I know the easiest way is using a regular expression, but I wonder if there are other ways to do this check.

Why do I need this? I am writing a Python script that reads text messages (SMS) from a SIM card. In some situations, hex messages arrives and I need to do some processing for them, so I need to check if a received message is hexadecimal.

When I send following SMS:

Hello world!

And my script receives


But in some situations, I receive normal text messages (not hex). So I need to do a if hex control.

I am using Python 2.6.5.


The reason of that problem is, (somehow) messages I sent are received as hex while messages sent by operator (info messages and ads.) are received as a normal string. So I decided to make a check and ensure that I have the message in the correct string format.

Some extra details: I am using a Huawei 3G modem and PyHumod to read data from the SIM card.

Possible best solution to my situation:

The best way to handle such strings is using a2b_hex (a.k.a. unhexlify) and utf-16 big endian encoding (as @JonasWielicki mentioned):

from binascii import unhexlify  # unhexlify is another name of a2b_hex

mystr = "00480065006C006C006F00200077006F0072006C00640021"
>> u'Hello world!'
  • 1
    I don't think the problem is easy as it's look, how about if you read something like "333 445", it can be for example a phone number (string) or a hexadecimal value, how can you be sure of that ? I think the real question will be why are you reading both ?
    – mouad
    Jul 21, 2012 at 12:48
  • @mouad that is a problem itself, but in my situation i do not bother that.
    – Mp0int
    Jul 21, 2012 at 13:36
  • 3
    By the way, the expanded hex code looks pretty much like UCS-2 big endian encoding. Jul 21, 2012 at 13:46
  • I would think that maybe a regular expression wiz (which I'm not) could do the check with an RE.
    – Hot Licks
    Jan 24, 2013 at 18:54

14 Answers 14


(1) Using int() works nicely for this, and Python does all the checking for you :)

int('00480065006C006C006F00200077006F0072006C00640021', 16)

will work. In case of failure you will receive a ValueError exception.

Short example:

int('af', 16)

int('ah', 16)
ValueError: invalid literal for int() with base 16: 'ah'

(2) An alternative would be to traverse the data and make sure all characters fall within the range of 0..9 and a-f/A-F. string.hexdigits ('0123456789abcdefABCDEF') is useful for this as it contains both upper and lower case digits.

import string
all(c in string.hexdigits for c in s)

will return either True or False based on the validity of your data in string s.

Short example:

s = 'af'
all(c in string.hexdigits for c in s)

s = 'ah'
all(c in string.hexdigits for c in s)


As @ScottGriffiths notes correctly in a comment below, the int() approach will work if your string contains 0x at the start, while the character-by-character check will fail with this. Also, checking against a set of characters is faster than a string of characters, but it is doubtful this will matter with short SMS strings, unless you process many (many!) of them in sequence in which case you could convert stringhexditigs to a set with set(string.hexdigits).

  • 3
    A minor quibble is that the two methods aren't quite equivalent (and the same goes for eumiro's answer). For strings starting with 0x or 0X casting to an int will succeed but the other method won't. Jul 21, 2012 at 14:10
  • @ScottGriffiths Good point, I'll add a note to my answer just in case, though for the data shown by OP as sample input, the solutions work. Thanks
    – Levon
    Jul 21, 2012 at 14:11
  • 1st may be may be error prompt to use at some places due to negative int('-a', 16) -> 10 don't raise ValueError where - an operator should not be consider the part of hexadecimal string. Feb 14, 2016 at 10:01
  • The all test will return True on a empty string.
    – russau
    Apr 5, 2020 at 5:39

You can:

  1. test whether the string contains only hexadecimal digits (0…9,A…F)
  2. try to convert the string to integer and see whether it fails.

