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osu-lazer/osu.Game.Rulesets.Osu/Skinning/SmokeSegment.cs

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// 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;
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using System.Collections.Generic;
using System.Diagnostics;
using osu.Framework.Allocation;
using osu.Framework.Extensions.Color4Extensions;
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using osu.Framework.Graphics;
using osu.Framework.Graphics.Colour;
using osu.Framework.Graphics.Primitives;
using osu.Framework.Graphics.Rendering;
using osu.Framework.Graphics.Rendering.Vertices;
using osu.Framework.Graphics.Shaders;
using osu.Framework.Graphics.Textures;
using osu.Framework.Utils;
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using osu.Game.Utils;
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using osuTK;
using osuTK.Graphics;
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namespace osu.Game.Rulesets.Osu.Skinning
{
public abstract partial class SmokeSegment : Drawable, ITexturedShaderDrawable
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{
// fade anim values
private const double initial_fade_out_duration = 4000;
private const double re_fade_in_speed = 3;
private const double re_fade_in_duration = 50;
private const double final_fade_out_speed = 2;
private const double final_fade_out_duration = 8000;
private const float initial_alpha = 0.6f;
private const float re_fade_in_alpha = 1f;
private readonly int rotationSeed = RNG.Next();
// scale anim values
private const double scale_duration = 1200;
private const float initial_scale = 0.65f;
private const float final_scale = 1f;
// rotation anim values
private const double rotation_duration = 500;
private const float max_rotation = 0.25f;
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public IShader? TextureShader { get; private set; }
protected Texture? Texture { get; set; }
private float height => Texture?.DisplayHeight * 0.165f ?? 3;
private float width => Texture?.DisplayWidth * 0.165f ?? 3;
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protected readonly List<SmokePoint> SmokePoints = new List<SmokePoint>();
private float pointInterval => width * 7f / 8;
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private double smokeStartTime { get; set; } = double.MinValue;
private double smokeEndTime { get; set; } = double.MaxValue;
private float totalDistance;
private Vector2? lastPosition;
[BackgroundDependencyLoader]
private void load(ShaderManager shaders)
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{
TextureShader = shaders.Load(VertexShaderDescriptor.TEXTURE_2, FragmentShaderDescriptor.TEXTURE);
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}
protected override void LoadComplete()
{
base.LoadComplete();
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RelativeSizeAxes = Axes.Both;
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LifetimeStart = smokeStartTime = Time.Current;
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totalDistance = pointInterval;
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}
public void AddPosition(Vector2 position, double time)
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{
lastPosition ??= position;
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float delta = (position - (Vector2)lastPosition).LengthFast;
totalDistance += delta;
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int count = (int)(totalDistance / pointInterval);
if (count > 0)
{
Vector2 increment = position - (Vector2)lastPosition;
increment.NormalizeFast();
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Vector2 pointPos = (pointInterval - (totalDistance - delta)) * increment + (Vector2)lastPosition;
increment *= pointInterval;
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totalDistance %= pointInterval;
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if (SmokePoints.Count == 0 || SmokePoints[^1].Time <= time)
{
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for (int i = 0; i < count; i++)
{
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SmokePoints.Add(new SmokePoint
{
Position = pointPos,
Time = time,
Angle = RNG.NextSingle(0, 2 * MathF.PI),
});
pointPos += increment;
}
}
Invalidate(Invalidation.DrawNode);
}
lastPosition = position;
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}
public void FinishDrawing(double time)
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{
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smokeEndTime = time;
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double initialFadeOutDurationTrunc = Math.Min(initial_fade_out_duration, smokeEndTime - smokeStartTime);
LifetimeEnd = smokeEndTime + final_fade_out_duration + initialFadeOutDurationTrunc / re_fade_in_speed + initialFadeOutDurationTrunc / final_fade_out_speed;
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}
protected override DrawNode CreateDrawNode() => new SmokeDrawNode(this);
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protected override void Update()
{
base.Update();
Invalidate(Invalidation.DrawNode);
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}
protected struct SmokePoint
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{
public Vector2 Position;
public double Time;
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public float Angle;
public struct UpperBoundComparer : IComparer<SmokePoint>
{
public int Compare(SmokePoint x, SmokePoint target)
{
// By returning -1 when the target value is equal to x, guarantees that the
// element at BinarySearch's returned index will always be the first element
// larger. Since 0 is never returned, the target is never "found", so the return
// value will be the index's complement.
