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635dad660cfb1a00aaea9706693e0b6cf7f814df
gnoma/internal/tui/rendering.go
T
vikingowl 0b4de6054d feat(tui): surface SLM backend + per-turn classifier in status bar 
The TUI gave no indication that an SLM was configured or active.
You'd see the primary provider on the status line and nothing else,
even with [slm].enabled=true and a successfully booted backend.

Two surfaces added:

1. Status-bar SLM badge. The left side of the status line gains a
   dim " · slm: <model> ⚙" suffix when the backend booted, " · slm: ✗"
   when it failed, and nothing when SLM is disabled. The ⚙ marker
   indicates the model advertises tool support.

2. Per-turn classifier visibility. The existing routing event already
   produced "routed → <arm> (task: <type>)" lines in the chat history;
   it now also reports which classifier made the decision, e.g.
   "routed → ollama/ministral-3:3b (task: explain, by: slm_fallback)".
   Lets you tell in real time whether the SLM is actually classifying
   or falling back to the keyword heuristic.

Plumbing:
  - new tui.SLMInfo struct on tui.Config
  - main.go populates it after StartBackend returns
  - stream.Event gains RoutingClassifier; engine.runLoop fills it from
    task.ClassifierSource on the first round
2026-05-19 19:06:26 +02:00

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package tui
import (
"fmt"
"os"
"path/filepath"
"strings"
"time"
xansi "github.com/charmbracelet/x/ansi"
tea "charm.land/bubbletea/v2"
"charm.land/lipgloss/v2"
"somegit.dev/Owlibou/gnoma/internal/message"
"somegit.dev/Owlibou/gnoma/internal/session"
)
func (m Model) View() tea.View {
if m.width == 0 {
return tea.NewView("")
}
status := m.renderStatus()
input := m.renderInput()
topLine, bottomLine := m.renderSeparators()
// Suggestion dropdown — rendered between topLine and input.
suggestions := ""
if len(m.suggestions) > 0 {
suggestions = m.renderSuggestions()
}
suggestH := lipgloss.Height(suggestions)
// Fixed: status bar + separator + input + separator + suggestions = bottom area
statusH := lipgloss.Height(status)
inputH := lipgloss.Height(input)
chatH := m.height - statusH - inputH - 2 - suggestH
chat := m.renderChat(chatH)
// Show "new content below" indicator when scrolled up during streaming
if m.scrollOffset > 0 && m.streaming {
indicator := lipgloss.NewStyle().Foreground(lipgloss.Color("214")).Bold(true).Render(" ⬇ new content below")
topLine = indicator + topLine[len(indicator):]
}
parts := []string{chat, topLine}
if suggestions != "" {
parts = append(parts, suggestions)
}
parts = append(parts, input, bottomLine, status)
v := tea.NewView(lipgloss.JoinVertical(lipgloss.Left, parts...))
if m.copyMode {
v.MouseMode = tea.MouseModeNone
} else {
v.MouseMode = tea.MouseModeCellMotion
}
v.AltScreen = true
return v
}
func (m Model) shortCwd() string {
dir := m.cwd
home, _ := os.UserHomeDir()
if strings.HasPrefix(dir, home) {
dir = "~" + dir[len(home):]
}
return dir
}
func (m Model) renderChat(height int) string {
var lines []string
// Header info — scrolls with content
status := m.session.Status()
lines = append(lines,
sHeaderBrand.Render(" gnoma ")+" "+sHeaderDim.Render("gnoma "+version),
" "+sHeaderModel.Render(fmt.Sprintf("%s/%s", status.Provider, status.Model))+
sHeaderDim.Render(" · ")+sHeaderDim.Render(m.shortCwd()),
"",
)
if len(m.messages) == 0 && !m.streaming {
lines = append(lines,
sHint.Render(" Type a message and press Enter."),
sHint.Render(" /help for commands, Ctrl+C to cancel or quit."),
"",
)
}
for _, msg := range m.messages {
lines = append(lines, m.renderMessage(msg)...)
