osu/osu.Game.Rulesets.Osu/Edit/OsuHitObjectComposer.cs

441 lines
18 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.Text.RegularExpressions;
using osu.Framework.Allocation;
using osu.Framework.Bindables;
using osu.Framework.Caching;
using osu.Framework.Graphics;
using osu.Framework.Graphics.Containers;
using osu.Framework.Graphics.Sprites;
using osu.Framework.Input.Events;
using osu.Framework.Utils;
using osu.Game.Beatmaps;
using osu.Game.Graphics;
using osu.Game.Graphics.UserInterface;
using osu.Game.Rulesets.Edit;
using osu.Game.Rulesets.Edit.Tools;
using osu.Game.Rulesets.Mods;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Osu.Objects;
using osu.Game.Rulesets.Osu.UI;
using osu.Game.Rulesets.UI;
using osu.Game.Screens.Edit.Components.TernaryButtons;
using osu.Game.Screens.Edit.Compose.Components;
using osuTK;
namespace osu.Game.Rulesets.Osu.Edit
{
public partial class OsuHitObjectComposer : HitObjectComposer<OsuHitObject>
{
public OsuHitObjectComposer(Ruleset ruleset)
: base(ruleset)
{
}
protected override DrawableRuleset<OsuHitObject> CreateDrawableRuleset(Ruleset ruleset, IBeatmap beatmap, IReadOnlyList<Mod> mods)
=> new DrawableOsuEditorRuleset(ruleset, beatmap, mods);
protected override IReadOnlyList<HitObjectCompositionTool> CompositionTools => new HitObjectCompositionTool[]
{
new HitCircleCompositionTool(),
new SliderCompositionTool(),
new SpinnerCompositionTool()
};
private readonly Bindable<TernaryState> rectangularGridSnapToggle = new Bindable<TernaryState>();
protected override Drawable CreateHitObjectInspector() => new OsuHitObjectInspector();
protected override IEnumerable<TernaryButton> CreateTernaryButtons()
=> base.CreateTernaryButtons()
.Concat(DistanceSnapProvider.CreateTernaryButtons())
.Concat(new[]
{
new TernaryButton(rectangularGridSnapToggle, "Grid Snap", () => new SpriteIcon { Icon = OsuIcon.EditorGridSnap })
});
private BindableList<HitObject> selectedHitObjects;
private Bindable<HitObject> placementObject;
[Cached(typeof(IDistanceSnapProvider))]
protected readonly OsuDistanceSnapProvider DistanceSnapProvider = new OsuDistanceSnapProvider();
[Cached]
protected readonly OsuGridToolboxGroup OsuGridToolboxGroup = new OsuGridToolboxGroup();
[Cached]
protected readonly FreehandSliderToolboxGroup FreehandlSliderToolboxGroup = new FreehandSliderToolboxGroup();
[BackgroundDependencyLoader]
private void load()
{
AddInternal(DistanceSnapProvider);
DistanceSnapProvider.AttachToToolbox(RightToolbox);
// Give a bit of breathing room around the playfield content.
