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I have ABC123EFFF, I want to have 001010101111000001001000111110111111111111 (i.e. binary repr. with (say) 42 digits and leading zeroes).


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14 Answers 14

For solving the left-side trailing zero problem:

my_hexdata = "1a"

scale = 16 ## equals to hexadecimal

num_of_bits = 8

bin(int(my_hexdata, scale))[2:].zfill(num_of_bits)

It will give 00011010 instead of the trimmed version.

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Calculation for the number of bits is len(my_hexdata) * log2(scale). – Edd Mar 7 at 9:20
import binascii

binary_string = binascii.unhexlify(hex_string)



Return the binary data represented by the hexadecimal string specified as the parameter.

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This returns "binary" as in the actual bytes, but it does not convert it to a printable representation as "0" and "1". – Matt Good Sep 15 '09 at 6:52 is subtitled Convert between binary and ASCII. Doesn't that mean it returns a string? – pavium Sep 15 '09 at 6:58
Yes, it returns a string containing the bytes represented, e.g. >>> unhexlify("ab") "\xab" – Matt Good Sep 15 '09 at 7:03
Any idea how to return "001010100" ? – David 天宇 Wong May 6 at 22:26
bin(int("abc123efff", 16))[2:]
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Oh, this also omits any leading '0's so it may need padded for this use. – Matt Good Sep 15 '09 at 7:08
If the input is "1a" this gives "11010", not "00011010" which may or may not be what you want. – Matt Good Sep 15 '09 at 7:16
There are an infinite number of leading zeroes on every number, so I'd hope it omits them. – Glenn Maynard Sep 15 '09 at 7:18
It's unfortunate that it's a global builtin. It should have been int.bin (int.oct, int.hex), instead of eating away at the global namespace. – Glenn Maynard Sep 15 '09 at 8:16
It's quite reasonable to need the leading zeros (and to not need them). You might want the null byte 0x00 to be eight zero bits for example - this is important for some applications. Also the OP has a leading zero in his example (but I suspect that's just random in this case!) – Scott Griffiths Sep 15 '09 at 9:06
"{0:020b}".format(int('ABC123EFFF', 16))
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>>> bin( 0xABC123EFFF )


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Here's a fairly raw way to do it using bit fiddling to generate the binary strings.

The key bit to understand is:

(n & (1 << i)) and 1

Which will generate either a 0 or 1 if the i'th bit of n is set.

import binascii

def byte_to_binary(n):
    return ''.join(str((n & (1 << i)) and 1) for i in reversed(range(8)))

def hex_to_binary(h):
    return ''.join(byte_to_binary(ord(b)) for b in binascii.unhexlify(h))

print hex_to_binary('abc123efff')

>>> 1010101111000001001000111110111111111111

Edit: using the "new" ternary operator this:

(n & (1 << i)) and 1

Would become:

1 if n & (1 << i) or 0

(Which TBH I'm not sure how readable that is)

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And Python 2.4 friendly! Note: binascii will complain if the hex string being fed in is of an odd length. I found that padding using a format specifier works best: '%0.8x' % (var) – Kumba Dec 3 '11 at 4:25
I know this is old, but what exactly is the point of the "and 1"? – Goodies Nov 9 at 9:05
It's for the old days of python before the ternary operator. The (n & (1 << i)) will either return zero or something other than zero. We only want a one or zero, so that "and 1" is there to ensure that. – John Montgomery Nov 9 at 10:52

This is a slight touch up to Glen Maynard's solution, which I think is the right way to do it. It just adds the padding element.

    def hextobin(self, hexval):
        Takes a string representation of hex data with
        arbitrary length and converts to string representation
        of binary.  Includes padding 0s
        thelen = len(hexval)*4
        binval = bin(int(hexval, 16))[2:]
        while ((len(binval)) < thelen):
            binval = '0' + binval
        return binval

Pulled it out of a class. Just take out self, if you're working in a stand-alone script.

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hex --> decimal then decimal --> binary

#decimal to binary 
def d2b(n):
    bStr = ''
    if n < 0: raise ValueError, "must be a positive integer"
    if n == 0: return '0'
    while n > 0:
        bStr = str(n % 2) + bStr
        n = n >> 1    
    return bStr

#hex to binary
def h2b(hex):
    return d2b(int(hex,16))
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A good solution for those stuck on Python 2.4 – mikemaccana Dec 21 '09 at 13:36

Another way:

import math

def hextobinary(hex_string):
    s = int(hex_string, 16) 
    num_digits = int(math.ceil(math.log(s) / math.log(2)))
    digit_lst = ['0'] * num_digits
    idx = num_digits
    while s > 0:
    	idx -= 1
    	if s % 2 == 1: digit_lst[idx] = '1'
    	s = s / 2
    return ''.join(digit_lst)

print hextobinary('abc123efff')
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This fails if hex_string is set to 'f0' – mikemaccana Dec 21 '09 at 13:34

Replace each hex digit with the corresponding 4 binary digits:

1 - 0001
2 - 0010
a - 1010
b - 1011
f - 1111
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Or replace each pair of hex digits with the corresponding 8 binary digits, or replace each triplet of hex digits with the corresponding 12 binary digits ... or replace each 10 hex digits, with the corresponding 40 binary digits - Oops! back where we started! – pavium Sep 15 '09 at 6:52

I added the calculation for the number of bits to fill to Onedinkenedi's solution. Here is the resulting function:

def hextobin(h):
  return bin(int(h, 16))[2:].zfill(len(h) * 4)

Where 16 is the base you're converting from (hexadecimal), and 4 is how many bits you need to represent each digit, or log base 2 of the scale.

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a = raw_input('hex number\n')
length = len(a)
ab = bin(int(a, 16))[2:]
while len(ab)<(length * 4):
    ab = '0' + ab
print ab
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Where's the description/explanation? – Sufian Feb 9 at 10:14
import binascii
hexa_input = input('Enter hex String to convert to Binary: ')
Binary_output= bin(Integer_output)[2:]. zfill(pad_bits)
"""zfill(x) i.e. x no of 0 s to be padded left - Integers will overwrite 0 s
starting from right side but remaining 0 s will display till quantity x
[y:] where y is no of output chars which need to destroy starting from left"""
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no=raw_input("Enter your number in hexa decimal :")
def convert(a):
    if a=="0":
    elif a=="1":
    elif a=="2":
    elif a=="3":
    elif a=="4":
    elif a=="5":
    elif a=="6":
    elif a=="7":
    elif a=="8":
    elif a=="9":
    elif a=="A":
    elif a=="B":
    elif a=="C":
    elif a=="D":
    elif a=="E":
    elif a=="F":
    return c

while b<a:
print l
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