}
// Elf tree view — shows active elfs with structured progress
if m.streaming && len(m.elfStates) > 0 {
lines = append(lines, m.renderElfTree()...)
}
// Transient: running tools (disappear when tool completes)
for _, name := range m.runningTools {
lines = append(lines, " "+sToolOutput.Render(fmt.Sprintf("⚙ [%s] running...", name)))
}
// Transient: permission prompt (disappear when approved/denied)
if m.permPending {
lines = append(lines, "")
lines = append(lines, sSystem.Render("• "+formatPermissionPrompt(m.permToolName, m.permArgs)))
lines = append(lines, "")
}
// Settings panel (/config)
if m.configPanelOpen {
lines = append(lines, m.renderConfigPanel(m.width)...)
}
// Transient: session resume picker
if m.resumePending && len(m.resumeSessions) > 0 {
lines = append(lines, "")
lines = append(lines, sSystem.Render(" Sessions ↑↓ · Enter to load · Esc to cancel"))
lines = append(lines, "")
for i, s := range m.resumeSessions {
age := time.Since(s.UpdatedAt).Truncate(time.Minute)
label := s.ID
if s.Title != "" {
label = s.Title
if len(label) > 40 {
label = label[:40] + "…"
}
}
row := fmt.Sprintf("%-42s %s/%s %d turns %s ago",
label, s.Provider, s.Model, s.TurnCount, age)
if i == m.resumeSelected {
lines = append(lines, sText.Render("→ "+row))
} else {
lines = append(lines, sHint.Render(" "+row))
}
}
lines = append(lines, "")
}
// Streaming: show frozen thinking above live text content
if m.streaming {
maxWidth := m.width - 2
if m.thinkingBuf.Len() > 0 {
// Thinking is frozen once text starts; show dim with hollow diamond.
// Cap at 3 lines while streaming (ctrl+o expands).
const liveThinkMax = 3
thinkLines := strings.Split(wrapText(m.thinkingBuf.String(), maxWidth), "\n")
showN := len(thinkLines)
if !m.expandOutput && showN > liveThinkMax {
showN = liveThinkMax
}
for i, line := range thinkLines[:showN] {
if i == 0 {
lines = append(lines, sThinkingLabel.Render("◇ ")+sThinkingBody.Render(line))
} else {
lines = append(lines, sThinkingBody.Render(" "+line))
}
}
if !m.expandOutput && len(thinkLines) > liveThinkMax {
lines = append(lines, sHint.Render(fmt.Sprintf(" +%d lines (ctrl+o to expand)", len(thinkLines)-liveThinkMax)))
}
}
if m.streamBuf.Len() > 0 {
// Regular text content — strip model artifacts before display
liveText := sanitizeAssistantText(m.streamBuf.String())
for i, line := range strings.Split(wrapText(liveText, maxWidth), "\n") {
if i == 0 {
lines = append(lines, styleAssistantLabel.Render("◆ ")+line)
} else {
lines = append(lines, " "+line)
}
}
} else if m.thinkingBuf.Len() == 0 {
lines = append(lines, styleAssistantLabel.Render("◆ ")+sCursor.Render("█"))
}
}
// Join all logical lines then split by newlines
raw := strings.Join(lines, "\n")
rawLines := strings.Split(raw, "\n")
// Hard-wrap any remaining overlong lines to get accurate physical line count
// for the scroll logic. Content should already be word-wrapped by renderMessage,
// but ANSI escape overhead can push a styled line past m.width.
var physLines []string
for _, line := range rawLines {
if lipgloss.Width(line) <= m.width {
physLines = append(physLines, line)
} else {
// Actually split the line using ANSI-aware hard wrap so the scroll
// offset math and the rendered content agree.
split := strings.Split(xansi.Hardwrap(line, m.width, false), "\n")
physLines = append(physLines, split...)
