# Is it possible to write Quake's fast InvSqrt() function in C#?

This is just to satisfy my own curiosity.

Is there an implementation of this:

``````float InvSqrt (float x)
{
float xhalf = 0.5f*x;
int i = *(int*)&x;
i = 0x5f3759df - (i>>1);
x = *(float*)&i;
x = x*(1.5f - xhalf*x*x);
return x;
}
``````

in C#? If it exists, post the code.

I guess I should have mentioned I was looking for a "safe" implementation... Either way, the BitConverter code solves the problem. The union idea is interesting. I'll test it and post my results.

Edit: As expected, the unsafe method is the quickest, followed by using a union (inside the function), followed by the BitConverter. The functions were executed 10000000 times, and the I used the System.Diagnostics.Stopwatch class for timing. The results of the calculations are show in brackets.

``````Input: 79.67
BitConverter Method: 00:00:01.2809018 (0.1120187)
Union Method: 00:00:00.6838758 (0.1120187)
Unsafe Method: 00:00:00.3376401 (0.1120187)
``````

For completeness, I tested the built-in Math.Pow method, and the "naive" method (1/Sqrt(x)).

``````Math.Pow(x, -0.5): 00:00:01.7133228 (0.112034710535584)
1 / Math.Sqrt(x): 00:00:00.3757084 (0.1120347)
``````

The difference between 1 / Math.Sqrt() is so small that I don't think one needs to resort to the Unsafe Fast InvSqrt() method in C# (or any other unsafe method). Unless one really needs to squeeze out that last bit of juice from the CPU... 1/Math.Sqrt() is also much more accurate.

-
For completeness, you should run a test using "1/math.Sqrt()" also. –  James Curran Nov 6 '08 at 15:38
I did, and another scenario. I'll update the benchmarks as soon as I can verify the results. –  ilitirit Nov 6 '08 at 15:46
I think you should have run your tests with a larger set, so that they would take a few seconds to complete. –  Gleno Sep 25 '11 at 5:47

You should be able to use the StructLayout and FieldOffset attributes to fake a union for plain old data like floats and ints.

``````[StructLayout(LayoutKind.Explicit, Size=4)]
private struct IntFloat {
[FieldOffset(0)]
public float floatValue;

[FieldOffset(0)]
public int intValue;

// redundant assignment to avoid any complaints about uninitialized members
IntFloat(int x) {
floatValue = 0;
intValue = x;
}

IntFloat(float x) {
intValue = 0;
floatValue = x;
}

public static explicit operator float (IntFloat x) {
return x.floatValue;
}

public static explicit operator int (IntFloat x) {
return x.intValue;
}

public static explicit operator IntFloat (int i) {
return new IntFloat(i);
}
public static explicit operator IntFloat (float f) {
return new IntFloat(f);
}
}
``````

Then translating InvSqrt is easy.

-

Use BitConverter if you want to avoid unsafe code.

``````float InvSqrt(float x)
{
float xhalf = 0.5f * x;
int i = BitConverter.ToInt32(BitConverter.GetBytes(x), 0);
i = 0x5f3759df - (i >> 1);
x = BitConverter.ToSingle(BitConverter.GetBytes(i), 0);
x = x * (1.5f - xhalf * x * x);
return x;
}
``````

Otherwise, the C# code is exactly the same as the C code you gave, except that the method needs to be marked as unsafe:

``````unsafe float InvSqrt(float x) { ... }
``````
-
But that does leave open the question: "Is it still fast using BitConverter?" –  James Curran Nov 6 '08 at 14:47
The BitConverter method does cause two array allocations, which could be a performance issue. (Unfortunately, there's no BitConverter.SingleToInt32Bits method, analogous to BitConverter.DoubleToInt64Bits, which should be both fast and inlineable.) –  Bradley Grainger Nov 6 '08 at 14:55
Definitely possible in unsafe mode. Note that even though in the Quake 3 source code the constant `0x5f3759df` was used, numerical research showed that the constant `0x5f375a86` actually yields better results for Newton Approximations.