Difference between revisions of "User:Rednaxela/FastTrig"

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This could provide some measurable speedup to intensive play-it-forward guns or precise prediction in surfers. Cheers!  
 
This could provide some measurable speedup to intensive play-it-forward guns or precise prediction in surfers. Cheers!  
  
<pre>package ags.util;
+
<syntaxhighlight>package ags.util;
  
 
public class FastTrig {
 
public class FastTrig {
public static final int DIVISIONS = 2880;
+
public static final int DIVISIONS = 7200;
 +
public static final double K = DIVISIONS/(Math.PI*2);
 
public static final double[] sineTable = new double[DIVISIONS];
 
public static final double[] sineTable = new double[DIVISIONS];
public static final double[] cosineTable = new double[DIVISIONS];
+
 
 
 
public static final void init() {
 
public static final void init() {
 
for (int i=0; i<DIVISIONS; i++) {
 
for (int i=0; i<DIVISIONS; i++) {
double value = i*Math.PI*2/DIVISIONS;
+
double value = i/K;
 
sineTable[i] = Math.sin(value);
 
sineTable[i] = Math.sin(value);
cosineTable[i] = Math.cos(value);
 
 
}
 
}
 
}
 
}
 
 
 
public static final double sin(double value) {
 
public static final double sin(double value) {
return sineTable[(int)(value/(Math.PI*2/DIVISIONS) + 0.5) % DIVISIONS];
+
return sineTable[(int)(((value*K + 0.5) % DIVISIONS + DIVISIONS)%DIVISIONS)];
 
}
 
}
 
 
 
public static final double cos(double value) {
 
public static final double cos(double value) {
return cosineTable[(i--~~~~nt)(value/(Math.PI*2/DIVISIONS) + 0.5) % DIVISIONS];
+
return sineTable[(int)(((value*K + 0.5) % DIVISIONS + 1.25*DIVISIONS)%DIVISIONS)];
 
}
 
}
 
 
/*
 
 
public static void main(String[] args) {
 
public static void main(String[] args) {
init();
+
double v=0;
 +
long ms;
 +
 
 +
ms = -System.nanoTime();
 +
FastTrig.init();
 +
ms += System.nanoTime();
 +
System.out.printf("FastTrig init time: %.5f seconds\n", ms / 1E9);
 +
 
 +
int A = 10000;
 +
int B = 1000;
 +
double absolute = 0;
 +
for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j ) {
 +
double angle = Math.random() * Math.PI * 200 - Math.PI * 100;
 +
absolute = Math.max(absolute, Math.abs(Math.sin(angle) - FastTrig.sin(angle)));
 +
absolute = Math.max(absolute, Math.abs(Math.cos(angle) - FastTrig.cos(angle)));
 +
}
 +
System.out.printf("Wrost error: %.12f\n", absolute);
 +
v=0;
 +
ms = -System.nanoTime();
 +
for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j )
 +
v += FastTrig.sin(i * j * Math.PI - Math.PI / 3);
 +
ms += System.nanoTime();
 +
System.out.printf("FastTrig time: %.3f seconds\n", ms / 1E9);
 +
v = 0;
 +
ms = -System.nanoTime();
 +
for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j )
 +
v += Math.sin(i * j * Math.PI - Math.PI / 3);
 +
ms += System.nanoTime();
 +
System.out.printf("Math time: %.3f seconds\n", ms/1E9);
 +
}
 +
}</syntaxhighlight>
 +
 
 +
Test output is as follows:
 +
<pre>FastTrig init time: 0.00470 seconds
 +
Wrost error: 0.000436329459
 +
FastTrig time: 0.506 seconds
 +
Math time: 8.619 seconds</pre>
 +
--[[User:Rednaxela|Rednaxela]] 00:34, 4 March 2009 (UTC)
 +
 
 +
== FastTrig re-create ==
 +
<syntaxhighlight>
 +
package wiki;
 +
 
 +
import static java.lang.Math.abs;
 +
import java.io.PrintStream;
 +
 
 +
/**
 +
* FastMath - a faster replacement to Trig
 +
*
 +
* Run command:
 +
*  java -Xmx1G wiki.FastMath
 +
*
 +
* @author Rednaxela
 +
* @author Skilgannon
 +
* @author Starrynte
 +
* @author Nat
 +
*/
 +
public final class FastMath {
 +
public static final double PI        = 3.1415926535897932384626433832795D;
 +
public static final double TWO_PI    = 6.2831853071795864769252867665590D;
 +
public static final double HALF_PI  = 1.5707963267948966192313216916398D;
 +
public static final double QUARTER_PI = 0.7853981633974483096156608458199D;
 +
public static final double THREE_OVER_TWO_PI
 +
                                            = 4.7123889803846898576939650749193D;
 +
 
