# How to do CamelCase split in python

What I was trying to achieve, was something like this:

>>> camel_case_split("CamelCaseXYZ")
['Camel', 'Case', 'XYZ']
>>> camel_case_split("XYZCamelCase")
['XYZ', 'Camel', 'Case']

So I searched and found this perfect regular expression:

(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])

As the next logical step I tried:

>>> re.split("(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])", "CamelCaseXYZ")
['CamelCaseXYZ']

Why does this not work, and how do I achieve the result from the linked question in python?

Edit: Solution summary

I tested all provided solutions with a few test cases:

string:                 ''
AplusKminus:            ['']
casimir_et_hippolyte:   []
two_hundred_success:    []
kalefranz:              string index out of range # with modification: either [] or ['']

string:                 ' '
AplusKminus:            [' ']
casimir_et_hippolyte:   []
two_hundred_success:    [' ']
kalefranz:              [' ']

string:                 'lower'
all algorithms:         ['lower']

string:                 'UPPER'
all algorithms:         ['UPPER']

string:                 'Initial'
all algorithms:         ['Initial']

string:                 'dromedaryCase'
AplusKminus:            ['dromedary', 'Case']
casimir_et_hippolyte:   ['dromedary', 'Case']
two_hundred_success:    ['dromedary', 'Case']
kalefranz:              ['Dromedary', 'Case'] # with modification: ['dromedary', 'Case']

string:                 'CamelCase'
all algorithms:         ['Camel', 'Case']

string:                 'ABCWordDEF'
AplusKminus:            ['ABC', 'Word', 'DEF']
casimir_et_hippolyte:   ['ABC', 'Word', 'DEF']
two_hundred_success:    ['ABC', 'Word', 'DEF']
kalefranz:              ['ABCWord', 'DEF']

In summary you could say the solution by @kalefranz does not match the question (see the last case) and the solution by @casimir et hippolyte eats a single space, and thereby violates the idea that a split should not change the individual parts. The only difference among the remaining two alternatives is that my solution returns a list with the empty string on an empty string input and the solution by @200_success returns an empty list. I don't know how the python community stands on that issue, so I say: I am fine with either one. And since 200_success's solution is simpler, I accepted it as the correct answer.

• Other Qs to do what you're trying to do: first, second and I'm pretty sure there are others. – Jerry Apr 28 '15 at 9:57
• How is it ABC CamelCase?! – mihai Apr 28 '15 at 10:48
• @Mihai I do not understand your question. If you wonder how the regex performs on "ABCCamelCase", it works as expected: ['ABC', 'Camel', 'Case']. If you interpreted ABC to stand for AbstractBaseClass, then I am sorry for the confusion, as ABC is just three arbitrary uppercase letters in my question. – AplusKminus Apr 28 '15 at 10:54
• – Matthias Apr 28 '15 at 10:56
• Also a good answer, but I did not find the question as the wording was too specific for my search. Also your answer does not quite do what is asked for here, as it produces a converted string with an arbitrary separation character which you would need to split with str.split(' '), instead of a (more versatile) list of its parts. – AplusKminus Apr 28 '15 at 11:06

As @AplusKminus has explained, re.split() never splits on an empty pattern match. Therefore, instead of splitting, you should try finding the components you are interested in.

Here is a solution using re.finditer() that emulates splitting:

def camel_case_split(identifier):
matches = finditer('.+?(?:(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])|\$)', identifier)
return [m.group(0) for m in matches]
• I found one difference (according to my test cases) between your solution and mine: camel_case_split("") returns []in your case and [""] in mine. The question is, which of those you would rather consider to be expected. Since either one works in my application, I consider this to be a valid answer! – AplusKminus Apr 28 '15 at 13:05
• Another question that remains, is whether this, or my proposed solution performs better. I am no expert on the complexity of regular expressions, so this would have to be evaluated by someone else. – AplusKminus Apr 28 '15 at 13:14
• Our regexes are basically the same, except that mine starts with a .+? that captures the text instead of discarding it, and ends with a \$ to make it go all the way to the end. Neither change changes the search strategy. – 200_success Apr 28 '15 at 13:22
• Doesn't support digits. For example, "L2S" is not split into ["L2", "S"] . Use [a-z0-9] rather than [a-z] in the above regular expression to fix this. – Neapolitan Oct 6 '16 at 14:48
• @Neapolitan The question seemed not to want a split there. – 200_success Oct 6 '16 at 14:53

