Explain this Function

Can someone explain to me the reason why someone would want use bitwise comparison? example:

``````int f(int x) {
return x & (x-1);
}
int main(){
printf("F(10) = %d", f(10));
}
``````

This is what I really want to know: "Why check for common set bits"

x is any positive number.

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Where is the comparison? –  Jon Sep 21 '11 at 21:16

The Ur-example is "testing if a number is even or odd":

``````unsigned int number = ...;
bool isOdd = (0 != (number & 1));
``````

More complex uses include bitmasks (multiple boolean values in a single integer, each one taking up one bit of space) and encryption/hashing (which frequently involve bit shifting, XOR, etc.)

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Bitwise operations are used for three reasons:

• You can use the least possible space to store information
• You can compare/modify an entire register (e.g. 32, 64, or 128 bits depending on your processor) in a single CPU instruction, usually taking a single clock cycle. That means you can do a lot of work (of certain types) blindingly fast compared to regular arithmetic.
• It's cool, fun and interesting. Programmers like these things, and they can often be the differentiator when there is no difference between techniques in terms of efficiency/performance.

You can use this for all kinds of very handy things. For example, in my database I can store a lot of true/false information about my customers in a tiny space (a single byte can store 8 different true/false facts) and then use '&' operations to query their status:

• Is my customer Male and Single and a Smoker?

`if (customerFlags & (maleFlag | singleFlag | smokerFlag) ==`
`(maleFlag | singleFlag | smokerFlag))`

• Is my customer (any combination of) Male Or Single Or a Smoker?

`if (customerFlags & (maleFlag | singleFlag | smokerFlag) != 0)`

• Is my customer not Male and not Single and not a Smoker)?

`if (customerFlags & (maleFlag | singleFlag | smokerFlag) == 0)`

Aside from just "checking for common bits", you can also do:

• Certain arithmetic, e.g. `value & 15` is a much faster equivalent of `value % 16`. This only works for certain numbers, but if you can use it, it can be a great optimisation.

• Data packing/unpacking. e.g. a colour is often expressed as a 32-bit integer that contains Alpha, Red, Green and Blue byte values. The Red value might be extracted with an expression like `red = (value >> 16) & 255;` (shift the value down 16 bit positions and then carve off the bottom byte)

• Data manipulation and swizzling. Some clever tricks can be achieved with bitwise operations. For example, swapping two integer values without needing to use a third temporary variable, or converting ARGB colour values into another format (e.g RGBA or BGRA)
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Re "Certain arithmetic, e.g. value & 15 is a much faster equivalent of value % 16.", I thought these ops would take the same amount of time on modern PCs. Is that incorrect? –  ikegami Sep 25 '11 at 4:52
Division (and modulus) still take more cycles than bit manipulation. However, modern compilers are usually smart enough to change the operator where possible (which is actually not as often as you think--for example, `n % 2` and `n & 1` give different answers if `n` is negative.) –  Jonathan Grynspan Oct 17 '11 at 20:32

The example you've given is kinda odd, but I'll use bitwise comparisons all the time in embedded code.

I'll often have code that looks like the following:

``````volatile uint32_t *flags = 0x000A000;
bool flagA = *flags & 0x1;
bool flagB = *flags & 0x2;
bool flagC = *flags & 0x4;
``````
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Can you explain your example some? –  John Riselvato Sep 21 '11 at 21:21
There's not a whole lot to explain; it checks for bits 0, 1, and 2 (flags A, B, and C respectively) being "on" (high). Could be reading from jumpers, say. –  Dave Newton Sep 21 '11 at 22:00

It's not a bitwise comparison. It doesn't return a boolean.

Bitwise operators are used to read and modify individual bits of a number.

``````n &   0x8   // Peek at bit3
n |=  0x8   // Set bit3
n &= ~0x8   // Clear bit3
n ^=  0x8   // Toggle bit3
``````

Bits are used in order to save space. 8 chars takes a lot more memory than 8 bits in a char.

The following example gets the range of an IP subnet using given an IP address of the subnet and the subnet mask of the subnet.

``````uint32_t mask = (((255 << 8) | 255) << 8) | 255) << 8) | 255;
uint32_t ip   = (((192 << 8) | 168) << 8) |   3) << 8) |   4;

uint32_t first = ip & mask;
uint32_t last  = ip | ~mask;
``````
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To be fair, nothing in C returns a boolean. –  Oli Charlesworth Sep 22 '11 at 0:53
@Oli Charlesworth, Your claim that the comparison operators don't return a boolean value is ludicrous. They return either a true value or a false value. That's not the case for the arithmetic operators and bitwise operators. They have many many different possible values, so they aren't boolean (only two possible values). –  ikegami Sep 22 '11 at 3:24
@ikegami: In C, boolean operations return an `int`, not a `boolean`. –  Jonathan Grynspan Sep 21 '12 at 12:50

e.g. if you have a number of status flags in order to save space you may want to put each flag as a bit.

so x, if declared as a byte, would have 8 flags.

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I think you mean bitwise combination (in your case a bitwise AND operation). This is a very common operation in those cases where the byte, word or dword value is handled as a collection of bits, eg status information, eg in SCADA or control programs.

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Your example tests whether x has at most 1 bit set. `f` returns 0 if x is a power of 2 and non-zero if it is not.

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Your particular example tests if two consecutive bits in the binary representation are `1`.
No, it tests if `x` and `x*3` have any common set bits, which is not at all the same thing –  Chris Dodd Sep 21 '11 at 21:24
@John Riselvato, Maybe each bit represents a signal from outside the machine, and you want to check if two nearby signals are one. Maybe that indicates a fault in some device. It really depends on what `x` is. –  ikegami Sep 21 '11 at 21:30
@John Riselvato, Maybe you are trying to perform some kind compression, and two adjancent set bits indicates an opportunity for compression. It really depends on what `x` is. –  ikegami Sep 21 '11 at 21:33
@John Riselvato, A number is not just a number. A number represents something. `x` isn't a number, `x` is something represented as a number. –  ikegami Sep 21 '11 at 21:35