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osu-lazer/osu.Game.Tests/OnlinePlay/TestSceneCatchUpSyncManager.cs
2022-06-17 16:37:17 +09:00

220 lines
7.3 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.
#nullable disable
using System;
using NUnit.Framework;
using osu.Framework.Bindables;
using osu.Framework.Testing;
using osu.Framework.Timing;
using osu.Game.Screens.OnlinePlay.Multiplayer.Spectate;
using osu.Game.Tests.Visual;
namespace osu.Game.Tests.OnlinePlay
{
[HeadlessTest]
public class TestSceneCatchUpSyncManager : OsuTestScene
{
private TestManualClock master;
private CatchUpSyncManager syncManager;
private TestSpectatorPlayerClock player1;
private TestSpectatorPlayerClock player2;
[SetUp]
public void Setup()
{
syncManager = new CatchUpSyncManager(master = new TestManualClock());
syncManager.AddPlayerClock(player1 = new TestSpectatorPlayerClock(1));
syncManager.AddPlayerClock(player2 = new TestSpectatorPlayerClock(2));
Schedule(() => Child = syncManager);
}
[Test]
public void TestPlayerClocksStartWhenAllHaveFrames()
{
setWaiting(() => player1, false);
assertPlayerClockState(() => player1, false);
assertPlayerClockState(() => player2, false);
setWaiting(() => player2, false);
assertPlayerClockState(() => player1, true);
assertPlayerClockState(() => player2, true);
}
[Test]
public void TestReadyPlayersStartWhenReadyForMaximumDelayTime()
{
setWaiting(() => player1, false);
AddWaitStep($"wait {CatchUpSyncManager.MAXIMUM_START_DELAY} milliseconds", (int)Math.Ceiling(CatchUpSyncManager.MAXIMUM_START_DELAY / TimePerAction));
assertPlayerClockState(() => player1, true);
assertPlayerClockState(() => player2, false);
}
[Test]
public void TestPlayerClockDoesNotCatchUpWhenSlightlyOutOfSync()
{
setAllWaiting(false);
setMasterTime(CatchUpSyncManager.SYNC_TARGET + 1);
assertCatchingUp(() => player1, false);
}
[Test]
public void TestPlayerClockStartsCatchingUpWhenTooFarBehind()
{
setAllWaiting(false);
setMasterTime(CatchUpSyncManager.MAX_SYNC_OFFSET + 1);
assertCatchingUp(() => player1, true);
assertCatchingUp(() => player2, true);
}
[Test]
public void TestPlayerClockKeepsCatchingUpWhenSlightlyOutOfSync()
{
setAllWaiting(false);
setMasterTime(CatchUpSyncManager.MAX_SYNC_OFFSET + 1);
setPlayerClockTime(() => player1, CatchUpSyncManager.SYNC_TARGET + 1);
assertCatchingUp(() => player1, true);
}
[Test]
public void TestPlayerClockStopsCatchingUpWhenInSync()
{
setAllWaiting(false);
setMasterTime(CatchUpSyncManager.MAX_SYNC_OFFSET + 2);
setPlayerClockTime(() => player1, CatchUpSyncManager.SYNC_TARGET);
assertCatchingUp(() => player1, false);
assertCatchingUp(() => player2, true);
}
[Test]
public void TestPlayerClockDoesNotStopWhenSlightlyAhead()
{
setAllWaiting(false);
setPlayerClockTime(() => player1, -CatchUpSyncManager.SYNC_TARGET);
assertCatchingUp(() => player1, false);
assertPlayerClockState(() => player1, true);
}
[Test]
public void TestPlayerClockStopsWhenTooFarAheadAndStartsWhenBackInSync()
{
setAllWaiting(false);
setPlayerClockTime(() => player1, -CatchUpSyncManager.SYNC_TARGET - 1);
// This is a silent catchup, where IsCatchingUp = false but IsRunning = false also.
assertCatchingUp(() => player1, false);
assertPlayerClockState(() => player1, false);
setMasterTime(1);
assertCatchingUp(() => player1, false);
assertPlayerClockState(() => player1, true);
}
[Test]
public void TestInSyncPlayerClockDoesNotStartIfWaitingOnFrames()
{
setAllWaiting(false);
assertPlayerClockState(() => player1, true);
setWaiting(() => player1, true);
assertPlayerClockState(() => player1, false);
}
private void setWaiting(Func<TestSpectatorPlayerClock> playerClock, bool waiting)
=> AddStep($"set player clock {playerClock().Id} waiting = {waiting}", () => playerClock().WaitingOnFrames.Value = waiting);
private void setAllWaiting(bool waiting) => AddStep($"set all player clocks waiting = {waiting}", () =>
{
player1.WaitingOnFrames.Value = waiting;
player2.WaitingOnFrames.Value = waiting;
});
private void setMasterTime(double time)
=> AddStep($"set master = {time}", () => master.Seek(time));
/// <summary>
/// clock.Time = master.Time - offsetFromMaster
/// </summary>
private void setPlayerClockTime(Func<TestSpectatorPlayerClock> playerClock, double offsetFromMaster)
=> AddStep($"set player clock {playerClock().Id} = master - {offsetFromMaster}", () => playerClock().Seek(master.CurrentTime - offsetFromMaster));
private void assertCatchingUp(Func<TestSpectatorPlayerClock> playerClock, bool catchingUp) =>
AddAssert($"player clock {playerClock().Id} {(catchingUp ? "is" : "is not")} catching up", () => playerClock().IsCatchingUp == catchingUp);
private void assertPlayerClockState(Func<TestSpectatorPlayerClock> playerClock, bool running)
=> AddAssert($"player clock {playerClock().Id} {(running ? "is" : "is not")} running", () => playerClock().IsRunning == running);
private class TestSpectatorPlayerClock : TestManualClock, ISpectatorPlayerClock
{
public Bindable<bool> WaitingOnFrames { get; } = new Bindable<bool>(true);
public bool IsCatchingUp { get; set; }
public IFrameBasedClock Source
{
set => throw new NotImplementedException();
}
public readonly int Id;
public TestSpectatorPlayerClock(int id)
{
Id = id;
WaitingOnFrames.BindValueChanged(waiting =>
{
if (waiting.NewValue)
Stop();
else
Start();
});
}
public void ProcessFrame()
{
}
public double ElapsedFrameTime => 0;
public double FramesPerSecond => 0;
public FrameTimeInfo TimeInfo => default;
}
private class TestManualClock : ManualClock, IAdjustableClock
{
public TestManualClock()
{
IsRunning = true;
}
public void Start() => IsRunning = true;
public void Stop() => IsRunning = false;
public bool Seek(double position)
{
CurrentTime = position;
return true;
}
public void Reset()
{
}
public void ResetSpeedAdjustments()
{
}
}
}
}