Reversing bits of Python integer

Given a decimal integer (eg. 65), how does one reverse the underlying bits in Python? ie. the following operation:

``````65 → 01000001 → 10000010 → 130
``````

It seems that this task can be broken down into three steps:

1. Convert the decimal integer to binary representation
2. Reverse the bits
3. Convert back to decimal

Steps #2 and 3 seem pretty straightforward (see this and this SO question related to step #2), but I'm stuck on step #1. The issue with step #1 is retrieving the full decimal representation with filling zeros (ie. 65 = 01000001, not 1000001).

I've searched around, but I can't seem to find anything.

• For step one, you can use `str(bin(65))[2:].zfill(8)`. To lazy/tired to look further into this now. But you should probably just do as larsmans says. – BrtH Oct 1 '12 at 22:26

``````int('{:08b}'.format(n)[::-1], 2)
``````

You can specify any filling length in place of the 8. If you want to get really fancy,

``````b = '{:0{width}b}'.format(n, width=width)
int(b[::-1], 2)
``````

lets you specify the width programmatically.

• Elegant and concise. I needed to change the format string to `'{:08b}'` to work as specified. – Shane Holloway Oct 1 '12 at 22:30
• Ah, yes, he wanted the filling zeroes. I'll amend. – nneonneo Oct 1 '12 at 22:31
• If I do `int('{:b}'.format(65)[::-1], 2)`, I just get `65` as output. Using `{:08b}` instead of `{:b}` gives the correct result though, so +1 for elegant solution. – BrtH Oct 1 '12 at 22:32
• Yes, sorry. Slight reading comprehension fail, answer amended. – nneonneo Oct 1 '12 at 22:33
• @nneonneo & Shane, thanks to both of you. I read up on `format()` and this makes a lot sense. Definitely the most elegant solution. – David Chouinard Oct 1 '12 at 22:34

If you are after more speed, you can use the technique described in http://leetcode.com/2011/08/reverse-bits.html

``````def reverse_mask(x):
x = ((x & 0x55555555) << 1) | ((x & 0xAAAAAAAA) >> 1)
x = ((x & 0x33333333) << 2) | ((x & 0xCCCCCCCC) >> 2)
x = ((x & 0x0F0F0F0F) << 4) | ((x & 0xF0F0F0F0) >> 4)
x = ((x & 0x00FF00FF) << 8) | ((x & 0xFF00FF00) >> 8)
x = ((x & 0x0000FFFF) << 16) | ((x & 0xFFFF0000) >> 16)
return x
``````
• FYI: the link is now broken. Is this function limited to ints or will it work on numbers of type bignum? – Daniel Henry Mar 25 at 2:52
``````def reverse_bit(num):
result = 0
while num:
result = (result << 1) + (num & 1)
num >>= 1
return result
``````

We don't really need to convert the integer into binary, since integers are actually binary in Python.

The reversing idea is like doing the in-space reversing of integers.

``````def reverse_int(x):
result = 0
pos_x = abs(x)
while pos_x:
result = result * 10 + pos_x % 10
pos_x /= 10
return result if x >= 0 else (-1) * result
``````

For each loop, the original number is dropping the right-most bit(in binary). We get that right-most bit and multiply 2 (`<<1`) in the next loop when the new bit is added.

• You have to take into account the number of bits to be reversed. For example, you want to reverse bits in a byte. You expect that 0x1 will be translated to 0x80 (0b00000001 -> 0b10000000). And with current implementation, you'll still get 0x1 on the output – rusxg Sep 7 '18 at 7:02

There's no need, and no way, to "convert a decimal integer to binary representation". All Python integers are represented as binary; they're just converted to decimal when you print them for convenience.

If you want to follow this solution to the reversal problem, you only need to find appropriate `numbits`. You can either specify this by hand, or compute the number of bits needed to represent an integer `n` with `n.bit_length()` (new in Python 2.7 and 3.1).

However, for 65, that would give you 7, as there's no reason why 65 should require any more bits. (You might want to round up to the nearest multiple of 8...)

• Not really right, as you can get a string representing the bits (`bin(n)`, or `'{:b}'.format(n)`). Plus, you can use `.bit_length()` to find the exact number of bits needed to represent a number. – nneonneo Oct 1 '12 at 22:28
• @nneonneo: I was assuming the OP wants to work on the integer itself rather than a string representation, given the links. But thanks for the `bit_length` method, didn't know about that. – Fred Foo Oct 1 '12 at 22:30

You can test the i'th bit of a number by using a shift and mask. For example, bit 6 of 65 is `(65 >> 6) & 1`. You can set a bit in a similar way by shifting 1 left the right number of times. These insights gives you code like this (which reverses x in a field of 'n' bits).

``````def reverse(x, n):
result = 0
for i in xrange(n):
if (x >> i) & 1: result |= 1 << (n - 1 - i)
return result

print bin(reverse(65, 8))
``````

best way to do is perform bit by bit shifting

``````def reverse_Bits(n, no_of_bits):
result = 0
for i in range(no_of_bits):
result <<= 1
result |= n & 1
n >>= 1
return result
# for example we reverse 12 i.e 1100 which is 4 bits long
print(reverse_Bits(12,4))
``````

Regularly there is the need to apply this operation on array of numbers and not for single number. To increase speed, it's probably better to use NumPy array. There are two solutions.

x1.34 faster than second solution:

``````import numpy as np
def reverse_bits_faster(x):
x = np.array(x)
bits_num = x.dtype.itemsize * 8
# because bitwise operations may change number of bits in numbers
one_array = np.array(, x.dtype)
# switch bits in-place
for i in range(int(bits_num / 2)):
left_bit = (x & right_bit_mask) << (bits_num - 1 - i * 2)
left_bit_mask = (one_array << (bits_num - 1 - i))
right_bit = (x & left_bit_mask) >> (bits_num - 1 - i * 2)
x = x & (~moved_bits_mask) | left_bit | right_bit
return x
``````

Slower, but more easy to understand (based on solution proposed by Sudip Ghimire):

``````import numpy as np
def reverse_bits(x):
x = np.array(x)
bits_num = x.dtype.itemsize * 8
x_reversed = np.zeros_like(x)
for i in range(bits_num):
x_reversed = (x_reversed << 1) | x & 1
x >>= 1
return x_reversed
``````

One more way to do it is to loop through the bits from both end and swap each other. This i learned from EPI python book.

``````i = 0; j = 7
num = 230
print(bin(num))
while i<j:
# Get the bits from both end iteratively
if (x>>i)&1 != (x>>j)&1:
# if the bits don't match swap them by creating a bit mask
# and XOR it with the number