 +
private static final int TRIG_DIVISIONS = 8192;//MUST be power of 2!!!
 +
private static final int TRIG_HIGH_DIVISIONS = 131072;//MUST be power of 2!!!
 +
private static final double K          = TRIG_DIVISIONS / TWO_PI;
 +
private static final double ACOS_K      = (TRIG_HIGH_DIVISIONS - 1)/ 2;
 +
private static final double TAN_K      = TRIG_HIGH_DIVISIONS / PI;
 +
 
 +
private static final double[] sineTable = new double[TRIG_DIVISIONS];
 +
private static final double[] tanTable  = new double[TRIG_HIGH_DIVISIONS];
 +
private static final double[] acosTable = new double[TRIG_HIGH_DIVISIONS];
 +
 
 +
static {
 +
for (int i = 0; i < TRIG_DIVISIONS; i++) {
 +
sineTable[i] = Math.sin(i/K);
 +
                }
 +
                for(int i = 0; i < TRIG_HIGH_DIVISIONS; i++){
 +
tanTable[i]  = Math.tan(i/TAN_K);
 +
acosTable[i] = Math.acos(i / ACOS_K - 1);
 +
}
 +
}
 +
 
 +
public static final void init() {
 +
//A little hack to allow you to initialize it either way
 +
sineTable[0] = sineTable[0];
 +
}
 +
 +
public static final double sin(double value) {
 +
return sineTable[(int)(((value * K + 0.5) % TRIG_DIVISIONS + TRIG_DIVISIONS) )&(TRIG_DIVISIONS - 1)];
 +
}
 +
 +
public static final double cos(double value) {
 +
return sineTable[(int)(((value * K + 0.5) % TRIG_DIVISIONS + 1.25 * TRIG_DIVISIONS) )&(TRIG_DIVISIONS - 1)];
 +
}
 +
 
 +
public static final double tan(double value) {
 +
return tanTable[(int)(((value * TAN_K + 0.5) % TRIG_HIGH_DIVISIONS + TRIG_HIGH_DIVISIONS) )&(TRIG_HIGH_DIVISIONS - 1)];
 +
}
 +
 
 +
public static final double asin(double value) {
 +
//return atan(x / Math.sqrt(1 - x*x));
 +
return HALF_PI - acos(value);
 +
}
 +
 
 +
public static final double pow(final double a, final double b) {
 +
final long tmp = Double.doubleToLongBits(a);
 +
final long tmp2 = (long)(b * (tmp - 4606921280493453312L)) + 4606921280493453312L;
 +
return Double.longBitsToDouble(tmp2);
 +
}
 +
 
 +
public static final double acos(double value) {
 +
return acosTable[(int)(value*ACOS_K + (ACOS_K + 0.5))];
 +
}
 +
 
 +
public static final double atan(double value) {
 +
return (value >= 0 ? acos(1 / sqrt(value * value + 1)) : -acos(1 / sqrt(value * value + 1)));
 +
}
 +
 
 +
public static final double atan2(double x, double y) {
 +
return (x >= 0 ? acos(y / sqrt(x*x + y*y)) : -acos(y / sqrt(x*x + y*y)));
 +
}
 +
 
 +
public static final double sqrt(double x){
 +
return Math.sqrt(x);
 +
//return x * (1.5d - 0.5*x* (x = Double.longBitsToDouble(0x5fe6ec85e7de30daL - (Double.doubleToLongBits(x)>>1) )) *x) * x;
 +
}
 +
 