}
}
// Apply scroll: offset from bottom
if len(physLines) > height && height > 0 {
maxScroll := len(physLines) - height
offset := m.scrollOffset
if offset > maxScroll {
offset = maxScroll
}
end := len(physLines) - offset
start := end - height
if start < 0 {
start = 0
}
physLines = physLines[start:end]
}
// Hard truncate to exactly height lines — prevent overflow
if len(physLines) > height && height > 0 {
physLines = physLines[:height]
}
content := strings.Join(physLines, "\n")
// Pad to fill height if content is shorter
contentH := strings.Count(content, "\n") + 1
if contentH < height {
content += strings.Repeat("\n", height-contentH)
}
return content
}
func (m Model) renderMessage(msg chatMessage) []string {
var lines []string
indent := " " // 2-space indent for continuation lines
switch msg.role {
case "user":
// first line, indented continuation — word-wrapped to terminal width
maxWidth := m.width - 2 // 2 for the " " / " " prefix
msgLines := strings.Split(wrapText(msg.content, maxWidth), "\n")
for i, line := range msgLines {
if i == 0 {
lines = append(lines, sUserLabel.Render(" ")+sUserLabel.Render(line))
} else {
lines = append(lines, sUserLabel.Render(indent+line))
}
}
lines = append(lines, "")
case "thinking":
// Thinking/reasoning content — dim italic with hollow diamond label.
// Collapsed to 3 lines by default; ctrl+o expands.
const thinkingMaxLines = 3
maxWidth := m.width - 2
msgLines := strings.Split(wrapText(msg.content, maxWidth), "\n")
showLines := len(msgLines)
if !m.expandOutput && showLines > thinkingMaxLines {
showLines = thinkingMaxLines
}
for i, line := range msgLines[:showLines] {
if i == 0 {
lines = append(lines, sThinkingLabel.Render("◇ ")+sThinkingBody.Render(line))
} else {
lines = append(lines, sThinkingBody.Render(indent+line))
}
}
if !m.expandOutput && len(msgLines) > thinkingMaxLines {
remaining := len(msgLines) - thinkingMaxLines
lines = append(lines, sHint.Render(indent+fmt.Sprintf("+%d lines (ctrl+o to expand)", remaining)))
}
lines = append(lines, "")
case "assistant":
// Render markdown with glamour; strip model-specific artifacts first.
clean := sanitizeAssistantText(msg.content)
rendered := clean
if m.mdRenderer != nil {
if md, err := m.mdRenderer.Render(clean); err == nil {
rendered = strings.TrimSpace(md)
}
}
renderedLines := strings.Split(rendered, "\n")
for i, line := range renderedLines {
if i == 0 {
lines = append(lines, styleAssistantLabel.Render("◆ ")+line)
} else {
lines = append(lines, indent+line)
}
}
lines = append(lines, "")
case "tool":
maxW := m.width - len([]rune(indent))
for _, line := range strings.Split(wrapText(msg.content, maxW), "\n") {
lines = append(lines, indent+sToolOutput.Render(line))
}
case "toolresult":
resultLines := strings.Split(msg.content, "\n")
maxShow := 3 // collapsed by default
if m.expandOutput {
maxShow = len(resultLines)
}
maxW := m.width - 4 // indent(2) + indent(2)
for i, line := range resultLines {
if i >= maxShow {
remaining := len(resultLines) - maxShow
lines = append(lines, indent+indent+sHint.Render(
fmt.Sprintf("+%d lines (ctrl+o to expand)", remaining)))
break
}
