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272 lines
6.1 KiB
C++
272 lines
6.1 KiB
C++
//
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// FILE: FastTrig.cpp
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// AUTHOR: Rob Tillaart
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// VERSION: 0.2.1
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// PURPOSE: Arduino library for a faster approximation of sin() and cos()
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// DATE: 2011-08-18
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// URL: https://github.com/RobTillaart/FastTrig
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// https://forum.arduino.cc/index.php?topic=69723.0
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#include "FastTrig.h"
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// 91 x 2 bytes ==> 182 bytes
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// use 65535.0 as divider
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uint16_t sinTable16[] = {
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0,
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1145, 2289, 3435, 4572, 5716, 6853, 7989, 9125, 10255, 11385,
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12508, 13631, 14745, 15859, 16963, 18067, 19165, 20253, 21342, 22417,
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23489, 24553, 25610, 26659, 27703, 28731, 29755, 30773, 31777, 32772,
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33756, 34734, 35697, 36649, 37594, 38523, 39445, 40350, 41247, 42131,
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42998, 43856, 44701, 45528, 46344, 47147, 47931, 48708, 49461, 50205,
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50933, 51646, 52342, 53022, 53686, 54334, 54969, 55579, 56180, 56760,
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57322, 57866, 58394, 58908, 59399, 59871, 60327, 60768, 61184, 61584,
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61969, 62330, 62677, 63000, 63304, 63593, 63858, 64108, 64334, 64545,
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64731, 64903, 65049, 65177, 65289, 65377, 65449, 65501, 65527, 65535,
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65535
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};
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/* 0.1.4 table
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uint16_t sinTable16[] = {
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0,
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1145, 2289, 3435, 4571, 5715, 6852, 7988, 9125, 10254, 11385,
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12508, 13630, 14745, 15859, 16963, 18067, 19165, 20253, 21342, 22416,
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23488, 24553, 25610, 26659, 27699, 28730, 29754, 30773, 31777, 32771,
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33755, 34734, 35697, 36649, 37594, 38523, 39445, 40350, 41247, 42127,
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42998, 43856, 44697, 45527, 46344, 47146, 47931, 48708, 49461, 50205,
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50933, 51645, 52341, 53022, 53686, 54333, 54969, 55578, 56180, 56759,
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57322, 57866, 58394, 58908, 59399, 59871, 60327, 60767, 61184, 61584,
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61969, 62330, 62677, 63000, 63304, 63592, 63857, 64108, 64333, 64544,
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64731, 64902, 65049, 65177, 65289, 65376, 65449, 65501, 65527, 65535,
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65535
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};
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*/
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// use 255.0 as divider
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uint8_t sinTable8[] = {
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0, 4, 9, 13, 18, 22, 27, 31, 35, 40, 44,
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49, 53, 57, 62, 66, 70, 75, 79, 83, 87,
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91, 96, 100, 104, 108, 112, 116, 120, 124, 128,
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131, 135, 139, 143, 146, 150, 153, 157, 160, 164,
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167, 171, 174, 177, 180, 183, 186, 190, 192, 195,
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198, 201, 204, 206, 209, 211, 214, 216, 219, 221,
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223, 225, 227, 229, 231, 233, 235, 236, 238, 240,
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241, 243, 244, 245, 246, 247, 248, 249, 250, 251,
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252, 253, 253, 254, 254, 254, 255, 255, 255, 255,
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255
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};
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///////////////////////////////////////////////////////
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//
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// GONIO LOOKUP
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//
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float isin(float f)
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{
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bool negative = (f < 0);
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if (negative)
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{
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f = -f;
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negative = true;
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}
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long whole = f;
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uint8_t remain = (f - whole) * 256;
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if (whole >= 360) whole %= 360;
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int y = whole; // 16 bit math is faster than 32 bit
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if (y >= 180)
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{
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y -= 180;
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negative = !negative;
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}
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if (y >= 90)
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{
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y = 180 - y;
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if (remain != 0)
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{
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remain = 255 - remain;
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y--;
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}
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}
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// float value improves ~4% on avg error for ~60 bytes.
