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I have the following division that I need to do often:

int index = pos / 64;

Division can be expensive in the cpu level. I am hoping there is a way to do that with bitwise shift. I would also like to understand how you can go from division to shift, in other words, I don't want to just memorize the bitwise expression.

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pos / (2^6) => pos >> 6; pos / (2^1) => pos >> 1 – irrelephant Dec 9 '12 at 4:36
Division should not be expensive in the cpu level. – ceklock Dec 9 '12 at 4:38
You're probably mistaken about "division is expensive". Remember the famous Donald Knuth quote: Premature optimization is the root of all Evil – paulsm4 Dec 9 '12 at 4:44
Really? I had never heard about this quote "premature optimization is the root of all evil". Thanks for that. And by the way, have you benchmarked division versus shift on intel? Go do it and come back here... – chrisapotek Dec 9 '12 at 4:58
up vote 7 down vote accepted

int index = pos >> 6 will do it, but this is unnecessary. Any reasonable compiler will do this sort of thing for you. Certainly the Sun/Oracle compiler will.

The general rule is that i/(2^n) can be implemented with i >> n. Similarly i*(2^n) is i << n.

You need to be concerned with negative number representation if i is signed. E.g. twos-complement produces reasonable results (if right shift is arithmetic--sign bit copied). Signed magnitude does not.

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You're correct - doing "shift" to avoid "division" is unnecessary and wrong-headed. IMHO... – paulsm4 Dec 9 '12 at 4:45
The compiler will only optimize if it is a literal. If it is a variable it won't optimize anything and you can easily enforce through your logic that the variable is a power of two. Then you do the optimization yourself. – TraderJoeChicago Dec 9 '12 at 4:55

The compiler will implement it for you in the most efficient way, as long you understand what you need and ask the compiler to do exactly that. If shift is the most efficient way in this case, the compiler will use shift.

Keep in mind though that if you are performing signed division (i.e pos is signed), then it cannot be fully implemented by a shift alone. Shift by itself will generate invalid results for negative values of pos. If the compiler decides to use shifts for this operations, it will also have to perform some post-shift corrections on the intermediate result to make it agree with the requirements of the language specification.

For this reason, if you are really looking for maximum possible efficiency of your division operations, you have to remember not to use signed types thoughtlessly. Prefer to use unsigned types whenever possible, and use signed types only when you have to.

P.S. AFAIK, Java implements Euclidean division, meaning that the above remarks do not apply to Java. Euclidean division is performed correctly by a shift on a negative divisor in 2's-complement representation. The above remarks would apply to C/C++.

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For each power of 2 you want to divide by, right shift it once. So to divide by 4 you would right shift twice. To divide by 8 right shift 3 times. Divide by 16 right shift 4 times. 32 -> 5 times. 64 -> 6 times. So to divide by 64 you can right shift 6 times. myvalue = myvalue >> 6;

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