 +
public static void main(String args[]) {
 +
double[] angletest, arctest, atantest, tantest;
 +
double[][] atan2test, powtest;
 +
double[] expect, current;
 +
PrintStream o = System.out;
 +
final int NUM = 10000000;
 +
long ms;
 +
double error;
 +
angletest = new double[NUM];
 +
tantest = new double[NUM];
 +
arctest = new double[NUM];
 +
atantest = new double[NUM];
 +
atan2test = new double[NUM][2];
 +
powtest = new double[NUM][2];
 +
System.out.println("Initializing FastMath...");
 +
for (int i = 0; i < NUM; i++) {
 +
// angletest[i] = (Math.random() + 1d) + i * Math.PI - Math.PI / 3d;
 +
angletest[i] = Math.random() * (PI * 3) - PI;
 +
tantest[i] = Math.random() * PI - HALF_PI;
 +
arctest[i] = Math.random() * 2d - 1d;
 +
atantest[i] = Math.random() * 16000d - 8000d;
 +
atan2test[i][0] = Math.random() * 10000d - 5000d;
 +
atan2test[i][1] = Math.random() * 10000d - 5000d;
 +
powtest[i][0] = Math.random() * 10000d - 5000d;
 +
powtest[i][1] = Math.random() * 10000d - 5000d;
 +
}
 +
ms = -System.nanoTime();
 +
FastMath.init();
 +
ms += System.nanoTime();
 +
o.printf("FastMath init time: %.5f seconds\n", ms / 1E9);
 +
o.println();
 +
 +
// ---------------------------------------
 +
o.println("== Sine Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 
 
double v=12.23;
+
// Math.sin
long ms;
+
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.sin(angletest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.sin() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.sin
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.sin(angletest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.sin() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.sin() worst error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Cosine Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.cos
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.cos(angletest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.cos() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.cos
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.cos(angletest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.cos() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.cos() worst error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Tangent Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.tan
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.tan(tantest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.tan() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.tan
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.tan(tantest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.tan() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.tan() max error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Arcsine Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.asin
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.asin(arctest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.asin() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.asin
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.asin(arctest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.asin() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.asin() worst error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Arccosine Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.acos
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.acos(arctest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.asin() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.acos
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.acos(arctest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.acos() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.acos() worst error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Arctangent Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.atan
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.atan(atantest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.atan() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.atan
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.atan(atantest[i]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.atan() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.atan() worst error: %.5f\n", error);
 +
// ---------------------------------------
 +
o.println("== Arctangent2 Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.atan2
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
expect[i] = Math.atan2(atan2test[i][0], atan2test[i][1]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("Math.atan2() time: %.5f seconds\n", ms / 1E9);
 +
 +
// FastMath.atan2
 +
ms = -System.nanoTime();
 +
for (int i = 0; i < NUM; i++) {
 +
current[i] = FastMath.atan2(atan2test[i][0], atan2test[i][1]);
 +
}
 +
ms += System.nanoTime();
 +
o.printf("FastMath.atan2() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.atan2() worst error: %.5f\n", error);
 +
 
 +
o.println("== Power Test ==");
 +
 +
expect = new double[NUM];
 +
current = new double[NUM];
 +
error = 0;
 +
 +
// Math.pow
 
ms = -System.nanoTime();
 
ms = -System.nanoTime();
for (int i=0; i<100000; i++)
+
for (int i = 0; i < NUM; i++) {
v += Math.sin(i*Math.PI*2/1000);
+
expect[i] = Math.pow(powtest[i][0], powtest[i][1]);
 +
}
 
ms += System.nanoTime();
 
ms += System.nanoTime();
System.out.println(String.format("Done in %4.4f seconds", ms/1E9));
+
o.printf("Math.pow() time: %.5f seconds\n", ms / 1E9);
 
 
 +
// FastMath.pow
 
ms = -System.nanoTime();
 
ms = -System.nanoTime();
for (int i=0; i<100000; i++) {
+
for (int i = 0; i < NUM; i++) {
double value = i*Math.PI/1000;
+
current[i] = FastMath.pow(powtest[i][0], powtest[i][1]);
v += sineTable[(int)(value/(Math.PI*2/DIVISIONS) + 0.5) % DIVISIONS];
 
 
}
 
}
 
ms += System.nanoTime();
 
ms += System.nanoTime();
System.out.println(String.format("Done in %4.4f seconds", ms/1E9));
+
o.printf("FastMath.pow() time: %.5f seconds\n", ms / 1E9);
 +
 +
for (int i = 0; i < NUM; i++) {
 +
error = Math.max(error, abs(expect[i] - current[i]));
 +
}
 +
o.printf("FastMath.pow() worst error: %.5f\n", error);
 
}
 
}
*/
+
}
}</pre>
+
</syntaxhighlight>
 +
 
 +
Result:
 +
<pre>
 +
Initializing FastMath...
 +
FastMath init time: 0.12839 seconds
  
