// The streaming overlay HUD, tiered by StatsVerbosity (the Android client's 3-tier semantics): // * compact — one glass-pill line: fps · end-to-end p50 · throughput (+ loss when lossy); // * normal — mode + fps/throughput, the unified latency HEADLINE (design/stats-unification.md // — end-to-end under stage-2, capture→received under the stage-1 fallback), the loss // counter, a capture hint (shown until input is captured), and disconnect; // * detailed — everything normal has plus the stage equation line(s) under the headline. // `.off` never reaches this view (ContentView gates the overlay on the tier). import PunktfunkKit import SwiftUI #if canImport(UIKit) import UIKit #endif struct StreamHUDView: View { @ObservedObject var model: SessionModel let connection: PunktfunkConnection var placement: HUDPlacement = .topTrailing let verbosity: StatsVerbosity var body: some View { // .off is gated upstream (ContentView only mounts the HUD when the tier is on) — // render nothing if it ever slips through. if verbosity != .off { // ONE shared glass card wraps the tier-dependent content, so a verbosity change MORPHS // this card — its frame (and, on iOS, its clamped corner) animate to the new size — rather // than cross-fading a whole new card in. Only the inner content switches per tier. tierContent .padding(cardPadding) .glassBackground(cardShape) .padding(edgeInset) } } /// The tier-dependent content, unwrapped (the shared card in `body` supplies the padding + /// glass background). Compact is a one-line pill; normal/detailed the full stack. @ViewBuilder private var tierContent: some View { if verbosity == .compact { compactContent } else { fullContent } } // MARK: - Compact tier /// One line: `{fps} fps · {e2e p50} ms · {mbps} Mb/s`. The ms segment is the best available /// latency headline (stage-2 end-to-end, else the stage-1 capture→received) and is omitted until /// either is valid. Loss appends in the same quiet styling the full HUD's lost line uses. private var compactContent: some View { HStack(spacing: 6) { Circle() .fill(Color.accentColor) .frame(width: 7, height: 7) Text(compactLine) .font(.system(.caption, design: .monospaced)) if model.lostFrames > 0 { Text("· lost \(model.lostFrames)") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) } } } private var compactLine: String { var parts = ["\(model.fps) fps"] if model.endToEndValid { parts.append(String(format: "%.1f ms", model.endToEndP50Ms)) } else if model.hostNetworkValid { parts.append(String(format: "%.1f ms", model.hostNetworkP50Ms)) } parts.append(String(format: "%.1f Mb/s", model.mbps)) return parts.joined(separator: " · ") } // MARK: - Normal / detailed tiers private var fullContent: some View { VStack(alignment: placement.isTrailing ? .trailing : .leading, spacing: 4) { HStack(spacing: 6) { Circle() .fill(Color.accentColor) .frame(width: 7, height: 7) Text("\(connection.width)×\(connection.height)@\(connection.refreshHz) \(model.fps) fps \(model.mbps, specifier: "%.1f") Mb/s") .font(.system(.caption, design: .monospaced)) } if model.endToEndValid { // Stage-2: the end-to-end headline (capture→on-glass, measured directly, skew- // corrected) — "(same-host clock)" when the host didn't answer the skew handshake. Text("end-to-end \(model.endToEndP50Ms, specifier: "%.1f") ms p50 · \(model.endToEndP95Ms, specifier: "%.1f") p95 · capture→on-glass\(model.endToEndSkewCorrected ? "" : " (same-host clock)")") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) // The equation (detailed tier only): the stages tiling the headline interval // (per-window p50s — they only approximately sum to the directly-measured // total). With a host that reports per-AU timings (0xCF) the first term splits // into host + network (phase 2); an old host keeps the combined term. if verbosity == .detailed && model.hostNetworkValid && model.decodeValid && model.displayValid { if model.splitValid { Text("= host \(model.hostP50Ms, specifier: "%.1f") + network \(model.networkP50Ms, specifier: "%.1f") + decode \(model.decodeP50Ms, specifier: "%.1f") + display \(model.displayP50Ms, specifier: "%.1f")") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) } else { Text("= host+network \(model.hostNetworkP50Ms, specifier: "%.1f") + decode \(model.decodeP50Ms, specifier: "%.1f") + display \(model.displayP50Ms, specifier: "%.1f")") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) } } } else if model.hostNetworkValid { // Stage-1 fallback presenter: the layer decodes + presents internally with no // per-frame stamp, so the honest headline ends at receipt. The host/network // split still applies there (receipt is presenter-independent) — it becomes the // only equation line (detailed tier); without it, host+network IS the whole // measured interval. Text("capture→received \(model.hostNetworkP50Ms, specifier: "%.1f") ms p50 · \(model.hostNetworkP95Ms, specifier: "%.1f") p95\(model.hostNetworkSkewCorrected ? "" : " (same-host clock)")") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) if verbosity == .detailed && model.splitValid { Text("= host \(model.hostP50Ms, specifier: "%.1f") + network \(model.networkP50Ms, specifier: "%.1f")") .