return x.Time > target.Time ? 1 : -1;
}
}
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public struct LowerBoundComparer : IComparer<SmokePoint>
{
public int Compare(SmokePoint x, SmokePoint target)
{
// Similar logic as UpperBoundComparer, except returned index will always be
// the first element larger or equal
return x.Time < target.Time ? -1 : 1;
}
}
}
protected class SmokeDrawNode : TexturedShaderDrawNode
{
protected new SmokeSegment Source => (SmokeSegment)base.Source;
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protected double SmokeStartTime { get; private set; }
protected double SmokeEndTime { get; private set; }
protected double CurrentTime { get; private set; }
private readonly List<SmokePoint> points = new List<SmokePoint>();
private IVertexBatch<TexturedVertex2D>? quadBatch;
private float width;
private float height;
private Vector2 drawSize;
private Texture? texture;
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private int rotationSeed;
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private int firstVisiblePointIndex;
// anim calculation vars (color, scale, direction)
private double initialFadeOutDurationTrunc;
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private double firstVisiblePointTimeAfterSmokeEnded;
private double initialFadeOutTime;
private double reFadeInTime;
private double finalFadeOutTime;
public SmokeDrawNode(ITexturedShaderDrawable source)
: base(source)
{
}
public override void ApplyState()
{
base.ApplyState();
width = Source.width;
height = Source.height;
drawSize = Source.DrawSize;
texture = Source.Texture;
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SmokeStartTime = Source.smokeStartTime;
SmokeEndTime = Source.smokeEndTime;
CurrentTime = Source.Clock.CurrentTime;
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rotationSeed = Source.rotationSeed;
initialFadeOutDurationTrunc = Math.Min(initial_fade_out_duration, SmokeEndTime - SmokeStartTime);
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firstVisiblePointTimeAfterSmokeEnded = SmokeEndTime - initialFadeOutDurationTrunc;
initialFadeOutTime = Math.Min(CurrentTime, SmokeEndTime);
reFadeInTime = CurrentTime - initialFadeOutDurationTrunc - firstVisiblePointTimeAfterSmokeEnded * (1 - 1 / re_fade_in_speed);
finalFadeOutTime = CurrentTime - initialFadeOutDurationTrunc - firstVisiblePointTimeAfterSmokeEnded * (1 - 1 / final_fade_out_speed);
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double firstVisiblePointTime = Math.Min(SmokeEndTime, CurrentTime) - initialFadeOutDurationTrunc;
firstVisiblePointIndex = ~Source.SmokePoints.BinarySearch(new SmokePoint { Time = firstVisiblePointTime }, new SmokePoint.LowerBoundComparer());
int futurePointIndex = ~Source.SmokePoints.BinarySearch(new SmokePoint { Time = CurrentTime }, new SmokePoint.UpperBoundComparer());
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points.Clear();
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for (int i = firstVisiblePointIndex; i < futurePointIndex; i++)
points.Add(Source.SmokePoints[i]);
}
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protected sealed override void Draw(IRenderer renderer)
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{
base.Draw(renderer);
if (points.Count == 0)
return;
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quadBatch ??= renderer.CreateQuadBatch<TexturedVertex2D>(200, 4);
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if (points.Count > quadBatch.Size && quadBatch.Size != IRenderer.MAX_QUADS)
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{
int batchSize = Math.Min(quadBatch.Size * 2, IRenderer.MAX_QUADS);
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quadBatch = renderer.CreateQuadBatch<TexturedVertex2D>(batchSize, 4);
}
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texture ??= renderer.WhitePixel;
RectangleF textureRect = texture.GetTextureRect();
renderer.SetBlend(BlendingParameters.Additive);
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renderer.PushLocalMatrix(DrawInfo.Matrix);
BindTextureShader(renderer);
texture.Bind();
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for (int i = 0; i < points.Count; i++)
drawPointQuad(renderer, points[i], textureRect, i + firstVisiblePointIndex);
UnbindTextureShader(renderer);
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renderer.PopLocalMatrix();
}
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protected Color4 ColourAtPosition(Vector2 localPos) => DrawColourInfo.Colour.HasSingleColour
? ((SRGBColour)DrawColourInfo.Colour).Linear
: DrawColourInfo.Colour.Interpolate(Vector2.Divide(localPos, drawSize)).Linear;
protected virtual Color4 PointColour(SmokePoint point)
{
var color = Color4.White;
