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osu-lazer/osu.Game.Tests/Visual/Gameplay/TestScenePoolingRuleset.cs

606 lines
23 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 System.Collections.Generic;
using System.Linq;
using System.Threading;
using NUnit.Framework;
using osu.Framework.Allocation;
using osu.Framework.Graphics;
using osu.Framework.Graphics.Containers;
using osu.Framework.Graphics.Shapes;
using osu.Framework.Input;
using osu.Framework.Testing;
using osu.Framework.Timing;
using osu.Framework.Utils;
using osu.Game.Beatmaps;
using osu.Game.Rulesets;
using osu.Game.Rulesets.Difficulty;
using osu.Game.Rulesets.Mods;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Objects.Drawables;
using osu.Game.Rulesets.Objects.Legacy;
using osu.Game.Rulesets.Objects.Types;
using osu.Game.Rulesets.UI;
using osuTK;
using osuTK.Graphics;
namespace osu.Game.Tests.Visual.Gameplay
{
public partial class TestScenePoolingRuleset : OsuTestScene
{
private const double time_between_objects = 1000;
private TestDrawablePoolingRuleset drawableRuleset;
private TestPlayfield playfield => (TestPlayfield)drawableRuleset.Playfield;
[Test]
public void TestReusedWithHitObjectsSpacedFarApart()
{
ManualClock clock = null;
createTest(new Beatmap
{
HitObjects =
{
new HitObject(),
new HitObject { StartTime = time_between_objects }
}
}, 1, () => new FramedClock(clock = new ManualClock()));
DrawableTestHitObject firstObject = null;
AddUntilStep("first object shown", () => this.ChildrenOfType<DrawableTestHitObject>().SingleOrDefault()?.HitObject == drawableRuleset.Beatmap.HitObjects[0]);
AddStep("get DHO", () => firstObject = this.ChildrenOfType<DrawableTestHitObject>().Single());
AddStep("fast forward to second object", () => clock.CurrentTime = drawableRuleset.Beatmap.HitObjects[1].StartTime);
AddUntilStep("second object shown", () => this.ChildrenOfType<DrawableTestHitObject>().SingleOrDefault()?.HitObject == drawableRuleset.Beatmap.HitObjects[1]);
AddAssert("DHO reused", () => this.ChildrenOfType<DrawableTestHitObject>().Single() == firstObject);
}
[Test]
public void TestCustomTransformsClearedBetweenReuses()
{
ManualClock clock = null;
createTest(new Beatmap
{
HitObjects =
{
new HitObject(),
new HitObject { StartTime = 2000 }
}
}, 1, () => new FramedClock(clock = new ManualClock()));
DrawableTestHitObject firstObject = null;
Vector2 position = default;
AddUntilStep("first object shown", () => this.ChildrenOfType<DrawableTestHitObject>().SingleOrDefault()?.HitObject == drawableRuleset.Beatmap.HitObjects[0]);
AddStep("get DHO", () => firstObject = this.ChildrenOfType<DrawableTestHitObject>().Single());
AddStep("store position", () => position = firstObject.Position);
AddStep("add custom transform", () => firstObject.ApplyCustomUpdateState += onStateUpdate);
AddStep("fast forward past first object", () => clock.CurrentTime = 1500);
AddStep("unapply custom transform", () => firstObject.ApplyCustomUpdateState -= onStateUpdate);
AddStep("fast forward to second object", () => clock.CurrentTime = drawableRuleset.Beatmap.HitObjects[1].StartTime);
AddUntilStep("second object shown", () => this.ChildrenOfType<DrawableTestHitObject>().SingleOrDefault()?.HitObject == drawableRuleset.Beatmap.HitObjects[1]);
AddAssert("DHO reused", () => this.ChildrenOfType<DrawableTestHitObject>().Single() == firstObject);
AddAssert("object in new position", () => firstObject.Position != position);
void onStateUpdate(DrawableHitObject hitObject, ArmedState state)
{
