# How to convert string to binary?

I am in need of a way to get the binary representation of a string in python. e.g.

``````st = "hello world"
toBinary(st)
``````

Is there a module of some neat way of doing this?

• What do you expect the output to be, specifically?
– NPE
Commented Sep 15, 2013 at 18:20
• By "binary", do you mean 0101010 type or the `ord`inal number of each character in (e.g. hex)? Commented Sep 15, 2013 at 18:23
• Assuming that you actually mean binary (zeros and ones), do you want a binary representation of each character (8 bits per character) one after another? e.g. h is ascii value 104 would be 01101000 in binary Commented Sep 15, 2013 at 18:30
• This question has been answered many times on stackoverflow: stackoverflow.com/questions/11599226/… stackoverflow.com/questions/8553310/… Commented Sep 15, 2013 at 18:32
• possible duplicate of Convert Binary to ASCII and vice versa (Python)
– jfs
Commented Mar 12, 2014 at 10:59

Something like this?

``````>>> st = "hello world"
>>> ' '.join(format(ord(x), 'b') for x in st)
'1101000 1100101 1101100 1101100 1101111 100000 1110111 1101111 1110010 1101100 1100100'

#using `bytearray`
>>> ' '.join(format(x, 'b') for x in bytearray(st, 'utf-8'))
'1101000 1100101 1101100 1101100 1101111 100000 1110111 1101111 1110010 1101100 1100100'
``````
• Or if you want each binary number to be 1 byte: ' '.join(format(ord(i),'b').zfill(8) for i in st) Commented Sep 15, 2013 at 18:39
• For full bytes you can also use `' '.join('{0:08b}'.format(ord(x), 'b') for x in st)`, which is about 35% faster than the `zfill(8)` solution (at least on my machine).
– max
Commented Jun 11, 2015 at 11:12
• What about converting more-than-one-byte chars, like `β`, e.g., which seems to me represented by `11001110 10110010` internally? Commented Mar 25, 2017 at 20:18
• I know this was posted long time ago, but what about non-ASCII characters?
– Mia
Commented Apr 10, 2017 at 15:09
• Is there a way to reconstruct the original string from the bytearray one: 1101000 1100101 1101100 '? Commented Nov 21, 2020 at 0:03

If by binary you mean `bytes` type, you can just use `encode` method of the string object that encodes your string as a bytes object using the passed encoding type. You just need to make sure you pass a proper encoding to `encode` function.

``````In [9]: "hello world".encode('ascii')
Out[9]: b'hello world'

In [10]: byte_obj = "hello world".encode('ascii')

In [11]: byte_obj
Out[11]: b'hello world'

In [12]: byte_obj[0]
Out[12]: 104
``````

Otherwise, if you want them in form of zeros and ones --binary representation-- as a more pythonic way you can first convert your string to byte array then use `bin` function within `map` :

``````>>> st = "hello world"
>>> map(bin,bytearray(st))
['0b1101000', '0b1100101', '0b1101100', '0b1101100', '0b1101111', '0b100000', '0b1110111', '0b1101111', '0b1110010', '0b1101100', '0b1100100']

``````

Or you can join it:

``````>>> ' '.join(map(bin,bytearray(st)))
'0b1101000 0b1100101 0b1101100 0b1101100 0b1101111 0b100000 0b1110111 0b1101111 0b1110010 0b1101100 0b1100100'
``````

Note that in python3 you need to specify an encoding for `bytearray` function :

``````>>> ' '.join(map(bin,bytearray(st,'utf8')))
'0b1101000 0b1100101 0b1101100 0b1101100 0b1101111 0b100000 0b1110111 0b1101111 0b1110010 0b1101100 0b1100100'
``````

You can also use `binascii` module in python 2:

``````>>> import binascii
>>> bin(int(binascii.hexlify(st),16))
'0b110100001100101011011000110110001101111001000000111011101101111011100100110110001100100'
``````

`hexlify` return the hexadecimal representation of the binary data then you can convert to int by specifying 16 as its base then convert it to binary with `bin`.

• Not only this is more pythonic, but this is "more" correct for multi-byte non-ASCII strings. Commented Mar 25, 2017 at 20:23
• Just to note that (at least for the current version `3.7.4`): (1) `bytearray` expects an encoding (not just a string) and (2) `map(bin, ...)` will return the `map` object. For the first point, I use for instance `bob`.encoding('ascii')` as suggested by @Tao. For the second, point, using the `join` method, as in the other examples of @Kasramvd will display the desired result. Commented Sep 16, 2019 at 12:56
• the "hello world".encode('ascii') is perfect Commented Jan 25, 2021 at 8:18
• This is odd. In python3, I can do `>>> bin(bytearray("g", 'utf8')[0]) # '0b1100111'`. But, I cannot do `>>> bin("g".encode("utf8"))` Commented Apr 19, 2022 at 1:56

We just need to encode it.

``````'string'.encode('ascii')
``````
• For me (`v3.7.4`), this returns a `bytes` object (with the ascii representations of each byte, if available), and in order to display its binary representation, I need `bin`, e.g. with `' '.join(item[2:] for item in map(bin, 'bob'.encode('ascii')))` (note that `0b` needs to be removed at the beginning of the binary representation of each character). Commented Sep 16, 2019 at 12:59

You can access the code values for the characters in your string using the `ord()` built-in function. If you then need to format this in binary, the `string.format()` method will do the job.

``````a = "test"
print(' '.join(format(ord(x), 'b') for x in a))
``````

(Thanks to Ashwini Chaudhary for posting that code snippet.)