Use re.sub() and split()

import re

name = 'CamelCaseTest123'
splitted = re.sub('([A-Z][a-z]+)', r' \1', re.sub('([A-Z]+)', r' \1', name)).split()

Result

'CamelCaseTest123' -> ['Camel', 'Case', 'Test123']
'CamelCaseXYZ' -> ['Camel', 'Case', 'XYZ']
'XYZCamelCase' -> ['XYZ', 'Camel', 'Case']
'XYZ' -> ['XYZ']
• Best answer so far IMHO, elegant and effective, should be the selected answer. – Pierrick Bruneau Apr 26 at 9:12

Most of the time when you don't need to check the format of a string, a global research is more simple than a split (for the same result):

re.findall(r'[A-Z](?:[a-z]+|[A-Z]*(?=[A-Z]|\$))', 'CamelCaseXYZ')

returns

['Camel', 'Case', 'XYZ']

To deal with dromedary too, you can use:

re.findall(r'[A-Z]?[a-z]+|[A-Z]+(?=[A-Z]|\$)', 'camelCaseXYZ')

Note: (?=[A-Z]|\$) can be shorten using a double negation (a negative lookahead with a negated character class): (?![^A-Z])

• Does not correctly split "camelCase" as it returns ['Case'] only. – AplusKminus Apr 28 '15 at 14:18
• @SheridanVespo: This is a way only for camel, not for dromedary (as asked). But it's possible to do it in the same way with few changes. – Casimir et Hippolyte Apr 28 '15 at 14:20
• I was not aware that there is something with the name of dromedary case. Since the wikipedia page for camel case does not mention it, I must assume it is not a commonly known term. Nevertheless, your code seems to work just as requested. Since your regex includes one lookaround and "mine" contains 4, I assume yours is more efficient. Is that correct? – AplusKminus Apr 28 '15 at 14:54
• @SheridanVespo: Yes "dromedary-case" doesn't exist, but since the dromedary has only one hump, and the camel two... About efficiency: it is not the pattern itself but all the code after that you avoid since you obtain directly the list of strings you want. About lookarounds in general: lookarounds do not come straight from hell and are not so slow (they can slow down a pattern only if they are badly used). As I was saying to an other SO user there's a few minutes, there are cases where you can optimize a pattern with lookaheads. – Casimir et Hippolyte Apr 28 '15 at 15:17

The documentation for python's re.split says:

Note that split will never split a string on an empty pattern match.

When seeing this:

>>> re.findall("(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])", "CamelCaseXYZ")
['', '']

it becomes clear, why the split does not work as expected. The remodule finds empty matches, just as intended by the regular expression.

Since the documentation states that this is not a bug, but rather intended behavior, you have to work around that when trying to create a camel case split:

def camel_case_split(identifier):
matches = finditer('(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])', identifier)
split_string = []
# index of beginning of slice
previous = 0
for match in matches:
# get slice
split_string.append(identifier[previous:match.start()])
previous = match.start()
# get remaining string
split_string.append(identifier[previous:])
return split_string

I just stumbled upon this case and wrote a regular expression to solve it. It should work for any group of words, actually.