Here is the code:

import string
def is_hex(s):
     hex_digits = set(string.hexdigits)
     # if s is long, then it is faster to check against a set
     return all(c in hex_digits for c in s)

def is_hex(s):
        int(s, 16)
        return True
    except ValueError:
        return False
  • 1
    @JonasWielicki inputs may have both upper and lower case
    – Pooya
    Jul 21, 2012 at 13:02
  • 1
    thats why I'd suggest adding ABCDEF to the test string, in addition to abcdef. Jul 21, 2012 at 13:04
  • 1
    return all(c.lower() in '0123456789abcdef' for c in s) is more faster than return all(c in '0123456789abcdef' for c in s.lower())
    – Pooya
    Jul 21, 2012 at 13:11
  • 3
    @Pooya - '7890' is both decimal and hexadecimal number, just like '1010' can be binary, octal, decimal, hexadecimal and whatever number…
    – eumiro
    Jul 21, 2012 at 13:35
  • 1
    @Pooya: You got it backwards when you said "return all(c.lower() in '0123456789abcdef' for c in s) is more faster than return all(c in '0123456789abcdef' for c in s.lower())". If you need c.lower(), you will call lower() many times, whereas if you do s.lower(), you only call lower() once. Of course, I think it is even better to avoid lower() altogether, and follow Jonas's suggestion (which has been edited into the answer).
    – John Y
    Jul 21, 2012 at 13:59

I know the op mentioned regular expressions, but I wanted to contribute such a solution for completeness' sake:

def is_hex(s):
    return re.fullmatch(r"^[0-9a-fA-F]+$", s or "") is not None


In order to evaluate the performance of the different solutions proposed here, I used Python's timeit module. The input strings are generated randomly for three different lengths, 10, 100, 1000:

s=''.join(random.choice('0123456789abcdef') for _ in range(10))

Levon's solutions:

# int(s, 16)
  10: 0.257451018987922
 100: 0.40081690801889636
1000: 1.8926858339982573

# all(_ in string.hexdigits for _ in s)
  10:  1.2884491360164247
 100: 10.047717947978526
1000: 94.35805322701344

Other answers are variations of these two. Using a regular expression:

# re.fullmatch(r'^[0-9a-fA-F]+$', s or '')
  10: 0.725040541990893
 100: 0.7184272820013575
1000: 0.7190397029917222

Picking the right solution thus depends on the length on the input string and whether exceptions can be handled safely. The regular expression certainly handles large strings much faster (and won't throw a ValueError on overflow), but int() is the winner for shorter strings.

Edit: + added to regex

  • 4
    Because fullmatch is not available in Python 2.7 you can use return re.search(r'^[0-9A-Fa-f]+$', s) is not None Dec 15, 2016 at 17:56
  • 4
    The conclusions in this answer are somewhat wrong. It should be using re.fullmatch(r'[0-9a-fA-F]+', s or ''), with the + quantifier. If you use this, then int(s, 16) is fastest for all string lengths in my testing (on Python 3.6). However, a regex is still probably the better option as int(s, 16) accepts strings such as "0x0". Feb 10, 2017 at 1:53
  • If the regular expression is changed to '^(0[xX])?[0-9a-fA-F]+$', the issue of handling a possible 0x prefix is addressed.
    – MrMas
    Jul 30, 2020 at 23:44

One more simple and short solution based on transformation of string to set and checking for subset (doesn't check for '0x' prefix):

import string
def is_hex_str(s):
    return set(s).issubset(string.hexdigits)

More information here.

  • seems great to me, and is supported all the way to 3.10
    – Konchog
    Aug 11, 2022 at 16:40

Another option:

def is_hex(s):
    hex_digits = set("0123456789abcdef")
    for char in s:
        if not (char in hex_digits):
            return False
    return True

Most of the solutions proposed above do not take into account that any decimal integer may be also decoded as hex because decimal digits set is a subset of hex digits set. So Python will happily take 123 and assume it's 0123 hex:

>>> int('123',16)

This may sound obvious but in most cases you'll be looking for something that was actually hex-encoded, e.g. a hash and not anything that can be hex-decoded. So probably a more robust solution should also check for an even length of the hex string:

In [1]: def is_hex(s):
   ...:     try:
   ...:         int(s, 16)
   ...:     except ValueError:
   ...:         return False
   ...:     return len(s) % 2 == 0