// Wrap this logical line into sub-lines, then diff-color each sub-line
for _, subLine := range strings.Split(wrapText(line, maxW), "\n") {
trimmed := strings.TrimSpace(subLine)
if strings.HasPrefix(trimmed, "+") && !strings.HasPrefix(trimmed, "++") && len(trimmed) > 1 {
lines = append(lines, indent+indent+sDiffAdd.Render(subLine))
} else if strings.HasPrefix(trimmed, "-") && !strings.HasPrefix(trimmed, "--") && len(trimmed) > 1 {
lines = append(lines, indent+indent+sDiffRemove.Render(subLine))
} else {
lines = append(lines, indent+indent+sToolResult.Render(subLine))
}
}
}
lines = append(lines, "")
case "system":
maxW := m.width - 4 // "• "(2) + indent(2)
for i, line := range strings.Split(wrapText(msg.content, maxW), "\n") {
if i == 0 {
lines = append(lines, sSystem.Render("• "+line))
} else {
lines = append(lines, sSystem.Render(indent+line))
}
}
lines = append(lines, "")
case "error":
maxW := m.width - 2 // "✗ " = 2
for _, line := range strings.Split(wrapText(msg.content, maxW), "\n") {
lines = append(lines, sError.Render("✗ "+line))
}
lines = append(lines, "")
case "cost":
lines = append(lines, sHint.Render(indent+msg.content))
}
return lines
}
func (m Model) renderElfTree() []string {
if len(m.elfOrder) == 0 {
return nil
}
var lines []string
// Count running vs done
running := 0
for _, id := range m.elfOrder {
if p, ok := m.elfStates[id]; ok && !p.Done {
running++
}
}
// Header
if running > 0 {
header := fmt.Sprintf("● Running %d elf", len(m.elfOrder))
if len(m.elfOrder) != 1 {
header += "s"
}
header += "…"
lines = append(lines, sStatusStreaming.Render(header))
} else {
header := fmt.Sprintf("● %d elf", len(m.elfOrder))
if len(m.elfOrder) != 1 {
header += "s"
}
header += " completed"
lines = append(lines, sToolOutput.Render(header))
}
for i, elfID := range m.elfOrder {
p, ok := m.elfStates[elfID]
if !ok {
continue
}
isLast := i == len(m.elfOrder)-1
// Branch character
branch := "├─"
childPrefix := "│ "
if isLast {
branch = "└─"
childPrefix = " "
}
// Main line: branch + description + stats
var stats []string
if p.ToolUses > 0 {
stats = append(stats, fmt.Sprintf("%d tool uses", p.ToolUses))
}
if p.Tokens > 0 {
stats = append(stats, formatTokens(p.Tokens))
}
statsStr := ""
if len(stats) > 0 {
statsStr = " · " + strings.Join(stats, " · ")
}
desc := p.Description
if len(statsStr) > 0 {
// Truncate description so the combined line fits on one terminal row
maxDescW := m.width - 4 - len([]rune(branch)) - len([]rune(statsStr))
if maxDescW > 10 && len([]rune(desc)) > maxDescW {
desc = string([]rune(desc)[:maxDescW-1]) + "…"
}
}
line := sToolOutput.Render(branch+" ") + sText.Render(desc)
if len(statsStr) > 0 {
line += sToolResult.Render(statsStr)
}
lines = append(lines, line)
// Activity sub-line
var activity string
if p.Done {
if p.Error != "" {
activity = sError.Render("Error: " + p.Error)
} else {
dur := p.Duration.Round(time.Millisecond)
activity = sToolOutput.Render(fmt.Sprintf("Done (%s)", dur))
}
} else {
activity = p.Activity
if activity == "" {
activity = "working…"
}
activity = sToolResult.Render(activity)
}
// Wrap activity so long error/path strings don't overflow the terminal.
