>>> convert('CamelCase')

locked by Samuel Liew Aug 7 at 1:33

This question's answers are a collaborative effort: if you see something that can be improved, just edit the answer to improve it! No additional answers can be added here

  • 28
    To convert in the other direction, see this other stackoverflow question. – Nathan Sep 30 '11 at 21:30
  • 10
    n.b. that's NotCamelCase but thisIs – Matt Richards Jun 23 '14 at 15:59
  • 5
    @MattRichards It is a matter of dispute. wiki – NO_NAME Aug 5 '15 at 10:38
  • @MattRichards For example in Java they use both, CamelCase is used for naming Class definitions, while camelCase is used for naming initialized variables. – darkless Feb 4 '17 at 0:57

30 Answers 30

up vote 602 down vote accepted

This is pretty thorough:

def convert(name):
    s1 = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', name)
    return re.sub('([a-z0-9])([A-Z])', r'\1_\2', s1).lower()

Works with all these (and doesn't harm already-un-cameled versions):

>>> convert('CamelCase')
>>> convert('CamelCamelCase')
>>> convert('Camel2Camel2Case')
>>> convert('getHTTPResponseCode')
>>> convert('get2HTTPResponseCode')
>>> convert('HTTPResponseCode')
>>> convert('HTTPResponseCodeXYZ')

Or if you're going to call it a zillion times, you can pre-compile the regexes:

first_cap_re = re.compile('(.)([A-Z][a-z]+)')
all_cap_re = re.compile('([a-z0-9])([A-Z])')
def convert(name):
    s1 = first_cap_re.sub(r'\1_\2', name)
    return all_cap_re.sub(r'\1_\2', s1).lower()

Don't forget to import the regular expression module

import re
  • 13
    Wow, you just saved me a ton of time and work, thanks! – sidewinderguy May 9 '11 at 18:34
  • 3
    how about the reverse? Convert a not_camel_case to notCamelCase and/or NotCamelCase? – john2x Aug 14 '11 at 22:59
  • 7
    github gist of this with additional tests: gist.github.com/3660565 – Jay Taylor Sep 6 '12 at 21:39
  • 5
    To avoid double underscores when converting e.g. camel_Case, add this line: s2.replace('__', '_') – Marcus Ahlberg Aug 13 '13 at 11:15
  • 3
    @AnmolSinghJaggi The first regex handles the edge case of an acronym followed by another word (e.g. "HTTPResponse" -> "HTTP_Response") OR the more normal case of an initial lowercase word followed by a capitalized word (e.g. "getResponse" -> "get_Response". The second regex handles the normal case of two non-acronyms (e.g. "ResponseCode" -> "Response_Code") followed by a final call to lowercase everything. Thus "getHTTPResponseCode" -> "getHTTP_ResponseCode" -> "get_HTTP_Response_Code" -> "get_http_response_code" – Jeff Moser Apr 19 '16 at 15:12

There's an inflection library in the package index that can handle these things for you. In this case, you'd be looking for inflection.underscore():

>>> inflection.underscore('CamelCase')
  • 27
    I dont understand why people are up voting the use of custom functions when there is a great library that performs this task. We should not be reinventing the wheel. – oden Jul 5 '15 at 3:26
  • 48
    @oden Maybe because adding an entire new dependency to do the job of a single-line function is fragile over-kill? – Cecil Curry Dec 21 '15 at 6:23
  • 4
    For one instance, sure it's overkill. Across a larger application, no need to reinvent and obfuscate the wheel. – Brad Koch Dec 21 '15 at 22:47
  • 8
    Regexes back a lot into a "single line", which is why it's lot more than one line with proper testing. – studgeek May 10 '17 at 16:38
  • 2
    @CecilCurry: I'm sure you're a great programmer, but I'm not sure there aren't cases that you haven't considered—just look at other answers here for examples. That's why I'll always choose a library, because it's the sum experience of many more devs than just me. – Michael Scheper Sep 27 at 14:55

I don't know why these are all so complicating.

