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284 lines
10 KiB
C#
284 lines
10 KiB
C#
// Copyright (c) ppy Pty Ltd <contact@ppy.sh>. Licensed under the MIT Licence.
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// See the LICENCE file in the repository root for full licence text.
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using System;
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using System.Collections.Generic;
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using System.Linq;
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using osu.Framework.Allocation;
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using osu.Framework.Bindables;
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using osu.Framework.Graphics;
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using osu.Framework.Graphics.Containers;
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using osu.Framework.Timing;
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using osu.Game.Input.Handlers;
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using osu.Game.Screens.Play;
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namespace osu.Game.Rulesets.UI
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{
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/// <summary>
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/// A container which consumes a parent gameplay clock and standardises frame counts for children.
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/// Will ensure a minimum of 50 frames per clock second is maintained, regardless of any system lag or seeks.
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/// </summary>
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public class FrameStabilityContainer : Container, IHasReplayHandler
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{
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private readonly double gameplayStartTime;
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/// <summary>
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/// The number of frames (per parent frame) which can be run in an attempt to catch-up to real-time.
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/// </summary>
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public int MaxCatchUpFrames { get; set; } = 5;
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/// <summary>
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/// Whether to enable frame-stable playback.
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/// </summary>
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internal bool FrameStablePlayback = true;
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public IFrameStableClock FrameStableClock => frameStableClock;
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[Cached(typeof(GameplayClock))]
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private readonly FrameStabilityClock frameStableClock;
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public FrameStabilityContainer(double gameplayStartTime = double.MinValue)
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{
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RelativeSizeAxes = Axes.Both;
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frameStableClock = new FrameStabilityClock(framedClock = new FramedClock(manualClock = new ManualClock()));
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this.gameplayStartTime = gameplayStartTime;
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}
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private readonly ManualClock manualClock;
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private readonly FramedClock framedClock;
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private IFrameBasedClock parentGameplayClock;
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/// <summary>
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/// The current direction of playback to be exposed to frame stable children.
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/// </summary>
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private int direction;
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[BackgroundDependencyLoader(true)]
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private void load(GameplayClock clock, ISamplePlaybackDisabler sampleDisabler)
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{
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if (clock != null)
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{
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parentGameplayClock = frameStableClock.ParentGameplayClock = clock;
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frameStableClock.IsPaused.BindTo(clock.IsPaused);
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}
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}
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protected override void LoadComplete()
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{
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base.LoadComplete();
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setClock();
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}
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private PlaybackState state;
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protected override bool RequiresChildrenUpdate => base.RequiresChildrenUpdate && state != PlaybackState.NotValid;
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private bool hasReplayAttached => ReplayInputHandler != null;
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private const double sixty_frame_time = 1000.0 / 60;
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private bool firstConsumption = true;
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public override bool UpdateSubTree()
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{
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int loops = MaxCatchUpFrames;
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do
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{
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// update clock is always trying to approach the aim time.
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// it should be provided as the original value each loop.
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updateClock();
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if (state == PlaybackState.NotValid)
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break;
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base.UpdateSubTree();
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UpdateSubTreeMasking(this, ScreenSpaceDrawQuad.AABBFloat);
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} while (state == PlaybackState.RequiresCatchUp && loops-- > 0);
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return true;
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}
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private void updateClock()
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{
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if (frameStableClock.WaitingOnFrames.Value)
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{
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// if waiting on frames, run one update loop to determine if frames have arrived.
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state = PlaybackState.Valid;
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}
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else if (frameStableClock.IsPaused.Value)
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{
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// time should not advance while paused, nor should anything run.
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state = PlaybackState.NotValid;
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return;
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}
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else
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{
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state = PlaybackState.Valid;
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}
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if (parentGameplayClock == null)
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setClock(); // LoadComplete may not be run yet, but we still want the clock.
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double proposedTime = parentGameplayClock.CurrentTime;
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if (FrameStablePlayback)
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// if we require frame stability, the proposed time will be adjusted to move at most one known
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// frame interval in the current direction.
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applyFrameStability(ref proposedTime);
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if (hasReplayAttached)
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{
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bool valid = updateReplay(ref proposedTime);
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if (!valid)
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state = PlaybackState.NotValid;
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}
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if (state == PlaybackState.Valid)
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direction = proposedTime >= manualClock.CurrentTime ? 1 : -1;
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double timeBehind = Math.Abs(proposedTime - parentGameplayClock.CurrentTime);
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frameStableClock.IsCatchingUp.Value = timeBehind > 200;
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frameStableClock.WaitingOnFrames.Value = state == PlaybackState.NotValid;
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manualClock.CurrentTime = proposedTime;
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manualClock.Rate = Math.Abs(parentGameplayClock.Rate) * direction;
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manualClock.IsRunning = parentGameplayClock.IsRunning;
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// determine whether catch-up is required.