using (hitObject.BeginAbsoluteSequence(hitObject.StateUpdateTime))
hitObject.MoveToOffset(new Vector2(-100, 0));
}
}
[Test]
public void TestNotReusedWithHitObjectsSpacedClose()
{
ManualClock clock = null;
createTest(new Beatmap
{
HitObjects =
{
new HitObject(),
new HitObject { StartTime = 250 }
}
}, 2, () => new FramedClock(clock = new ManualClock()));
AddStep("fast forward to second object", () => clock.CurrentTime = drawableRuleset.Beatmap.HitObjects[1].StartTime);
AddUntilStep("two DHOs shown", () => this.ChildrenOfType<DrawableTestHitObject>().Count() == 2);
AddAssert("DHOs have different hitobjects",
() => this.ChildrenOfType<DrawableTestHitObject>().ElementAt(0).HitObject != this.ChildrenOfType<DrawableTestHitObject>().ElementAt(1).HitObject);
}
[Test]
public void TestManyHitObjects()
{
var beatmap = new Beatmap();
for (int i = 0; i < 500; i++)
beatmap.HitObjects.Add(new HitObject { StartTime = i * 10 });
createTest(beatmap, 100);
AddUntilStep("any DHOs shown", () => this.ChildrenOfType<DrawableTestHitObject>().Any());
AddUntilStep("no DHOs shown", () => !this.ChildrenOfType<DrawableTestHitObject>().Any());
}
[Test]
public void TestRevertResult()
{
ManualClock clock = null;
Beatmap beatmap;
createTest(beatmap = new Beatmap
{
HitObjects =
{
new TestHitObject { StartTime = 0 },
new TestHitObject { StartTime = 500 },
new TestHitObject { StartTime = 1000 },
}
}, 10, () => new FramedClock(clock = new ManualClock()));
AddStep("fast forward to end", () => clock.CurrentTime = beatmap.HitObjects[^1].GetEndTime() + 100);
AddUntilStep("all judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(3));
AddStep("rewind to middle", () => clock.CurrentTime = beatmap.HitObjects[1].StartTime - 100);
AddUntilStep("some results reverted", () => playfield.JudgedObjects.Count, () => Is.EqualTo(1));
AddStep("fast forward to end", () => clock.CurrentTime = beatmap.HitObjects[^1].GetEndTime() + 100);
AddUntilStep("all judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(3));
AddStep("disable frame stability", () => drawableRuleset.FrameStablePlayback = false);
AddStep("instant seek to start", () => clock.CurrentTime = beatmap.HitObjects[0].StartTime - 100);
AddAssert("all results reverted", () => playfield.JudgedObjects.Count, () => Is.EqualTo(0));
}
[Test]
public void TestRevertNestedObjects()
{
ManualClock clock = null;
var beatmap = new Beatmap();
beatmap.HitObjects.Add(new TestHitObjectWithNested
{
Duration = 40,
NestedObjects = new HitObject[]
{
new PooledNestedHitObject { StartTime = 10 },
new PooledNestedHitObject { StartTime = 20 },
new PooledNestedHitObject { StartTime = 30 }
}
});
createTest(beatmap, 10, () => new FramedClock(clock = new ManualClock()));
AddStep("skip to middle of object", () => clock.CurrentTime = (beatmap.HitObjects[0].StartTime + beatmap.HitObjects[0].GetEndTime()) / 2);
AddAssert("2 objects judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(2));
AddStep("skip to before end of object", () => clock.CurrentTime = beatmap.HitObjects[0].GetEndTime() - 1);
AddAssert("3 objects judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(3));
DrawableHitObject drawableHitObject = null;
HashSet<HitObject> revertedHitObjects = new HashSet<HitObject>();
AddStep("retrieve drawable hit object", () => drawableHitObject = playfield.ChildrenOfType<DrawableTestHitObjectWithNested>().Single());
AddStep("set up revert tracking", () =>
{
revertedHitObjects.Clear();
drawableHitObject.OnRevertResult += (ho, _) => revertedHitObjects.Add(ho.HitObject);
});
