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osu-lazer/osu.Game.Rulesets.Catch/UI/Catcher.cs
ekrctb 812a4b412a Move judgement result revert logic to Playfield
Previously, some judgement results were not reverted
when the source DHO is not alive (e.g. frames skipped in editor).
Now, all results are reverted in the exact reverse order.
2023-01-19 19:57:13 +09:00

465 lines
17 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;
using System.Diagnostics;
using System.Linq;
using osu.Framework.Allocation;
using osu.Framework.Bindables;
using osu.Framework.Graphics;
using osu.Framework.Graphics.Containers;
using osu.Framework.Graphics.Pooling;
using osu.Framework.Utils;
using osu.Game.Beatmaps;
using osu.Game.Configuration;
using osu.Game.Rulesets.Catch.Judgements;
using osu.Game.Rulesets.Catch.Objects;
using osu.Game.Rulesets.Catch.Objects.Drawables;
using osu.Game.Rulesets.Catch.Skinning;
using osu.Game.Rulesets.Judgements;
using osu.Game.Skinning;
using osuTK;
using osuTK.Graphics;
namespace osu.Game.Rulesets.Catch.UI
{
[Cached]
public partial class Catcher : SkinReloadableDrawable
{
/// <summary>
/// The size of the catcher at 1x scale.
/// </summary>
public const float BASE_SIZE = 106.75f;
/// <summary>
/// The width of the catcher which can receive fruit. Equivalent to "catchMargin" in osu-stable.
/// </summary>
public const float ALLOWED_CATCH_RANGE = 0.8f;
/// <summary>
/// The default colour used to tint hyper-dash fruit, along with the moving catcher, its trail and after-image during a hyper-dash.
/// </summary>
public static readonly Color4 DEFAULT_HYPER_DASH_COLOUR = Color4.Red;
/// <summary>
/// The duration between transitioning to hyper-dash state.
/// </summary>
public const double HYPER_DASH_TRANSITION_DURATION = 180;
/// <summary>
/// Whether we are hyper-dashing or not.
/// </summary>
public bool HyperDashing => hyperDashModifier != 1;
/// <summary>
/// Whether <see cref="DrawablePalpableCatchHitObject"/> fruit should appear on the plate.
/// </summary>
public bool CatchFruitOnPlate { get; set; } = true;
/// <summary>
/// The speed of the catcher when the catcher is dashing.
/// </summary>
public const double BASE_DASH_SPEED = 1.0;
/// <summary>
/// The speed of the catcher when the catcher is not dashing.
/// </summary>
public const double BASE_WALK_SPEED = 0.5;
/// <summary>
/// The current speed of the catcher with the hyper-dash modifier applied.
/// </summary>
public double Speed => (Dashing ? BASE_DASH_SPEED : BASE_WALK_SPEED) * hyperDashModifier;
/// <summary>
/// The amount by which caught fruit should be scaled down to fit on the plate.
/// </summary>
private const float caught_fruit_scale_adjust = 0.5f;
/// <summary>
/// Contains caught objects on the plate.
/// </summary>
private readonly Container<CaughtObject> caughtObjectContainer;
/// <summary>
/// Contains objects dropped from the plate.
/// </summary>
private readonly DroppedObjectContainer droppedObjectTarget;
public CatcherAnimationState CurrentState
{
get => body.AnimationState.Value;
private set => body.AnimationState.Value = value;
}
/// <summary>
/// Whether the catcher is currently dashing.
/// </summary>
public bool Dashing { get; set; }
/// <summary>
/// The currently facing direction.
/// </summary>
public Direction VisualDirection { get; set; } = Direction.Right;
public Vector2 BodyScale => Scale * body.Scale;
/// <summary>
/// Whether the contents of the catcher plate should be visually flipped when the catcher direction is changed.
/// </summary>
private bool flipCatcherPlate;
/// <summary>
/// Width of the area that can be used to attempt catches during gameplay.