for most cases the simple expression ([A-Z]+) will do the trick

>>> re.sub('([A-Z]+)', r'_\1','CamelCase').lower()
>>> re.sub('([A-Z]+)', r'_\1','camelCase').lower()
>>> re.sub('([A-Z]+)', r'_\1','camel2Case2').lower()
>>> re.sub('([A-Z]+)', r'_\1','camelCamelCase').lower()
>>> re.sub('([A-Z]+)', r'_\1','getHTTPResponseCode').lower()

To ignore the first charachter simply add look behind (?!^)

>>> re.sub('(?!^)([A-Z]+)', r'_\1','CamelCase').lower()
>>> re.sub('(?!^)([A-Z]+)', r'_\1','CamelCamelCase').lower()
>>> re.sub('(?!^)([A-Z]+)', r'_\1','Camel2Camel2Case').lower()
>>> re.sub('(?!^)([A-Z]+)', r'_\1','getHTTPResponseCode').lower()

If you want to separate ALLCaps to all_caps and expect numbers in your string you still don't need to do two separate runs just use | This expression ((?<=[a-z0-9])[A-Z]|(?!^)[A-Z](?=[a-z])) can handle just about every scenario in the book

>>> a = re.compile('((?<=[a-z0-9])[A-Z]|(?!^)[A-Z](?=[a-z]))')
>>> a.sub(r'_\1', 'getHTTPResponseCode').lower()
>>> a.sub(r'_\1', 'get2HTTPResponseCode').lower()
>>> a.sub(r'_\1', 'get2HTTPResponse123Code').lower()
>>> a.sub(r'_\1', 'HTTPResponseCode').lower()
>>> a.sub(r'_\1', 'HTTPResponseCodeXYZ').lower()

It all depends on what you want so use the solution that best fits your needs as it should not be overly complicated.


  • 1
    The last iteration is the most clever, IMO. It took me a little bit to understand that it's only replacing the single character at the beginning of each word -- and that was only because the approach was different than one I'd come up with myself. Nicely done. – Justin Miller Jun 30 '14 at 12:23
  • 1
    I was puzzled by the (?!^) expression being called a look-behind. Unless I'm missing something, what we really want here is a negative look-behind which should be expressed as (?<!^). For reasons I cannot understand your negative look-ahead (?!^) seems to work, too... – Apteryx Jul 8 '16 at 19:28
  • 2
    This doesn't handle preexisting underscores well: "Camel2WARNING_Case_CASE" becomes "camel2_warning_case__case". You can add a (?<!_) negative lookbehind, to solve it: re.sub('((?<=[a-z0-9])[A-Z]|(?!^)(?<!_)[A-Z](?=[a-z]))', r'_\1', "Camel2WARNING_Case_CASE").lower() returns 'camel2_warning_case_case' – luckydonald Jun 20 '17 at 12:55

Personally I am not sure how anything using regular expressions in python can be described as elegant. Most answers here are just doing "code golf" type RE tricks. Elegant coding is supposed to be easily understood.

def to_snake_case(not_snake_case):
    final = ''
    for i in xrange(len(not_snake_case)):
        item = not_snake_case[i]
        if i < len(not_snake_case) - 1:
            next_char_will_be_underscored = (
                not_snake_case[i+1] == "_" or
                not_snake_case[i+1] == " " or
        if (item == " " or item == "_") and next_char_will_be_underscored:
        elif (item == " " or item == "_"):
            final += "_"
        elif item.isupper():
            final += "_"+item.lower()
            final += item
    if final[0] == "_":
        final = final[1:]
    return final

>>> to_snake_case("RegularExpressionsAreFunky")

>>> to_snake_case("RegularExpressionsAre Funky")