AddStep("skip back to object start", () => clock.CurrentTime = beatmap.HitObjects[0].StartTime);
AddAssert("3 reverts fired", () => revertedHitObjects, () => Has.Count.EqualTo(3));
AddAssert("no objects judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(0));
}
[Test]
public void TestApplyHitResultOnKilled()
{
ManualClock clock = null;
var beatmap = new Beatmap();
beatmap.HitObjects.Add(new TestKilledHitObject { Duration = 20 });
createTest(beatmap, 10, () => new FramedClock(clock = new ManualClock()));
AddStep("skip past object", () => clock.CurrentTime = beatmap.HitObjects[0].GetEndTime() + 1000);
AddAssert("object judged", () => playfield.JudgedObjects.Count == 1);
}
[Test]
public void TestPooledObjectWithNonPooledNesteds()
{
ManualClock clock = null;
TestHitObjectWithNested hitObjectWithNested;
var beatmap = new Beatmap();
beatmap.HitObjects.Add(hitObjectWithNested = new TestHitObjectWithNested
{
Duration = 40,
NestedObjects = new HitObject[]
{
new PooledNestedHitObject { StartTime = 10 },
new NonPooledNestedHitObject { StartTime = 20 },
new NonPooledNestedHitObject { StartTime = 30 }
}
});
createTest(beatmap, 10, () => new FramedClock(clock = new ManualClock()));
AddAssert("hitobject entry has all nesteds", () => playfield.HitObjectContainer.Entries.Single().NestedEntries, () => Has.Count.EqualTo(3));
AddStep("skip to middle of object", () => clock.CurrentTime = (hitObjectWithNested.StartTime + hitObjectWithNested.GetEndTime()) / 2);
AddAssert("2 objects judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(2));
AddAssert("entry not all judged", () => playfield.HitObjectContainer.Entries.Single().AllJudged, () => Is.False);
AddStep("skip to before end of object", () => clock.CurrentTime = hitObjectWithNested.GetEndTime() - 1);
AddAssert("3 objects judged", () => playfield.JudgedObjects.Count, () => Is.EqualTo(3));
AddAssert("entry not all judged", () => playfield.HitObjectContainer.Entries.Single().AllJudged, () => Is.False);
AddStep("removing object doesn't crash", () => playfield.Remove(hitObjectWithNested));
AddStep("clear judged", () => playfield.JudgedObjects.Clear());
AddStep("add object back", () => playfield.Add(hitObjectWithNested));
AddAssert("entry not all judged", () => playfield.HitObjectContainer.Entries.Single().AllJudged, () => Is.False);
AddStep("skip to long past object", () => clock.CurrentTime = 100_000);
// the parent entry should still be linked to nested entries of pooled objects that are managed externally
// but not contain synthetic entries that were created for the non-pooled objects.
AddAssert("entry still has non-synthetic nested entries", () => playfield.HitObjectContainer.Entries.Single().NestedEntries, () => Has.Count.EqualTo(1));
AddAssert("entry all judged", () => playfield.HitObjectContainer.Entries.Single().AllJudged, () => Is.True);
}
private void createTest(IBeatmap beatmap, int poolSize, Func<IFrameBasedClock> createClock = null)
{
AddStep("create test", () =>
{
var ruleset = new TestPoolingRuleset();
drawableRuleset = (TestDrawablePoolingRuleset)ruleset.CreateDrawableRulesetWith(CreateWorkingBeatmap(beatmap).GetPlayableBeatmap(ruleset.RulesetInfo));
drawableRuleset.FrameStablePlayback = true;
drawableRuleset.PoolSize = poolSize;
Child = new Container
{
RelativeSizeAxes = Axes.Both,
Clock = createClock?.Invoke() ?? new FramedOffsetClock(Clock, false) { Offset = -Clock.CurrentTime },
Child = drawableRuleset
};
});
}
#region Ruleset
private class TestPoolingRuleset : Ruleset
{
