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

357 lines
15 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.Collections.Generic;
using System.IO;
using System.Linq;
using NUnit.Framework;
using osu.Framework.Allocation;
using osu.Framework.Extensions.IEnumerableExtensions;
using osu.Framework.Extensions.ObjectExtensions;
using osu.Framework.Graphics;
using osu.Framework.Graphics.UserInterface;
using osu.Framework.Input;
using osu.Framework.Testing;
using osu.Game.Overlays;
using osu.Game.Overlays.Settings;
using osu.Game.Overlays.SkinEditor;
using osu.Game.Rulesets;
using osu.Game.Rulesets.Osu;
using osu.Game.Screens.Edit;
using osu.Game.Screens.Play.HUD.HitErrorMeters;
using osu.Game.Skinning;
using osu.Game.Skinning.Components;
using osuTK;
using osuTK.Input;
namespace osu.Game.Tests.Visual.Gameplay
{
public partial class TestSceneSkinEditor : PlayerTestScene
{
private SkinEditor skinEditor = null!;
protected override bool Autoplay => true;
[Cached]
private readonly OverlayColourProvider colourProvider = new OverlayColourProvider(OverlayColourScheme.Blue);
[Cached]
public readonly EditorClipboard Clipboard = new EditorClipboard();
private SkinComponentsContainer targetContainer => Player.ChildrenOfType<SkinComponentsContainer>().First();
[SetUpSteps]
public override void SetUpSteps()
{
base.SetUpSteps();
AddUntilStep("wait for hud load", () => targetContainer.ComponentsLoaded);
AddStep("reload skin editor", () =>
{
if (skinEditor.IsNotNull())
skinEditor.Expire();
Player.ScaleTo(0.4f);
LoadComponentAsync(skinEditor = new SkinEditor(Player), Add);
});
AddUntilStep("wait for loaded", () => skinEditor.IsLoaded);
}
[Test]
public void TestDragSelection()
{
BigBlackBox box1 = null!;
BigBlackBox box2 = null!;
BigBlackBox box3 = null!;
AddStep("Add big black boxes", () =>
{
var target = Player.ChildrenOfType<SkinComponentsContainer>().First();
target.Add(box1 = new BigBlackBox
{
Position = new Vector2(-90),
Anchor = Anchor.Centre,
Origin = Anchor.Centre,
});
target.Add(box2 = new BigBlackBox
{
Anchor = Anchor.Centre,
Origin = Anchor.Centre,
});
target.Add(box3 = new BigBlackBox
{
Position = new Vector2(90),
Anchor = Anchor.Centre,
Origin = Anchor.Centre,
});
});
// This step is specifically added to reproduce an edge case which was found during cyclic selection development.
// If everything is working as expected it should not affect the subsequent drag selections.
AddRepeatStep("Select top left", () =>
{
InputManager.MoveMouseTo(box1.ScreenSpaceDrawQuad.TopLeft + new Vector2(box1.ScreenSpaceDrawQuad.Width / 8));
InputManager.Click(MouseButton.Left);
}, 2);
AddStep("Begin drag top left", () =>
{
InputManager.MoveMouseTo(box1.ScreenSpaceDrawQuad.TopLeft - new Vector2(box1.ScreenSpaceDrawQuad.Width / 4));
InputManager.PressButton(MouseButton.Left);
});
AddStep("Drag to bottom right", () =>
{
InputManager.MoveMouseTo(box3.ScreenSpaceDrawQuad.TopRight + new Vector2(-box3.ScreenSpaceDrawQuad.Width / 8, box3.ScreenSpaceDrawQuad.Height / 4));
});
AddStep("Release button", () =>
{
InputManager.ReleaseButton(MouseButton.Left);
});
AddAssert("First two boxes selected", () => skinEditor.SelectedComponents, () => Is.EqualTo(new[] { box1, box2 }));
AddStep("Begin drag bottom right", () =>
{
InputManager.MoveMouseTo(box3.ScreenSpaceDrawQuad.BottomRight + new Vector2(box3.ScreenSpaceDrawQuad.Width / 4));
InputManager.PressButton(MouseButton.Left);
});
AddStep("Drag to top left", () =>
{
InputManager.MoveMouseTo(box2.ScreenSpaceDrawQuad.Centre - new Vector2(box2.ScreenSpaceDrawQuad.Width / 4));
});
AddStep("Release button", () =>
{
InputManager.ReleaseButton(MouseButton.Left);
});
AddAssert("Last two boxes selected", () => skinEditor.SelectedComponents, () => Is.EqualTo(new[] { box2, box3 }));
// Test cyclic selection doesn't trigger in this state.