While the above code works in Python 3, this matter gets more complicated if you're assuming any encoding other than UTF-8. In Python 2, strings are byte sequences, and ASCII encoding is assumed by default. In Python 3, strings are assumed to be Unicode, and there's a separate `bytes` type that acts more like a Python 2 string. If you wish to assume any encoding other than UTF-8, you'll need to specify the encoding.

In Python 3, then, you can do something like this:

``````a = "test"
a_bytes = bytes(a, "ascii")
print(' '.join(["{0:b}".format(x) for x in a_bytes]))
``````

The differences between UTF-8 and ascii encoding won't be obvious for simple alphanumeric strings, but will become important if you're processing text that includes characters not in the ascii character set.

In Python version 3.6 and above you can use f-string to format result.

``````str = "hello world"
print(" ".join(f"{ord(i):08b}" for i in str))

01101000 01100101 01101100 01101100 01101111 00100000 01110111 01101111 01110010 01101100 01100100
``````
• The left side of the colon, ord(i), is the actual object whose value will be formatted and inserted into the output. Using ord() gives you the base-10 code point for a single str character.

• The right hand side of the colon is the format specifier. 08 means width 8, 0 padded, and the b functions as a sign to output the resulting number in base 2 (binary).

• Note that you are overriding `str` Commented Oct 1, 2021 at 9:35
``````def method_a(sample_string):
binary = ' '.join(format(ord(x), 'b') for x in sample_string)

def method_b(sample_string):
binary = ' '.join(map(bin,bytearray(sample_string,encoding='utf-8')))

if __name__ == '__main__':

from timeit import timeit

sample_string = 'Convert this ascii strong to binary.'

print(
timeit(f'method_a("{sample_string}")',setup='from __main__ import method_a'),
timeit(f'method_b("{sample_string}")',setup='from __main__ import method_b')
)

# 9.564299999998184 2.943955828988692
``````

method_b is substantially more efficient at converting to a byte array because it makes low level function calls instead of manually transforming every character to an integer, and then converting that integer into its binary value.

This is an update for the existing answers which used `bytearray()` and can not work that way anymore:

``````>>> st = "hello world"
>>> map(bin, bytearray(st))
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: string argument without an encoding
``````

Because, as explained in the link above, if the source is a string, you must also give the encoding:

``````>>> map(bin, bytearray(st, encoding='utf-8'))
<map object at 0x7f14dfb1ff28>
``````
``````''.join(format(i, 'b') for i in bytearray(str, encoding='utf-8'))
``````

This works okay since its easy to now revert back to the string as no zeros will be added to reach the 8 bits to form a byte hence easy to revert to string to avoid complexity of removing the zeros added.

Here is a comparison of bit lengths in various encodings of ASCII 127 (delete). Note the respective 24, 16, and 32 bit byte order mark (BOM) in UTF-8-SIG, UTF-16, and UTF-32:

``````>>> for encoding in ('utf-8', 'utf-8-sig', 'utf-16', 'utf-16-le', 'utf-16-be', 'utf-32', 'utf-32-le', 'utf-32-be'): print(''.join(' '.join((f'{encoding:9}', f'{len(bs):2}', bs)) for bs in [''.join(f'{byte:08b}' for byte in '\x7f'.encode(encoding))]))
...
utf-8      8 01111111
utf-8-sig 32 11101111101110111011111101111111
utf-16    32 11111111111111100111111100000000
utf-16-le 16 0111111100000000
utf-16-be 16 0000000001111111
utf-32    64 1111111111111110000000000000000001111111000000000000000000000000
utf-32-le 32 01111111000000000000000000000000
utf-32-be 32 00000000000000000000000001111111
``````
``````a = list(input("Enter a string\t: "))
def fun(a):
c =' '.join(['0'*(8-len(bin(ord(i))[2:]))+(bin(ord(i))[2:]) for i in a])
return c
print(fun(a))
``````
• Would you like to augment this unreadable code-only answer with some explanation? That would help fighting the misconception that StackOverflow is a free code writing service. In case you want to improve readability, try the info provided here: stackoverflow.com/editing-help Commented Jul 30, 2019 at 19:55