// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using System; using System.Collections.Generic; using System.Linq; using osu.Framework.Utils; using osu.Game.Rulesets.Objects.Types; using osuTK; namespace osu.Game.Rulesets.Objects { public static class BezierConverter { private struct CircleBezierPreset { public readonly double ArcLength; public readonly Vector2d[] ControlPoints; public CircleBezierPreset(double arcLength, Vector2d[] controlPoints) { ArcLength = arcLength; ControlPoints = controlPoints; } } // Extremely accurate a bezier anchor positions for approximating circles of several arc lengths private static readonly CircleBezierPreset[] circle_presets = { new CircleBezierPreset(0.4993379862754501, new[] { new Vector2d(1, 0), new Vector2d(1, 0.2549893626632736f), new Vector2d(0.8778997558480327f, 0.47884446188920726f) }), new CircleBezierPreset(1.7579419829169447, new[] { new Vector2d(1, 0), new Vector2d(1, 0.6263026f), new Vector2d(0.42931178f, 1.0990661f), new Vector2d(-0.18605515f, 0.9825393f) }), new CircleBezierPreset(3.1385246920140215, new[] { new Vector2d(1, 0), new Vector2d(1, 0.87084764f), new Vector2d(0.002304826f, 1.5033062f), new Vector2d(-0.9973236f, 0.8739115f), new Vector2d(-0.9999953f, 0.0030679568f) }), new CircleBezierPreset(5.69720464620727, new[] { new Vector2d(1, 0), new Vector2d(1, 1.4137783f), new Vector2d(-1.4305235f, 2.0779421f), new Vector2d(-2.3410065f, -0.94017583f), new Vector2d(0.05132711f, -1.7309346f), new Vector2d(0.8331702f, -0.5530167f) }), new CircleBezierPreset(2 * Math.PI, new[] { new Vector2d(1, 0), new Vector2d(1, 1.2447058f), new Vector2d(-0.8526471f, 2.118367f), new Vector2d(-2.6211002f, 7.854936e-06f), new Vector2d(-0.8526448f, -2.118357f), new Vector2d(1, -1.2447058f), new Vector2d(1, 0) }) }; public static IEnumerable ConvertToLegacyBezier(IList controlPoints, Vector2 position) /// /// Converts a slider path to bezier control point positions compatible with the legacy osu! client. /// /// The control points of the path. /// The offset for the whole path. /// The list of legacy bezier control point positions. { Vector2[] vertices = new Vector2[controlPoints.Count]; for (int i = 0; i < controlPoints.Count; i++) vertices[i] = controlPoints[i].Position; var result = new List(); int start = 0; for (int i = 0; i < controlPoints.Count; i++) { if (controlPoints[i].Type == null && i < controlPoints.Count - 1) continue; // The current vertex ends the segment var segmentVertices = vertices.AsSpan().Slice(start, i - start + 1); var segmentType = controlPoints[start].Type ?? PathType.Linear; switch (segmentType) { case PathType.Catmull: result.AddRange(from segment in ConvertCatmullToBezierAnchors(segmentVertices) from v in segment select v + position); break; case PathType.Linear: result.AddRange(from segment in ConvertLinearToBezierAnchors(segmentVertices) from v in segment select v + position); break; case PathType.PerfectCurve: result.AddRange(ConvertCircleToBezierAnchors(segmentVertices).Select(v => v + position)); break; default: foreach (Vector2 v in segmentVertices) { result.Add(v + position); } break; } // Start the new segment at the current vertex start = i; } return result; } /// /// Converts a path of control points to an identical path using only Bezier type control points. /// /// The control points of the path. /// The list of bezier control points. public static List ConvertToModernBezier(IList controlPoints) { Vector2[] vertices = new Vector2[controlPoints.Count]; for (int i = 0; i < controlPoints.Count; i++) vertices[i] = controlPoints[i].Position; var result = new List(); int start = 0; for (int i = 0; i < controlPoints.Count; i++) { if (controlPoints[i].Type == null && i < controlPoints.Count - 1) continue; // The current vertex ends the segment var segmentVertices = vertices.AsSpan().Slice(start, i - start + 1); var segmentType = controlPoints[start].Type ?? PathType.Linear; switch (segmentType) { case PathType.Catmull: foreach (var segment in ConvertCatmullToBezierAnchors(segmentVertices)) { for (int j = 0; j < segment.Length - 1; j++) { result.Add(new PathControlPoint(segment[j], j == 0 ? PathType.Bezier : null)); } } break; case PathType.Linear: foreach (var segment in ConvertLinearToBezierAnchors(segmentVertices)) { for (int j = 0; j < segment.Length - 1; j++) { result.Add(new PathControlPoint(segment[j], j == 0 ? PathType.Bezier : null)); } } break; case PathType.PerfectCurve: var circleResult = ConvertCircleToBezierAnchors(segmentVertices); for (int j = 0; j < circleResult.Length - 1; j++) { result.Add(new PathControlPoint(circleResult[j], j == 0 ? PathType.Bezier : null)); } break; default: for (int j = 0; j < segmentVertices.Length - 1; j++) { result.Add(new PathControlPoint(segmentVertices[j], j == 0 ? PathType.Bezier : null)); } break; } // Start the new segment at the current vertex start = i; } result.Add(new PathControlPoint(controlPoints[^1].Position)); return result; } /// /// Converts perfect curve anchors to bezier anchors. /// /// The control point positions to convert. public static Vector2[] ConvertCircleToBezierAnchors(ReadOnlySpan controlPoints) { if (controlPoints.Length != 3) return controlPoints.ToArray(); var pr = new CircularArcProperties(controlPoints); if (!pr.IsValid) return controlPoints.ToArray(); CircleBezierPreset preset = circle_presets.Last(); foreach (CircleBezierPreset cbp in circle_presets) { if (cbp.ArcLength < pr.ThetaRange) continue; preset = cbp; break; } double arcLength = preset.ArcLength; var arc = new Vector2d[preset.ControlPoints.Length]; preset.ControlPoints.CopyTo(arc, 0); // Converge on arcLength of thetaRange int n = arc.Length - 1; double tf = pr.ThetaRange / arcLength; while (Math.Abs(tf - 1) > 1E-7) { for (int j = 0; j < n; j++) { for (int i = n; i > j; i--) { arc[i] = arc[i] * tf + arc[i - 1] * (1 - tf); } } arcLength = Math.Atan2(arc.Last()[1], arc.Last()[0]); if (arcLength < 0) { arcLength += 2 * Math.PI; } tf = pr.ThetaRange / arcLength; } // Adjust rotation, radius, and position var result = new Vector2[arc.Length]; for (int i = 0; i < arc.Length; i++) { result[i] = new Vector2( (float)((Math.Cos(pr.ThetaStart) * arc[i].X + -Math.Sin(pr.ThetaStart) * pr.Direction * arc[i].Y) * pr.Radius + pr.Centre.X), (float)((Math.Sin(pr.ThetaStart) * arc[i].X + Math.Cos(pr.ThetaStart) * pr.Direction * arc[i].Y) * pr.Radius + pr.Centre.Y)); } return result; } /// /// Converts catmull anchors to bezier anchors. /// /// The control point positions to convert. public static Vector2[][] ConvertCatmullToBezierAnchors(ReadOnlySpan controlPoints) { int iLen = controlPoints.Length; var bezier = new Vector2[iLen - 1][]; for (int i = 0; i < iLen - 1; i++) { var v1 = i > 0 ? controlPoints[i - 1] : controlPoints[i]; var v2 = controlPoints[i]; var v3 = i < iLen - 1 ? controlPoints[i + 1] : v2 + v2 - v1; var v4 = i < iLen - 2 ? controlPoints[i + 2] : v3 + v3 - v2; bezier[i] = new[] { v2, (-v1 + 6 * v2 + v3) / 6, (-v4 + 6 * v3 + v2) / 6, v3 }; } return bezier; } /// /// Converts linear anchors to bezier anchors. /// /// The control point positions to convert. public static Vector2[][] ConvertLinearToBezierAnchors(ReadOnlySpan controlPoints) { int iLen = controlPoints.Length; var bezier = new Vector2[iLen - 1][]; for (int i = 0; i < iLen - 1; i++) { bezier[i] = new[] { controlPoints[i], controlPoints[i + 1] }; } return bezier; } } }