osu/osu.Game.Rulesets.Catch.Tests/Editor/TestSceneCatchEditorSaving.cs
Bartłomiej Dach deeb2e99a2
Add test for correct juice stream tick counts in editor
cda9440a29 inadvertently fixes this in the
most frequent case by inverting the `TickDistanceMultiplier` from being
not-1 to 1 on beatmap versions above v8.

This can still potentially go wrong if a beatmap from a version below v8
is edited, because upon save it will be reencoded at the latest version,
meaning that the multiplier will change from not-1 to 1 - but this can
be handled separately.
2024-06-28 11:58:07 +02:00

67 lines
3.2 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.Linq;
using NUnit.Framework;
using osu.Framework.Testing;
using osu.Game.Beatmaps.ControlPoints;
using osu.Game.Rulesets.Catch.Objects;
using osu.Game.Rulesets.Catch.UI;
using osu.Game.Tests.Visual;
using osuTK;
using osuTK.Input;
namespace osu.Game.Rulesets.Catch.Tests.Editor
{
public partial class TestSceneCatchEditorSaving : EditorSavingTestScene
{
protected override Ruleset CreateRuleset() => new CatchRuleset();
[Test]
public void TestCatchJuiceStreamTickCorrect()
{
AddStep("enter timing mode", () => InputManager.Key(Key.F3));
AddStep("add timing point", () => EditorBeatmap.ControlPointInfo.Add(0, new TimingControlPoint()));
AddStep("enter compose mode", () => InputManager.Key(Key.F1));
Vector2 startPoint = Vector2.Zero;
float increment = 0;
AddUntilStep("wait for playfield", () => this.ChildrenOfType<CatchPlayfield>().FirstOrDefault()?.IsLoaded == true);
AddStep("move to centre", () =>
{
var playfield = this.ChildrenOfType<CatchPlayfield>().Single();
startPoint = playfield.ScreenSpaceDrawQuad.Centre + new Vector2(0, playfield.ScreenSpaceDrawQuad.Height / 3);
increment = playfield.ScreenSpaceDrawQuad.Height / 10;
InputManager.MoveMouseTo(startPoint);
});
AddStep("choose juice stream placing tool", () => InputManager.Key(Key.Number3));
AddStep("start placement", () => InputManager.Click(MouseButton.Left));
AddStep("move to next", () => InputManager.MoveMouseTo(startPoint + new Vector2(2 * increment, -increment)));
AddStep("add node", () => InputManager.Click(MouseButton.Left));
AddStep("move to next", () => InputManager.MoveMouseTo(startPoint + new Vector2(-2 * increment, -2 * increment)));
AddStep("add node", () => InputManager.Click(MouseButton.Left));
AddStep("move to next", () => InputManager.MoveMouseTo(startPoint + new Vector2(0, -3 * increment)));
AddStep("end placement", () => InputManager.Click(MouseButton.Right));
AddUntilStep("juice stream placed", () => EditorBeatmap.HitObjects, () => Has.Count.EqualTo(1));
int largeDropletCount = 0, tinyDropletCount = 0;
AddStep("store droplet count", () =>
{
largeDropletCount = EditorBeatmap.HitObjects[0].NestedHitObjects.Count(t => t.GetType() == typeof(Droplet));
tinyDropletCount = EditorBeatmap.HitObjects[0].NestedHitObjects.Count(t => t.GetType() == typeof(TinyDroplet));
});
SaveEditor();
ReloadEditorToSameBeatmap();
AddAssert("large droplet count is the same", () => EditorBeatmap.HitObjects[0].NestedHitObjects.Count(t => t.GetType() == typeof(Droplet)), () => Is.EqualTo(largeDropletCount));
AddAssert("tiny droplet count is the same", () => EditorBeatmap.HitObjects[0].NestedHitObjects.Count(t => t.GetType() == typeof(TinyDroplet)), () => Is.EqualTo(tinyDropletCount));
}
}
}