PlayfieldContentContainer.Padding = new MarginPadding(10);
LayerBelowRuleset.AddRange(new Drawable[]
{
distanceSnapGridContainer = new Container
{
RelativeSizeAxes = Axes.Both
}
});
selectedHitObjects = EditorBeatmap.SelectedHitObjects.GetBoundCopy();
selectedHitObjects.CollectionChanged += (_, _) => updateDistanceSnapGrid();
placementObject = EditorBeatmap.PlacementObject.GetBoundCopy();
placementObject.ValueChanged += _ => updateDistanceSnapGrid();
DistanceSnapProvider.DistanceSnapToggle.ValueChanged += _ => updateDistanceSnapGrid();
// we may be entering the screen with a selection already active
updateDistanceSnapGrid();
OsuGridToolboxGroup.GridType.BindValueChanged(updatePositionSnapGrid, true);
RightToolbox.AddRange(new Drawable[]
{
OsuGridToolboxGroup,
new TransformToolboxGroup
{
RotationHandler = BlueprintContainer.SelectionHandler.RotationHandler,
ScaleHandler = (OsuSelectionScaleHandler)BlueprintContainer.SelectionHandler.ScaleHandler,
},
FreehandlSliderToolboxGroup
}
);
}
private void updatePositionSnapGrid(ValueChangedEvent<PositionSnapGridType> obj)
{
if (positionSnapGrid != null)
LayerBelowRuleset.Remove(positionSnapGrid, true);
switch (obj.NewValue)
{
case PositionSnapGridType.Square:
var rectangularPositionSnapGrid = new RectangularPositionSnapGrid();
rectangularPositionSnapGrid.Spacing.BindTo(OsuGridToolboxGroup.SpacingVector);
rectangularPositionSnapGrid.GridLineRotation.BindTo(OsuGridToolboxGroup.GridLinesRotation);
positionSnapGrid = rectangularPositionSnapGrid;
break;
case PositionSnapGridType.Triangle:
var triangularPositionSnapGrid = new TriangularPositionSnapGrid();
triangularPositionSnapGrid.Spacing.BindTo(OsuGridToolboxGroup.Spacing);
triangularPositionSnapGrid.GridLineRotation.BindTo(OsuGridToolboxGroup.GridLinesRotation);
positionSnapGrid = triangularPositionSnapGrid;
break;
case PositionSnapGridType.Circle:
var circularPositionSnapGrid = new CircularPositionSnapGrid();
circularPositionSnapGrid.Spacing.BindTo(OsuGridToolboxGroup.Spacing);
positionSnapGrid = circularPositionSnapGrid;
break;
default:
throw new ArgumentOutOfRangeException(nameof(OsuGridToolboxGroup.GridType), OsuGridToolboxGroup.GridType, "Unsupported grid type.");
}
// Bind the start position to the toolbox sliders.
positionSnapGrid.StartPosition.BindTo(OsuGridToolboxGroup.StartPosition);
positionSnapGrid.RelativeSizeAxes = Axes.Both;
LayerBelowRuleset.Add(positionSnapGrid);
}
protected override ComposeBlueprintContainer CreateBlueprintContainer()
=> new OsuBlueprintContainer(this);
public override string ConvertSelectionToString()
=> string.Join(',', selectedHitObjects.Cast<OsuHitObject>().OrderBy(h => h.StartTime).Select(h => (h.IndexInCurrentCombo + 1).ToString()));
// 1,2,3,4 ...
private static readonly Regex selection_regex = new Regex(@"^\d+(,\d+)*$", RegexOptions.Compiled);
public override void SelectFromTimestamp(double timestamp, string objectDescription)
{
if (!selection_regex.IsMatch(objectDescription))
return;
List<OsuHitObject> remainingHitObjects = EditorBeatmap.HitObjects.Cast<OsuHitObject>().Where(h => h.StartTime >= timestamp).ToList();
string[] splitDescription = objectDescription.Split(',').ToArray();
for (int i = 0; i < splitDescription.Length; i++)
{
if (!int.TryParse(splitDescription[i], out int combo) || combo < 1)
continue;
OsuHitObject current = remainingHitObjects.FirstOrDefault(h => h.IndexInCurrentCombo + 1 == combo);
if (current == null)
continue;
EditorBeatmap.SelectedHitObjects.Add(current);
if (i < splitDescription.Length - 1)
remainingHitObjects = remainingHitObjects.Where(h => h != current && h.StartTime >= current.StartTime).ToList();
}
}
private DistanceSnapGrid distanceSnapGrid;
private Container distanceSnapGridContainer;
private readonly Cached distanceSnapGridCache = new Cached();
private double? lastDistanceSnapGridTime;
private PositionSnapGrid positionSnapGrid;
protected override void Update()
{
base.Update();
if (!(BlueprintContainer.CurrentTool is SelectTool))
{
if (EditorClock.CurrentTime != lastDistanceSnapGridTime)
{
distanceSnapGridCache.Invalidate();
lastDistanceSnapGridTime = EditorClock.CurrentTime;
}
if (!distanceSnapGridCache.IsValid)
updateDistanceSnapGrid();
}
}
public override SnapResult FindSnappedPositionAndTime(Vector2 screenSpacePosition, SnapType snapType = SnapType.All)
{
if (snapType.HasFlag(SnapType.NearbyObjects) && snapToVisibleBlueprints(screenSpacePosition, out var snapResult))
{
// In the case of snapping to nearby objects, a time value is not provided.
