// 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.Graphics; using osu.Framework.Graphics.Primitives; using osu.Game.Rulesets.Objects.Types; using osuTK; namespace osu.Game.Utils { public static class GeometryUtils { /// /// Rotate a point around an arbitrary origin. /// /// The point. /// The centre origin to rotate around. /// The angle to rotate (in degrees). public static Vector2 RotatePointAroundOrigin(Vector2 point, Vector2 origin, float angle) { angle = -angle; point.X -= origin.X; point.Y -= origin.Y; Vector2 ret; ret.X = point.X * MathF.Cos(float.DegreesToRadians(angle)) + point.Y * MathF.Sin(float.DegreesToRadians(angle)); ret.Y = point.X * -MathF.Sin(float.DegreesToRadians(angle)) + point.Y * MathF.Cos(float.DegreesToRadians(angle)); ret.X += origin.X; ret.Y += origin.Y; return ret; } /// /// Given a flip direction, a surrounding quad for all selected objects, and a position, /// will return the flipped position in screen space coordinates. /// public static Vector2 GetFlippedPosition(Direction direction, Quad quad, Vector2 position) { var centre = quad.Centre; switch (direction) { case Direction.Horizontal: position.X = centre.X - (position.X - centre.X); break; case Direction.Vertical: position.Y = centre.Y - (position.Y - centre.Y); break; } return position; } /// /// Given a scale vector, a surrounding quad for all selected objects, and a position, /// will return the scaled position in screen space coordinates. /// public static Vector2 GetScaledPosition(Anchor reference, Vector2 scale, Quad selectionQuad, Vector2 position) { // adjust the direction of scale depending on which side the user is dragging. float xOffset = ((reference & Anchor.x0) > 0) ? -scale.X : 0; float yOffset = ((reference & Anchor.y0) > 0) ? -scale.Y : 0; // guard against no-ops and NaN. if (scale.X != 0 && selectionQuad.Width > 0) position.X = selectionQuad.TopLeft.X + xOffset + (position.X - selectionQuad.TopLeft.X) / selectionQuad.Width * (selectionQuad.Width + scale.X); if (scale.Y != 0 && selectionQuad.Height > 0) position.Y = selectionQuad.TopLeft.Y + yOffset + (position.Y - selectionQuad.TopLeft.Y) / selectionQuad.Height * (selectionQuad.Height + scale.Y); return position; } /// /// Returns a quad surrounding the provided points. /// /// The points to calculate a quad for. public static Quad GetSurroundingQuad(IEnumerable points) { if (!points.Any()) return new Quad(); Vector2 minPosition = new Vector2(float.MaxValue, float.MaxValue); Vector2 maxPosition = new Vector2(float.MinValue, float.MinValue); // Go through all hitobjects to make sure they would remain in the bounds of the editor after movement, before any movement is attempted foreach (var p in points) { minPosition = Vector2.ComponentMin(minPosition, p); maxPosition = Vector2.ComponentMax(maxPosition, p); } Vector2 size = maxPosition - minPosition; return new Quad(minPosition.X, minPosition.Y, size.X, size.Y); } /// /// Returns a gamefield-space quad surrounding the provided hit objects. /// /// The hit objects to calculate a quad for. public static Quad GetSurroundingQuad(IEnumerable hitObjects) => GetSurroundingQuad(hitObjects.SelectMany(h => { if (h is IHasPath path) { return new[] { h.Position, // can't use EndPosition for reverse slider cases. h.Position + path.Path.PositionAt(1) }; } return new[] { h.Position }; })); } }