>>> to_snake_case("RegularExpressionsAre_Funky")
  • += on strings is almost always a bad idea. Append to a list and ''.join() it in the end. Or in this case, simply join it with an underscore... – ThiefMaster Sep 25 '15 at 11:53
  • 11
    How is a single-line regular expression not innately superior in just about every practical way (including readability) to inefficient multi-line character iteration and brute-force string munging? Python provides regular expression support out-of-the-box for a reason. – Cecil Curry Dec 21 '15 at 6:26
  • 1
    @CecilCurry - Regular expressions are VERY complex. See the compiler and parser that Python uses: svn.python.org/projects/python/trunk/Lib/sre_compile.py & svn.python.org/projects/python/trunk/Lib/sre_parse.py -- Simple string manipulation like this likely much faster than an RE doing the same. – Evan Borgstrom Feb 27 '17 at 19:26
  • 1
    +1. Regexes can be a real CPU sink, and on intensive calculations will dramatically lower your performances. For simple tasks, always prefer simple functions. – Fabien Jul 4 '17 at 22:03
  • 1
    "For simple tasks, always prefer simple functions" is definitely good advice, but this answer is neither a simple function nor an elegant one. Regex might be slower, but defaulting to a complicated function like this (that is ALSO untested and has numerous potential points of error) is completely premature optimization – kevlarr Sep 4 at 14:31
''.join('_'+c.lower() if c.isupper() else c for c in "DeathToCamelCase").strip('_')
re.sub("(.)([A-Z])", r'\1_\2', 'DeathToCamelCase').lower()

stringcase is my go-to library for this; e.g.:

>>> from stringcase import pascalcase, snakecase
>>> snakecase('FooBarBaz')
>>> pascalcase('foo_bar_baz')

I don't get idea why using both .sub() calls? :) I'm not regex guru, but I simplified function to this one, which is suitable for my certain needs, I just needed a solution to convert camelCasedVars from POST request to vars_with_underscore:

def myFunc(...):
  return re.sub('(.)([A-Z]{1})', r'\1_\2', "iTriedToWriteNicely").lower()

It does not work with such names like getHTTPResponse, cause I heard it is bad naming convention (should be like getHttpResponse, it's obviously, that it's much easier memorize this form).

  • I forgot to mention, that '{1}' is not needed, but sometimes it help clarify some mist. – desper4do Nov 13 '12 at 16:22
  • 1
    -1: this just doesn't work. Try with for example with 'HTTPConnectionFactory', your code produces 'h_tt_pconnection_factory', code from accepted answer produces 'http_connection_factory' – vartec May 23 '13 at 9:57

Here's my solution:

def un_camel(text):
    """ Converts a CamelCase name into an under_score name. 

        >>> un_camel('CamelCase')
        >>> un_camel('getHTTPResponseCode')
    result = []
    pos = 0
    while pos < len(text):
        if text[pos].isupper():
            if pos-1 > 0 and text[pos-1].islower() or pos-1 > 0 and \
            pos+1 < len(text) and text[pos+1].islower():
                result.append("_%s" % text[pos].lower())
        pos += 1
    return "".join(result)

It supports those corner cases discussed in the comments. For instance, it'll convert getHTTPResponseCode to get_http_response_code like it should.

  • 6
    -1 because this is very complicated compared to using regexps. – Eric Lebigot Jul 24 '09 at 9:43
  • 7
    EOL, I'm sure plenty of non-regexp people would think otherwise. – Evan Fosmark Jul 24 '09 at 15:01
  • This solution fails in these cases: _Method, _test_Method, __test__Method, getHTTPrespnseCode, __get_HTTPresponseCode, _Camel_Case, _Test, and _test_Method. – freegnu May 16 '11 at 14:16
  • 3
    @Evan, those people would be bad programmers. – Jesse Dhillon Jul 23 '11 at 9:14

I think this solution is more straightforward than previous answers:

import re

def convert (camel_input):
    words = re.findall(r'[A-Z]?[a-z]+|[A-Z]{2,}(?=[A-Z][a-z]|\d|\W|$)|\d+', camel_input)
    return '_'.join(map(str.lower, words))

# Let's test it
test_strings = [
for test_string in test_strings:

Which outputs:


The regular expression matches three patterns:

  1. [A-Z]?[a-z]+: Consecutive lower-case letters that optionally start with an upper-case letter.
  2. [A-Z]{2,}(?=[A-Z][a-z]|\d|\W|$): Two or more consecutive upper-case letters. It uses a lookahead to exclude the last upper-case letter if it is followed by a lower-case letter.
  3. \d+: Consecutive numbers.

By using re.findall we get a list of individual "words" that can be converted to lower-case and joined with underscores.

