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osu-lazer/osu.Game.Rulesets.Osu.Tests/TestSceneSliderSnaking.cs

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// 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;
using System.Linq;
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using Humanizer;
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using NUnit.Framework;
using osu.Framework.Allocation;
using osu.Framework.Audio;
using osu.Framework.Bindables;
using osu.Framework.Graphics.Containers;
using osu.Framework.Testing;
using osu.Framework.Timing;
using osu.Framework.Utils;
using osu.Game.Beatmaps;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Objects.Types;
using osu.Game.Rulesets.Osu.Configuration;
using osu.Game.Rulesets.Osu.Objects;
using osu.Game.Rulesets.Osu.Objects.Drawables;
using osu.Game.Rulesets.Osu.Objects.Drawables.Pieces;
using osu.Game.Storyboards;
using osuTK;
namespace osu.Game.Rulesets.Osu.Tests
{
[TestFixture]
public class TestSceneSliderSnaking : TestSceneOsuPlayer
{
[Resolved]
private AudioManager audioManager { get; set; }
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protected override bool Autoplay => autoplay;
private bool autoplay;
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private readonly BindableBool snakingIn = new BindableBool();
private readonly BindableBool snakingOut = new BindableBool();
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private const double duration_of_span = 3605;
private const double fade_in_modifier = -1200;
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protected override WorkingBeatmap CreateWorkingBeatmap(IBeatmap beatmap, Storyboard storyboard = null)
=> new ClockBackedTestWorkingBeatmap(beatmap, storyboard, new FramedClock(new ManualClock { Rate = 1 }), audioManager);
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[BackgroundDependencyLoader]
private void load(RulesetConfigCache configCache)
{
var config = (OsuRulesetConfigManager)configCache.GetConfigFor(Ruleset.Value.CreateInstance());
config.BindWith(OsuRulesetSetting.SnakingInSliders, snakingIn);
config.BindWith(OsuRulesetSetting.SnakingOutSliders, snakingOut);
}
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private DrawableSlider drawableSlider;
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[SetUpSteps]
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public override void SetUpSteps()
{
}
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[TestCase(0)]
[TestCase(1)]
[TestCase(2)]
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public void TestSnakingEnabled(int sliderIndex)
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{
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AddStep("enable autoplay", () => autoplay = true);
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base.SetUpSteps();
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AddUntilStep("wait for track to start running", () => Beatmap.Value.Track.IsRunning);
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double startTime = hitObjects[sliderIndex].StartTime;
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addSeekStep(startTime);
retrieveDrawableSlider((Slider)hitObjects[sliderIndex]);
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setSnaking(true);
ensureSnakingIn(startTime + fade_in_modifier);
for (int i = 0; i < sliderIndex; i++)
{
// non-final repeats should not snake out
ensureNoSnakingOut(startTime, i);
}
// final repeat should snake out
ensureSnakingOut(startTime, sliderIndex);
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}
[TestCase(0)]
[TestCase(1)]
[TestCase(2)]
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public void TestSnakingDisabled(int sliderIndex)
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{
AddStep("have autoplay", () => autoplay = true);
base.SetUpSteps();
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AddUntilStep("wait for track to start running", () => Beatmap.Value.Track.IsRunning);
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double startTime = hitObjects[sliderIndex].StartTime;
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addSeekStep(startTime);
retrieveDrawableSlider((Slider)hitObjects[sliderIndex]);
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setSnaking(false);
ensureNoSnakingIn(startTime + fade_in_modifier);
for (int i = 0; i <= sliderIndex; i++)
{
// no snaking out ever, including final repeat
ensureNoSnakingOut(startTime, i);
}
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}
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[Test]
public void TestRepeatArrowDoesNotMoveWhenHit()
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{
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AddStep("enable autoplay", () => autoplay = true);
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setSnaking(true);
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base.SetUpSteps();
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// repeat might have a chance to update its position depending on where in the frame its hit,
// so some leniency is allowed here instead of checking strict equality
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checkPositionChange(16600, sliderRepeat, positionAlmostSame);
}
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[Test]
public void TestRepeatArrowMovesWhenNotHit()
{
AddStep("disable autoplay", () => autoplay = false);
setSnaking(true);
base.SetUpSteps();
