SpineViewer/SpineRuntimes/SpineRuntime37/MathUtils.cs

/******************************************************************************
 * Spine Runtimes License Agreement
 * Last updated May 1, 2019. Replaces all prior versions.
 *
 * Copyright (c) 2013-2019, Esoteric Software LLC
 *
 * Integration of the Spine Runtimes into software or otherwise creating
 * derivative works of the Spine Runtimes is permitted under the terms and
 * conditions of Section 2 of the Spine Editor License Agreement:
 * http://esotericsoftware.com/spine-editor-license
 *
 * Otherwise, it is permitted to integrate the Spine Runtimes into software
 * or otherwise create derivative works of the Spine Runtimes (collectively,
 * "Products"), provided that each user of the Products must obtain their own
 * Spine Editor license and redistribution of the Products in any form must
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using System;

namespace SpineRuntime37 {
	public static class MathUtils {
		public const float PI = 3.1415927f;
		public const float PI2 = PI * 2;
		public const float RadDeg = 180f / PI;
		public const float DegRad = PI / 180;

		const int SIN_BITS = 14; // 16KB. Adjust for accuracy.
		const int SIN_MASK = ~(-1 << SIN_BITS);
		const int SIN_COUNT = SIN_MASK + 1;
		const float RadFull = PI * 2;
		const float DegFull = 360;
		const float RadToIndex = SIN_COUNT / RadFull;
		const float DegToIndex = SIN_COUNT / DegFull;
		static float[] sin = new float[SIN_COUNT];

		static Random random = new Random();

		static MathUtils () {
			for (int i = 0; i < SIN_COUNT; i++)
				sin[i] = (float)Math.Sin((i + 0.5f) / SIN_COUNT * RadFull);
			for (int i = 0; i < 360; i += 90)
				sin[(int)(i * DegToIndex) & SIN_MASK] = (float)Math.Sin(i * DegRad);
		}

		/// <summary>Returns the sine in radians from a lookup table.</summary>
		static public float Sin (float radians) {
			return sin[(int)(radians * RadToIndex) & SIN_MASK];
		}

		/// <summary>Returns the cosine in radians from a lookup table.</summary>
		static public float Cos (float radians) {
			return sin[(int)((radians + PI / 2) * RadToIndex) & SIN_MASK];
		}
			
		/// <summary>Returns the sine in radians from a lookup table.</summary>
		static public float SinDeg (float degrees) {
			return sin[(int)(degrees * DegToIndex) & SIN_MASK];
		}
			
		/// <summary>Returns the cosine in radians from a lookup table.</summary>
		static public float CosDeg (float degrees) {
			return sin[(int)((degrees + 90) * DegToIndex) & SIN_MASK];
		}

		/// <summary>Returns atan2 in radians, faster but less accurate than Math.Atan2. Average error of 0.00231 radians (0.1323
		/// degrees), largest error of 0.00488 radians (0.2796 degrees).</summary>
		static public float Atan2 (float y, float x) {
			if (x == 0f) {
				if (y > 0f) return PI / 2;
				if (y == 0f) return 0f;
				return -PI / 2;
			}
			float atan, z = y / x;
			if (Math.Abs(z) < 1f) {
				atan = z / (1f + 0.28f * z * z);
				if (x < 0f) return atan + (y < 0f ? -PI : PI);
				return atan;
			}
			atan = PI / 2 - z / (z * z + 0.28f);
			return y < 0f ? atan - PI : atan;
		}

		static public float Clamp (float value, float min, float max) {
			if (value < min) return min;
			if (value > max) return max;
			return value;
		}

		static public float RandomTriangle(float min, float max) {
			return RandomTriangle(min, max, (min + max) * 0.5f);
		}

		static public float RandomTriangle(float min, float max, float mode) {
			float u = (float)random.NextDouble();
			float d = max - min;
			if (u <= (mode - min) / d) return min + (float)Math.Sqrt(u * d * (mode - min));
			return max - (float)Math.Sqrt((1 - u) * d * (max - mode));
		}
	}

	public abstract class IInterpolation {
		public static IInterpolation Pow2 = new Pow(2);
		public static IInterpolation Pow2Out = new PowOut(2);

		protected abstract float Apply(float a);

		public float Apply(float start, float end, float a) {
			return start + (end - start) * Apply(a);
		}
	}

	public class Pow: IInterpolation {
		public float Power { get; set; }

		public Pow(float power) {
			Power = power;
		}

		protected override float Apply(float a) {
			if (a <= 0.5f) return (float)Math.Pow(a * 2, Power) / 2;
			return (float)Math.Pow((a - 1) * 2, Power) / (Power % 2 == 0 ? -2 : 2) + 1;
		}
	}

	public class PowOut : Pow {
		public PowOut(float power) : base(power) {
		}

		protected override float Apply(float a) {
			return (float)Math.Pow(a - 1, Power) * (Power % 2 == 0 ? -1 : 1) + 1;
		}
	}
}