actPrefix := childPrefix + "└─ "
actMaxW := m.width - len([]rune(actPrefix))
actLines := strings.Split(wrapText(activity, actMaxW), "\n")
for j, al := range actLines {
if j == 0 {
lines = append(lines, sToolResult.Render(actPrefix)+al)
} else {
lines = append(lines, sToolResult.Render(childPrefix+" ")+al)
}
}
}
lines = append(lines, "") // spacing after tree
return lines
}
func formatTokens(tokens int) string {
if tokens >= 1_000_000 {
return fmt.Sprintf("%.1fM tokens", float64(tokens)/1_000_000)
}
if tokens >= 1_000 {
return fmt.Sprintf("%.1fk tokens", float64(tokens)/1_000)
}
return fmt.Sprintf("%d tokens", tokens)
}
func (m Model) renderSeparators() (string, string) {
lineColor := cSurface // default dim
modeLabel := ""
if m.config.Permissions != nil {
mode := m.config.Permissions.Mode()
lineColor = ModeColor(mode)
modeLabel = string(mode)
}
// Incognito adds amber overlay but keeps mode visible
if m.incognito {
lineColor = cYellow
modeLabel = "🔒 " + modeLabel
}
// Permission pending — flash the line with command summary
if m.permPending {
lineColor = cRed
hint := shortPermHint(m.permToolName, m.permArgs)
modeLabel = "⚠ " + hint + " [y/n]"
}
lineStyle := lipgloss.NewStyle().Foreground(lineColor)
labelStyle := lipgloss.NewStyle().Foreground(lineColor).Bold(true)
// Top line: ─── with mode label on right ─── bypass ───
label := " " + modeLabel + " "
labelW := lipgloss.Width(labelStyle.Render(label))
lineW := m.width - labelW
if lineW < 4 {
lineW = 4
}
leftW := lineW - 2
rightW := 2
topLine := lineStyle.Render(strings.Repeat("─", leftW)) +
labelStyle.Render(label) +
lineStyle.Render(strings.Repeat("─", rightW))
bottomLine := lineStyle.Render(strings.Repeat("─", m.width))
return topLine, bottomLine
}
func (m Model) renderInput() string {
view := m.input.View()
// Ghost text only when there's no dropdown (dropdown handles completion when visible)
if m.suggestion != "" && len(m.suggestions) == 0 {
rest := strings.TrimPrefix(m.suggestion, m.input.Value())
if rest != "" {
ghost := lipgloss.NewStyle().Foreground(lipgloss.Color("241")).Render(rest + " (tab)")
view += ghost
}
}
return view
}
func (m Model) renderStatus() string {
status := m.session.Status()
// Left: provider + model + incognito
provModel := fmt.Sprintf(" %s/%s", status.Provider, status.Model)
if m.incognito {
provModel += " " + sStatusIncognito.Render("🔒")
}
if !status.ToolsAvailable {
provModel += " " + sStatusDim.Render("text-only")
}
left := sStatusHighlight.Render(provModel) + renderSLMBadge(m.config.SLM)
// Center: cwd + git branch
dir := filepath.Base(m.cwd)
centerParts := []string{"📁 " + dir}
if m.gitBranch != "" {
centerParts = append(centerParts, sStatusBranch.Render(" "+m.gitBranch))
}
center := sStatusDim.Render(strings.Join(centerParts, ""))
// Right: context bar + tokens + turns
right := renderContextBar(status) + sStatusDim.Render(fmt.Sprintf(" │ turns: %d ", status.TurnCount))
if m.quitHint {
right = lipgloss.NewStyle().Foreground(cRed).Bold(true).Render("ctrl+c to quit ") + sStatusDim.Render("│ ") + right
}
if m.copyMode {
right = lipgloss.NewStyle().Foreground(cYellow).Bold(true).Render("✂ COPY ") + sStatusDim.Render("│ ") + right
}
if m.streaming {
right = sStatusStreaming.Render("● streaming ") + sStatusDim.Render("│ ") + right
}
// Compose with spacing
leftW := lipgloss.Width(left)
centerW := lipgloss.Width(center)
rightW := lipgloss.Width(right)
gap1 := (m.width-leftW-centerW-rightW)/2 - 1
if gap1 < 1 {
gap1 = 1
}
gap2 := m.width - leftW - gap1 - centerW - rightW
if gap2 < 0 {
gap2 = 0
}
bar := left + strings.Repeat(" ", gap1) + center + strings.Repeat(" ", gap2) + right
return sStatusBar.Width(m.width).Render(bar)
}
// renderContextBar draws a compact [████░░░░] 45% progress bar for the context window.
