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osu-lazer/osu.Game/Rulesets/Objects/CatmullApproximator.cs
2018-02-01 20:04:41 +09:00

71 lines
2.8 KiB
C#

// Copyright (c) 2007-2018 ppy Pty Ltd <contact@ppy.sh>.
// Licensed under the MIT Licence - https://raw.githubusercontent.com/ppy/osu/master/LICENCE
using System.Collections.Generic;
using OpenTK;
namespace osu.Game.Rulesets.Objects
{
public class CatmullApproximator
{
/// <summary>
/// The amount of pieces to calculate for each controlpoint quadruplet.
/// </summary>
private const int detail = 50;
private readonly List<Vector2> controlPoints;
public CatmullApproximator(List<Vector2> controlPoints)
{
this.controlPoints = controlPoints;
}
/// <summary>
/// Creates a piecewise-linear approximation of a Catmull-Rom spline.
/// </summary>
/// <returns>A list of vectors representing the piecewise-linear approximation.</returns>
public List<Vector2> CreateCatmull()
{
var result = new List<Vector2>();
for (int i = 0; i < controlPoints.Count - 1; i++)
{
var v1 = i > 0 ? controlPoints[i - 1] : controlPoints[i];
var v2 = controlPoints[i];
var v3 = i < controlPoints.Count - 1 ? controlPoints[i + 1] : v2 + v2 - v1;
var v4 = i < controlPoints.Count - 2 ? controlPoints[i + 2] : v3 + v3 - v2;
for (int c = 0; c < detail; c++)
{
result.Add(findPoint(ref v1, ref v2, ref v3, ref v4, (float)c / detail));
result.Add(findPoint(ref v1, ref v2, ref v3, ref v4, (float)(c + 1) / detail));
}
}
return result;
}
/// <summary>
/// Finds a point on the spline at the position of a parameter.
/// </summary>
/// <param name="vec1">The first vector.</param>
/// <param name="vec2">The second vector.</param>
/// <param name="vec3">The third vector.</param>
/// <param name="vec4">The fourth vector.</param>
/// <param name="t">The parameter at which to find the point on the spline, in the range [0, 1].</param>
/// <returns>The point on the spline at <paramref name="t"/>.</returns>
private Vector2 findPoint(ref Vector2 vec1, ref Vector2 vec2, ref Vector2 vec3, ref Vector2 vec4, float t)
{
float t2 = t * t;
float t3 = t * t2;
Vector2 result;
result.X = 0.5f * (2f * vec2.X + (-vec1.X + vec3.X) * t + (2f * vec1.X - 5f * vec2.X + 4f * vec3.X - vec4.X) * t2 + (-vec1.X + 3f * vec2.X - 3f * vec3.X + vec4.X) * t3);
result.Y = 0.5f * (2f * vec2.Y + (-vec1.Y + vec3.Y) * t + (2f * vec1.Y - 5f * vec2.Y + 4f * vec3.Y - vec4.Y) * t2 + (-vec1.Y + 3f * vec2.Y - 3f * vec3.Y + vec4.Y) * t3);
return result;
}
}
}