/// </summary>
public readonly float CatchWidth;
private readonly SkinnableCatcher body;
private Color4 hyperDashColour = DEFAULT_HYPER_DASH_COLOUR;
private double hyperDashModifier = 1;
private int hyperDashDirection;
private float hyperDashTargetPosition;
private Bindable<bool> hitLighting = null!;
private readonly HitExplosionContainer hitExplosionContainer;
private readonly DrawablePool<CaughtFruit> caughtFruitPool;
private readonly DrawablePool<CaughtBanana> caughtBananaPool;
private readonly DrawablePool<CaughtDroplet> caughtDropletPool;
public Catcher(DroppedObjectContainer droppedObjectTarget, IBeatmapDifficultyInfo? difficulty = null)
{
this.droppedObjectTarget = droppedObjectTarget;
Origin = Anchor.TopCentre;
Size = new Vector2(BASE_SIZE);
if (difficulty != null)
Scale = calculateScale(difficulty);
CatchWidth = CalculateCatchWidth(Scale);
InternalChildren = new Drawable[]
{
caughtFruitPool = new DrawablePool<CaughtFruit>(50),
caughtBananaPool = new DrawablePool<CaughtBanana>(100),
// less capacity is needed compared to fruit because droplet is not stacked
caughtDropletPool = new DrawablePool<CaughtDroplet>(25),
caughtObjectContainer = new Container<CaughtObject>
{
Anchor = Anchor.TopCentre,
Origin = Anchor.BottomCentre,
// offset fruit vertically to better place "above" the plate.
Y = -5
},
body = new SkinnableCatcher(),
hitExplosionContainer = new HitExplosionContainer
{
Anchor = Anchor.TopCentre,
Origin = Anchor.BottomCentre,
},
};
}
[BackgroundDependencyLoader]
private void load(OsuConfigManager config)
{
hitLighting = config.GetBindable<bool>(OsuSetting.HitLighting);
}
/// <summary>
/// Creates proxied content to be displayed beneath hitobjects.
/// </summary>
public Drawable CreateProxiedContent() => caughtObjectContainer.CreateProxy();
/// <summary>
/// Calculates the scale of the catcher based off the provided beatmap difficulty.
/// </summary>
private static Vector2 calculateScale(IBeatmapDifficultyInfo difficulty) => new Vector2(1.0f - 0.7f * (difficulty.CircleSize - 5) / 5);
/// <summary>
/// Calculates the width of the area used for attempting catches in gameplay.
/// </summary>
/// <param name="scale">The scale of the catcher.</param>
public static float CalculateCatchWidth(Vector2 scale) => BASE_SIZE * Math.Abs(scale.X) * ALLOWED_CATCH_RANGE;
/// <summary>
/// Calculates the width of the area used for attempting catches in gameplay.
/// </summary>
/// <param name="difficulty">The beatmap difficulty.</param>
public static float CalculateCatchWidth(IBeatmapDifficultyInfo difficulty) => CalculateCatchWidth(calculateScale(difficulty));
/// <summary>
/// Determine if this catcher can catch a <see cref="CatchHitObject"/> in the current position.