// This matches the stable editor (which also uses current time), but with the introduction of time-snapping distance snap
// this could result in unexpected behaviour when distance snapping is turned on and a user attempts to place an object that is
// BOTH on a valid distance snap ring, and also at the same position as a previous object.
//
// We want to ensure that in this particular case, the time-snapping component of distance snap is still applied.
// The easiest way to ensure this is to attempt application of distance snap after a nearby object is found, and copy over
// the time value if the proposed positions are roughly the same.
if (snapType.HasFlag(SnapType.RelativeGrids) && DistanceSnapProvider.DistanceSnapToggle.Value == TernaryState.True && distanceSnapGrid != null)
{
(Vector2 distanceSnappedPosition, double distanceSnappedTime) = distanceSnapGrid.GetSnappedPosition(distanceSnapGrid.ToLocalSpace(snapResult.ScreenSpacePosition));
if (Precision.AlmostEquals(distanceSnapGrid.ToScreenSpace(distanceSnappedPosition), snapResult.ScreenSpacePosition, 1))
snapResult.Time = distanceSnappedTime;
}
return snapResult;
}
SnapResult result = base.FindSnappedPositionAndTime(screenSpacePosition, snapType);
if (snapType.HasFlag(SnapType.RelativeGrids))
{
if (DistanceSnapProvider.DistanceSnapToggle.Value == TernaryState.True && distanceSnapGrid != null)
{
(Vector2 pos, double time) = distanceSnapGrid.GetSnappedPosition(distanceSnapGrid.ToLocalSpace(screenSpacePosition));
result.ScreenSpacePosition = distanceSnapGrid.ToScreenSpace(pos);
result.Time = time;
}
}
if (snapType.HasFlag(SnapType.GlobalGrids))
{
if (rectangularGridSnapToggle.Value == TernaryState.True)
{
Vector2 pos = positionSnapGrid.GetSnappedPosition(positionSnapGrid.ToLocalSpace(result.ScreenSpacePosition));
// A grid which doesn't perfectly fit the playfield can produce a position that is outside of the playfield.
// We need to clamp the position to the playfield bounds to ensure that the snapped position is always in bounds.
pos = Vector2.Clamp(pos, Vector2.Zero, OsuPlayfield.BASE_SIZE);
result.ScreenSpacePosition = positionSnapGrid.ToScreenSpace(pos);
}
}
return result;
}
private bool snapToVisibleBlueprints(Vector2 screenSpacePosition, out SnapResult snapResult)
{
// check other on-screen objects for snapping/stacking
var blueprints = BlueprintContainer.SelectionBlueprints.AliveChildren;
var playfield = PlayfieldAtScreenSpacePosition(screenSpacePosition);
float snapRadius =
playfield.GamefieldToScreenSpace(new Vector2(OsuHitObject.OBJECT_RADIUS * 0.10f)).X -
playfield.GamefieldToScreenSpace(Vector2.Zero).X;
foreach (var b in blueprints)
{
if (b.IsSelected)
continue;
var snapPositions = b.ScreenSpaceSnapPoints;
if (!snapPositions.Any())
continue;
var closestSnapPosition = snapPositions.MinBy(p => Vector2.Distance(p, screenSpacePosition));
if (Vector2.Distance(closestSnapPosition, screenSpacePosition) < snapRadius)
{
// if the snap target is a stacked object, snap to its unstacked position rather than its stacked position.