  • 1
    There is a good example here to get the Numerics tokenized independantly. – math_law Apr 30 at 15:34

For the fun of it:

>>> def un_camel(input):
...     output = [input[0].lower()]
...     for c in input[1:]:
...             if c in ('ABCDEFGHIJKLMNOPQRSTUVWXYZ'):
...                     output.append('_')
...                     output.append(c.lower())
...             else:
...                     output.append(c)
...     return str.join('', output)
>>> un_camel("camel_case")
>>> un_camel("CamelCase")

Or, more for the fun of it:

>>> un_camel = lambda i: i[0].lower() + str.join('', ("_" + c.lower() if c in "ABCDEFGHIJKLMNOPQRSTUVWXYZ" else c for c in i[1:]))
>>> un_camel("camel_case")
>>> un_camel("CamelCase")
  • 2
    +1, but what about un_camel("getHTTPResponseCode") ? :) – Stefano Borini Jul 24 '09 at 1:28
  • 3
    c.isupper() rather than c in ABCEF...Z – Jimmy Jul 24 '09 at 1:30
  • 1
    Python doesn't have regexes? A quick 's/[a-z]\K([A-Z][a-z])/_\L$1/g; lc $_' in Perl does the job (although it does not handle getHTTPResponseCode well; but that's expected, that should be named getHttpResponseCode) – jrockway Jul 24 '09 at 1:34
  • 5
    str.join has been deprecated for ages. Use ''.join(..) instead. – John Fouhy Jul 24 '09 at 1:49
  • jrockway: It does have regular expressions, via the "re" module. It shouldn't be too difficult to make this work using regex rather than the approaches posted here. – Matthew Iselin Jul 24 '09 at 1:52

Not in the standard library, but I found this script that appears to contain the functionality you need.

This is not a elegant method, is a very 'low level' implementation of a simple state machine (bitfield state machine), possibly the most anti pythonic mode to resolve this, however re module also implements a too complex state machine to resolve this simple task, so i think this is a good solution.

def splitSymbol(s):
    si, ci, state = 0, 0, 0 # start_index, current_index 
        state bits:
        0: no yields
        1: lower yields
        2: lower yields - 1
        4: upper yields
        8: digit yields
        16: other yields
        32 : upper sequence mark
    for c in s:

        if c.islower():
            if state & 1:
                yield s[si:ci]
                si = ci
            elif state & 2:
                yield s[si:ci - 1]
                si = ci - 1
            state = 4 | 8 | 16
            ci += 1

        elif c.isupper():
            if state & 4:
                yield s[si:ci]
                si = ci
            if state & 32:
                state = 2 | 8 | 16 | 32
                state = 8 | 16 | 32

            ci += 1

        elif c.isdigit():
            if state & 8:
                yield s[si:ci]
                si = ci
            state = 1 | 4 | 16
            ci += 1

            if state & 16:
                yield s[si:ci]
            state = 0
            ci += 1  # eat ci
            si = ci   
        print(' : ', c, bin(state))
    if state:
        yield s[si:ci] 

def camelcaseToUnderscore(s):
    return '_'.join(splitSymbol(s)) 

splitsymbol can parses all case types: UpperSEQUENCEInterleaved, under_score, BIG_SYMBOLS and cammelCasedMethods

I hope it is useful

  • 1
    Hideous, but it runs about 3x faster than the regex method on my machine. :) – jdiaz5513 Mar 16 '14 at 6:55

Wow I just stole this from django snippets. ref http://djangosnippets.org/snippets/585/

Pretty elegant

camelcase_to_underscore = lambda str: re.sub('(((?<=[a-z])[A-Z])|([A-Z](?![A-Z]|$)))', '_\\1', str).lower().strip('_')




  • 1
    Bad form using str as a local variable name. – freegnu May 16 '11 at 12:06
  • This fails miserably if there are any underscores at the beginning or end of a string and if there are any underscores before a capital letter. – freegnu May 16 '11 at 14:24

Using regexes may be the shortest, but this solution is way more readable:

def to_snake_case(s):
    snake = "".join(["_"+c.lower() if c.isupper() else c for c in s])
    return snake[1:] if snake.startswith("_") else snake
  • 1
    This does not work for assertHTMLNotEqual. – blueyed Apr 18 '15 at 17:07
  • @blueyed that's completely unrelated, this question has nothing to do with django. – 3k- Apr 20 '15 at 9:51
  • It's just an example, like HTTPResponseCode, which is handled by stackoverflow.com/a/23561109/15690. – blueyed Apr 22 '15 at 19:43