/// </summary>
public bool CanCatch(CatchHitObject hitObject)
{
if (!(hitObject is PalpableCatchHitObject fruit))
return false;
float halfCatchWidth = CatchWidth * 0.5f;
return fruit.EffectiveX >= X - halfCatchWidth &&
fruit.EffectiveX <= X + halfCatchWidth;
}
public void OnNewResult(DrawableCatchHitObject drawableObject, JudgementResult result)
{
var catchResult = (CatchJudgementResult)result;
catchResult.CatcherAnimationState = CurrentState;
catchResult.CatcherHyperDash = HyperDashing;
// Ignore JuiceStreams and BananaShowers
if (!(drawableObject is DrawablePalpableCatchHitObject palpableObject)) return;
var hitObject = palpableObject.HitObject;
if (result.IsHit)
{
var positionInStack = computePositionInStack(new Vector2(palpableObject.X - X, 0), palpableObject.DisplaySize.X);
if (CatchFruitOnPlate)
placeCaughtObject(palpableObject, positionInStack);
if (hitLighting.Value)
addLighting(result, drawableObject.AccentColour.Value, positionInStack.X);
}
// droplet doesn't affect the catcher state
if (hitObject is TinyDroplet) return;
if (result.IsHit && hitObject.HyperDashTarget is CatchHitObject target)
{
double timeDifference = target.StartTime - hitObject.StartTime;
double positionDifference = target.EffectiveX - X;
double velocity = positionDifference / Math.Max(1.0, timeDifference - 1000.0 / 60.0);
SetHyperDashState(Math.Abs(velocity) / BASE_DASH_SPEED, target.EffectiveX);
}
else
SetHyperDashState();
if (result.IsHit)
CurrentState = hitObject.Kiai ? CatcherAnimationState.Kiai : CatcherAnimationState.Idle;
else if (!(hitObject is Banana))
CurrentState = CatcherAnimationState.Fail;
if (palpableObject.HitObject.LastInCombo)
{
if (result.Judgement is CatchJudgement catchJudgement && catchJudgement.ShouldExplodeFor(result))
Explode();
else
Drop();
}
}
public void OnRevertResult(JudgementResult result)
{
var catchResult = (CatchJudgementResult)result;
CurrentState = catchResult.CatcherAnimationState;
if (HyperDashing != catchResult.CatcherHyperDash)
{
if (catchResult.CatcherHyperDash)
SetHyperDashState(2);
else
SetHyperDashState();
}
caughtObjectContainer.RemoveAll(d => d.HitObject == result.HitObject, false);
droppedObjectTarget.RemoveAll(d => d.HitObject == result.HitObject, false);
}
/// <summary>
/// Set hyper-dash state.
/// </summary>
/// <param name="modifier">The speed multiplier. If this is less or equals to 1, this catcher will be non-hyper-dashing state.</param>
/// <param name="targetPosition">When this catcher crosses this position, this catcher ends hyper-dashing.</param>
public void SetHyperDashState(double modifier = 1, float targetPosition = -1)
{
bool wasHyperDashing = HyperDashing;
if (modifier <= 1 || X == targetPosition)
{
hyperDashModifier = 1;
hyperDashDirection = 0;
if (wasHyperDashing)
runHyperDashStateTransition(false);
}
else
{
hyperDashModifier = modifier;
hyperDashDirection = Math.Sign(targetPosition - X);
hyperDashTargetPosition = targetPosition;
if (!wasHyperDashing)
runHyperDashStateTransition(true);
}
}
/// <summary>
/// Drop any fruit off the plate.
/// </summary>
public void Drop() => clearPlate(DroppedObjectAnimation.Drop);
/// <summary>
/// Explode all fruit off the plate.
/// </summary>
public void Explode() => clearPlate(DroppedObjectAnimation.Explode);
private void runHyperDashStateTransition(bool hyperDashing)
{
this.FadeColour(hyperDashing ? hyperDashColour : Color4.White, HYPER_DASH_TRANSITION_DURATION, Easing.OutQuint);
}
protected override void SkinChanged(ISkinSource skin)
{
base.SkinChanged(skin);
hyperDashColour =
skin.GetConfig<CatchSkinColour, Color4>(CatchSkinColour.HyperDash)?.Value ??
