package edu.dhbw.andobjviewer.util; // Much of this is adapted from the beartronics FP lib public class FixedPointUtils { public static final int ONE = 0x10000; /** * Convert a float to 16.16 fixed-point representation * @param val The value to convert * @return The resulting fixed-point representation */ public static int toFixed(float val) { return (int)(val * 65536F); } /** * Convert an array of floats to 16.16 fixed-point * @param arr The array * @return A newly allocated array of fixed-point values. */ public static int[] toFixed(float[] arr) { int[] res = new int[arr.length]; toFixed(arr, res); return res; } /** * Convert an array of floats to 16.16 fixed-point * @param arr The array of floats * @param storage The location to store the fixed-point values. */ public static void toFixed(float[] arr, int[] storage) { for (int i=0;i<storage.length;i++) { storage[i] = toFixed(arr[i]); } } /** * Convert a 16.16 fixed-point value to floating point * @param val The fixed-point value * @return The equivalent floating-point value. */ public static float toFloat(int val) { return ((float)val)/65536.0f; } /** * Convert an array of 16.16 fixed-point values to floating point * @param arr The array to convert * @return A newly allocated array of floats. */ public static float[] toFloat(int[] arr) { float[] res = new float[arr.length]; toFloat(arr, res); return res; } /** * Convert an array of 16.16 fixed-point values to floating point * @param arr The array to convert * @param storage Pre-allocated storage for the result. */ public static void toFloat(int[] arr, float[] storage) { for (int i=0;i<storage.length;i++) { storage[i] = toFloat(arr[i]); } } /** * Multiply two fixed-point values. * @param x * @param y * @return */ public static int multiply (int x, int y) { long z = (long) x * (long) y; return ((int) (z >> 16)); } /** * Divide two fixed-point values. * @param x * @param y * @return */ public static int divide (int x, int y) { long z = (((long) x) << 32); return (int) ((z / y) >> 16); } /** * Find the sqrt of a fixed-point value. * @param n * @return */ public static int sqrt (int n) { int s = (n + 65536) >> 1; for (int i = 0; i < 8; i++) { //converge six times s = (s + divide(n, s)) >> 1; } return s; } }