// this is intended to make working with stacks easier (because thanks to this, you can drag an object to any
// of the items on the stack to add an object to it, rather than having to drag to the position of the *first* object on it at all times).
if (b.Item is OsuHitObject osuObject && osuObject.StackOffset != Vector2.Zero)
closestSnapPosition = b.ToScreenSpace(b.ToLocalSpace(closestSnapPosition) - osuObject.StackOffset);
// only return distance portion, since time is not really valid
snapResult = new SnapResult(closestSnapPosition, null, playfield);
return true;
}
}
snapResult = null;
return false;
}
private void updateDistanceSnapGrid()
{
distanceSnapGridContainer.Clear();
distanceSnapGridCache.Invalidate();
distanceSnapGrid = null;
if (DistanceSnapProvider.DistanceSnapToggle.Value != TernaryState.True)
return;
switch (BlueprintContainer.CurrentTool)
{
case SelectTool:
if (!EditorBeatmap.SelectedHitObjects.Any())
return;
distanceSnapGrid = createDistanceSnapGrid(EditorBeatmap.SelectedHitObjects);
break;
default:
if (!CursorInPlacementArea)
return;
distanceSnapGrid = createDistanceSnapGrid(Enumerable.Empty<HitObject>());
break;
}
if (distanceSnapGrid != null)
{
distanceSnapGridContainer.Add(distanceSnapGrid);
distanceSnapGridCache.Validate();
}
}
protected override bool OnKeyDown(KeyDownEvent e)
{
if (e.Repeat)
return false;
handleToggleViaKey(e);
return base.OnKeyDown(e);
}
protected override void OnKeyUp(KeyUpEvent e)
{
handleToggleViaKey(e);
base.OnKeyUp(e);
}
private bool gridSnapMomentary;
private void handleToggleViaKey(KeyboardEvent key)
{
bool shiftPressed = key.ShiftPressed;
if (shiftPressed != gridSnapMomentary)
{
gridSnapMomentary = shiftPressed;
rectangularGridSnapToggle.Value = rectangularGridSnapToggle.Value == TernaryState.False ? TernaryState.True : TernaryState.False;
}
}
private DistanceSnapGrid createDistanceSnapGrid(IEnumerable<HitObject> selectedHitObjects)
{
if (BlueprintContainer.CurrentTool is SpinnerCompositionTool)
return null;
var objects = selectedHitObjects.ToList();
if (objects.Count == 0)
// use accurate time value to give more instantaneous feedback to the user.
return createGrid(h => h.StartTime <= EditorClock.CurrentTimeAccurate);
double minTime = objects.Min(h => h.StartTime);
return createGrid(h => h.StartTime < minTime, objects.Count + 1);
}
/// <summary>
/// Creates a grid from the last <see cref="HitObject"/> matching a predicate to a target <see cref="HitObject"/>.
/// </summary>
/// <param name="sourceSelector">A predicate that matches <see cref="HitObject"/>s where the grid can start from.
/// Only the last <see cref="HitObject"/> matching the predicate is used.</param>
/// <param name="targetOffset">An offset from the <see cref="HitObject"/> selected via <paramref name="sourceSelector"/> at which the grid should stop.</param>
/// <returns>The <see cref="OsuDistanceSnapGrid"/> from a selected <see cref="HitObject"/> to a target <see cref="HitObject"/>.</returns>
private OsuDistanceSnapGrid createGrid(Func<HitObject, bool> sourceSelector, int targetOffset = 1)
{
ArgumentOutOfRangeException.ThrowIfNegativeOrZero(targetOffset);
int sourceIndex = -1;
for (int i = 0; i < EditorBeatmap.HitObjects.Count; i++)
{
if (!sourceSelector(EditorBeatmap.HitObjects[i]))
break;
sourceIndex = i;
}
if (sourceIndex == -1)
return null;
HitObject sourceObject = EditorBeatmap.HitObjects[sourceIndex];
int targetIndex = sourceIndex + targetOffset;
HitObject targetObject = null;
// Keep advancing the target object while its start time falls before the end time of the source object
while (true)
{
if (targetIndex >= EditorBeatmap.HitObjects.Count)
break;
if (EditorBeatmap.HitObjects[targetIndex].StartTime >= sourceObject.GetEndTime())
{
targetObject = EditorBeatmap.HitObjects[targetIndex];
break;
}
targetIndex++;
}
if (sourceObject is Spinner)
return null;
return new OsuDistanceSnapGrid((OsuHitObject)sourceObject, (OsuHitObject)targetObject);
}
}
}