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double timeDoingFinalFadeOut = finalFadeOutTime - point.Time / final_fade_out_speed;
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if (timeDoingFinalFadeOut > 0 && point.Time >= firstVisiblePointTimeAfterSmokeEnded)
{
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float fraction = Math.Clamp((float)(timeDoingFinalFadeOut / final_fade_out_duration), 0, 1);
fraction = MathF.Pow(fraction, 5);
color.A = (1 - fraction) * re_fade_in_alpha;
}
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else
{
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double timeDoingInitialFadeOut = initialFadeOutTime - point.Time;
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if (timeDoingInitialFadeOut > 0)
{
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float fraction = Math.Clamp((float)(timeDoingInitialFadeOut / initial_fade_out_duration), 0, 1);
color.A = (1 - fraction) * initial_alpha;
}
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if (point.Time > firstVisiblePointTimeAfterSmokeEnded)
{
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double timeDoingReFadeIn = reFadeInTime - point.Time / re_fade_in_speed;
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if (timeDoingReFadeIn > 0)
{
float fraction = Math.Clamp((float)(timeDoingReFadeIn / re_fade_in_duration), 0, 1);
fraction = 1 - MathF.Pow(1 - fraction, 5);
color.A = fraction * (re_fade_in_alpha - color.A) + color.A;
}
}
}
return color;
}
protected virtual float PointScale(SmokePoint point)
{
double timeDoingScale = CurrentTime - point.Time;
float fraction = Math.Clamp((float)(timeDoingScale / scale_duration), 0, 1);
fraction = 1 - MathF.Pow(1 - fraction, 5);
return fraction * (final_scale - initial_scale) + initial_scale;
}
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protected virtual Vector2 PointDirection(SmokePoint point, int index)
{
double timeDoingRotation = CurrentTime - point.Time;
float fraction = Math.Clamp((float)(timeDoingRotation / rotation_duration), 0, 1);
fraction = 1 - MathF.Pow(1 - fraction, 5);
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float angle = fraction * getRotation(index) + point.Angle;
return new Vector2(MathF.Sin(angle), -MathF.Cos(angle));
}
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private float getRotation(int index) => max_rotation * (StatelessRNG.NextSingle(rotationSeed, index) * 2 - 1);
private void drawPointQuad(IRenderer renderer, SmokePoint point, RectangleF textureRect, int index)
{
Debug.Assert(quadBatch != null);
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var colour = PointColour(point);
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if (colour.A == 0)
return;
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float scale = PointScale(point);
if (scale == 0)
return;
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var dir = PointDirection(point, index);
var ortho = dir.PerpendicularLeft;
dir *= scale * width;
ortho *= scale * height;
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var localTopLeft = point.Position - ortho - dir;
var localTopRight = point.Position - ortho + dir;
var localBotLeft = point.Position + ortho - dir;
var localBotRight = point.Position + ortho + dir;
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quadBatch.Add(new TexturedVertex2D(renderer)
{
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Position = localTopLeft,
TexturePosition = textureRect.TopLeft,
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Colour = Color4Extensions.Multiply(ColourAtPosition(localTopLeft), colour),
});
quadBatch.Add(new TexturedVertex2D(renderer)
{
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Position = localTopRight,
TexturePosition = textureRect.TopRight,
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Colour = Color4Extensions.Multiply(ColourAtPosition(localTopRight), colour),
});
quadBatch.Add(new TexturedVertex2D(renderer)
{
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Position = localBotRight,
TexturePosition = textureRect.BottomRight,
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Colour = Color4Extensions.Multiply(ColourAtPosition(localBotRight), colour),
});
quadBatch.Add(new TexturedVertex2D(renderer)
{
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Position = localBotLeft,
TexturePosition = textureRect.BottomLeft,
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Colour = Color4Extensions.Multiply(ColourAtPosition(localBotLeft), colour),
});
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}
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protected override void Dispose(bool isDisposing)
{
base.Dispose(isDisposing);
quadBatch?.Dispose();
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}
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}
}
}