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uint16_t value = sinTable16[y];
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// interpolate if needed
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if (remain > 0)
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{
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value = value + ((sinTable16[y + 1] - value) / 8 * remain) / 32; // == * remain / 256
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}
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float g = value * 0.0000152590219; // = / 65535.0
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if (negative) return -g;
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return g;
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}
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float icos(float x)
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{
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// prevent modulo math if x in 0..360
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return isin(x - 270.0); // better than x + 90;
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}
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float itan(float f)
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{
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// reference
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// return isin(f)/icos(f);
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// idea is to divide two (interpolated) values from the table
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// so no divide by 65535
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// FOLDING
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bool mirror = false;
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bool negative = (f < 0);
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if (negative) f = -f;
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long whole = f;
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float remain = f - whole;
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if (whole >= 180) whole %= 180;
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float value = remain + whole; // normalised value 0..179.9999
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if (value > 90)
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{
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value = 180 - value;
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negative = !negative;
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mirror = true;
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}
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uint8_t d = value;
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if (d == 90) return NAN;
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// COS FIRST
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uint8_t p = 90 - d;
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float co = sinTable16[p];
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if (remain != 0)
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{
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float delta = (sinTable16[p] - sinTable16[p - 1]);
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if (mirror) co = sinTable16[p - 1] + remain * delta;
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else co = sinTable16[p] - remain * delta;
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}
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else if (co == 0) return 0;
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float si = sinTable16[d];
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if (remain != 0) si += remain * (sinTable16[d + 1] - sinTable16[d]);
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float ta = si/co;
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if (negative) return -ta;
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return ta;
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}
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// some problem at 0 but at least we have a icot(x) cotangent.
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float icot(float f)
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{
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float ta = itan(f);
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if (ta == 0) return NAN;
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return 1.0 / ta;
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}
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///////////////////////////////////////////////////////
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//
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// INVERSE GONIO LOOKUP
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//
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float iasin(float f)
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{
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bool negative = (f < 0);
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if (negative)
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{
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f = -f;
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negative = true;
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}
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uint16_t value = round(f * 65535);
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uint8_t lo = 0;
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uint8_t hi = 90;
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while (hi - lo > 1)
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{
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uint8_t mi = (lo + hi) / 2;
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if (sinTable16[mi] == value)
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{
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if (negative) return -mi;
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return mi;
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}
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if (sinTable16[mi] < value) lo = mi;
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else hi = mi;
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}
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float delta = value - sinTable16[lo];
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uint16_t range = sinTable16[hi] - sinTable16[lo];
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delta /= range;
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if (negative) return -(lo + delta);
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return (lo + delta);
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}
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float iacos(float f)
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{
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return 90 - iasin(f);
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}
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// PLACEHOLDER
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float iatan(float f)
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{
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return 0 * f;
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}
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float atanFast(float x)
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{
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// remove two test will limit the input range but makes it even faster.
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if ( x > 1) return (M_PI/2) - atanHelper(1.0 / x);
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if ( x < - 1) return (-M_PI/2) - atanHelper(1.0 / x);
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return atanHelper(x);
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}
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inline float atanHelper(float x)
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{
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float x2 = x * x;
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return (((0.079331 * x2) - 0.288679) * x2 + 0.995354) * x;
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// an even more accurate alternative, less fast
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// return ((((-0.0389929 * x2) + 0.1462766) * x2 - 0.3211819) * x2 + 0.9992150) * x;
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}
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float atan2Fast(float y, float x)
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{
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// catch singularity.
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if (x== 0 && y == 0) return NAN;
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if (x >= 0)
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{
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if (y >= 0)
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{
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if (fabs(y) >= fabs(x)) return M_PI / 2 - atanFast(x / y);
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return atanFast(y / x);
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}
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if (fabs(y) >= fabs(x)) return -M_PI / 2 - atanFast(x / y);
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return atanFast(y / x);
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}
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else
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{
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if (y >= 0)
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{
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if (fabs(y) >= fabs(x)) return M_PI / 2 - atanFast(x / y);
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return M_PI + atanFast(y / x);
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}
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if (fabs(y) >= fabs(x)) return -M_PI / 2 - atanFast(x / y);
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return -M_PI + atanFast(y / x);
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}
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}
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// -- END OF FILE --
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