// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using osuTK; using osu.Framework.Graphics; using osu.Game.Rulesets.Objects.Drawables; using osu.Game.Rulesets.Osu.Objects.Drawables.Pieces; using System.Collections.Generic; using System.Linq; using osu.Framework.Allocation; using osu.Framework.Configuration; using osu.Framework.Graphics.Containers; using osu.Game.Rulesets.Objects; using osu.Game.Rulesets.Osu.Configuration; using osu.Game.Rulesets.Scoring; using osuTK.Graphics; using osu.Game.Skinning; namespace osu.Game.Rulesets.Osu.Objects.Drawables { public class DrawableSlider : DrawableOsuHitObject, IDrawableHitObjectWithProxiedApproach { private readonly Slider slider; private readonly List components = new List(); public readonly DrawableHitCircle HeadCircle; public readonly DrawableSliderTail TailCircle; public readonly SnakingSliderBody Body; public readonly SliderBall Ball; private readonly IBindable positionBindable = new Bindable(); private readonly IBindable scaleBindable = new Bindable(); private readonly IBindable pathBindable = new Bindable(); public DrawableSlider(Slider s) : base(s) { slider = s; Position = s.StackedPosition; Container ticks; Container repeatPoints; InternalChildren = new Drawable[] { Body = new SnakingSliderBody(s) { PathWidth = s.Scale * 64, }, ticks = new Container { RelativeSizeAxes = Axes.Both }, repeatPoints = new Container { RelativeSizeAxes = Axes.Both }, Ball = new SliderBall(s, this) { BypassAutoSizeAxes = Axes.Both, Scale = new Vector2(s.Scale), AlwaysPresent = true, Alpha = 0 }, HeadCircle = new DrawableSliderHead(s, s.HeadCircle) { OnShake = Shake }, TailCircle = new DrawableSliderTail(s, s.TailCircle) }; components.Add(Body); components.Add(Ball); AddNested(HeadCircle); AddNested(TailCircle); components.Add(TailCircle); foreach (var tick in s.NestedHitObjects.OfType()) { var drawableTick = new DrawableSliderTick(tick) { Position = tick.Position - s.Position }; ticks.Add(drawableTick); components.Add(drawableTick); AddNested(drawableTick); } foreach (var repeatPoint in s.NestedHitObjects.OfType()) { var drawableRepeatPoint = new DrawableRepeatPoint(repeatPoint, this) { Position = repeatPoint.Position - s.Position }; repeatPoints.Add(drawableRepeatPoint); components.Add(drawableRepeatPoint); AddNested(drawableRepeatPoint); } } [BackgroundDependencyLoader] private void load(OsuRulesetConfigManager rulesetConfig) { rulesetConfig.BindWith(OsuRulesetSetting.SnakingInSliders, Body.SnakingIn); rulesetConfig.BindWith(OsuRulesetSetting.SnakingOutSliders, Body.SnakingOut); positionBindable.BindValueChanged(_ => Position = HitObject.StackedPosition); scaleBindable.BindValueChanged(v => { Body.PathWidth = HitObject.Scale * 64; Ball.Scale = new Vector2(HitObject.Scale); }); positionBindable.BindTo(HitObject.PositionBindable); scaleBindable.BindTo(HitObject.ScaleBindable); pathBindable.BindTo(slider.PathBindable); pathBindable.BindValueChanged(_ => Body.Refresh()); } public override Color4 AccentColour { get { return base.AccentColour; } set { base.AccentColour = value; Body.AccentColour = AccentColour; Ball.AccentColour = AccentColour; foreach (var drawableHitObject in NestedHitObjects) drawableHitObject.AccentColour = AccentColour; } } public bool Tracking; protected override void Update() { base.Update(); Tracking = Ball.Tracking; double completionProgress = MathHelper.Clamp((Time.Current - slider.StartTime) / slider.Duration, 0, 1); foreach (var c in components.OfType()) c.UpdateProgress(completionProgress); foreach (var c in components.OfType()) c.UpdateSnakingPosition(slider.Path.PositionAt(Body.SnakedStart ?? 0), slider.Path.PositionAt(Body.SnakedEnd ?? 0)); foreach (var t in components.OfType()) t.Tracking = Ball.Tracking; Size = Body.Size; OriginPosition = Body.PathOffset; if (DrawSize != Vector2.Zero) { var childAnchorPosition = Vector2.Divide(OriginPosition, DrawSize); foreach (var obj in NestedHitObjects) obj.RelativeAnchorPosition = childAnchorPosition; Ball.RelativeAnchorPosition = childAnchorPosition; } } protected override void SkinChanged(ISkinSource skin, bool allowFallback) { base.SkinChanged(skin, allowFallback); Body.AccentColour = skin.GetValue(s => s.CustomColours.ContainsKey("SliderTrackOverride") ? s.CustomColours["SliderTrackOverride"] : Body.AccentColour); Body.BorderColour = skin.GetValue(s => s.CustomColours.ContainsKey("SliderBorder") ? s.CustomColours["SliderBorder"] : Body.BorderColour); Ball.AccentColour = skin.GetValue(s => s.CustomColours.ContainsKey("SliderBall") ? s.CustomColours["SliderBall"] : Ball.AccentColour); } protected override void CheckForResult(bool userTriggered, double timeOffset) { if (userTriggered || Time.Current < slider.EndTime) return; ApplyResult(r => { var judgementsCount = NestedHitObjects.Count(); var judgementsHit = NestedHitObjects.Count(h => h.IsHit); var hitFraction = (double)judgementsHit / judgementsCount; if (hitFraction == 1 && HeadCircle.Result.Type == HitResult.Great) r.Type = HitResult.Great; else if (hitFraction >= 0.5 && HeadCircle.Result.Type >= HitResult.Good) r.Type = HitResult.Good; else if (hitFraction > 0) r.Type = HitResult.Meh; else r.Type = HitResult.Miss; }); } protected override void UpdateCurrentState(ArmedState state) { Ball.FadeIn(); Ball.ScaleTo(HitObject.Scale); using (BeginDelayedSequence(slider.Duration, true)) { const float fade_out_time = 450; // intentionally pile on an extra FadeOut to make it happen much faster. Ball.FadeOut(fade_out_time / 4, Easing.Out); switch (state) { case ArmedState.Hit: Ball.ScaleTo(HitObject.Scale * 1.4f, fade_out_time, Easing.Out); break; } this.FadeOut(fade_out_time, Easing.OutQuint).Expire(); } Expire(true); } public Drawable ProxiedLayer => HeadCircle.ApproachCircle; public override bool ReceivePositionalInputAt(Vector2 screenSpacePos) => Body.ReceivePositionalInputAt(screenSpacePos); } }