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddAssert("Last two boxes still selected", () => skinEditor.SelectedComponents, () => Is.EqualTo(new[] { box2, box3 }));
}
[Test]
public void TestCyclicSelection()
{
List<SkinBlueprint> blueprints = new List<SkinBlueprint>();
AddStep("clear list", () => blueprints.Clear());
for (int i = 0; i < 3; i++)
{
AddStep("Add big black box", () =>
{
InputManager.MoveMouseTo(skinEditor.ChildrenOfType<BigBlackBox>().First());
InputManager.Click(MouseButton.Left);
});
AddStep("store box", () =>
{
// Add blueprints one-by-one so we have a stable order for testing reverse cyclic selection against.
blueprints.Add(skinEditor.ChildrenOfType<SkinBlueprint>().Single(s => s.IsSelected));
});
}
AddAssert("Three black boxes added", () => targetContainer.Components.OfType<BigBlackBox>().Count(), () => Is.EqualTo(3));
AddAssert("Selection is last", () => skinEditor.SelectedComponents.Single(), () => Is.EqualTo(blueprints[2].Item));
AddStep("move cursor to black box", () =>
{
// Slightly offset from centre to avoid random failures (see https://github.com/ppy/osu-framework/issues/5669).
InputManager.MoveMouseTo(((Drawable)blueprints[0].Item).ScreenSpaceDrawQuad.Centre + new Vector2(1));
});
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddAssert("Selection is second last", () => skinEditor.SelectedComponents.Single(), () => Is.EqualTo(blueprints[1].Item));
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddAssert("Selection is last", () => skinEditor.SelectedComponents.Single(), () => Is.EqualTo(blueprints[0].Item));
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddAssert("Selection is first", () => skinEditor.SelectedComponents.Single(), () => Is.EqualTo(blueprints[2].Item));
AddStep("select all boxes", () =>
{
skinEditor.SelectedComponents.Clear();
skinEditor.SelectedComponents.AddRange(targetContainer.Components.OfType<BigBlackBox>().Skip(1));
});
AddAssert("all boxes selected", () => skinEditor.SelectedComponents, () => Has.Count.EqualTo(2));
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddStep("click on black box stack", () => InputManager.Click(MouseButton.Left));
AddAssert("all boxes still selected", () => skinEditor.SelectedComponents, () => Has.Count.EqualTo(2));
}
[Test]
public void TestUndoEditHistory()
{
SkinComponentsContainer firstTarget = null!;
TestSkinEditorChangeHandler changeHandler = null!;
byte[] defaultState = null!;
IEnumerable<ISerialisableDrawable> testComponents = null!;
AddStep("Load necessary things", () =>
{
firstTarget = Player.ChildrenOfType<SkinComponentsContainer>().First();
changeHandler = new TestSkinEditorChangeHandler(firstTarget);
changeHandler.SaveState();
defaultState = changeHandler.GetCurrentState();
testComponents = new[]
{
targetContainer.Components.First(),
targetContainer.Components[targetContainer.Components.Count / 2],
targetContainer.Components.Last()
};
});
AddStep("Press undo", () => InputManager.Keys(PlatformAction.Undo));
AddAssert("Nothing changed", () => defaultState.SequenceEqual(changeHandler.GetCurrentState()));
AddStep("Add components", () =>
{
InputManager.MoveMouseTo(skinEditor.ChildrenOfType<BigBlackBox>().First());
InputManager.Click(MouseButton.Left);
InputManager.Click(MouseButton.Left);
InputManager.Click(MouseButton.Left);
});
revertAndCheckUnchanged();
AddStep("Move components", () =>
{
changeHandler.BeginChange();
testComponents.ForEach(c => ((Drawable)c).Position += Vector2.One);
changeHandler.EndChange();
});
revertAndCheckUnchanged();
AddStep("Select components", () => skinEditor.SelectedComponents.AddRange(testComponents));
AddStep("Bring to front", () => skinEditor.BringSelectionToFront());
revertAndCheckUnchanged();
AddStep("Remove components", () => testComponents.ForEach(c => firstTarget.Remove(c, false)));
revertAndCheckUnchanged();
void revertAndCheckUnchanged()
{
AddStep("Revert changes", () => changeHandler.RestoreState(int.MinValue));
AddAssert("Current state is same as default", () => defaultState.SequenceEqual(changeHandler.GetCurrentState()));
}
}