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if (state == PlaybackState.Valid && timeBehind > 0)
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state = PlaybackState.RequiresCatchUp;
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// The manual clock time has changed in the above code. The framed clock now needs to be updated
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// to ensure that the its time is valid for our children before input is processed
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framedClock.ProcessFrame();
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}
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/// <summary>
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/// Attempt to advance replay playback for a given time.
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/// </summary>
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/// <param name="proposedTime">The time which is to be displayed.</param>
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/// <returns>Whether playback is still valid.</returns>
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private bool updateReplay(ref double proposedTime)
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{
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double? newTime;
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if (FrameStablePlayback)
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{
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// when stability is turned on, we shouldn't execute for time values the replay is unable to satisfy.
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newTime = ReplayInputHandler.SetFrameFromTime(proposedTime);
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}
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else
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{
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// when stability is disabled, we don't really care about accuracy.
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// looping over the replay will allow it to catch up and feed out the required values
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// for the current time.
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while ((newTime = ReplayInputHandler.SetFrameFromTime(proposedTime)) != proposedTime)
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{
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if (newTime == null)
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{
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// special case for when the replay actually can't arrive at the required time.
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// protects from potential endless loop.
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break;
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}
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}
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}
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if (newTime == null)
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return false;
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proposedTime = newTime.Value;
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return true;
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}
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/// <summary>
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/// Apply frame stability modifier to a time.
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/// </summary>
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/// <param name="proposedTime">The time which is to be displayed.</param>
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private void applyFrameStability(ref double proposedTime)
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{
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if (firstConsumption)
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{
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// On the first update, frame-stability seeking would result in unexpected/unwanted behaviour.
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// Instead we perform an initial seek to the proposed time.
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// process frame (in addition to finally clause) to clear out ElapsedTime
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manualClock.CurrentTime = proposedTime;
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framedClock.ProcessFrame();
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firstConsumption = false;
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return;
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}
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if (manualClock.CurrentTime < gameplayStartTime)
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manualClock.CurrentTime = proposedTime = Math.Min(gameplayStartTime, proposedTime);
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else if (Math.Abs(manualClock.CurrentTime - proposedTime) > sixty_frame_time * 1.2f)
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{
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proposedTime = proposedTime > manualClock.CurrentTime
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? Math.Min(proposedTime, manualClock.CurrentTime + sixty_frame_time)
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: Math.Max(proposedTime, manualClock.CurrentTime - sixty_frame_time);
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}
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}
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private void setClock()
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{
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if (parentGameplayClock == null)
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{
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// in case a parent gameplay clock isn't available, just use the parent clock.
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parentGameplayClock ??= Clock;
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}
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else
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{
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Clock = frameStableClock;
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}
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}
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public ReplayInputHandler ReplayInputHandler { get; set; }
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private enum PlaybackState
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{
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/// <summary>
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/// Playback is not possible. Child hierarchy should not be processed.
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/// </summary>
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NotValid,
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/// <summary>
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/// Playback is running behind real-time. Catch-up will be attempted by processing more than once per
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/// game loop (limited to a sane maximum to avoid frame drops).
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/// </summary>
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RequiresCatchUp,
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/// <summary>
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/// In a valid state, progressing one child hierarchy loop per game loop.
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/// </summary>
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Valid
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}
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private class FrameStabilityClock : GameplayClock, IFrameStableClock
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{
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public GameplayClock ParentGameplayClock;
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public readonly Bindable<bool> IsCatchingUp = new Bindable<bool>();
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public readonly Bindable<bool> WaitingOnFrames = new Bindable<bool>();
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public override IEnumerable<Bindable<double>> NonGameplayAdjustments => ParentGameplayClock?.NonGameplayAdjustments ?? Enumerable.Empty<Bindable<double>>();
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public FrameStabilityClock(FramedClock underlyingClock)
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: base(underlyingClock)
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{
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}
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IBindable<bool> IFrameStableClock.IsCatchingUp => IsCatchingUp;
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IBindable<bool> IFrameStableClock.WaitingOnFrames => WaitingOnFrames;
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}
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}
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}
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