package com.artemis.utils; // Thanks to Riven // From: http://riven8192.blogspot.com/2009/08/fastmath-sincos-lookup-tables.html public class TrigLUT { public static void main(String[] args) { System.out.println(cos((float) Math.PI)); System.out.println(cosDeg(180f)); } public static final float sin(float rad) { return sin[(int) (rad * radToIndex) & SIN_MASK]; } public static final float cos(float rad) { return cos[(int) (rad * radToIndex) & SIN_MASK]; } public static final float sinDeg(float deg) { return sin[(int) (deg * degToIndex) & SIN_MASK]; } public static final float cosDeg(float deg) { return cos[(int) (deg * degToIndex) & SIN_MASK]; } private static final float RAD, DEG; private static final int SIN_BITS, SIN_MASK, SIN_COUNT; private static final float radFull, radToIndex; private static final float degFull, degToIndex; private static final float[] sin, cos; static { RAD = (float) Math.PI / 180.0f; DEG = 180.0f / (float) Math.PI; SIN_BITS = 12; SIN_MASK = ~(-1 << SIN_BITS); SIN_COUNT = SIN_MASK + 1; radFull = (float) (Math.PI * 2.0); degFull = (float) (360.0); radToIndex = SIN_COUNT / radFull; degToIndex = SIN_COUNT / degFull; sin = new float[SIN_COUNT]; cos = new float[SIN_COUNT]; for (int i = 0; i < SIN_COUNT; i++) { sin[i] = (float) Math.sin((i + 0.5f) / SIN_COUNT * radFull); cos[i] = (float) Math.cos((i + 0.5f) / SIN_COUNT * radFull); } } }