# Rounded power of 2 divider done with bitwise operations fails for some inputs

I wrote the following function:

``````int divideBy2Power(int x, int y) { return (x >> y) + (x < 0 && x << (32 - y)); }
``````

which is supposed to compute {x / (2^y)} (rounding towards zero) in an extremely efficient manner (i.e. without branching!)

In testing it works for most inputs, but for `divideBy2Power(-2, 0)` it produces `-1`. Likewise, `x=-1, y=0` produces `0` (not `-1`). It works for bunches of other negative numbers.

I'm on a 32-bit machine and I checked that `x << 32` produces zero.

Any ideas?

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Just a comment: you do have a branch in there with the `&&` operator. –  Zan Lynx Apr 2 '12 at 22:42
`-2 >> 0` is undefined, as is `x << 32`. –  Robᵩ Apr 2 '12 at 22:44
@Robᵩ: To be pedantic, `-2 >> 0` is merely implementation-defined. –  Oli Charlesworth Apr 2 '12 at 22:49
The correct way to avoid branching is to use &, not &&, but you need to use & and shift to get the sign bit. It gets messy, but it can be done without branching. –  DRVic Apr 2 '12 at 23:01
I'm currently trying `(!(!(x << y)) & ((x >> 31) & 1)) + (x >> y)` but that doesn't work for -2147483646[0x80000002],1 for example. It gives -1073741822[0xc0000002] but should be -1073741823[0xc0000001] –  vaebnkehn Apr 2 '12 at 23:27

You have two sources of undefined behaviour (UB), and one of implementation-defined behaviour (IDB):

• `x << 32` is UB for all `x` (assuming you have 32-bit `int` on your platform).
• `-2 << y` is UB for all `y`.
• `-2 >> y` is IDB for all `y`.

So any behaviour you observe for `divideBy2Power(-2, 0)` is entirely down to "chance" (for lack of a better term).

I realise that this doesn't directly answer your question, but in a sense, it doesn't matter. Invoking UB twice in one expression should be avoided at all cost; you need to find a different way to write your function.

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I was seeing unexpected behavior in trying to reproduce the OPs results locally, now I know why :) –  fbrereto Apr 2 '12 at 22:57

Ah, the answer is obvious once you break down the expression:

New code:

``````#include <stdio.h>

int divideBy2Power(int x, int y)
{
int a = x >> y;
int b = x < 0;
int c = x << (32-y);
printf("a=%d\n", a);
printf("b=%d\n", b);
printf("c=%d\n", c);
printf("b&&c=%d\n", (b&&c));
return a + (b && c);
}

int main()
{
printf("%d\n", divideBy2Power(-2, 0));
return 0;
}
``````

Then you clearly see that b=1, c=-2 so b&&c = 1.

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Yes, but it's all UB... –  Oli Charlesworth Apr 2 '12 at 22:58
@OliCharlesworth: Assuming the Intel x86 or x86_64 instruction set, the result will always come out the same. But yes, on a different CPU it might not. –  Zan Lynx Apr 2 '12 at 23:09
Not necessarily. "UB" isn't just a way to express that different platforms have different hardware instructions; it's also means that the compiler is free to make assumptions when optimising. These assumptions may in turn lead to surprising results for pathological inputs! Here's an article about a similar (but different) case: airs.com/blog/archives/120. –  Oli Charlesworth Apr 2 '12 at 23:15

Your first problem is that you're adding the result of a binary AND comparison && (not bitwise); which will be either 0 or 1. That's nonsensical, it DOES use a branch, and has other questionable logic.

Secondly, see http://stackoverflow.com/a/9874464/1110687 for an explanation of why this fails with signed numbers and what exactly is undefined behavior in this case. It's about left-shifting but it applies to right-shifting also.

-

Perhaps you meant

``````int divideBy2Power(int x, int y) { return (x >> y) + ( (x < 0)& (x << (32 - y))); }
``````

Note the extra parentheses. The order of precedence on << and >> is often not what you expect.

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Doesn't make a difference here. –  Oli Charlesworth Apr 2 '12 at 22:55
Does on my system. If it doesn't on yours, that would have to do with ( x << ( 32-y) ) being undefined. –  DRVic Apr 2 '12 at 22:58
`<<`, `>>` and `<` all have higher precedence than `&` or `&&`. –  Oli Charlesworth Apr 2 '12 at 23:00
It doesn't make a difference anywhere, unless you're using a compiler that doesn't properly implement C precedence. –  Jim Balter May 15 '12 at 4:48