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I have a set of decimal numbers. I need to check if a specific bit is set in each of them. If the bit is set, I need to return 1, otherwise return 0.
I am looking for a simple and fast way to do that.
Say, for example, I am checking if the third bit is set. I can do (number AND (2^2)), it will return 4 if the bit is set, otherwise it will return 0. How do I make it to return 1 instead of 4?
Thank you!

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How are these "decimal numbers" stored? More than likely you have a collection of integers, which are actually stored in binary, not decimal. –  Keith Thompson Dec 23 '12 at 17:06
Hi, Keith. No, I have an array of integers. I do not know if that makes a difference. –  GreenBear Dec 23 '12 at 17:12

3 Answers 3

if ((number AND (2^bitnumber) <> 0) then return 1 else return 0 end if

If you can change your return type to boolean then this is more elegant

return ((number AND (2^bitnumber)) <> 0)
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Hi, Richard! Thanks for the help. No, this has to be used in an expression. I need to multiply one number by a result of the bit test function. And the faster the function runs, the better, cos there are a LOT of numbers :-) –  GreenBear Dec 23 '12 at 17:10

While the division solution is a simple one, I would think a bit-shift operation would be more efficient. You'd have to test it to be sure, though. For instance, if you are using 1 based bit indexes, you could do this:

Dim oneOrZero As Integer = (k And 2 ^ (n - 1)) >> (n - 1)

(Where k is the number and n is the bit index). Of, if you are using 0 based bit indexes, you could just do this:

Dim oneOrZero As Integer = (k And 2 ^ n) >> n
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Hi, Steven! Thanks for the help. An interesting solution. I will test it and post the results. –  GreenBear Dec 23 '12 at 17:47

Sorry, guys, I am too slow today.
To test a bit number "n" in a decimal number "k":
(k AND 2^(n-1))/(2^(n-1))
will return 1 if the bit is set, otherwise will return 0.
Hi again, guys!
I compared the performance of the three proposed solutions with zero-based indexes, and here are the results:
"bit-shift solution" - 8.31 seconds
"if...then solution" - 8.44 seconds
"division solution" - 9.41 seconds
The times are average of the four consecutive runs.
Surprisingly for me, the second solution outperformed the third one.
However, after I modified the "division solution" this way:
p = 2 ^ n : oneOrZero = (k And p) / p
it started to run in 7.48 seconds.
So, this is the fastest of the proposed solutions (despite of what Keith says :-).
Thanks everybody for the help!

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Division is overkill; you want to test whether k AND 2^(n-1) is non-zero. And in what sense is k "decimal"? –  Keith Thompson Dec 23 '12 at 17:08
K is decimal like, say, a number 6548469361 is decimal. Is division slower than "if...then"? –  GreenBear Dec 23 '12 at 17:14
Integers are (almost certainly) stored in binary, not decimal. You're thinking of them as "decimal numbers" because that's how they're represented in source code, but they're not decimal at all -- and since you're examining bits, it's an important distinction. –  Keith Thompson Dec 23 '12 at 18:22
Division tends to be slower than most other operations (though in this case the compiler might optimize it to a bitwise shift). A <> 0 test is likely to be more efficient. It's also a much clearer expression (to a human reader) of what you're doing. (In C-like languages, you likely wouldn't even need to do the comparison; all non-zero values are treated as true; I think the same applies to VB. So you should be able to write if k AND 2^(n-1) then ... –  Keith Thompson Dec 23 '12 at 18:31
Hi, Keith! if k AND 2^(n-1) then ... works in VB as well, as it turned out. Does not improve the performance, though. –  GreenBear Dec 23 '12 at 19:13

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