Files
punktfunk/clients/apple/Sources/PunktfunkKit/Video/LatencyMeter.swift
T
enricobuehler 133e25849d feat(apple): gamepad UI v2 — controller settings + add host, aurora, macOS
Sources reorganized (client: Home/Session/Settings/Stores/Support/Trust; kit:
Audio/Connection/Gamepad/Input/Support/Video/Views) with the big files split
along the same seams.

The gamepad mode is couch-complete, and now on macOS too (the living-room
Mac case), not just iOS/iPadOS:

- GamepadSettingsView: a console-style, fully controller-navigable settings
  screen (X from the launcher) — up/down moves focus, left/right steps values
  (clamped, boundary thud), A cycles/toggles, B closes; the focused row shows a
  one-line description. Backed by GamepadMenuList, the vertical sibling of
  GamepadCarousel, and SettingsOptions — the option lists hoisted out of
  SettingsView statics and shared by the touch, tvOS and gamepad settings.
- GamepadAddHostView + GamepadKeyboard: register a host end to end with a pad
  — field rows open an on-screen controller keyboard (dpad grid, A types,
  X backspaces, B done); the launcher carousel ends in an Add Host tile, so
  the dead-end "add one with touch first" empty state is gone.
- Launcher polish: contextual hint bar with the pad's real button glyphs,
  controller name + battery chip, one shared console chrome.
- GamepadScreenBackground: an animated aurora (TimelineView-driven drifting
  blobs in the brand's violet family, breathing radii, slow hue shift,
  legibility scrim; freezes under Reduce Motion). Pure SwiftUI on purpose — a
  .metal library only bundles reliably in one of the two build systems (SPM vs
  the xcodeproj's synced folders) these sources compile under.
- macOS port: settings/add-host/library present as sized sheets (a macOS sheet
  takes its content's IDEAL size, and the GeometryReader-driven screens
  collapsed to nothing), NSScreen-based mode lists, scroll indicators .never
  (the "always show scroll bars" setting overrides .hidden), tray scrims so
  scrolled rows dim under the pinned title/hints, extra title clearance, and a
  PUNKTFUNK_FORCE_GAMEPAD_UI=1 dev hook — launcher/settings/add-host/keyboard/
  library render-verified live on a real Mac + LAN hosts.
- GamepadMenuInput: X button support, and (re)start now snapshots held buttons
  so a controller handoff press never fires twice (the B that closed the
  keyboard no longer also cancels the screen underneath).
- Cleanups: one "Connection failed" alert in ContentView instead of one per
  home screen; HostDiscovery.advertises/unsaved shared by both home screens.
- host: can_encode_444 stub for the non-Linux/Windows host build (the macOS
  synthetic-source loopback used by the Swift tests).

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-02 11:24:44 +02:00

79 lines
3.8 KiB
Swift

// Per-frame latency sampler for the live HUD: records capture->client-receipt latency and drains
// percentiles on demand. NSLock rather than an actor the writer is the non-async pump/arrival
// path (same pattern as the app's FrameMeter).
import Foundation
/// Samples the **capture->client-receipt** latency of each access unit and reports percentiles.
///
/// The latency is `now - pts_ns`, where `pts_ns` is the host's capture wall clock (the AU's pts) and
/// `now` is the client's `CLOCK_REALTIME` instant the AU was received, shifted by the connect-time
/// **clock-skew offset** (`PunktfunkConnection.clockOffsetNs`, host minus client) so the difference
/// is valid across machines. `offsetNs == 0` means an old host that didn't answer the skew handshake
/// (or genuinely synced clocks) the number is then only meaningful same-host.
///
/// SCOPE (stage-1 presenter): this covers host capture -> encode -> FEC -> network -> reassembly ->
/// decrypt -> handed to the presenter. It does **not** include the on-device VideoToolbox decode or
/// the `AVSampleBufferDisplayLayer` present that layer decodes and presents compressed samples
/// internally with no per-frame callback. True decode->present (the full glass-to-glass) needs the
/// stage-2 presenter (`VTDecompressionSession` decode-completion + `CAMetalLayer`/display-link
/// present); this meter is the substrate it will extend.
public final class LatencyMeter: @unchecked Sendable {
private let lock = NSLock()
private var samplesUs: [Int64] = []
private var skewCorrected = false
public init() {}
/// Record one frame at receipt (now). `ptsNs` is the host capture clock (the AU's pts);
/// `offsetNs` is the host-client clock offset from the skew handshake (0 = uncorrected).
public func record(ptsNs: UInt64, offsetNs: Int64) {
var ts = timespec()
clock_gettime(CLOCK_REALTIME, &ts)
let nowNs = Int64(ts.tv_sec) * 1_000_000_000 + Int64(ts.tv_nsec)
record(ptsNs: ptsNs, atNs: nowNs, offsetNs: offsetNs)
}
/// Record one frame whose latency is `atNs + offsetNs - ptsNs` an EXPLICIT client instant
/// rather than now. The stage-2 presenter uses this to stamp capturepresent at the display
/// link's target present time (not the moment the present call ran). All in `CLOCK_REALTIME`.
public func record(ptsNs: UInt64, atNs: Int64, offsetNs: Int64) {
let latNs = atNs &+ offsetNs &- Int64(bitPattern: ptsNs)
// Drop absurd values (a clock step, a wildly wrong offset, or garbage pts).
guard latNs > 0, latNs < 10_000_000_000 else { return }
lock.lock()
samplesUs.append(latNs / 1000)
if offsetNs != 0 { skewCorrected = true }
lock.unlock()
}
public struct Stats: Sendable {
public let p50Ms: Double
public let p95Ms: Double
public let p99Ms: Double
public let count: Int
/// True if the skew offset was applied (a host that answered the handshake) i.e. the
/// numbers are cross-machine valid, not just same-host.
public let skewCorrected: Bool
}
/// Percentiles over the samples accumulated since the last drain, then reset the window. `nil`
/// when no samples arrived in the interval.
public func drain() -> Stats? {
lock.lock()
let sorted = samplesUs.sorted()
let corrected = skewCorrected
samplesUs.removeAll(keepingCapacity: true)
skewCorrected = false
lock.unlock()
guard !sorted.isEmpty else { return nil }
func pct(_ p: Double) -> Double {
let i = min(Int(Double(sorted.count) * p), sorted.count - 1)
return Double(sorted[i]) / 1000.0 // us -> ms
}
return Stats(
p50Ms: pct(0.50), p95Ms: pct(0.95), p99Ms: pct(0.99),
count: sorted.count, skewCorrected: corrected)
}
}