# Why does it get the single bit like that?

I am looking some part of code that is supposed to get a single bit from an int.
It is as follows:

``````private int getBit( int token, int pos){
return ( token & ( 1 << pos ) ) != 0 ? 1 : 0;
}
``````

My question is why doesn't it do it the following (simpler) way?

``````return token & ( 1 << pos );
``````

I expect that it will also return a `0` or `1`.
Am I wrong on this? Is the second (mine) version wrong?

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The second version will return `1 << pos` in case the bit is set, or `0` otherwise. –  Niklas B. May 22 '12 at 20:29

Your version is wrong. When you execute

``````return token & ( 1 << pos );
``````

if it is non-zero, then you get an int with every bit except the `pos` bit zeroed out, because that is the number on the right side of the `&` operator. This obviously would only be 1 if `pos==0`.

This happens because the `&` operator simply takes the bitwise and operation between corresponding bits in the two `int`s. Since `1 << pos` has a `1` bit in a position besides the lowest and `token` can presumably be any `int`, the result can also have a `1` bit in a position other than the lowest, making it greater than `1`.

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An alternate way that avoids the branch but works: `return (token >>> pos) & 1`. –  Louis Wasserman May 22 '12 at 22:10
That's true. If you want to change less of the existing code you could also do `(token & ( 1 << pos )) && 1`. I didn't mention that stuff because that's not what the question is about. –  murgatroid99 May 23 '12 at 13:23

Your version does not return the value of the bit at position pos. It returns the value 0 or 2^(pos-1).

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Your version returns 0 or `1<<pos`.

That won't matter if it is used in boolean context. But it might otherwise.

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Of course, you can use something on the order of

``````(token >> pos) & 1
``````
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