# What does this condition test?

Came across this conditional in some uncommented Objective-C code:

``````if (w & (w - 1))
{
i = 1;
while (i < w)
{
i *= 2;
}
w = i;
}
``````

Where `w` is a `size_t` greater than `1`.

Update: Added the code contained by the conditional for context.

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The purpose of the code is to set `w` to the next higher power of 2 in case `w` is not a power of 2. –  Alok Singhal Jan 4 '10 at 16:43
If `w` is an unsigned type and has at least 2 bits set, one of which is the high-order bit, the `while` will loop forever. –  Vadim K. Jan 4 '10 at 17:16
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## 4 Answers

It tests whether more than one bit is set in `w`, i.e. whether it's not an exact power of two. See here.

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Actually, it's testing the opposite: if `w` is not a power of 2. –  Eric Jan 4 '10 at 16:37
Neat trick. Thanks. –  Shaun Inman Jan 4 '10 at 16:43
@Jonathan Leffler: No, the conditional is testing if `w` is not a power of two. If the conditional is true the body does what you say. –  Jason Jan 4 '10 at 17:17
@Eric: Thanks, I should have been clearer. –  unwind Jan 5 '10 at 7:53
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It seems it's checking for powers of two. If `w` is a power of 2, the bit representation of `w` and `w-1` have no bit in common set to 1. Example : `100` for 4 and `011` for 3. Thus the bitwise `and` (`&` in C) will give false for any `w` which is a power of two.

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Overall, the code fragment replaces the value of w with the next power of two that is greater than or equal to w.

Test code:

``````#include <stdio.h>
size_t doit(size_t w)
{
if (w & (w - 1))
{
size_t i = 1;
while (i < w)
{
i *= 2;
}
w = i;
}
return w;
}

int main(void)
{
size_t i;
for (i = 0; i < 1111111; i = (2*i+1))
{
size_t x = doit(i);
printf("0x%06zX --> 0x%06zX\n", i, x);
}
for (i = 0; i < 1111111; i = (3*i+13))
{
size_t x = doit(i);
printf("0x%06zX --> 0x%06zX\n", i, x);
}
return(0);
}
``````

Results:

``````0x000000 --> 0x000000
0x000001 --> 0x000001
0x000003 --> 0x000004
0x000007 --> 0x000008
0x00000F --> 0x000010
0x00001F --> 0x000020
0x00003F --> 0x000040
0x00007F --> 0x000080
0x0000FF --> 0x000100
0x0001FF --> 0x000200
0x0003FF --> 0x000400
0x0007FF --> 0x000800
0x000FFF --> 0x001000
0x001FFF --> 0x002000
0x003FFF --> 0x004000
0x007FFF --> 0x008000
0x00FFFF --> 0x010000
0x01FFFF --> 0x020000
0x03FFFF --> 0x040000
0x07FFFF --> 0x080000
0x0FFFFF --> 0x100000
0x000000 --> 0x000000
0x00000D --> 0x000010
0x000034 --> 0x000040
0x0000A9 --> 0x000100
0x000208 --> 0x000400
0x000625 --> 0x000800
0x00127C --> 0x002000
0x003781 --> 0x004000
0x00A690 --> 0x010000
0x01F3BD --> 0x020000
0x05DB44 --> 0x080000
``````

Results from obvious modification (not shown):

``````0x000001 --> 0x000001
0x000002 --> 0x000002
0x000004 --> 0x000004
0x000008 --> 0x000008
0x000010 --> 0x000010
0x000020 --> 0x000020
0x000040 --> 0x000040
0x000080 --> 0x000080
0x000100 --> 0x000100
0x000200 --> 0x000200
0x000400 --> 0x000400
0x000800 --> 0x000800
0x001000 --> 0x001000
0x002000 --> 0x002000
0x004000 --> 0x004000
0x008000 --> 0x008000
0x010000 --> 0x010000
0x020000 --> 0x020000
0x040000 --> 0x040000
0x080000 --> 0x080000
0x100000 --> 0x100000
``````
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It checks that `w` is not zero nor a power of 2. In other words, it checks that there are at least 2 bits set.

Update: Upon closer inspection, its seems there may be a bug in the body of the `if`. When `w` is an unsigned type and has at least two bits set, one of which is the high-order bit, the `while` will loop forever.

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