# How to reverse a section of bit digits in C?

In short, if I'm dealing with a number in binary, like `0000 0110`, and suppose I want only the last 3 bits to be reversed, are there any methods that translate this into `0000 0011`?

I have seen other questions and resources where the `reverse bits method` is implemented but returns the whole number reversed (i.e. `0110 0000`, not `0000 0011`).

Would it be enough to just reverse it, as done in the standard methods, and then shift it as much as is necessary? Or is there a more direct way to achieve this?

Format: `unsigned int reverse_select_bits(int number, int num_bits) { ... }`

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Are you only interested in reversing the last N bits, or are you interested in reversing N bits from bit position A to B? Is there an upper bound on how many bits you'd need to reverse (like 8, perhaps), or is it limited to the size of `int`? –  Jonathan Leffler May 22 '13 at 3:18
For my purposes, I would only need the last `n` bits. A reversal of an arbitrary section in the middle of the bit sequence is (I think) overkill. –  Zchpyvr May 22 '13 at 3:26

# Simple reference

See http://graphics.stanford.edu/~seander/bithacks.html#BitReverseObvious is a good start for you to see how is really should be done. There are some rather fun techniques described there. Especially have a look at

http://graphics.stanford.edu/~seander/bithacks.html#ReverseByteWith64Bits

to understand how to think about these problems.

## HINT A

For arbitrary word size use the obvious method after using a mask to mask out the bits you wish to save:

``````typeof(word) preserve_mask = \
((1 <<  8*sizeof(word)) - 1) & ~(typeof(word))((1 << K) - 1);
``````

Where K is the number of bits you wish to 'reverse'. preserve_mask will give you a mask to save the part of the word that you do not wish to flip. Note that above is not really C code but concept that you'd have to implement. I suggest first doing it within the limits of your CPU; and then deal with arbitrary precision later (and only if it's needed).

## Hint B

Can you see how this can be done for arbitrary length using a generalization of ReverseByteWith64Bits?

Can it be done piece-meal over N bits where N ≢ 0 (mod 8) ? can you use the result from Hint A?

Let me know if you need further help

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cool. I'll take a read through that material and try to implement the method by your hints ;) –  Zchpyvr May 22 '13 at 3:56
If you do it correctly :) you can essentially unroll all loops ^^ –  Ahmed Masud May 22 '13 at 7:26

Since you only have to reverse three bits, prepare a table of eight entries is the easiest way to do it.

``````int rev_table[8] = {0, 4, 2, 6, 1, 5, 3, 7};
int rev_last_three_bits(int v) {
return (v & (~7)) | rev_table[v&7];
}
``````
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really ? :) wow –  Ahmed Masud May 22 '13 at 2:54
Sorry about me being not clear... I gave 3 as an example, in which case I want this number to be arbitrary. I'll edit the post. –  Zchpyvr May 22 '13 at 2:54
Oh, in that case...we need a more sophisticated solution. –  infgeoax May 22 '13 at 2:56

Implemented a function that can swap two certain bit in a char.

You can reverse any section of bit with the help of this funciton.

``````#include<stdio.h>
void swap_bits(char *a,unsigned char p1,unsigned char p2)
{
if (p1==p2) return;//don't need swap
unsigned char bit1=(1<<p1)&(*a);//access the bit in position 1(0-indexed);
unsigned char bit2=(1<<p2)&(*a);//access the bit in position 2(0-indexed);
(*a)^=bit1;//set the bit in position 1 to 0.
if (bit2) (*a)^=1<<p1;// if bit2 is 1 then set the bit in position to 1
(*a)^=bit2;
if (bit1) (*a)^=1<<p2;
}
int main()
{
char a=0x06;
swap_bits(&a,0,2);
printf("%x\n",a);
}
``````
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I like this idea, but it seems too costly... I'm dealing with time-crunching calculations, and this methods seems to overlap too many repeated calls. I think this could be optimized though to prevent that; I just can't think of a way right now. –  Zchpyvr May 22 '13 at 3:05
swapping bits can be done a lot faster by using masks and xor –  Ahmed Masud May 22 '13 at 7:34