Lightely adapted from https://stackoverflow.com/users/267781/matth who use generators.

def uncamelize(s):
    buff, l = '', []
    for ltr in s:
        if ltr.isupper():
            if buff:
                buff = ''
        buff += ltr
    return '_'.join(l).lower()

Take a look at the excellent Schematics lib


It allows you to created typed data structures that can serialize/deserialize from python to Javascript flavour, eg:

class MapPrice(Model):
    price_before_vat = DecimalType(serialized_name='priceBeforeVat')
    vat_rate = DecimalType(serialized_name='vatRate')
    vat = DecimalType()
    total_price = DecimalType(serialized_name='totalPrice')

I prefer to avoid re if possible:

myString="ThisStringIsCamelCase" ''.join(['_'+i.lower() if i.isupper() else i for i in myString]).lstrip('_') 'this_string_is_camel_case'

So many complicated methods... Just find all "Titled" group and join its lower cased variant with underscore.

>>> import re
>>> def camel_to_snake(string):
...     groups = re.findall('([A-z0-9][a-z]*)', string)
...     return '_'.join([i.lower() for i in groups])
>>> camel_to_snake('ABCPingPongByTheWay2KWhereIsOurBorderlands3???')

If you don't want make numbers like first character of group or separate group - you can use ([A-z][a-z0-9]*) mask.

A horrendous example using regular expressions (you could easily clean this up :) ):

def f(s):
    return s.group(1).lower() + "_" + s.group(2).lower()

p = re.compile("([A-Z]+[a-z]+)([A-Z]?)")
print p.sub(f, "CamelCase")
print p.sub(f, "getHTTPResponseCode")

Works for getHTTPResponseCode though!

Alternatively, using lambda:

p = re.compile("([A-Z]+[a-z]+)([A-Z]?)")
print p.sub(lambda x: x.group(1).lower() + "_" + x.group(2).lower(), "CamelCase")
print p.sub(lambda x: x.group(1).lower() + "_" + x.group(2).lower(), "getHTTPResponseCode")

EDIT: It should also be pretty easy to see that there's room for improvement for cases like "Test", because the underscore is unconditionally inserted.

Here's something I did to change the headers on a tab-delimited file. I'm omitting the part where I only edited the first line of the file. You could adapt it to Python pretty easily with the re library. This also includes separating out numbers (but keeps the digits together). I did it in two steps because that was easier than telling it not to put an underscore at the start of a line or tab.

Step One...find uppercase letters or integers preceded by lowercase letters, and precede them with an underscore:





Step Two...take the above and run it again to convert all caps to lowercase:



Replacement (that's backslash, lowercase L, backslash, one):


I was looking for a solution to the same problem, except that I needed a chain; e.g.

"CamelCamelCamelCase" -> "Camel-camel-camel-case"

Starting from the nice two-word solutions here, I came up with the following:

"-".join(x.group(1).lower() if x.group(2) is None else x.group(1) \
         for x in re.finditer("((^.[^A-Z]+)|([A-Z][^A-Z]+))", "stringToSplit"))

Most of the complicated logic is to avoid lowercasing the first word. Here's a simpler version if you don't mind altering the first word:

"-".join(x.group(1).lower() for x in re.finditer("(^[^A-Z]+|[A-Z][^A-Z]+)", "stringToSplit"))

Of course, you can pre-compile the regular expressions or join with underscore instead of hyphen, as discussed in the other solutions.