public override IEnumerable<Mod> GetModsFor(ModType type) => throw new NotImplementedException();
public override DrawableRuleset CreateDrawableRulesetWith(IBeatmap beatmap, IReadOnlyList<Mod> mods = null) => new TestDrawablePoolingRuleset(this, beatmap, mods);
public override IBeatmapConverter CreateBeatmapConverter(IBeatmap beatmap) => new TestBeatmapConverter(beatmap, this);
public override DifficultyCalculator CreateDifficultyCalculator(IWorkingBeatmap beatmap) => throw new NotImplementedException();
public override string Description { get; } = string.Empty;
public override string ShortName { get; } = string.Empty;
}
private partial class TestDrawablePoolingRuleset : DrawableRuleset<TestHitObject>
{
public int PoolSize;
public TestDrawablePoolingRuleset(Ruleset ruleset, IBeatmap beatmap, IReadOnlyList<Mod> mods = null)
: base(ruleset, beatmap, mods)
{
}
public override DrawableHitObject<TestHitObject> CreateDrawableRepresentation(TestHitObject h) => null;
protected override PassThroughInputManager CreateInputManager() => new PassThroughInputManager();
protected override Playfield CreatePlayfield() => new TestPlayfield(PoolSize);
}
private partial class TestPlayfield : Playfield
{
public readonly HashSet<HitObject> JudgedObjects = new HashSet<HitObject>();
private readonly int poolSize;
public TestPlayfield(int poolSize)
{
this.poolSize = poolSize;
AddInternal(HitObjectContainer);
NewResult += (_, r) =>
{
Assert.That(JudgedObjects, Has.No.Member(r.HitObject));
JudgedObjects.Add(r.HitObject);
};
RevertResult += r =>
{
Assert.That(JudgedObjects, Has.Member(r.HitObject));
JudgedObjects.Remove(r.HitObject);
};
}
[BackgroundDependencyLoader]
private void load()
{
RegisterPool<TestHitObject, DrawableTestHitObject>(poolSize);
RegisterPool<TestKilledHitObject, DrawableTestKilledHitObject>(poolSize);
RegisterPool<TestHitObjectWithNested, DrawableTestHitObjectWithNested>(poolSize);
RegisterPool<PooledNestedHitObject, DrawableNestedHitObject>(poolSize);
}
protected override HitObjectLifetimeEntry CreateLifetimeEntry(HitObject hitObject) => new TestHitObjectLifetimeEntry(hitObject);
protected override GameplayCursorContainer CreateCursor() => null;
}
private class TestHitObjectLifetimeEntry : HitObjectLifetimeEntry
{
public TestHitObjectLifetimeEntry(HitObject hitObject)
: base(hitObject)
{
}
protected override double InitialLifetimeOffset => 0;
}
private class TestBeatmapConverter : BeatmapConverter<TestHitObject>
{
public TestBeatmapConverter(IBeatmap beatmap, Ruleset ruleset)
: base(beatmap, ruleset)
{
}
public override bool CanConvert() => true;
protected override IEnumerable<TestHitObject> ConvertHitObject(HitObject original, IBeatmap beatmap, CancellationToken cancellationToken)
{
switch (original)
{
case TestKilledHitObject h:
yield return h;
break;
default:
yield return new TestHitObject
{
StartTime = original.StartTime,
Duration = 250
};
break;
}
}
}
#endregion
#region HitObjects
private class TestHitObject : ConvertHitObject, IHasDuration
{
public double EndTime => StartTime + Duration;
public double Duration { get; set; }
}
private partial class DrawableTestHitObject : DrawableHitObject<TestHitObject>
{
public DrawableTestHitObject()
: base(null)
{
Anchor = Anchor.Centre;
Origin = Anchor.Centre;
Size = new Vector2(50, 50);
Colour = new Color4(RNG.NextSingle(), RNG.NextSingle(), RNG.NextSingle(), 1f);
}
[BackgroundDependencyLoader]
private void load()
{
AddInternal(new Circle
{
RelativeSizeAxes = Axes.Both,
});
}
protected override void OnApply()
{
base.OnApply();