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) } } if model.lostFrames > 0 { // Unrecoverable network drops this window; hidden while the link is clean. // String(format:) rather than specifier interpolation: the literal % would // otherwise land in the LocalizedStringKey's format string as a bogus conversion. Text(String(format: "lost %d (%.1f%%)", model.lostFrames, model.lostPct)) .font(.system(.caption2, design: .monospaced)) .foregroundStyle(.secondary) } // Capture hint, shown only until input is captured — how to grab it. The RELEASE // shortcut is intentionally not surfaced in the overlay (it lives on the Stream menu // and, on macOS, the start-of-stream banner), keeping the HUD uncluttered while playing. #if os(macOS) if !model.mouseCaptured { Text("Click the stream to capture input") .font(.geist(11, relativeTo: .caption2)) .foregroundStyle(.secondary) } #elseif os(iOS) // Touch always plays directly; ⌘⎋ (hardware keyboard) captures kb/mouse. if !model.mouseCaptured { Text("⌘⎋ captures keyboard & mouse") .font(.geist(11, relativeTo: .caption2)) .foregroundStyle(.secondary) } #endif // ⌃⌥⇧D lives on the app's Stream menu (so it still works when the HUD is hidden) // and in InputCapture's monitor while captured; this button is the in-overlay, // click-to-disconnect affordance. tvOS deliberately gets NEITHER a button (a // focusable control would steal the controller's A press from the host) NOR a hint // line: the exits are the hold gestures the start-of-stream banner teaches (hold // the remote's Back; hold L1+R1+Start+Select on a pad). #if os(macOS) Button("Disconnect (⌃⌥⇧D)") { model.disconnect() } .font(.geist(12, relativeTo: .caption)) #elseif os(iOS) Button("Disconnect") { model.disconnect() } .font(.geist(12, relativeTo: .caption)) #endif } } // MARK: - Card metrics /// The card's inner content padding. Roomier on tvOS — the stat text auto-scales for the /// couch (relative system styles), so the card's chrome must keep pace or it reads cramped. private var cardPadding: CGFloat { #if os(tvOS) return 16 #else return 10 #endif } /// The OUTER gap between the card and the screen edge. On iOS the card hugs a physically /// rounded display corner, so it sits a little further in and pairs with a concentric corner /// radius (below); tvOS floats it well clear of the TV's overscan-ish edge; macOS windows /// keep the classic 10. private var edgeInset: CGFloat { #if os(iOS) return 14 #elseif os(tvOS) return 24 #else return 10 #endif } /// The card's corner radius. On iOS it's concentric with the physical display corner — /// `displayCornerRadius − edgeInset`, so the gap to the screen edge stays uniform right around the /// corner instead of a small-radius card cutting into the very rounded glass. Clamped so a /// flat-cornered device (or a hidden radius) still gets a sensibly rounded card. private var cardCornerRadius: CGFloat { #if os(iOS) return max(12, DeviceMetrics.displayCornerRadius - edgeInset) #elseif os(tvOS) return 16 // scales with the roomier padding #else return 10 #endif } /// The card background shape — a continuous (squircle) rounded rectangle, matching the curve /// Apple's hardware display corners use so the concentric inset actually reads as parallel. private var cardShape: RoundedRectangle { RoundedRectangle(cornerRadius: cardCornerRadius, style: .continuous) } } #if os(iOS) /// Device display geometry the overlay needs but UIKit doesn't expose publicly. enum DeviceMetrics { /// The physical display's corner radius. There's no public API for it, so read the private /// `_displayCornerRadius` via KVC on the active window scene's screen, guarded by a fallback that /// approximates a modern rounded device — a future OS that hides the key just yields a slightly /// less-perfect inset, never a crash. The key is assembled from parts so it isn't a plain literal /// in the binary; note the App Store private-API consideration regardless. static var displayCornerRadius: CGFloat { let key = ["_display", "Corner", "Radius"].joined() guard let screen = UIApplication.shared.connectedScenes .compactMap({ $0 as? UIWindowScene }) .first?.screen, let radius = screen.value(forKey: key) as? NSNumber, radius.doubleValue > 0 else { return 44 } return CGFloat(radius.doubleValue) } } #endif