func renderContextBar(s session.Status) string {
pct := s.TokenPercent
if pct <= 0 && s.TokensUsed == 0 {
return sStatusDim.Render("ctx: —")
}
const barWidth = 8
filled := (pct * barWidth) / 100
if filled > barWidth {
filled = barWidth
}
empty := barWidth - filled
var barColor lipgloss.Style
switch s.TokenState {
case "critical":
barColor = lipgloss.NewStyle().Foreground(cRed).Bold(true)
case "warning":
barColor = lipgloss.NewStyle().Foreground(cYellow)
default:
barColor = lipgloss.NewStyle().Foreground(lipgloss.Color("42")) // green
}
dimBlock := sStatusDim
bar := barColor.Render(strings.Repeat("█", filled)) + dimBlock.Render(strings.Repeat("░", empty))
label := fmt.Sprintf(" %d%%", pct)
var labelStyle lipgloss.Style
switch s.TokenState {
case "critical":
labelStyle = lipgloss.NewStyle().Foreground(cRed).Bold(true)
case "warning":
labelStyle = lipgloss.NewStyle().Foreground(cYellow)
default:
labelStyle = sStatusDim
}
return "[" + bar + "]" + labelStyle.Render(label)
}
// renderSLMBadge produces a short " · slm: <model> [tools]" badge for the
// status bar's left side. Returns "" when SLM is disabled or unconfigured.
func renderSLMBadge(info SLMInfo) string {
if !info.Enabled {
return ""
}
if !info.Active {
return sStatusDim.Render(" · slm: ✗")
}
label := " · slm: " + info.Model
if info.Tools {
label += " ⚙"
}
return sStatusDim.Render(label)
}
// formatTurnUsage produces a compact token summary for a single turn.
func formatTurnUsage(u message.Usage) string {
parts := []string{fmt.Sprintf("in: %d", u.InputTokens), fmt.Sprintf("out: %d", u.OutputTokens)}
if u.CacheReadTokens > 0 {
parts = append(parts, fmt.Sprintf("cache: %d", u.CacheReadTokens))
}
return strings.Join(parts, " · ")
}
// renderSuggestions renders the slash-command autocomplete dropdown.
func (m Model) renderSuggestions() string {
const maxVisible = 6
sCmd := lipgloss.NewStyle().Foreground(cPurple).Bold(true)
sDesc := lipgloss.NewStyle().Foreground(cSubtext)
sSelectedCmd := lipgloss.NewStyle().
Background(cSurface).
Foreground(cPurple).
Bold(true)
sSelectedDesc := lipgloss.NewStyle().
Background(cSurface).
Foreground(cText)
// Determine visible window around selected item
start := 0
end := len(m.suggestions)
if end > maxVisible {
start = m.suggIdx - maxVisible/2
if start < 0 {
start = 0
}
if start+maxVisible > len(m.suggestions) {
start = len(m.suggestions) - maxVisible
}
end = start + maxVisible
}
// Measure widest command name for alignment
maxCmdW := 0
for _, s := range m.suggestions[start:end] {
if len(s.name) > maxCmdW {
maxCmdW = len(s.name)
}
}
innerW := m.width - 6
if innerW < 40 {
innerW = 40
}
var bodyLines []string
for i, entry := range m.suggestions[start:end] {
idx := start + i
pad := strings.Repeat(" ", maxCmdW-len(entry.name)+1)
desc := entry.desc
// Truncate desc to fit
maxDescW := innerW - maxCmdW - 2
if maxDescW > 0 && len(desc) > maxDescW {
desc = desc[:maxDescW-1] + "…"
}
if idx == m.suggIdx {
line := sSelectedCmd.Render(entry.name) + sSelectedDesc.Render(pad+desc)
// Pad to fill width
lineW := lipgloss.Width(line)
if lineW < innerW {
line += sSelectedDesc.Render(strings.Repeat(" ", innerW-lineW))
}
bodyLines = append(bodyLines, line)
} else {
bodyLines = append(bodyLines, sCmd.Render(entry.name)+sDesc.Render(pad+desc))
}
}
if len(m.suggestions) > maxVisible {
extra := len(m.suggestions) - maxVisible
bodyLines = append(bodyLines, sHint.Render(fmt.Sprintf(" +%d more", extra)))
}
box := lipgloss.NewStyle().