Position = new Vector2(RNG.Next(-200, 200), RNG.Next(-200, 200));
}
protected override void CheckForResult(bool userTriggered, double timeOffset)
{
if (timeOffset > HitObject.Duration)
ApplyResult(r => r.Type = r.Judgement.MaxResult);
}
protected override void UpdateHitStateTransforms(ArmedState state)
{
base.UpdateHitStateTransforms(state);
switch (state)
{
case ArmedState.Hit:
case ArmedState.Miss:
this.FadeOut(250);
break;
}
}
}
private class TestKilledHitObject : TestHitObject
{
}
private partial class DrawableTestKilledHitObject : DrawableHitObject<TestKilledHitObject>
{
public DrawableTestKilledHitObject()
: base(null)
{
}
protected override void UpdateHitStateTransforms(ArmedState state)
{
base.UpdateHitStateTransforms(state);
Expire();
}
public override void OnKilled()
{
base.OnKilled();
ApplyResult(r => r.Type = r.Judgement.MinResult);
}
}
private class TestHitObjectWithNested : TestHitObject
{
public IEnumerable<HitObject> NestedObjects { get; init; } = Array.Empty<HitObject>();
protected override void CreateNestedHitObjects(CancellationToken cancellationToken)
{
base.CreateNestedHitObjects(cancellationToken);
foreach (var ho in NestedObjects)
AddNested(ho);
}
}
private class PooledNestedHitObject : ConvertHitObject
{
}
private class NonPooledNestedHitObject : ConvertHitObject
{
}
private partial class DrawableTestHitObjectWithNested : DrawableHitObject<TestHitObjectWithNested>
{
private Container nestedContainer;
public DrawableTestHitObjectWithNested()
: base(null)
{
}
[BackgroundDependencyLoader]
private void load()
{
AddRangeInternal(new Drawable[]
{
new Circle
{
RelativeSizeAxes = Axes.Both,
Colour = Colour4.Red
},
nestedContainer = new Container
{
RelativeSizeAxes = Axes.Both
}
});
}
protected override void OnApply()
{
base.OnApply();
Size = new Vector2(200, 50);
Anchor = Anchor.Centre;
Origin = Anchor.Centre;
}
protected override void AddNestedHitObject(DrawableHitObject hitObject)
{
base.AddNestedHitObject(hitObject);
nestedContainer.Add(hitObject);
}
protected override void ClearNestedHitObjects()
{
base.ClearNestedHitObjects();
nestedContainer.Clear(false);
}
protected override DrawableHitObject CreateNestedHitObject(HitObject hitObject)
=> hitObject is NonPooledNestedHitObject nonPooled ? new DrawableNestedHitObject(nonPooled) : null;
protected override void CheckForResult(bool userTriggered, double timeOffset)
{
base.CheckForResult(userTriggered, timeOffset);
if (timeOffset >= 0)
ApplyResult(r => r.Type = r.Judgement.MaxResult);
}
}
private partial class DrawableNestedHitObject : DrawableHitObject
{
public DrawableNestedHitObject()
{
}
public DrawableNestedHitObject(PooledNestedHitObject hitObject)
: base(hitObject)
{
}
public DrawableNestedHitObject(NonPooledNestedHitObject hitObject)
: base(hitObject)
{
}
[BackgroundDependencyLoader]
private void load()
{
Size = new Vector2(15);
Colour = Colour4.White;
RelativePositionAxes = Axes.Both;
Origin = Anchor.Centre;
AddInternal(new Circle
{
RelativeSizeAxes = Axes.Both,
});
}
protected override void OnApply()
{
base.OnApply();
X = (float)((HitObject.StartTime - ParentHitObject!.HitObject.StartTime) / (ParentHitObject.HitObject.GetEndTime() - ParentHitObject.HitObject.StartTime));
Y = 0.5f;
LifetimeStart = ParentHitObject.LifetimeStart;
LifetimeEnd = ParentHitObject.LifetimeEnd;
}
protected override void CheckForResult(bool userTriggered, double timeOffset)
{
base.CheckForResult(userTriggered, timeOffset);
if (timeOffset >= 0)
ApplyResult(r => r.Type = r.Judgement.MaxResult);
}
}
#endregion
}
}