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osu-lazer/osu.Game/Screens/Play/GameplayClockContainer.cs
Dean Herbert b9dadc52b7
Adjust comment to match current behaviour
Co-authored-by: Bartłomiej Dach <dach.bartlomiej@gmail.com>
2023-10-10 22:54:19 +09:00

205 lines
7.7 KiB
C#

// Copyright (c) ppy Pty Ltd <contact@ppy.sh>. Licensed under the MIT Licence.
// See the LICENCE file in the repository root for full licence text.
using System;
using osu.Framework.Allocation;
using osu.Framework.Audio;
using osu.Framework.Bindables;
using osu.Framework.Graphics;
using osu.Framework.Graphics.Containers;
using osu.Framework.Logging;
using osu.Framework.Timing;
using osu.Game.Beatmaps;
namespace osu.Game.Screens.Play
{
/// <summary>
/// Encapsulates gameplay timing logic and provides a <see cref="IGameplayClock"/> via DI for gameplay components to use.
/// </summary>
[Cached(typeof(IGameplayClock))]
public partial class GameplayClockContainer : Container, IAdjustableClock, IGameplayClock
{
public IBindable<bool> IsPaused => isPaused;
public bool IsRewinding => GameplayClock.IsRewinding;
/// <summary>
/// Invoked when a seek has been performed via <see cref="Seek"/>
/// </summary>
public event Action? OnSeek;
/// <summary>
/// The time from which the clock should start. Will be seeked to on calling <see cref="Reset"/>.
/// Can be adjusted by calling <see cref="Reset"/> with a time value.
/// </summary>
/// <remarks>
/// By default, a value of zero will be used.
/// Importantly, the value will be inferred from the current beatmap in <see cref="MasterGameplayClockContainer"/> by default.
/// </remarks>
public double StartTime { get; protected set; }
public IAdjustableAudioComponent AdjustmentsFromMods { get; } = new AudioAdjustments();
private readonly BindableBool isPaused = new BindableBool(true);
/// <summary>
/// The adjustable source clock used for gameplay. Should be used for seeks and clock control.
/// This is the final source exposed to gameplay components <see cref="IGameplayClock"/> via delegation in this class.
/// </summary>
protected readonly FramedBeatmapClock GameplayClock;
protected override Container<Drawable> Content { get; } = new Container { RelativeSizeAxes = Axes.Both };
/// <summary>
/// Creates a new <see cref="GameplayClockContainer"/>.
/// </summary>
/// <param name="sourceClock">The source <see cref="IClock"/> used for timing.</param>
/// <param name="applyOffsets">Whether to apply platform, user and beatmap offsets to the mix.</param>
/// <param name="requireDecoupling">Whether decoupling logic should be applied on the source clock.</param>
public GameplayClockContainer(IClock sourceClock, bool applyOffsets, bool requireDecoupling)
{
RelativeSizeAxes = Axes.Both;
InternalChildren = new Drawable[]
{
GameplayClock = new FramedBeatmapClock(applyOffsets, requireDecoupling, sourceClock),
Content
};
}
/// <summary>
/// Starts gameplay and marks un-paused state.
/// </summary>
public void Start()
{
if (!isPaused.Value)
return;
isPaused.Value = false;
PrepareStart();
// The case which caused this to be added is FrameStabilityContainer, which manages its own current and elapsed time.
// Because we generally update our own current time quicker than children can query it (via Start/Seek/Update),
// this means that the first frame ever exposed to children may have a non-zero current time.
//
// If the child component is not aware of the parent ElapsedFrameTime (which is the case for FrameStabilityContainer)
// they will take on the new CurrentTime with a zero elapsed time. This can in turn cause components to behave incorrectly
// if they are intending to trigger events at the precise StartTime (ie. DrawableStoryboardSample).
//
// By scheduling the start call, children are guaranteed to receive one frame at the original start time, allowing
// then to progress with a correct locally calculated elapsed time.
SchedulerAfterChildren.Add(() =>
{
if (isPaused.Value)
return;
StartGameplayClock();
});
}
/// <summary>
/// When <see cref="Start"/> is called, this will be run to give an opportunity to prepare the clock at the correct
/// start location.
/// </summary>
protected virtual void PrepareStart()
{
}
/// <summary>
/// Seek to a specific time in gameplay.
/// </summary>
/// <param name="time">The destination time to seek to.</param>
public virtual void Seek(double time)
{
Logger.Log($"{nameof(GameplayClockContainer)} seeking to {time}");
GameplayClock.Seek(time);
OnSeek?.Invoke();
}
/// <summary>
/// Stops gameplay and marks paused state.
/// </summary>
public void Stop()
{
if (isPaused.Value)
return;
isPaused.Value = true;
StopGameplayClock();
}
protected virtual void StartGameplayClock() => GameplayClock.Start();
protected virtual void StopGameplayClock() => GameplayClock.Stop();
/// <summary>
/// Resets this <see cref="GameplayClockContainer"/> and the source to an initial state ready for gameplay.
/// </summary>
/// <param name="time">The time to seek to on resetting. If <c>null</c>, the existing <see cref="StartTime"/> will be used.</param>
/// <param name="startClock">Whether to start the clock immediately. If <c>false</c> and the clock was already paused, the clock will remain paused after this call.
/// </param>
public void Reset(double? time = null, bool startClock = false)
{
bool wasPaused = isPaused.Value;
// The intention of the Reset method is to get things into a known sane state.
// As such, we intentionally stop the underlying clock directly here, bypassing Stop/StopGameplayClock.
// This is to avoid any kind of isPaused state checks and frequency ramping (as provided by MasterGameplayClockContainer).
GameplayClock.Stop();
if (time != null)
StartTime = time.Value;
Seek(StartTime);
if (!wasPaused || startClock)
Start();
}
/// <summary>
/// Changes the source clock.
/// </summary>
/// <param name="sourceClock">The new source.</param>
protected void ChangeSource(IClock sourceClock) => GameplayClock.ChangeSource(sourceClock);
#region IAdjustableClock
bool IAdjustableClock.Seek(double position)
{
Seek(position);
return true;
}
void IAdjustableClock.Reset() => Reset();
public virtual void ResetSpeedAdjustments()
{
}
double IAdjustableClock.Rate
{
get => GameplayClock.Rate;
set => throw new NotSupportedException();
}
public double Rate => GameplayClock.Rate;
public double CurrentTime => GameplayClock.CurrentTime;
public bool IsRunning => GameplayClock.IsRunning;
#endregion
public void ProcessFrame()
{
// Handled via update. Don't process here to safeguard from external usages potentially processing frames additional times.
}
public double ElapsedFrameTime => GameplayClock.ElapsedFrameTime;
public double FramesPerSecond => GameplayClock.FramesPerSecond;
}
}