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I've heard of the "fast inverse square root", discussed here, and I wanted to put it in my Java program (just for research purposes, so ignore anything about the native libraries being faster).

I was looking at the code, and the C code directly converts the float into an int with some C pointer magic. If you try to do this in Java with casts, it doesn't work: java truncates the float (as you would expect), and you can't get the pointer of a primitive (as you can in C). So how do you do this?

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2 Answers 2

up vote 13 down vote accepted

The Java libraries have a way to get from the float number to the raw bits.

As seen in the Javadoc for java.lang.Float ( http://docs.oracle.com/javase/6/docs/api/java/lang/Float.html ), we have the floatToIntBits function, as well as intBitsToFloat.

This means we can write the "fast inverse square root" in Java as follows:

public static float invSqrt(float x) {
    float xhalf = 0.5f*x;
    int i = Float.floatToIntBits(x);
    i = 0x5f3759df - (i>>1);
    x = Float.intBitsToFloat(i);
    x = x*(1.5f - xhalf*x*x);
    return x;
}

EDIT: Someone has pointed out to me that there is also a double-precision version of the fast inverse square root. Here is the adapted version:

public static double invSqrt(double x) {
    double xhalf = 0.5d*x;
    long i = Double.doubleToLongBits(x);
    i = 0x5fe6ec85e7de30daL - (i>>1);
    x = Double.longBitsToDouble(i);
    x = x*(1.5d - xhalf*x*x);
    return x;
}

Source: http://www.actionscript.org/forums/showthread.php3?t=142537

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For Riking's answer, even the double one can return stuff like 0.9983227945440889 for the square root of one.

To increase accuracy, you can use this version of it I made:

public static double Q_rsqrt(double number){
    double x = number;
    double xhalf = 0.5d*x;
    long i = Double.doubleToLongBits(x);
    i = 0x5fe6ec85e7de30daL - (i>>1);
    x = Double.longBitsToDouble(i);
    for(int it = 0; it < 4; it++){
        x = x*(1.5d - xhalf*x*x);
    }
    x *= number;
    return x;
}

You can edit how long before the for loop terminates however you want, but 4 times seems to get it down to the maxiumum accuracy for a double. If you want perfect accuracy (or if long strings of decimals where they shouldnt be bother you), use this version.

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