// file: core/math/math_2d.h // commit: 7ad14e7a3e6f87ddc450f7e34621eb5200808451 // file: core/math/math_2d.cpp // commit: 7ad14e7a3e6f87ddc450f7e34621eb5200808451 // file: core/variant_call.cpp // commit: 5ad9be4c24e9d7dc5672fdc42cea896622fe5685 using System; using System.Runtime.InteropServices; #if REAL_T_IS_DOUBLE using real_t = System.Double; #else using real_t = System.Single; #endif namespace Godot { [StructLayout(LayoutKind.Sequential)] public struct Vector2 : IEquatable { public real_t x; public real_t y; public real_t this[int index] { get { switch (index) { case 0: return x; case 1: return y; default: throw new IndexOutOfRangeException(); } } set { switch (index) { case 0: x = value; return; case 1: y = value; return; default: throw new IndexOutOfRangeException(); } } } internal void Normalize() { real_t length = x * x + y * y; if (length != 0f) { length = Mathf.Sqrt(length); x /= length; y /= length; } } private real_t Cross(Vector2 b) { return x * b.y - y * b.x; } public Vector2 Abs() { return new Vector2(Mathf.Abs(x), Mathf.Abs(y)); } public real_t Angle() { return Mathf.Atan2(y, x); } public real_t AngleTo(Vector2 to) { return Mathf.Atan2(Cross(to), Dot(to)); } public real_t AngleToPoint(Vector2 to) { return Mathf.Atan2(x - to.x, y - to.y); } public real_t Aspect() { return x / y; } public Vector2 Bounce(Vector2 n) { return -Reflect(n); } public Vector2 Clamped(real_t length) { var v = this; real_t l = Length(); if (l > 0 && length < l) { v /= l; v *= length; } return v; } public Vector2 CubicInterpolate(Vector2 b, Vector2 preA, Vector2 postB, real_t t) { var p0 = preA; var p1 = this; var p2 = b; var p3 = postB; real_t t2 = t * t; real_t t3 = t2 * t; return 0.5f * ((p1 * 2.0f) + (-p0 + p2) * t + (2.0f * p0 - 5.0f * p1 + 4 * p2 - p3) * t2 + (-p0 + 3.0f * p1 - 3.0f * p2 + p3) * t3); } public real_t DistanceSquaredTo(Vector2 to) { return (x - to.x) * (x - to.x) + (y - to.y) * (y - to.y); } public real_t DistanceTo(Vector2 to) { return Mathf.Sqrt((x - to.x) * (x - to.x) + (y - to.y) * (y - to.y)); } public real_t Dot(Vector2 with) { return x * with.x + y * with.y; } public Vector2 Floor() { return new Vector2(Mathf.Floor(x), Mathf.Floor(y)); } public bool IsNormalized() { return Mathf.Abs(LengthSquared() - 1.0f) < Mathf.Epsilon; } public real_t Length() { return Mathf.Sqrt(x * x + y * y); } public real_t LengthSquared() { return x * x + y * y; } public Vector2 LinearInterpolate(Vector2 b, real_t t) { var res = this; res.x += (t * (b.x - x)); res.y += (t * (b.y - y)); return res; } public Vector2 Normalized() { var result = this; result.Normalize(); return result; } public Vector2 Reflect(Vector2 n) { return 2.0f * n * Dot(n) - this; } public Vector2 Rotated(real_t phi) { real_t rads = Angle() + phi; return new Vector2(Mathf.Cos(rads), Mathf.Sin(rads)) * Length(); } public void Set(real_t x, real_t y) { this.x = x; this.y = y; } public void Set(Vector2 v) { x = v.x; y = v.y; } public Vector2 Slide(Vector2 n) { return this - n * Dot(n); } public Vector2 Snapped(Vector2 by) { return new Vector2(Mathf.Stepify(x, by.x), Mathf.Stepify(y, by.y)); } public Vector2 Tangent() { return new Vector2(y, -x); } private static readonly Vector2 zero = new Vector2 (0, 0); private static readonly Vector2 one = new Vector2 (1, 1); private static readonly Vector2 negOne = new Vector2 (-1, -1); private static readonly Vector2 up = new Vector2 (0, 1); private static readonly Vector2 down = new Vector2 (0, -1); private static readonly Vector2 right = new Vector2 (1, 0); private static readonly Vector2 left = new Vector2 (-1, 0); public static Vector2 Zero { get { return zero; } } public static Vector2 One { get { return one; } } public static Vector2 NegOne { get { return negOne; } } public static Vector2 Up { get { return up; } } public static Vector2 Down { get { return down; } } public static Vector2 Right { get { return right; } } public static Vector2 Left { get { return left; } } // Constructors public Vector2(real_t x, real_t y) { this.x = x; this.y = y; } public Vector2(Vector2 v) { x = v.x; y = v.y; } public static Vector2 operator +(Vector2 left, Vector2 right) { left.x += right.x; left.y += right.y; return left; } public static Vector2 operator -(Vector2 left, Vector2 right) { left.x -= right.x; left.y -= right.y; return left; } public static Vector2 operator -(Vector2 vec) { vec.x = -vec.x; vec.y = -vec.y; return vec; } public static Vector2 operator *(Vector2 vec, real_t scale) { vec.x *= scale; vec.y *= scale; return vec; } public static Vector2 operator *(real_t scale, Vector2 vec) { vec.x *= scale; vec.y *= scale; return vec; } public static Vector2 operator *(Vector2 left, Vector2 right) { left.x *= right.x; left.y *= right.y; return left; } public static Vector2 operator /(Vector2 vec, real_t scale) { vec.x /= scale; vec.y /= scale; return vec; } public static Vector2 operator /(Vector2 left, Vector2 right) { left.x /= right.x; left.y /= right.y; return left; } public static bool operator ==(Vector2 left, Vector2 right) { return left.Equals(right); } public static bool operator !=(Vector2 left, Vector2 right) { return !left.Equals(right); } public static bool operator <(Vector2 left, Vector2 right) { if (left.x.Equals(right.x)) { return left.y < right.y; } return left.x < right.x; } public static bool operator >(Vector2 left, Vector2 right) { if (left.x.Equals(right.x)) { return left.y > right.y; } return left.x > right.x; } public static bool operator <=(Vector2 left, Vector2 right) { if (left.x.Equals(right.x)) { return left.y <= right.y; } return left.x <= right.x; } public static bool operator >=(Vector2 left, Vector2 right) { if (left.x.Equals(right.x)) { return left.y >= right.y; } return left.x >= right.x; } public override bool Equals(object obj) { if (obj is Vector2) { return Equals((Vector2)obj); } return false; } public bool Equals(Vector2 other) { return x == other.x && y == other.y; } public override int GetHashCode() { return y.GetHashCode() ^ x.GetHashCode(); } public override string ToString() { return String.Format("({0}, {1})", new object[] { x.ToString(), y.ToString() }); } public string ToString(string format) { return String.Format("({0}, {1})", new object[] { x.ToString(format), y.ToString(format) }); } } }