This is my string:


I was using code to retrieve the output from a SSH command and I want my string to only contain 'examplefile.zip'

What I can use to remove the extra escape sequences?


Delete them with a regular expression:

import re

# 7-bit C1 ANSI sequences
ansi_escape = re.compile(r'''
    \x1B  # ESC
    (?:   # 7-bit C1 Fe (except CSI)
    |     # or [ for CSI, followed by a control sequence
        [0-?]*  # Parameter bytes
        [ -/]*  # Intermediate bytes
        [@-~]   # Final byte
''', re.VERBOSE)
result = ansi_escape.sub('', sometext)

or, without the VERBOSE flag, in condensed form:

ansi_escape = re.compile(r'\x1B(?:[@-Z\\-_]|\[[0-?]*[ -/]*[@-~])')
result = ansi_escape.sub('', sometext)


>>> import re
>>> ansi_escape = re.compile(r'\x1B(?:[@-Z\\-_]|\[[0-?]*[ -/]*[@-~])')
>>> sometext = 'ls\r\n\x1b[00m\x1b[01;31mexamplefile.zip\x1b[00m\r\n\x1b[01;31m'
>>> ansi_escape.sub('', sometext)

The above regular expression covers all 7-bit ANSI C1 escape sequences, but not the 8-bit C1 escape sequence openers. The latter are never used in today's UTF-8 world where the same range of bytes have a different meaning.

If you do need to cover the 8-bit codes too (and are then, presumably, working with bytes values) then the regular expression becomes a bytes pattern like this:

# 7-bit and 8-bit C1 ANSI sequences
ansi_escape_8bit = re.compile(br'''
    (?: # either 7-bit C1, two bytes, ESC Fe (omitting CSI)
    |   # or a single 8-bit byte Fe (omitting CSI)
    |   # or CSI + control codes
        (?: # 7-bit CSI, ESC [ 
        |   # 8-bit CSI, 9B
        [0-?]*  # Parameter bytes
        [ -/]*  # Intermediate bytes
        [@-~]   # Final byte
''', re.VERBOSE)
result = ansi_escape_8bit.sub(b'', somebytesvalue)

which can be condensed down to

# 7-bit and 8-bit C1 ANSI sequences
ansi_escape_8bit = re.compile(
    br'(?:\x1B[@-Z\\-_]|[\x80-\x9A\x9C-\x9F]|(?:\x1B\[|\x9B)[0-?]*[ -/]*[@-~])'
result = ansi_escape_8bit.sub(b'', somebytesvalue)

For more information, see:

The example you gave contains 4 CSI (Control Sequence Introducer) codes, as marked by the \x1B[ or ESC [ opening bytes, and each contains a SGR (Select Graphic Rendition) code, because they each end in m. The parameters (separated by ; semicolons) in between those tell your terminal what graphic rendition attributes to use. So for each \x1B[....m sequence, the 3 codes that are used are:

  • 0 (or 00 in this example): reset, disable all attributes
  • 1 (or 01 in the example): bold
  • 31: red (foreground)

However, there is more to ANSI than just CSI SGR codes. With CSI alone you can also control the cursor, clear lines or the whole display, or scroll (provided the terminal supports this of course). And beyond CSI, there are codes to select alternative fonts (SS2 and SS3), to send 'private messages' (think passwords), to communicate with the terminal (DCS), the OS (OSC), or the application itself (APC, a way for applications to piggy-back custom control codes on to the communication stream), and further codes to help define strings (SOS, Start of String, ST String Terminator) or to reset everything back to a base state (RIS). The above regexes cover all of these.

Note that the above regex only removes the ANSI C1 codes, however, and not any additional data that those codes may be marking up (such as the strings sent between an OSC opener and the terminating ST code). Removing those would require additional work outside the scope of this answer.


The accepted answer to this question only considers color and font effects. There are a lot of sequences that do not end in 'm', such as cursor positioning, erasing, and scroll regions.