[TestCase(false)]
[TestCase(true)]
public void TestBringToFront(bool alterSelectionOrder)
{
AddAssert("Ensure over three components available", () => targetContainer.Components.Count, () => Is.GreaterThan(3));
IEnumerable<ISerialisableDrawable> originalOrder = null!;
AddStep("Save order of components before operation", () => originalOrder = targetContainer.Components.Take(3).ToArray());
if (alterSelectionOrder)
AddStep("Select first three components in reverse order", () => skinEditor.SelectedComponents.AddRange(originalOrder.Reverse()));
else
AddStep("Select first three components", () => skinEditor.SelectedComponents.AddRange(originalOrder));
AddAssert("Components are not front-most", () => targetContainer.Components.TakeLast(3).ToArray(), () => Is.Not.EqualTo(skinEditor.SelectedComponents));
AddStep("Bring to front", () => skinEditor.BringSelectionToFront());
AddAssert("Ensure components are now front-most in original order", () => targetContainer.Components.TakeLast(3).ToArray(), () => Is.EqualTo(originalOrder));
AddStep("Bring to front again", () => skinEditor.BringSelectionToFront());
AddAssert("Ensure components are still front-most in original order", () => targetContainer.Components.TakeLast(3).ToArray(), () => Is.EqualTo(originalOrder));
}
[TestCase(false)]
[TestCase(true)]
public void TestSendToBack(bool alterSelectionOrder)
{
AddAssert("Ensure over three components available", () => targetContainer.Components.Count, () => Is.GreaterThan(3));
IEnumerable<ISerialisableDrawable> originalOrder = null!;
AddStep("Save order of components before operation", () => originalOrder = targetContainer.Components.TakeLast(3).ToArray());
if (alterSelectionOrder)
AddStep("Select last three components in reverse order", () => skinEditor.SelectedComponents.AddRange(originalOrder.Reverse()));
else
AddStep("Select last three components", () => skinEditor.SelectedComponents.AddRange(originalOrder));
AddAssert("Components are not back-most", () => targetContainer.Components.Take(3).ToArray(), () => Is.Not.EqualTo(skinEditor.SelectedComponents));
AddStep("Send to back", () => skinEditor.SendSelectionToBack());
AddAssert("Ensure components are now back-most in original order", () => targetContainer.Components.Take(3).ToArray(), () => Is.EqualTo(originalOrder));
AddStep("Send to back again", () => skinEditor.SendSelectionToBack());
AddAssert("Ensure components are still back-most in original order", () => targetContainer.Components.Take(3).ToArray(), () => Is.EqualTo(originalOrder));
}
[Test]
public void TestToggleEditor()
{
AddToggleStep("toggle editor visibility", _ => skinEditor.ToggleVisibility());
}
[Test]
public void TestEditComponent()
{
BarHitErrorMeter hitErrorMeter = null!;
AddStep("select bar hit error blueprint", () =>
{
var blueprint = skinEditor.ChildrenOfType<SkinBlueprint>().First(b => b.Item is BarHitErrorMeter);
hitErrorMeter = (BarHitErrorMeter)blueprint.Item;
skinEditor.SelectedComponents.Clear();
skinEditor.SelectedComponents.Add(blueprint.Item);
});
AddStep("move by keyboard", () => InputManager.Key(Key.Right));
AddAssert("hitErrorMeter moved", () => hitErrorMeter.X != 0);
AddAssert("value is default", () => hitErrorMeter.JudgementLineThickness.IsDefault);
AddStep("hover first slider", () =>
{
InputManager.MoveMouseTo(
skinEditor.ChildrenOfType<SkinSettingsToolbox>().First()
.ChildrenOfType<SettingsSlider<float>>().First()
.ChildrenOfType<SliderBar<float>>().First()
);
});
AddStep("adjust slider via keyboard", () => InputManager.Key(Key.Left));
AddAssert("value is less than default", () => hitErrorMeter.JudgementLineThickness.Value < hitErrorMeter.JudgementLineThickness.Default);
}
protected override Ruleset CreatePlayerRuleset() => new OsuRuleset();
private partial class TestSkinEditorChangeHandler : SkinEditorChangeHandler
{
public TestSkinEditorChangeHandler(Drawable targetScreen)
: base(targetScreen)
{
}
public byte[] GetCurrentState()
{
using var stream = new MemoryStream();
WriteCurrentStateToStream(stream);
byte[] newState = stream.ToArray();
return newState;
}
}
}
}