Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# Convert hex to binary

I have ABC123EFFF.

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

How?

-

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.

-
Calculation for the number of bits is `len(my_hexdata) * log2(scale)`. – Edd Mar 7 '15 at 9:20
``````import binascii

binary_string = binascii.unhexlify(hex_string)
``````

binascii.unhexlify

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

-
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
docs.python.org/library/binascii.html 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 '15 at 22:26
``````bin(int("abc123efff", 16))[2:]
``````
-
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
``````>>> bin( 0xABC123EFFF )
``````

'0b1010101111000001001000111110111111111111'

-
``````"{0:020b}".format(int('ABC123EFFF', 16))
``````
-

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)

-
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 '15 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 '15 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
'''
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.

-

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))
``````
-
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')
``````
-
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
``````
-
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.

-
``````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
``````
-
Where's the description/explanation? – Sufian Feb 9 '15 at 10:14
``````import binascii
hexa_input = input('Enter hex String to convert to Binary: ')
Integer_output=int(hexa_input,16)
print(Binary_output)
"""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"""
``````
-

i have a short snipped hope that helps :-)

``````input = 'ABC123EFFF'
for index, value in enumerate(input):
print(value)
print(bin(int(value,16)+16)[3:])

string = ''.join([bin(int(x,16)+16)[3:] for y,x in enumerate(input)])
print(string)
``````

first i use your input and enumerate it to get each symbol. then i convert it to binary and trim from 3th position to the end. The trick to get the 0 is to add the max value of the input -> in this case always 16 :-)

the short form ist the join method. Enjoy.

-

# Convert hex to binary, 42 digits and leading zeros?

We have several direct ways to accomplish this goal, without hacks using slices.

First, before we can do any binary manipulation at all, convert to int (I presume this is in a string format, not as a literal):

``````>>> integer = int('ABC123EFFF', 16)
``````

## Most direct answer: Use the builtin function, `format`

Then pass to `format`:

``````>>> format(integer, '0>42b')
'001010101111000001001000111110111111111111'
``````

This uses the formatting specification's mini-language. To break that down, here's the grammar form of it:

``````[[fill]align][sign][#][0][width][,][.precision][type]
``````

To make that into a specification for our needs:

``````>>> spec = '{fill}{align}{width}{type}'.format(fill='0', align='>', width=42, type='b')
>>> format(integer, spec)
'001010101111000001001000111110111111111111'
``````

## String Formatting (Templating)

We can use that in a string using `str.format` method:

``````>>> 'here is the binary form: {0:{spec}}'.format(integer, spec=spec)
'here is the binary form: 001010101111000001001000111110111111111111'
``````

Or just put the spec directly in the original string:

``````>>> 'here is the binary form: {0:0>42b}'.format(integer)
'here is the binary form: 001010101111000001001000111110111111111111'
``````
-
`````` def conversion():
e1=("a","b","c","d","e","f")
e2=(10,11,12,13,14,15)
e3=1
e4=len(e)
e5=()
while e3<=e4:
e5=e5+(e[e3-1],)
e3=e3+1
print e5
e6=1
e8=()
while e6<=e4:
e7=e5[e6-1]
if e7=="A":
e7=10
if e7=="B":
e7=11
if e7=="C":
e7=12
if e7=="D":
e7=13
if e7=="E":
e7=14
if e7=="F":
e7=15
else:
e7=int(e7)
e8=e8+(e7,)
e6=e6+1
print e8

e9=1
e10=len(e8)
e11=()
while e9<=e10:
e12=e8[e9-1]
a1=e12
a2=()
a3=1
while a3<=1:
a4=a1%2
a2=a2+(a4,)
a1=a1/2
if a1<2:
if a1==1:
a2=a2+(1,)
if a1==0:
a2=a2+(0,)
a3=a3+1
a5=len(a2)
a6=1
a7=""
a56=a5
while a6<=a5:
a7=a7+str(a2[a56-1])
a6=a6+1
a56=a56-1
if a5<=3:
if a5==1:
a8="000"
a7=a8+a7
if a5==2:
a8="00"
a7=a8+a7
if a5==3:
a8="0"
a7=a8+a7
else:
a7=a7
print a7,
e9=e9+1
``````
-
don't put only code, always add some explanation – piotrek1543 Jan 3 at 7:48
``````no=raw_input("Enter your number in hexa decimal :")
def convert(a):
if a=="0":
c="0000"
elif a=="1":
c="0001"
elif a=="2":
c="0010"
elif a=="3":
c="0011"
elif a=="4":
c="0100"
elif a=="5":
c="0101"
elif a=="6":
c="0110"
elif a=="7":
c="0111"
elif a=="8":
c="1000"
elif a=="9":
c="1001"
elif a=="A":
c="1010"
elif a=="B":
c="1011"
elif a=="C":
c="1100"
elif a=="D":
c="1101"
elif a=="E":
c="1110"
elif a=="F":
c="1111"
else:
c="invalid"
return c

a=len(no)
b=0
l=""
while b<a:
l=l+convert(no[b])
b+=1
print l
``````
-