The complete regexp for Control Sequences (aka ANSI Escape Sequences) is

/(\x9B|\x1B\[)[0-?]*[ -\/]*[@-~]/

Refer to ECMA-48 Section 5.4 and ANSI escape code

  • 1
    It misses OSC (both beginning and end). – Thomas Dickey Jul 29 '16 at 21:59
  • 1
    OSC is in ECMA-48 sec. 5.6 - what is the point of bring that up here? – Jeff Aug 4 '16 at 1:36
  • 4
    OSC is an "ANSI escape sequence", is frequently used, and would begin with a different pattern. Your answer is incomplete. – Thomas Dickey Aug 4 '16 at 7:57
  • This doesn't work for color codes produced by bluetoothctl, example: \x1b[0;94m. Making the expression case insensitive or replacing 1B with 1b in the pattern made no difference. I'm using Python and the line re.compile(r'/(\x9b|\x1b\[)[0-?]*[ -\/]*[@-~]/', re.I). Then I'm doing pattern.sub("", my_string) which doesn't accomplish anything. Am I doing something wrong? – Hubro Dec 30 '16 at 8:11
  • 2
    I see three issues with this answer: 1) /.../ is not Python syntax, but rather syntax you'd use in VI or Perl or awk. 2) the \x9B opener (for CSI codes) is incompatible with UTF-8 and so now rarely used, and ESC [ is preferred and 3) your pattern only covers CSI codes, not the whole range of ANSI escapes (which not only includes OSC, which Thomas Dickly mentions, but SS2, SS3, DCS, ST, OSC, SOS, PM, APC and RIS as well)! – Martijn Pieters Jul 24 '19 at 16:58


Based on Martijn Pieters♦'s answer with Jeff's regexp.

def escape_ansi(line):
    ansi_escape = re.compile(r'(?:\x1B[@-_]|[\x80-\x9F])[0-?]*[ -/]*[@-~]')
    return ansi_escape.sub('', line)


def test_remove_ansi_escape_sequence(self):
    line = '\t\u001b[0;35mBlabla\u001b[0m                                  \u001b[0;36m172.18.0.2\u001b[0m'

    escaped_line = escape_ansi(line)

    self.assertEqual(escaped_line, '\tBlabla                        ')


If you want to run it by yourself, use python3 (better unicode support, blablabla). Here is how the test file should be:

import unittest
import re

def escape_ansi(line):

class TestStringMethods(unittest.TestCase):
    def test_remove_ansi_escape_sequence(self):

if __name__ == '__main__':
  • Why have you left the / escaped in the second to last character set [ -\/]? – Andrew Gelnar Aug 10 '16 at 12:04
  • 1
    @AndrewGelnar @ÉdouardLopez [ -/] will suffice. – Rodrigo Martins de Oliveira Oct 1 '17 at 19:09
  • 1
    My regex has long since been expanded to cover all of ANSI C1 codes (7 bits) and I added a separate 8-bit variant as well today. – Martijn Pieters Jul 24 '19 at 16:59

The suggested regex didn't do the trick for me so I created one of my own. The following is a python regex that I created based on the spec found here

ansi_regex = r'\x1b(' \
             r'(\[\??\d+[hl])|' \
             r'([=<>a-kzNM78])|' \
             r'([\(\)][a-b0-2])|' \
             r'(\[\d{0,2}[ma-dgkjqi])|' \
             r'(\[\d+;\d+[hfy]?)|' \
             r'(\[;?[hf])|' \
             r'(#[3-68])|' \
             r'([01356]n)|' \
             r'(O[mlnp-z]?)|' \
             r'(/Z)|' \
             r'(\d+)|' \
             r'(\[\?\d;\d0c)|' \
ansi_escape = re.compile(ansi_regex, flags=re.IGNORECASE)

I tested my regex on the following snippet (basically a copy paste from the ascii-table.com page)

\x1b[20h    Set
\x1b[?1h    Set
\x1b[?3h    Set
\x1b[?4h    Set
\x1b[?5h    Set
\x1b[?6h    Set
\x1b[?7h    Set
\x1b[?8h    Set
\x1b[?9h    Set
\x1b[20l    Set
\x1b[?1l    Set
\x1b[?2l    Set
\x1b[?3l    Set
\x1b[?4l    Set
\x1b[?5l    Set
\x1b[?6l    Set
\x1b[?7l    Reset
\x1b[?8l    Reset
\x1b[?9l    Reset
\x1b=   Set
\x1b>   Set
\x1b(A  Set
\x1b)A  Set
\x1b(B  Set
\x1b)B  Set
\x1b(0  Set
\x1b)0  Set
\x1b(1  Set
\x1b)1  Set
\x1b(2  Set
\x1b)2  Set
\x1bN   Set
\x1bO   Set
\x1b[m  Turn
\x1b[0m Turn
\x1b[1m Turn
\x1b[2m Turn
\x1b[4m Turn
\x1b[5m Turn
\x1b[7m Turn
\x1b[8m Turn
\x1b[1;2    Set
\x1b[1A Move
\x1b[2B Move
\x1b[3C Move
\x1b[4D Move
\x1b[H  Move
\x1b[;H Move
\x1b[4;3H   Move
\x1b[f  Move
\x1b[;f Move
\x1b[1;2    Move
\x1bD   Move/scroll
\x1bM   Move/scroll
\x1bE   Move
\x1b7   Save
\x1b8   Restore
\x1bH   Set
\x1b[g  Clear
\x1b[0g Clear
\x1b[3g Clear
\x1b#3  Double-height
\x1b#4  Double-height
\x1b#5  Single
\x1b#6  Double
\x1b[K  Clear
\x1b[0K Clear
\x1b[1K Clear
\x1b[2K Clear
\x1b[J  Clear
\x1b[0J Clear
\x1b[1J Clear
\x1b[2J Clear
\x1b5n  Device
\x1b0n  Response:
\x1b3n  Response:
\x1b6n  Get
\x1b[c  Identify
\x1b[0c Identify
\x1b[?1;20c Response:
\x1bc   Reset
\x1b#8  Screen
\x1b[2;1y   Confidence
\x1b[2;2y   Confidence
\x1b[2;9y   Repeat
\x1b[2;10y  Repeat
\x1b[0q Turn
\x1b[1q Turn
\x1b[2q Turn
\x1b[3q Turn
\x1b[4q Turn
\x1b<   Enter/exit
\x1b=   Enter
\x1b>   Exit
\x1bF   Use
\x1bG   Use
\x1bA   Move
\x1bB   Move
\x1bC   Move
\x1bD   Move
\x1bH   Move
\x1b12  Move

