Is it possible to visualize non-printable characters in a python string with its hex values?

e.g. If I have a string with a newline inside I would like to replace it with \x0a.

I know there is repr() which will give me ...\n, but I'm looking for the hex version.

  • 4
    The built-in codec string_escape (s.encode('string_escape')) almost does what you want, giving you hex for everything but \t, \r and \n, but unfortunately, as far as I know, there's nothing built-in that doesn't treat those three special…
    – abarnert
    Dec 18, 2012 at 8:40
  • Hmm ... does not work for me. "LookupError: unknown encoding: string_escape" I get.
    – georgij
    Dec 18, 2012 at 21:39
  • 3
    Sorry, string_escape only exists in 2.x; you want unicode_escape in 3.x. But in addition to using \t, \r, \n, that will also escape all characters > \u00ff (or maybe > \u007f? I forget…), which means it's even less likely you'll be happy with it out of the box… (The reason I put this as a comment rather than an answer is that I didn't expect you to be happy with the built-in codecs, given that your main point is that you want \x0a in place of \n.)
    – abarnert
    Dec 18, 2012 at 21:47
  • As a side note, since you're in 3.x, and using str rather than bytes strings: What do you want to do for non-printable non-ASCII characters? Replace them with Unicode escapes (e.g., \u1234), or something different?
    – abarnert
    Dec 18, 2012 at 21:50
  • No I'm dealing with bytes which I show as a string of one byte chars + the non printable chars which will show up as hex.
    – georgij
    Dec 18, 2012 at 23:47

6 Answers 6


I don't know of any built-in method, but it's fairly easy to do using a comprehension:

import string
printable = string.ascii_letters + string.digits + string.punctuation + ' '
def hex_escape(s):
    return ''.join(c if c in printable else r'\x{0:02x}'.format(ord(c)) for c in s)
  • This works for ASCII strings, but in 3.x, you can't count on a string being ASCII. And it's not quite as trivial to handle Unicode (although not that hard).
    – abarnert
    Dec 18, 2012 at 21:52
  • For example: hex_escape('a•') will return 'abc\\x2022', which is not correct (it will turn into 'a 22' when you unescape it).
    – abarnert
    Dec 19, 2012 at 0:21
  • why not just use string.printable ? Feb 5, 2013 at 5:08
  • 2
    @GreenAsJade string.printable includes newline.
    – ecatmur
    Feb 5, 2013 at 8:22
  • Doh ! :) I wasn't interested in newline when I came searching for an answer to my own question, so I missed that ... makes sense now. Feb 6, 2013 at 11:15

I'm kind of late to the party, but if you need it for simple debugging, I found that this works:

string = "\n\t\nHELLO\n\t\n\a\17"

procd = [c for c in string]

# Prints ['\n,', '\t,', '\n,', 'H,', 'E,', 'L,', 'L,', 'O,', '\n,', '\t,', '\n,', '\x07,', '\x0f,']

While just list is simpler, a comprehension makes it easier to add in filtering/mapping if necessary.

  • 6
    procd = list(string) would be more concise than a trivial list comprehension. Apr 30, 2018 at 20:26
  • For control code characters (not printable) its nice to be able to see them - chr(ord(c) + 9216) - en.wikipedia.org/wiki/Control_Pictures
    – wwii
    Sep 30, 2021 at 17:17

You'll have to make the translation manually; go through the string with a regular expression for example, and replace each occurrence with the hex equivalent.

import re

replchars = re.compile(r'[\n\r]')
def replchars_to_hex(match):
    return r'\x{0:02x}'.format(ord(match.group()))

replchars.sub(replchars_to_hex, inputtext)

The above example only matches newlines and carriage returns, but you can expand what characters are matched, including using \x escape codes and ranges.

>>> inputtext = 'Some example containing a newline.\nRight there.\n'
>>> replchars.sub(replchars_to_hex, inputtext)
'Some example containing a newline.\\x0aRight there.\\x0a'
>>> print(replchars.sub(replchars_to_hex, inputtext))
Some example containing a newline.\x0aRight there.\x0a
  • 2
    This version is 4 times faster than iterating through the string as suggested in the other answers using a comprehension expression. To fully replace unprintable, use the following re: re.compile('([^' + re.escape(string.printable) + '])'), or some other char set (depending on what you want for newlines, etc.)
    – sinelaw
    Jun 4, 2015 at 8:57
  • Use re.compile(r'[\x00-\x1f]') to match only control characters.
    – Harvey
    Jan 20, 2017 at 19:06

Modifying ecatmur's solution to handle non-printable non-ASCII characters makes it less trivial and more obnoxious:

def escape(c):
    if c.printable():
        return c
    c = ord(c)
    if c <= 0xff:
        return r'\x{0:02x}'.format(c)
    elif c <= '\uffff':
        return r'\u{0:04x}'.format(c)
        return r'\U{0:08x}'.format(c)

def hex_escape(s):
    return ''.join(escape(c) for c in s)

Of course if str.isprintable isn't exactly the definition you want, you can write a different function. (Note that it's a very different set from what's in string.printable—besides handling non-ASCII printable and non-printable characters, it also considers \n, \r, \t, \x0b, and \x0c as non-printable.