--[[User:Rednaxela|Rednaxela]] 09:18, 3 March 2009 (UTC)
+
== Sine Test ==
 +
Math.sin() time: 1.48196 seconds
 +
FastMath.sin() time: 0.27152 seconds
 +
FastMath.sin() worst error: 0.00038
 +
== Cosine Test ==
 +
Math.cos() time: 1.38444 seconds
 +
FastMath.cos() time: 0.26755 seconds
 +
FastMath.cos() worst error: 0.00038
 +
== Tangent Test ==
 +
Math.tan() time: 1.90291 seconds
 +
FastMath.tan() time: 0.27914 seconds
 +
FastMath.tan() max error: 40440.39341 /* Note: The nearer to PI the value are, the more error they will raise */
 +
== Arcsine Test ==
 +
Math.asin() time: 9.08303 seconds
 +
FastMath.asin() time: 0.13469 seconds
 +
FastMath.asin() worst error: 0.00390
 +
== Arccosine Test ==
 +
Math.asin() time: 8.72265 seconds
 +
FastMath.acos() time: 0.11361 seconds
 +
FastMath.acos() worst error: 0.00390
 +
== Arctangent Test ==
 +
Math.atan() time: 2.98640 seconds
 +
FastMath.atan() time: 0.52767 seconds
 +
FastMath.atan() worst error: 0.00376
 +
== Arctangent2 Test ==
 +
Math.atan2() time: 4.10049 seconds
 +
FastMath.atan2() time: 0.71804 seconds
 +
FastMath.atan2() worst error: 0.00391
 +
</pre>

Latest revision as of 00:26, 13 December 2011

A little class for fast trig lookups. Tests show that:

  • When used with the sin/cos static methods, it ranges from twice as slow, to three times as fast, depending on how much of a chance the JIT has to optimize
  • When you inline the index-calculation code into your own code (see usage in the main method) instead of using static methods, it ranges from just slightly faster, up to three times as fast.
  • Increasing the number of divisions has no impact on runtime performance, only initialization time and memory consumption.

This could provide some measurable speedup to intensive play-it-forward guns or precise prediction in surfers. Cheers!

package ags.util;

public class FastTrig {
	public static final int DIVISIONS = 7200;
	public static final double K = DIVISIONS/(Math.PI*2);
	public static final double[] sineTable = new double[DIVISIONS];

	public static final void init() {
		for (int i=0; i<DIVISIONS; i++) {
			double value = i/K;
			sineTable[i] = Math.sin(value);
		}
	}
	
	public static final double sin(double value) {
		return sineTable[(int)(((value*K + 0.5) % DIVISIONS + DIVISIONS)%DIVISIONS)];
	}
	
	public static final double cos(double value) {
		return sineTable[(int)(((value*K + 0.5) % DIVISIONS + 1.25*DIVISIONS)%DIVISIONS)];
	}
	
	public static void main(String[] args) {
		double v=0;
		long ms;

		ms = -System.nanoTime();
		FastTrig.init();
		ms += System.nanoTime();
		System.out.printf("FastTrig init time: %.5f seconds\n", ms / 1E9);

		int A = 10000;
		int B = 1000;
		double absolute = 0;
		for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j ) {
			double angle = Math.random() * Math.PI * 200 - Math.PI * 100;
			absolute = Math.max(absolute, Math.abs(Math.sin(angle) - FastTrig.sin(angle)));
			absolute = Math.max(absolute, Math.abs(Math.cos(angle) - FastTrig.cos(angle)));
		}
		System.out.printf("Wrost error: %.12f\n", absolute);
		v=0;
		ms = -System.nanoTime();
		for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j )
			v += FastTrig.sin(i * j * Math.PI - Math.PI / 3);
		ms += System.nanoTime();
		System.out.printf("FastTrig time: %.3f seconds\n", ms / 1E9);
		v = 0;
		ms = -System.nanoTime();
		for ( int i = 0; i < A; ++i ) for ( int j = 0; j < B; ++j )
			v += Math.sin(i * j * Math.PI - Math.PI / 3);
		ms += System.nanoTime();
		System.out.printf("Math time: %.3f seconds\n", ms/1E9);
	}
}

Test output is as follows:

FastTrig init time: 0.00470 seconds
Wrost error: 0.000436329459
FastTrig time: 0.506 seconds
Math time: 8.619 seconds

