TUI Views ### Before You Start - [ ] **Find the corresponding frontend view** in `frontend/app/src/pages/main/v1/` - [ ] Identify column structure and API calls from frontend - [ ] Note the exact API endpoint and parameters used ### Creating the View - [ ] Create new file in `cmd/hatchet-cli/cli/tui/{viewname}.go` - [ ] Add required imports (including `uuid` and `openapi_types` if needed) - [ ] Define view struct that embeds `BaseModel` - [ ] Create `NewYourView(ctx ViewContext)` constructor - [ ] Implement `Init()` method - [ ] Implement `Update(msg tea.Msg)` method - [ ] Implement `View()` method following standard structure - [ ] Implement `SetSize(width, height int)` method - [ ] **USE REUSABLE COMPONENTS**: `RenderHeader()`, `RenderInstructions()`, `RenderFooter()` - [ ] **DO NOT** copy-paste header/footer styling code - [ ] Apply Hatchet theme colors and styles for custom components only - [ ] Implement view-specific keyboard controls - [ ] Document all keyboard controls in footer using `RenderFooter()` - [ ] Use appropriate REST API types - [ ] Add error handling using `BaseModel.HandleError()` - [ ] Add responsive layout (handle WindowSizeMsg) ### API Integration - [ ] Parse tenant ID to UUID if needed - [ ] Use correct parameter types (`*int64`, `time.Time`, etc.) - [ ] Handle API response errors - [ ] Format data for table display - [ ] Add loading states and error display ### Integration and Testing - [ ] Import view in `tui.go` - [ ] Update `newTUIModel()` to instantiate your view - [ ] **Compile the CLI binary** (`go build ./cmd/hatchet-cli`) - [ ] Fix any compilation errors - [ ] Test basic functionality with real profile - [ ] Test error cases (no profile, invalid profile) - [ ] Test keyboard controls (q, r, arrows) - [ ] Update TUI command documentation ### Best Practices - [ ] **CRITICAL**: Use reusable components (`RenderHeader`, `RenderInstructions`, `RenderFooter`) - [ ] **NEVER** copy-paste header/footer styling code - this violates DRY principle - [ ] Keep view logic isolated in the view file - [ ] Use `ViewContext` to access client and profile info - [ ] Handle all messages gracefully (return `v, nil` for unhandled) - [ ] Always check `v.Width == 0` before rendering - [ ] Use consistent styling with other views (use Hatchet theme colors) - [ ] Document ALL keyboard controls in footer using `RenderFooter()` - [ ] Follow the standard view structure (header, instructions, content, footer) - [ ] **Always verify compilation before submitting** ### Post-Implementation - [ ] **Update this skill document** with any new patterns or learnings discovered - [ ] Document any issues encountered and their solutions - [ ] Add any new utility functions or patterns to the appropriate sections - [ ] Verify all code examples and file paths are accurate ## Lessons Learned & Updates This section documents recent learnings and updates to maintain accuracy. ### Recent Updates - **2026-01-10**: Major updates based on workers view implementation and bug fixes: - Added workers list view and worker details view as reference implementations - Updated common REST API types list to include Worker, WorkerRuntimeInfo, Workflow - Documented detail view header patterns (showing specific resource names in titles) - Added section on filtering with multi-select forms and custom key maps - Documented per-cell table styling using TableWithStyleFunc wrapper - Added examples of status badge rendering in detail views - Documented navigation messages (NavigateToWorkerMsg pattern) - Added column alignment best practices (matching header format strings to row rendering) - Workflow TUI implementation updates: - Updated header component documentation: ALL headers (primary, detail, modal) now use highlight color for consistency - Added `RenderHeaderWithViewIndicator()` for primary views (shows just view name, non-repetitive) - Added section 14: Table Height Calculations and Layout Optimization (height - 12 vs height - 16) - Added section 15: Column Consistency Between Related Views (critical for UX) - Added section 16: View Navigation and Modal Selector patterns - Documented modal selector with Shift+Tab and arrow key support - Documented navigation stack pattern for detail view drilling - **2026-01-09**: Added self-updating instructions and verification checklist - Document initialized with comprehensive TUI view building guidelines ### Known Issues & Solutions #### Issue: Table Column Alignment Mismatches **Problem**: Header columns don't align with table rows due to format string width mismatch. **Example**: In run details tasks tab, header used `%-3s` for selector column but rows only rendered 2 characters ("▸ " or " "), causing status column and all subsequent columns to be misaligned. **Solution**: Ensure header format string widths exactly match row rendering: ```go // Header format - 2 chars for selector to match "▸ " or " " headerStyle.Render(fmt.Sprintf("%-2s %-30s %-12s", "", "NAME", "STATUS")) // Row rendering - also 2 chars if selected { b.WriteString("▸ ") // 2 characters } else { b.WriteString(" ") // 2 characters } ``` **Prevention**: Always count the exact characters rendered in rows and match header format widths precisely. #### Issue: Detail View Headers Too Generic **Problem**: Detail views showed generic titles like "Task Details" or "Workflow Run Details" without identifying the specific resource being viewed. **Solution**: Include the resource name in the header title: ```go // For task details title := "Task Details" if v.task != nil { title = fmt.Sprintf("Task Details: %s", v.task.DisplayName) } // For workflow details title := "Workflow Details" if v.workflow != nil { title = fmt.Sprintf("Workflow Details: %s", v.workflow.Name) } // For run details title := "Run Details" if v.details != nil && v.details.Run.DisplayName != "" { title = fmt.Sprintf("Run Details: %s", v.details.Run.DisplayName) } ``` **Pattern**: Use format `"{View Type} Details: {Resource Name}"` for all detail views. #### Issue: Filter Form Navigation Conflicts **Problem**: Global Shift+Tab handler for view switching conflicts with form navigation, preventing Tab/Shift+Tab from working in filter modals. **Solution**: Process filter form messages BEFORE checking global key handlers: ```go // In Update(), handle form FIRST if v.showingFilter && v.filterForm != nil { form, cmd := v.filterForm.Update(msg) if f, ok := form.(*huh.Form); ok { v.filterForm = f if v.filterForm.State == huh.StateCompleted { // Apply filters v.selectedStatuses = v.tempStatusFilters v.showingFilter = false v.updateTableRows() return v, nil } // Check for ESC to cancel if keyMsg, ok := msg.(tea.KeyMsg); ok { if keyMsg.String() == "esc" { v.showingFilter = false return v, nil } } } return v, cmd } // THEN handle global keys switch msg := msg.(type) { case tea.KeyMsg: switch msg.String() { case "shift+tab": // Global view switcher } } ``` **Pattern**: Always delegate to active modal/form components before processing global keyboard shortcuts. #### Issue: Filtered Workers Not Reflected in Navigation **Problem**: When navigating to worker details via Enter key, code used unfiltered `v.workers` list instead of filtered list, causing cursor index mismatch with displayed rows. **Solution**: Use the filtered/displayed list for navigation: ```go case "enter": // Use filteredWorkers, not workers if len(v.filteredWorkers) > 0 { selectedIdx := v.table.Cursor() if selectedIdx >= 0 && selectedIdx < len(v.filteredWorkers) { worker := v.filteredWorkers[selectedIdx] workerID := worker.Metadata.Id return v, NewNavigateToWorkerMsg(workerID) } } ``` **Pattern**: Always use the same data source for rendering and navigation. If you cache filtered data for StyleFunc, use that cached data for navigation too. ### Future Improvements (This section will track potential improvements to the TUI system or this skill document)