You can make this more compact; this is explicit just to show all the steps involved in handling Unicode strings. For example:

def escape(c):
    if c.printable():
        return c
    elif c <= '\xff':
        return r'\x{0:02x}'.format(ord(c))
        return c.encode('unicode_escape').decode('ascii')

Really, no matter what you do, you're going to have to handle \r, \n, and \t explicitly, because all of the built-in and stdlib functions I know of will escape them via those special sequences instead of their hex versions.


I did something similar once by deriving a str subclass with a custom __repr__() method which did what I wanted. It's not exactly what you're looking for, but may give you some ideas.

# -*- coding: iso-8859-1 -*-

# special string subclass to override the default
# representation method. main purpose is to
# prefer using double quotes and avoid hex
# representation on chars with an ord > 128
class MsgStr(str):
    def __repr__(self):
        # use double quotes unless there are more of them within the string than
        # single quotes
        if self.count("'") >= self.count('"'):
            quotechar = '"'
            quotechar = "'"

        rep = [quotechar]
        for ch in self:
            # control char?
            if ord(ch) < ord(' '):
                # remove the single quotes around the escaped representation
                rep += repr(str(ch)).strip("'")
            # embedded quote matching quotechar being used?
            elif ch == quotechar:
                rep += "\\"
                rep += ch
            # else just use others as they are
                rep += ch
        rep += quotechar

        return "".join(rep)

if __name__ == "__main__":
    s1 = '\tWürttemberg'
    s2 = MsgStr(s1)
    print "str    s1:", s1
    print "MsgStr s2:", s2
    print "--only the next two should differ--"
    print "repr(s1):", repr(s1), "# uses built-in string 'repr'"
    print "repr(s2):", repr(s2), "# uses custom MsgStr 'repr'"
    print "str(s1):", str(s1)
    print "str(s2):", str(s2)
    print "repr(str(s1)):", repr(str(s1))
    print "repr(str(s2)):", repr(str(s2))
    print "MsgStr(repr(MsgStr('\tWürttemberg'))):", MsgStr(repr(MsgStr('\tWürttemberg')))

There is also a way to print non-printable characters in the sense of them executing as commands within the string even if not visible (transparent) in the string, and their presence can be observed by measuring the length of the string using len as well as by simply putting the mouse cursor at the start of the string and seeing/counting how many times you have to tap the arrow key to get from start to finish, as oddly some single characters can have a length of 3 for example, which seems perplexing. (Not sure if this was already demonstrated in prior answers)

In this example screenshot below, I pasted a 135-bit string that has a certain structure and format (which I had to manually create beforehand for certain bit positions and its overall length) so that it is interpreted as ascii by the particular program I'm running, and within the resulting printed string are non-printable characters such as the 'line break` which literally causes a line break (correction: form feed, new page I meant, not line break) in the printed output there is an extra entire blank line in between the printed result (see below):

Example of printing non-printable characters that appear in printed string

Input a string:100100001010000000111000101000101000111011001110001000100001100010111010010101101011100001011000111011001000101001000010011101001000000
>>> len('HPQGg]+\,vE!:@')

In the above code excerpt, try to copy-paste the string HPQGg]+\,vE!:@ straight from this site and see what happens when you paste it into the Python IDLE.

Hint: You have to tap the arrow/cursor three times to get across the two letters from P to Q even though they appear next to each other, as there is actually a File Separator ascii command in between them.

However, even though we get the same starting value when decoding it as a byte array to hex, if we convert that hex back to bytes they look different (perhaps lack of encoding, not sure), but either way the above output of the program prints non-printable characters (I came across this by chance while trying to develop a compression method/experiment).

>>> bytes(b'HPQGg]+\,vE!:@').hex()
>>> bytes.fromhex('48501c514767110c5d2b5c2c7645213a40')

>>> (0x48501c514767110c5d2b5c2c7645213a40 == 0b100100001010000000111000101000101000111011001110001000100001100010111010010101101011100001011000111011001000101001000010011101001000000)

In the above 135 bit string, the first 16 groups of 8 bits from the big-endian side encode each character (including non-printable), whereas the last group of 7 bits results in the @ symbol, as seen below:

Technical breakdown of the format of the above 135-bit string

And here as text is the breakdown of the 135-bit string:

10010000 = H (72)
10100000 = P (80)
00111000 = x1c (28 for File Separator) *
10100010 = Q (81)
10001110 = G(71)
11001110 = g (103)
00100010 = x11 (17 for Device Control 1) *
00011000 = x0c (12 for NP form feed, new page) *
10111010 = ] (93 for right bracket ‘]’
01010110 = + (43 for + sign)
10111000 = \ (92 for backslash)
01011000  = , (44 for comma, ‘,’)
11101100  = v (118)
10001010 = E (69)
01000010 = ! (33 for exclamation)
01110100 = : (58  for colon ‘:’)
1000000  =  @ (64 for ‘@’ sign)

So in closing, the answer to the sub-question about showing the non-printable as hex, in byte array further above appears the letters x1c which denote the file separator command which was also noted in the hint. The byte array could be considered a string if excluding the prefix b on the left side, and again this value shows in the print string albeit it is invisible (although its presence can be observed as demonstrated above with the hint and len command).

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