# How to determine which bit is set

I have two bytes, they only differ in 1 bit. I want to know what bit this is.

So:

``````byte a,b;
a=0;
b=2;

ChangedBit(a,b) should give bit 1
ChangedBit(4,5) should give bit 0
ChangedBit(7,3) should give bit 2
``````

Any suggestions are very welcome!!

Thanks,

Erik

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The correct solution would be to do

``````var bit = Math.Log(a ^ b, 2);
``````

Although of course this leaves open the question of what happens if for any reason more than one bit is different.

You could use

``````var bit = (int)Math.Log(a ^ b, 2);
``````

to get you the index of the highest different bit, if more than one differ.

Warning: For correctness, any such function should also check that the two arguments `a` and `b` are actually different before trying to provide a result. Otherwise you 'll get either a meaningless result or an outright exception. This is true of all the solutions presented here, including this one.

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I think you should convert the result to int. –  CodesInChaos Mar 30 '11 at 9:33
IMO, anything that is breaking out `Math.Log` and `double` to solve a bit-fiddling problem is doing it the hard way... –  Marc Gravell Mar 30 '11 at 9:44
@MarcGravell: I 'd call it the short way, but that's not really the point. More importantly, why write extra code if there's no need to optimize? –  Jon Mar 30 '11 at 9:53
we don't have the context; we can't assume that. Or at least, not from the question. The OP has now indicated that they don't need this, but... –  Marc Gravell Mar 30 '11 at 9:55
@MarcGravell: True. This would definitely not be a good enough answer if we were talking about a library method. –  Jon Mar 30 '11 at 9:57

If they differ by one bit, xor should give you just that bit. So then you could shift to find which?

Perhaps needs some optimisation:

``````static int ChangedBit(int x, int y)
{
uint bits = (uint)(x ^ y); // need uint to avoid backfill with shift
int count = -1;
while (bits != 0)
{
count++;
bits >>= 1;
}
return count;
}
``````
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What a pity that .net is lacking the Bitscan functions. That bites me quite often when doing some bitfiddling. –  CodesInChaos Mar 30 '11 at 9:37
Marc, I agree that not using Log and double is good, but this optimization is for my application not required. Thanks –  Enrico Mar 30 '11 at 9:49
Pardon my ignorance, what does `need uint to avoid backfill with shift` mean? (where is the backfill?) –  makerofthings7 Mar 9 '13 at 20:25
@makerofthings7 the "backfill" is whatever becomes the values on the left-hand-side when you right-shift. When using `uint`, it back-fills with `0`. When using `int`, it back-fills with `0` for +ve values, and `1` for -ve values. –  Marc Gravell Mar 9 '13 at 22:11
Thank you :)... –  makerofthings7 Mar 9 '13 at 22:43

You can do this quite easily:

``````Math.Log(Math.Abs(a-b), 2)
``````

Update: fixed...

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@Marc - the question states bytes. These are unsigned by default. –  David Kemp Mar 30 '11 at 9:29
You need a "Log to base 2" function against (Maths.Abs(a-b)) –  Neil Moss Mar 30 '11 at 9:29
Shouldn't that be more like `Log(Math.Abs(a-b), 2)`? –  Jon Mar 30 '11 at 9:29
@Marc: although XOR is better solution –  David Kemp Mar 30 '11 at 9:29
I fixed it, I guess, I was thinking TOO easy... ;-) –  Daniel Hilgarth Mar 30 '11 at 9:32

If you can count from zero, then `Math.Log(a^b,2)` does the job

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Why `/2` and not `log2`? –  CodesInChaos Mar 30 '11 at 9:30
@CodeInChaos - because my math only goes to *,/,+,- ;) –  David Kemp Mar 30 '11 at 9:32
IMO, anything that is breaking out `Math.Log` and `double` to solve a bit-fiddling problem is doing it the hard way... –  Marc Gravell Mar 30 '11 at 9:44
``````var dif = a ^ b;
int bitNumber = 0;
while (dif != 0 && ((dif & 1) == 0)
{
dif = dif >> 1;
++bitNumber;
}
// bitNumber now contains the zero relative bit that is different.
``````
-

Couldn't resist to write a LINQish version:

``````var firstBits = new BitArray(new byte[] { 3 });
var secondBits = new BitArray(new byte[] { 17 });

var lhs = firstBits.Cast<bool>().Select((b, i) => new { Bit = b, Index = i });
var rhs = secondBits.Cast<bool>().Select((b, i) => new { Bit = b, Index = i });

var differs = lhs.Zip(rhs, (l, r) => new { Left = l, Right = r })
.Where(zipped => zipped.Left.Bit != zipped.Right.Bit)
.Select(zipped => new { Index = zipped.Left.Index, LeftBit = zipped.Left.Bit, RightBit = zipped.Right.Bit });

foreach (var diff in differs)
{
Console.WriteLine(String.Format("Differs in bit {0}:", diff.Index));
Console.WriteLine(String.Format("   First is set to  {0}", diff.LeftBit));
Console.WriteLine(String.Format("   Second is set to {0}", diff.RightBit));
}
``````

### Update

Due to the fact that the Zip operator is not a default in LINQ, you can get the implementation from Eric out of his blog.

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Is Zip a standard Linq operator? –  David Kemp Mar 31 '11 at 10:06

Others have observed that where two bytes differ in only one bit, an XOR operation will return a byte in which just that bit is set. But no one has yet suggested what to me is the obvious next step for establishing which bit that is:

``````public static int WhichBitDiffers(byte a, byte b)
{
var xor = a ^ b;

switch(xor)
{
case 0x80:
return 7;
case 0x40:
return 6;
case 0x20:
return 5;
case 0x10:
return 4;
case 0x8:
return 3;
case 0x4:
return 2;
case 0x2:
return 1;
case 0x1:
return 0;
default:
throw new ArgumentException(
"Values do not differ in exactly one bit");
}
}
``````

I bet the compiler / JITter will make this a nice compact jump lookup table, or something along those lines.

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