In [2]: is_hex('123')
Out[2]: False

In [3]: is_hex('f123')
Out[3]: True

This will cover the case if the string starts with '0x' or '0X': [0x|0X][0-9a-fA-F]

all(c in 'xX' + string.hexdigits for c in d)
  • 4
    Actually, "xxxXXX" or "123xXxABC" are not a hex string, but your expression above would return True.
    – Jens
    Jun 26, 2019 at 3:52

In Python3, I tried:

def is_hex(s):
        return ''.join([i for i in tmp if i.isprintable()])
    except ValueError:
        return ''

It should be better than the way: int(x, 16)

  • 1
    Why would this be better than int(s, 16)? Your function takes an s parameter and doesn't use it (I assume it's supposed to be hex_data). It also calls decode() which fails for every incorrect UTF8 encoded Unicode character—and there are many of them considering random hex input. What's the purpose of isprintable()?
    – Jens
    Dec 14, 2015 at 17:14

Using Python you are looking to determine True or False, I would use eumero's is_hex method over Levon's method one. The following code contains a gotcha...

if int(input_string, 16):
    print 'it is hex'
    print 'it is not hex'

It incorrectly reports the string '00' as not hex because zero evaluates to False.


Since all the regular expression above took about the same amount of time, I would guess that most of the time was related to converting the string to a regular expression. Below is the data I got when pre-compiling the regular expression.

0.000800 ms 10  
0.001300 ms 100  
0.008200 ms 1000  

0.003500 ms 10  
0.015200 ms 100  
0.112000 ms 1000  

0.001800 ms 10  
0.001200 ms 100  
0.005500 ms 1000

Simple solution in case you need a pattern to validate prefixed hex or binary along with decimal


Sample: https://regex101.com/r/cN4yW7/14

Then doing int('0x00480065006C006C006F00200077006F0072006C00640021', 0) in python gives 6896377547970387516320582441726837832153446723333914657

The base 0 invokes prefix guessing behaviour. This has saved me a lot of hassle. Hope it helps!


Here's my solution:

def to_decimal(s):
    '''input should be int10 or hex'''
    isString = isinstance(s, str)
    if isString:
        isHex = all(c in string.hexdigits + 'xX' for c in s)
        return int(s, 16) if isHex else int(s)
        return int(hex(s), 16)

a = to_decimal(12)
b = to_decimal(0x10)
c = to_decimal('12')
d = to_decimal('0x10')
print(a, b, c, d)
  • This is a buggy solution. All of the following will be evaluate isHex as true according to your code: x, 1231x12, xxx
    – Mp0int
    Feb 9, 2022 at 10:35

I'm quite surprised nobody mentioned str.removeprefix.

In this manner, any valid hexadecimal string will pass the test, whereas any invalid one will not.

Edit: An empty string check has been added. (Thanks to @daviid)

test_cases = [

for to_test in test_cases:
    assert set() < set(to_test.lower().removeprefix('0x')) <= set('0123456789abcdef')
  • Well, it was added on Python 3.9 (that's the 5th of October 2020) and there's this answer which is similar though. To shorten your answer with the linked answer return set(to_test.removeprefix('0x')).issubset(string.hexdigits), there's no need for lower() or converting to string.hexdigits to set. Awhopping 6 bytes saved (4 if ignoreing white spaces).
    – Daviid
    Nov 6 at 14:52
  • 1
    I added .lower() to remove both 0x and 0X. to_test.removeprefix('0x').removeprefix('0X') is not sufficient because a string 0x0Xabc can pass the test. Nov 7 at 9:34
  • to_test = '0x' should fail right?
    – Daviid
    Nov 7 at 10:03
  • 1
    Oh, I overlooked it. The code should be assert set() < set(to_test.lower().removeprefix('0x')) <= set(string.hexdigits). Thanks for pointing it out. Nov 7 at 10:11

Most of the solution are not properly in checking string with prefix 0x

>>> is_hex_string("0xaaa")  
>>> is_hex_string("0x123")  
>>> is_hex_string("0xfff")  
>>> is_hex_string("fff")  
  • is_hex_string is not a function and this answer does not answer or solve the OP question. I would recommend you add this as a comment on the OP question or write a solution to the question.
    – pmalbu
    Jun 14 at 17:06

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