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Can anyone help what n&-n means?? And what is the significance of it.

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It may cause undefined behavior or simply result in an unspecified and/or implementation defined value depending on the value of n and the representation of negative numbers (i. e. 1's complement vs. 2's complement). I'm sure it's something you don't want to use/encounter. –  user529758 Mar 13 '13 at 20:03
I haven't ever seen a real 1's complement machine. –  Anirudh Ramanathan Mar 13 '13 at 20:05
@Cthulhu, I have but it was a very long time ago. C++ hadn't been invented yet. –  Mark Ransom Mar 13 '13 at 20:07
@H2CO3 codechef.com/viewsolution/1856173 It is used in the following code but, i am unable to get why it is used :( –  Shubham Tyagi Mar 13 '13 at 20:07
@ShubhamTyagi Because that site is crap, that's why. –  user529758 Mar 13 '13 at 20:08

4 Answers 4

up vote 0 down vote accepted

I believe it is a trick to figure out if n is a power of 2. (n == (n & -n)) IFF n is a power of 2 (1,2,4,8).

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Well that doesn't entirely work as it would return true for zero, which isn't generally considered a power of two. And the trick is more useful than that - see the other answers. –  JasonD Mar 13 '13 at 20:27
Ok then. I probably shouldn't have answered since I couldn't quite remember the tricks purpose. –  c.fogelklou Mar 13 '13 at 21:15

It's an old trick that gives a number with a single bit in it, the bottom bit that was set in n. At least in two's complement arithmetic, which is just about universal these days.

The reason it works: the negative of a number is produced by inverting the number, then adding 1 (that's the definition of two's complement). When you add 1, every bit starting at the bottom that is set will overflow into the next higher bit; this stops once you reach a zero bit. Those overflowed bits will all be zero, and the bits above the last one affected will be the inverse of each other, so the only bit left is the one that stopped the cascade - the one that started as 1 and was inverted to 0.

P.S. If you're worried about running across one's complement arithmetic here's a version that works with both:

n & (~n + 1)
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Yes, and that's handy if e.g. one wants to quickly iterate over all bits set in n; for (;j=n&(-n);n^=j) –  Aki Suihkonen Mar 13 '13 at 20:17

On pretty much every system that most people actually care about, it will give you the highest power of 2 that n is evenly divisible by.

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but beware that it is dependent on implementation defined behavior, so is technicaly not portable. –  tletnes Mar 13 '13 at 20:10
@tletnes Portability is a relative term. It's not portable as far as the C++ standard is concerned, true. But it is probably portable across more systems than even have a conformant, or nearly conformant C++ compiler –  Benjamin Lindley Mar 13 '13 at 20:12

It's just a bitwise-and of the number. Negative numbers are represented as two's complement.

So for instance, bitwise and of 7&(-7) is x00000111 & x11111001 = x00000001 = 1

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