Border(lipgloss.RoundedBorder()).
BorderForeground(cSurface).
Padding(0, 1).
Width(innerW + 2).
Render(strings.Join(bodyLines, "\n"))
return box
}
// renderConfigPanel renders the interactive /config settings overlay.
func (m Model) renderConfigPanel(width int) []string {
rtr := m.config.Router
perm := m.config.Permissions
// Build the three setting rows
type row struct{ label, value string }
rows := make([]row, 3)
// Row 0: Model
modelVal := "none"
if rtr != nil {
forced := rtr.ForcedArm()
if forced != "" {
modelVal = string(forced)
} else {
arms := configPanelArms(rtr.Arms())
if len(arms) > 0 {
modelVal = string(arms[0].ID) + " (press Enter to select)"
} else {
modelVal = "none discovered"
}
}
}
rows[0] = row{"Model", modelVal}
// Row 1: Permission
permVal := "—"
if perm != nil {
permVal = string(perm.Mode())
}
rows[1] = row{"Permission", permVal}
// Row 2: Incognito
incogVal := "Off"
if m.incognito {
incogVal = "On"
}
rows[2] = row{"Incognito", incogVal}
// Measure widest label for alignment
maxLabel := 0
for _, r := range rows {
if len(r.label) > maxLabel {
maxLabel = len(r.label)
}
}
sSelected := lipgloss.NewStyle().
Background(cTeal).
Foreground(cMantle).
Bold(true)
sItem := lipgloss.NewStyle().Foreground(cText)
sLabel := lipgloss.NewStyle().Foreground(cSubtext)
innerW := width - 8 // border(2) + padding(2) each side = 8
if innerW < 30 {
innerW = 30
}
var bodyLines []string
for i, r := range rows {
labelPad := strings.Repeat(" ", maxLabel-len(r.label))
if i == m.configSelected {
line := fmt.Sprintf("%s%s: %s", r.label, labelPad, r.value)
// Pad to full inner width so the highlight fills the row
if lipgloss.Width(line) < innerW {
line += strings.Repeat(" ", innerW-lipgloss.Width(line))
}
bodyLines = append(bodyLines, sSelected.Render(line))
} else {
bodyLines = append(bodyLines, sLabel.Render(r.label+labelPad+": ")+sItem.Render(r.value))
}
}
bodyLines = append(bodyLines, "")
bodyLines = append(bodyLines, sHint.Render("↑↓ Navigate Enter Select/Toggle Esc Exit"))
body := strings.Join(bodyLines, "\n")
titleStyle := lipgloss.NewStyle().Foreground(cTeal).Bold(true)
boxStyle := lipgloss.NewStyle().
Border(lipgloss.RoundedBorder()).
BorderForeground(cTeal).
Padding(0, 1).
Width(innerW + 2) // +2 for padding
box := boxStyle.Render(titleStyle.Render("Settings") + "\n\n" + body)
return []string{"", box, ""}
}
// wrapText word-wraps text at word boundaries, preserving existing newlines.
// Uses ANSI-aware wrapping so lipgloss-styled text is measured correctly.
func wrapText(text string, width int) string {
if width <= 0 {
return text
}
return xansi.Wordwrap(text, width, "")
}
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