--Rednaxela 00:34, 4 March 2009 (UTC)

FastTrig re-create

package wiki;

import static java.lang.Math.abs;
import java.io.PrintStream;

/**
 * FastMath - a faster replacement to Trig
 *
 * Run command:
 *   java -Xmx1G wiki.FastMath
 *
 * @author Rednaxela
 * @author Skilgannon
 * @author Starrynte
 * @author Nat
 */
public final class FastMath {
	public static final double PI        = 3.1415926535897932384626433832795D;
	public static final double TWO_PI    = 6.2831853071795864769252867665590D;
	public static final double HALF_PI   = 1.5707963267948966192313216916398D;
	public static final double QUARTER_PI = 0.7853981633974483096156608458199D;
	public static final double THREE_OVER_TWO_PI
                                            = 4.7123889803846898576939650749193D;

	private static final int TRIG_DIVISIONS = 8192;//MUST be power of 2!!!
	private static final int TRIG_HIGH_DIVISIONS = 131072;//MUST be power of 2!!!
	private static final double K           = TRIG_DIVISIONS / TWO_PI;
	private static final double ACOS_K      = (TRIG_HIGH_DIVISIONS - 1)/ 2;
	private static final double TAN_K      = TRIG_HIGH_DIVISIONS / PI;

	private static final double[] sineTable = new double[TRIG_DIVISIONS];
	private static final double[] tanTable  = new double[TRIG_HIGH_DIVISIONS];
	private static final double[] acosTable = new double[TRIG_HIGH_DIVISIONS];

	static {
		for (int i = 0; i < TRIG_DIVISIONS; i++) {
			sineTable[i] = Math.sin(i/K);
                }
                for(int i = 0; i < TRIG_HIGH_DIVISIONS; i++){
			tanTable[i]  = Math.tan(i/TAN_K);
			acosTable[i] = Math.acos(i / ACOS_K - 1);
		}
	}

	public static final void init() {
		//A little hack to allow you to initialize it either way
		sineTable[0] = sineTable[0];
	}
	
	public static final double sin(double value) {
		return sineTable[(int)(((value * K + 0.5) % TRIG_DIVISIONS + TRIG_DIVISIONS) )&(TRIG_DIVISIONS - 1)];
	}
	
	public static final double cos(double value) {
		return sineTable[(int)(((value * K + 0.5) % TRIG_DIVISIONS + 1.25 * TRIG_DIVISIONS) )&(TRIG_DIVISIONS - 1)];
	}

	public static final double tan(double value) {
		return tanTable[(int)(((value * TAN_K + 0.5) % TRIG_HIGH_DIVISIONS + TRIG_HIGH_DIVISIONS) )&(TRIG_HIGH_DIVISIONS - 1)];	
	}

	public static final double asin(double value) {
		//return atan(x / Math.sqrt(1 - x*x));
		return HALF_PI - acos(value);
	}

	public static final double pow(final double a, final double b) {
		final long tmp = Double.doubleToLongBits(a);
		final long tmp2 = (long)(b * (tmp - 4606921280493453312L)) + 4606921280493453312L;
		return Double.longBitsToDouble(tmp2);
	}

	public static final double acos(double value) {
		return acosTable[(int)(value*ACOS_K + (ACOS_K + 0.5))];
	}

	public static final double atan(double value) {
		return (value >= 0 ? acos(1 / sqrt(value * value + 1)) : -acos(1 / sqrt(value * value + 1)));
	}

	public static final double atan2(double x, double y) {
		return (x >= 0 ? acos(y / sqrt(x*x + y*y)) : -acos(y / sqrt(x*x + y*y)));
	}

	public static final double sqrt(double x){
		return Math.sqrt(x);
		//return x * (1.5d - 0.5*x* (x = Double.longBitsToDouble(0x5fe6ec85e7de30daL - (Double.doubleToLongBits(x)>>1) )) *x) * x;
	}