Hopefully this will help others :)

  • That spec is also not complete, the standard allows for a lot of expansion that VT100 didn't use but other terminals do, and your regex is overly verbose for the purpose. – Martijn Pieters Jul 24 '19 at 17:00
  • Your pattern has several weird discrepancies as well; ESC-O (SS3) 'shifts' the terminal into an alternate font mode, and the next byte is interpreted in that specific mode. The possible values in that mode are not limited to m, n, l, or p through z. I'd not even strip the byte following SS3. SS2 is basically the same functionality (just a different font), but your regex doesn't pull in the next byte. – Martijn Pieters Jul 24 '19 at 19:20
  • Last but not least, your regex fails to actually remove the full ANSI codes in the question example, as it leaves behind the m final byte. – Martijn Pieters Jul 24 '19 at 19:22

If it helps future Stack Overflowers, I was using the crayons library to give my Python output a bit more visual impact, which is advantageous as it works on both Windows and Linux platforms. However I was both displaying onscreen as well as appending to log files, and the escape sequences were impacting legibility of the log files, so wanted to strip them out. However the escape sequences inserted by crayons produced an error:

expected string or bytes-like object

The solution was to cast the parameter to a string, so only a tiny modification to the commonly accepted answer was needed:

def escape_ansi(line):
    ansi_escape = re.compile(r'(\x9B|\x1B\[)[0-?]*[ -/]*[@-~]')
    return ansi_escape.sub('', str(line))
  • That's not really the same problem though. There are loads of different libraries that might produce custom objects that wrap a string, we don't need answers here for every variant that needs conversion to string before a regex works on them. – Martijn Pieters Jul 24 '19 at 19:24
  • Thats exactly what I was searching for. If you do sub-process control you get bytes; out.decode("utf-8") will clash with ansi control codes raising: UnicodeDecodeError: 'utf-8' codec can't decode byte 0xf7 in position 13894: invalid start byte and the regex won't work on the bytes object. – dothebart May 19 at 8:31

For 2020 with python 3.5 it as easy as string.encode().decode('ascii')

ascii_string = 'ls\r\n\x1b[00m\x1b[01;31mexamplefile.zip\x1b[00m\r\n\x1b[01;31m'
decoded_string = ascii_string.encode().decode('ascii')

  • 1
    This code doesn't do anything: repr(decoded_string) yelds "'ls\\r\\n\\x1b[00m\\x1b[01;31mexamplefile.zip\\x1b[00m\\r\\n\\x1b[01;31m'", while using the \x1B(?:[@-Z\\-_]|\[[0-?]*[ -/]*[@-~]) regex yields "'ls\\r\\nexamplefile.zip\\r\\n'" – Leonardo Feb 22 at 3:45
  • There were no requests for a change of string representation In original post. It is enough for printing or passing to some api methond – V.Ignatov Feb 23 at 8:37

if you want to remove the \r\n bit, you can pass the string through this function (written by sarnold):

def stripEscape(string):
    """ Removes all escape sequences from the input string """
    delete = ""
    while (i<0x20):
        delete += chr(i)
        i += 1
    t = string.translate(None, delete)
    return t

Careful though, this will lump together the text in front and behind the escape sequences. So, using Martijn's filtered string 'ls\r\nexamplefile.zip\r\n', you will get lsexamplefile.zip. Note the ls in front of the desired filename.

I would use the stripEscape function first to remove the escape sequences, then pass the output to Martijn's regular expression, which would avoid concatenating the unwanted bit.

  • The question doesn't ask for whitespace to be removed, only ANSI escape codes. Your translation of sarnold's string.translate() option is not exactly idiomatic either (why use while when for over xrange() would do, e.g. ''.join([chr(i) for i in range(0x20)])), and not applicable to Python 3 (where you could just use dict.fromkeys(range(0x20))) as the string.translate() map). – Martijn Pieters Jul 25 '19 at 11:41

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