Concise without regular expressions, but HTTPResponseCode=> httpresponse_code:

def from_camel(name):
    ThisIsCamelCase ==> this_is_camel_case
    name = name.replace("_", "")
    _cas = lambda _x : [_i.isupper() for _i in _x]
    seq = zip(_cas(name[1:-1]), _cas(name[2:]))
    ss = [_x + 1 for _x, (_i, _j) in enumerate(seq) if (_i, _j) == (False, True)]
    return "".join([ch + "_" if _x in ss else ch for _x, ch in numerate(name.lower())])

Without any library :

def camelify(out):
    return (''.join(["_"+x.lower() if i<len(out)-1 and x.isupper() and out[i+1].islower()
         else x.lower()+"_" if i<len(out)-1 and x.islower() and out[i+1].isupper()
         else x.lower() for i,x in enumerate(list(out))])).lstrip('_').replace('__','_')

A bit heavy, but

CamelCamelCamelCase ->  camel_camel_camel_case
HTTPRequest         ->  http_request
GetHTTPRequest      ->  get_http_request
getHTTPRequest      ->  get_http_request

Very nice RegEx proposed on this site:


If python have a String Split method, it should work...

In Java:

String s = "loremIpsum";
words = s.split("(?&#60;!^)(?=[A-Z])");
  • Unfortunately, the Python regular expression module doesn't (as of version 3.6) support splitting on zero-length matches. – rspeed Oct 5 '17 at 2:25

This simple method should do the job:

import re

def convert(name):
    return re.sub(r'([A-Z]*)([A-Z][a-z]+)', lambda x: (x.group(1) + '_' if x.group(1) else '') + x.group(2) + '_', name).rstrip('_').lower()
  • We look for capital letters that are precedeed by any number of (or zero) capital letters, and followed by any number of lowercase characters.
  • An underscore is placed just before the occurence of the last capital letter found in the group, and one can be placed before that capital letter in case it is preceded by other capital letters.
  • If there are trailing underscores, remove those.
  • Finally, the whole result string is changed to lower case.

(taken from here, see working example online)

  • This is an answer for the opposite question (how to convert to camel case). – Justin Apr 12 '16 at 18:00
  • Thanks for noticing! I corrected my answer consequently. – Mathieu Rodic Apr 19 '16 at 20:10
def convert(name):
    return reduce(
        lambda x, y: x + ('_' if y.isupper() else '') + y, 

And if we need to cover a case with already-un-cameled input:

def convert(name):
    return reduce(
        lambda x, y: x + ('_' if y.isupper() and not x.endswith('_') else '') + y, 

Just in case someone needs to transform a complete source file, here is a script that will do it.

# Copy and paste your camel case code in the string below
camelCaseCode ="""
    cv2.Matx33d ComputeZoomMatrix(const cv2.Point2d & zoomCenter, double zoomRatio)
      auto mat = cv2.Matx33d::eye();
      mat(0, 0) = zoomRatio;
      mat(1, 1) = zoomRatio;
      mat(0, 2) = zoomCenter.x * (1. - zoomRatio);
      mat(1, 2) = zoomCenter.y * (1. - zoomRatio);
      return mat;

import re
def snake_case(name):
    s1 = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', name)
    return re.sub('([a-z0-9])([A-Z])', r'\1_\2', s1).lower()

def lines(str):
    return str.split("\n")

def unlines(lst):
    return "\n".join(lst)

def words(str):
    return str.split(" ")

def unwords(lst):
    return " ".join(lst)

def map_partial(function):
    return lambda values : [  function(v) for v in values]

import functools
def compose(*functions):
    return functools.reduce(lambda f, g: lambda x: f(g(x)), functions, lambda x: x)

snake_case_code = compose(
    unlines ,

I have had pretty good luck with this one:

import re
def camelcase_to_underscore(s):
    return re.sub(r'(^|[a-z])([A-Z])',
                  lambda m: '_'.join([i.lower() for i in m.groups() if i]),

This could obviously be optimized for speed a tiny bit if you want to.

import re

CC2US_RE = re.compile(r'(^|[a-z])([A-Z])')

def _replace(match):
    return '_'.join([i.lower() for i in match.groups() if i])

def camelcase_to_underscores(s):
    return CC2US_RE.sub(_replace, s)
def convert(camel_str):
    temp_list = []
    for letter in camel_str:
        if letter.islower():
    result = "".join(temp_list)
    return result.lower()

Use: str.capitalize() to convert first letter of the string (contained in variable str) to a capital letter and returns the entire string.

Example: Command: "hello".capitalize() Output: Hello

  • This isn't related to the question - the OP wants CamelCase -> snake_case, not Capitalization. – Brad Koch Jul 8 '16 at 17:32

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