1
0
mirror of https://github.com/ppy/osu.git synced 2024-11-07 05:27:51 +08:00
osu-lazer/osu.Game.Rulesets.Osu.Tests/Editor/TestSceneSliderStreamConversion.cs

223 lines
8.3 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.Linq;
using NUnit.Framework;
using osu.Framework.Utils;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Osu.Objects;
using osu.Game.Screens.Edit;
using osu.Game.Screens.Edit.Compose.Components;
using osuTK;
using osuTK.Input;
namespace osu.Game.Rulesets.Osu.Tests.Editor
{
public partial class TestSceneSliderStreamConversion : TestSceneOsuEditor
{
private BindableBeatDivisor beatDivisor => (BindableBeatDivisor)Editor.Dependencies.Get(typeof(BindableBeatDivisor));
[Test]
public void TestSimpleConversion()
{
Slider slider = null;
AddStep("select first slider", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.First(h => h is Slider);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 0.25, pathPosition: 0.25),
(time: 0.5, pathPosition: 0.5),
(time: 0.75, pathPosition: 0.75),
(time: 1, pathPosition: 1)));
AddStep("undo", () => Editor.Undo());
AddAssert("slider restored", () => sliderRestored(slider));
AddStep("select first slider", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.First(h => h is Slider);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
AddStep("change beat divisor", () => beatDivisor.Value = 8);
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 0.125, pathPosition: 0.125),
(time: 0.25, pathPosition: 0.25),
(time: 0.375, pathPosition: 0.375),
(time: 0.5, pathPosition: 0.5),
(time: 0.625, pathPosition: 0.625),
(time: 0.75, pathPosition: 0.75),
(time: 0.875, pathPosition: 0.875),
(time: 1, pathPosition: 1)));
}
[Test]
public void TestConversionWithNonMatchingDivisor()
{
Slider slider = null;
AddStep("select second slider", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.Where(h => h is Slider).ElementAt(1);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
AddStep("change beat divisor", () =>
{
beatDivisor.ValidDivisors.Value = BeatDivisorPresetCollection.TRIPLETS;
beatDivisor.Value = 3;
});
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 2 / 3d, pathPosition: 2 / 3d)));
}
[Test]
public void TestConversionWithRepeats()
{
Slider slider = null;
AddStep("select first slider with repeats", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.First(h => h is Slider s && s.RepeatCount > 0);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
AddStep("change beat divisor", () => beatDivisor.Value = 2);
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 0.25, pathPosition: 0.5),
(time: 0.5, pathPosition: 1),
(time: 0.75, pathPosition: 0.5),
(time: 1, pathPosition: 0)));
}
[Test]
public void TestConversionPreservesSliderProperties()
{
Slider slider = null;
AddStep("select second new-combo-starting slider", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.Where(h => h is Slider s && s.NewCombo).ElementAt(1);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 0.25, pathPosition: 0.25),
(time: 0.5, pathPosition: 0.5),
(time: 0.75, pathPosition: 0.75),
(time: 1, pathPosition: 1)));
AddStep("undo", () => Editor.Undo());
AddAssert("slider restored", () => sliderRestored(slider));
}
private void convertToStream()
{
AddStep("convert to stream", () =>
{
InputManager.PressKey(Key.LControl);
InputManager.PressKey(Key.LShift);
InputManager.Key(Key.F);
InputManager.ReleaseKey(Key.LShift);
InputManager.ReleaseKey(Key.LControl);
});
}
[Test]
public void TestFloatEdgeCaseConversion()
{
Slider slider = null;
AddStep("select first slider", () =>
{
slider = (Slider)EditorBeatmap.HitObjects.First(h => h is Slider);
EditorClock.Seek(slider.StartTime);
EditorBeatmap.SelectedHitObjects.Add(slider);
});
AddStep("change to these specific circumstances", () =>
{
EditorBeatmap.Difficulty.SliderMultiplier = 1;
var timingPoint = EditorBeatmap.ControlPointInfo.TimingPointAt(slider.StartTime);
timingPoint.BeatLength = 352.941176470588;
slider.Path.ControlPoints[^1].Position = new Vector2(-110, 16);
slider.Path.ExpectedDistance.Value = 100;
});
convertToStream();
AddAssert("stream created", () => streamCreatedFor(slider,
(time: 0, pathPosition: 0),
(time: 0.25, pathPosition: 0.25),
(time: 0.5, pathPosition: 0.5),
(time: 0.75, pathPosition: 0.75),
(time: 1, pathPosition: 1)));
}
private bool streamCreatedFor(Slider slider, params (double time, double pathPosition)[] expectedCircles)
{
if (EditorBeatmap.HitObjects.Contains(slider))
return false;
foreach ((double expectedTime, double expectedPathPosition) in expectedCircles)
{
double time = slider.StartTime + slider.Duration * expectedTime;
Vector2 position = slider.Position + slider.Path.PositionAt(expectedPathPosition);
if (!EditorBeatmap.HitObjects.OfType<HitCircle>().Any(h => matches(h, time, position, slider.NewCombo && expectedTime == 0)))
return false;
}
return true;
bool matches(HitCircle circle, double time, Vector2 position, bool startsNewCombo) =>
Precision.AlmostEquals(circle.StartTime, time, 1)
&& Precision.AlmostEquals(circle.Position, position, 0.01f)
&& circle.NewCombo == startsNewCombo
&& circle.Samples.SequenceEqual(slider.HeadCircle.Samples);
}
private bool sliderRestored(Slider slider)
{
var objects = EditorBeatmap.HitObjects.Where(h => h.StartTime >= slider.StartTime && h.GetEndTime() <= slider.EndTime).ToList();
if (objects.Count > 1)
return false;
var hitObject = objects.Single();
if (!(hitObject is Slider restoredSlider))
return false;
return Precision.AlmostEquals(slider.StartTime, restoredSlider.StartTime)
&& Precision.AlmostEquals(slider.GetEndTime(), restoredSlider.GetEndTime())
&& Precision.AlmostEquals(slider.Position, restoredSlider.Position, 0.01f)
&& Precision.AlmostEquals(slider.EndPosition, restoredSlider.EndPosition, 0.01f);
}
}
}