	public static void main(String args[]) {
		double[] angletest, arctest, atantest, tantest;
		double[][] atan2test, powtest;
		double[] expect, current;
		PrintStream o = System.out;
		final int NUM = 10000000;
		long ms;
		double error;
		angletest = new double[NUM];
		tantest = new double[NUM];
		arctest = new double[NUM];
		atantest = new double[NUM];
		atan2test = new double[NUM][2];
		powtest = new double[NUM][2];
		System.out.println("Initializing FastMath...");
		for (int i = 0; i < NUM; i++) {
			// angletest[i] = (Math.random() + 1d) + i * Math.PI - Math.PI / 3d;
			angletest[i] = Math.random() * (PI * 3) - PI;
			tantest[i] = Math.random() * PI - HALF_PI;
			arctest[i] = Math.random() * 2d - 1d;
			atantest[i] = Math.random() * 16000d - 8000d;
			atan2test[i][0] = Math.random() * 10000d - 5000d;
			atan2test[i][1] = Math.random() * 10000d - 5000d;
			powtest[i][0] = Math.random() * 10000d - 5000d;
			powtest[i][1] = Math.random() * 10000d - 5000d;
		}
		ms = -System.nanoTime();
		FastMath.init();
		ms += System.nanoTime();
		o.printf("FastMath init time: %.5f seconds\n", ms / 1E9);
		o.println();
		
		// ---------------------------------------
		o.println("== Sine Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.sin
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.sin(angletest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.sin() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.sin
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.sin(angletest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.sin() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.sin() worst error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Cosine Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.cos
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.cos(angletest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.cos() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.cos
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.cos(angletest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.cos() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.cos() worst error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Tangent Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.tan
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.tan(tantest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.tan() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.tan
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.tan(tantest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.tan() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.tan() max error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Arcsine Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.asin
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.asin(arctest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.asin() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.asin
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.asin(arctest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.asin() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.asin() worst error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Arccosine Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.acos
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.acos(arctest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.asin() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.acos
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.acos(arctest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.acos() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.acos() worst error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Arctangent Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.atan
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.atan(atantest[i]);
		}
		ms += System.nanoTime();
		o.printf("Math.atan() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.atan
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.atan(atantest[i]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.atan() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.atan() worst error: %.5f\n", error);
		// ---------------------------------------
		o.println("== Arctangent2 Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.atan2
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.atan2(atan2test[i][0], atan2test[i][1]);
		}
		ms += System.nanoTime();
		o.printf("Math.atan2() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.atan2
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.atan2(atan2test[i][0], atan2test[i][1]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.atan2() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.atan2() worst error: %.5f\n", error);

		o.println("== Power Test ==");
		
		expect = new double[NUM];
		current = new double[NUM];
		error = 0;
		
		// Math.pow
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			expect[i] = Math.pow(powtest[i][0], powtest[i][1]);
		}
		ms += System.nanoTime();
		o.printf("Math.pow() time: %.5f seconds\n", ms / 1E9);
		
		// FastMath.pow
		ms = -System.nanoTime();
		for (int i = 0; i < NUM; i++) {
			current[i] = FastMath.pow(powtest[i][0], powtest[i][1]);
		}
		ms += System.nanoTime();
		o.printf("FastMath.pow() time: %.5f seconds\n", ms / 1E9);
		
		for (int i = 0; i < NUM; i++) {
			error = Math.max(error, abs(expect[i] - current[i]));
		}
		o.printf("FastMath.pow() worst error: %.5f\n", error);
	}
}

Result:

Initializing FastMath...
FastMath init time: 0.12839 seconds

== Sine Test ==
Math.sin() time: 1.48196 seconds
FastMath.sin() time: 0.27152 seconds
FastMath.sin() worst error: 0.00038
== Cosine Test ==
Math.cos() time: 1.38444 seconds
FastMath.cos() time: 0.26755 seconds
FastMath.cos() worst error: 0.00038
== Tangent Test ==
Math.tan() time: 1.90291 seconds
FastMath.tan() time: 0.27914 seconds
FastMath.tan() max error: 40440.39341 /* Note: The nearer to PI the value are, the more error they will raise */
== Arcsine Test ==
Math.asin() time: 9.08303 seconds
FastMath.asin() time: 0.13469 seconds
FastMath.asin() worst error: 0.00390
== Arccosine Test ==
Math.asin() time: 8.72265 seconds
FastMath.acos() time: 0.11361 seconds
FastMath.acos() worst error: 0.00390
== Arctangent Test ==
Math.atan() time: 2.98640 seconds
FastMath.atan() time: 0.52767 seconds
FastMath.atan() worst error: 0.00376
== Arctangent2 Test ==
Math.atan2() time: 4.10049 seconds
FastMath.atan2() time: 0.71804 seconds
FastMath.atan2() worst error: 0.00391