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checkPositionChange(16600, sliderRepeat, positionDecreased);
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}
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private void retrieveDrawableSlider(Slider slider) => AddUntilStep($"retrieve slider @ {slider.StartTime}", () =>
(drawableSlider = (DrawableSlider)Player.DrawableRuleset.Playfield.AllHitObjects.SingleOrDefault(d => d.HitObject == slider)) != null);
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private void ensureSnakingIn(double startTime) => checkPositionChange(startTime, sliderEnd, positionIncreased);
private void ensureNoSnakingIn(double startTime) => checkPositionChange(startTime, sliderEnd, positionRemainsSame);
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private void ensureSnakingOut(double startTime, int repeatIndex)
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{
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var repeatTime = timeAtRepeat(startTime, repeatIndex);
if (repeatIndex % 2 == 0)
checkPositionChange(repeatTime, sliderStart, positionIncreased);
else
checkPositionChange(repeatTime, sliderEnd, positionDecreased);
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}
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private void ensureNoSnakingOut(double startTime, int repeatIndex) =>
checkPositionChange(timeAtRepeat(startTime, repeatIndex), positionAtRepeat(repeatIndex), positionRemainsSame);
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private double timeAtRepeat(double startTime, int repeatIndex) => startTime + 100 + duration_of_span * repeatIndex;
private Func<Vector2> positionAtRepeat(int repeatIndex) => repeatIndex % 2 == 0 ? (Func<Vector2>)sliderStart : sliderEnd;
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private List<Vector2> sliderCurve => ((PlaySliderBody)drawableSlider.Body.Drawable).CurrentCurve;
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private Vector2 sliderStart() => sliderCurve.First();
private Vector2 sliderEnd() => sliderCurve.Last();
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private Vector2 sliderRepeat()
{
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var drawable = Player.DrawableRuleset.Playfield.AllHitObjects.SingleOrDefault(d => d.HitObject == hitObjects[1]);
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var repeat = drawable.ChildrenOfType<Container<DrawableSliderRepeat>>().First().Children.First();
return repeat.Position;
}
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private bool positionRemainsSame(Vector2 previous, Vector2 current) => previous == current;
private bool positionIncreased(Vector2 previous, Vector2 current) => current.X > previous.X && current.Y > previous.Y;
private bool positionDecreased(Vector2 previous, Vector2 current) => current.X < previous.X && current.Y < previous.Y;
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private bool positionAlmostSame(Vector2 previous, Vector2 current) => Precision.AlmostEquals(previous, current, 1);
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private void checkPositionChange(double startTime, Func<Vector2> positionToCheck, Func<Vector2, Vector2, bool> positionAssertion)
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{
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Vector2 previousPosition = Vector2.Zero;
string positionDescription = positionToCheck.Method.Name.Humanize(LetterCasing.LowerCase);
string assertionDescription = positionAssertion.Method.Name.Humanize(LetterCasing.LowerCase);
addSeekStep(startTime);
AddStep($"save {positionDescription} position", () => previousPosition = positionToCheck.Invoke());
addSeekStep(startTime + 100);
AddAssert($"{positionDescription} {assertionDescription}", () =>
{
var currentPosition = positionToCheck.Invoke();
return positionAssertion.Invoke(previousPosition, currentPosition);
});
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}
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private void setSnaking(bool value)
{
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AddStep($"{(value ? "enable" : "disable")} snaking", () =>
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{
snakingIn.Value = value;
snakingOut.Value = value;
});
}
private void addSeekStep(double time)
{
AddStep($"seek to {time}", () => MusicController.SeekTo(time));
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AddUntilStep("wait for seek to finish", () => Precision.AlmostEquals(time, Player.DrawableRuleset.FrameStableClock.CurrentTime, 100));
}
protected override IBeatmap CreateBeatmap(RulesetInfo ruleset) => new Beatmap
{
HitObjects = hitObjects
};
private readonly List<HitObject> hitObjects = new List<HitObject>
{
new Slider
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{
StartTime = 3000,
Position = new Vector2(100, 100),
Path = new SliderPath(PathType.PerfectCurve, new[]
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{
Vector2.Zero,
new Vector2(300, 200)
}),
},
new Slider
{
StartTime = 13000,
Position = new Vector2(100, 100),
Path = new SliderPath(PathType.PerfectCurve, new[]
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{
Vector2.Zero,
new Vector2(300, 200)
}),
RepeatCount = 1,
},
new Slider
{
StartTime = 23000,
Position = new Vector2(100, 100),
Path = new SliderPath(PathType.PerfectCurve, new[]
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{
Vector2.Zero,
new Vector2(300, 200)
}),
RepeatCount = 2,
},
new HitCircle
{
StartTime = 199999,
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}
};
}
}