DEFAULT_HYPER_DASH_COLOUR;
flipCatcherPlate = skin.GetConfig<CatchSkinConfiguration, bool>(CatchSkinConfiguration.FlipCatcherPlate)?.Value ?? true;
runHyperDashStateTransition(HyperDashing);
}
protected override void Update()
{
base.Update();
var scaleFromDirection = new Vector2((int)VisualDirection, 1);
body.Scale = scaleFromDirection;
caughtObjectContainer.Scale = hitExplosionContainer.Scale = flipCatcherPlate ? scaleFromDirection : Vector2.One;
// Correct overshooting.
if ((hyperDashDirection > 0 && hyperDashTargetPosition < X) ||
(hyperDashDirection < 0 && hyperDashTargetPosition > X))
{
X = hyperDashTargetPosition;
SetHyperDashState();
}
}
private void placeCaughtObject(DrawablePalpableCatchHitObject drawableObject, Vector2 position)
{
var caughtObject = getCaughtObject(drawableObject.HitObject);
if (caughtObject == null) return;
caughtObject.CopyStateFrom(drawableObject);
caughtObject.Anchor = Anchor.TopCentre;
caughtObject.Position = position;
caughtObject.Scale *= caught_fruit_scale_adjust;
caughtObjectContainer.Add(caughtObject);
if (!caughtObject.StaysOnPlate)
removeFromPlate(caughtObject, DroppedObjectAnimation.Explode);
}
private Vector2 computePositionInStack(Vector2 position, float displayRadius)
{
// this is taken from osu-stable (lenience should be 10 * 10 at standard scale).
const float lenience_adjust = 10 / CatchHitObject.OBJECT_RADIUS;
float adjustedRadius = displayRadius * lenience_adjust;
float checkDistance = MathF.Pow(adjustedRadius, 2);
while (caughtObjectContainer.Any(f => Vector2Extensions.DistanceSquared(f.Position, position) < checkDistance))
{
position.X += RNG.NextSingle(-adjustedRadius, adjustedRadius);
position.Y -= RNG.NextSingle(0, 5);
}
return position;
}
private void addLighting(JudgementResult judgementResult, Color4 colour, float x) =>
hitExplosionContainer.Add(new HitExplosionEntry(Time.Current, judgementResult, colour, x));
private CaughtObject? getCaughtObject(PalpableCatchHitObject source)
{
switch (source)
{
case Fruit:
return caughtFruitPool.Get();
case Banana:
return caughtBananaPool.Get();
case Droplet:
return caughtDropletPool.Get();
default:
return null;
}
}
private CaughtObject getDroppedObject(CaughtObject caughtObject)
{
var droppedObject = getCaughtObject(caughtObject.HitObject);
Debug.Assert(droppedObject != null);
droppedObject.CopyStateFrom(caughtObject);
droppedObject.Anchor = Anchor.TopLeft;
droppedObject.Position = caughtObjectContainer.ToSpaceOfOtherDrawable(caughtObject.DrawPosition, droppedObjectTarget);
return droppedObject;
}
private void clearPlate(DroppedObjectAnimation animation)
{
var droppedObjects = caughtObjectContainer.Children.Select(getDroppedObject).ToArray();
caughtObjectContainer.Clear(false);
droppedObjectTarget.AddRange(droppedObjects);
foreach (var droppedObject in droppedObjects)
applyDropAnimation(droppedObject, animation);
}
private void removeFromPlate(CaughtObject caughtObject, DroppedObjectAnimation animation)
{
var droppedObject = getDroppedObject(caughtObject);
caughtObjectContainer.Remove(caughtObject, false);
droppedObjectTarget.Add(droppedObject);
applyDropAnimation(droppedObject, animation);
}
private void applyDropAnimation(Drawable d, DroppedObjectAnimation animation)
{
switch (animation)
{
case DroppedObjectAnimation.Drop:
d.MoveToY(d.Y + 75, 750, Easing.InSine);
d.FadeOut(750);
break;
case DroppedObjectAnimation.Explode:
float originalX = droppedObjectTarget.ToSpaceOfOtherDrawable(d.DrawPosition, caughtObjectContainer).X * caughtObjectContainer.Scale.X;
d.MoveToY(d.Y - 50, 250, Easing.OutSine).Then().MoveToY(d.Y + 50, 500, Easing.InSine);
d.MoveToX(d.X + originalX * 6, 1000);
d.FadeOut(750);
break;
}
d.Expire();
}
private enum DroppedObjectAnimation
{
Drop,
Explode
}
}
}