RE_WORDS = re.compile(r'''
# Find words in a string. Order matters!
[A-Z]+(?=[A-Z][a-z]) |  # All upper case before a capitalized word
[A-Z]?[a-z]+ |  # Capitalized words / all lower case
[A-Z]+ |  # All upper case
\d+  # Numbers
''', re.VERBOSE)

The key here is the lookahead on the first possible case. It will match (and preserve) uppercase words before capitalized ones:

assert RE_WORDS.findall('FOOBar') == ['FOO', 'Bar']
• I like this one because it's clearer, and it does a better job for "strings people enter in real-life" like URLFinder and listURLReader. – Tom Swirly Jul 16 '18 at 12:47

Here's another solution that requires less code and no complicated regular expressions:

def camel_case_split(string):
bldrs = [[string[0].upper()]]
for c in string[1:]:
if bldrs[-1][-1].islower() and c.isupper():
bldrs.append([c])
else:
bldrs[-1].append(c)
return [''.join(bldr) for bldr in bldrs]

## Edit

The above code contains an optimization that avoids rebuilding the entire string with every appended character. Leaving out that optimization, a simpler version (with comments) might look like

def camel_case_split2(string):
# set the logic for creating a "break"
def is_transition(c1, c2):
return c1.islower() and c2.isupper()

# start the builder list with the first character
# enforce upper case
bldr = [string[0].upper()]
for c in string[1:]:
# get the last character in the last element in the builder
# note that strings can be addressed just like lists
previous_character = bldr[-1][-1]
if is_transition(previous_character, c):
# start a new element in the list
bldr.append(c)
else:
# append the character to the last string
bldr[-1] += c
return bldr
• Your code fails on something like camel_case_split("XYZCamelCase") which was specifically requested in the question I linked and is therefore also part of my question. – AplusKminus Apr 28 '15 at 12:29
• @SheridanVespo I think the first version may have had an extraneous ) that you caught and corrected for me :) – kalefranz Apr 28 '15 at 12:49
• I found another case, where the behavior of your code differs from the requested behavior: Whenever a string starts with a lower case letter, that letter will be converted to upper case. As a split function should not change anything, I consider this to be a bug. While that could be easily corrected, the problem from my first comment remains. – AplusKminus Apr 28 '15 at 13:11
• @SheridanVespo Apparently there are varied definitions for camel case. Some definitions (and the one I was originally assuming) enforce the first letter being capitalized. No worries; the "bug" is an easy fix. Just remove the .upper() call when initializing the list. – kalefranz Apr 28 '15 at 13:34

I know that the question added the tag of regex. But still, I always try to stay as far away from regex as possible. So, here is my solution without regex:

def split_camel(text, char):
if len(text) <= 1: # To avoid adding a wrong space in the beginning
return text+char
if char.isupper() and text[-1].islower(): # Regular Camel case
return text + " " + char
elif text[-1].isupper() and char.islower() and text[-2] != " ": # Detect Camel case in case of abbreviations
return text[:-1] + " " + text[-1] + char
else: # Do nothing part
return text + char

text = "PathURLFinder"
text = reduce(split_camel, a, "")
print text
# prints "Path URL Finder"
print text.split(" ")
# prints "['Path', 'URL', 'Finder']"

EDIT: As suggested, here is the code to put the functionality in a single function.

def split_camel(text):
def splitter(text, char):
if len(text) <= 1: # To avoid adding a wrong space in the beginning
return text+char
if char.isupper() and text[-1].islower(): # Regular Camel case
return text + " " + char
elif text[-1].isupper() and char.islower() and text[-2] != " ": # Detect Camel case in case of abbreviations
return text[:-1] + " " + text[-1] + char
else: # Do nothing part
return text + char
converted_text = reduce(splitter, text, "")
return converted_text.split(" ")

split_camel("PathURLFinder")
# prints ['Path', 'URL', 'Finder']
• Could you incorporate the reduce and the split into the method? Would make your method better testable – AplusKminus Jun 1 at 20:44
• Added the code as required buddy :-) – thiruvenkadam 14 hours ago

I think below is the optimim

Print(count_word())

• Can you elaborate please? – PJProudhon Jul 1 '18 at 15:23

I found regexp complicated to build, hard to debug and with unpredictable execution speed. I like to use them in the search/replace function of my IDE but I try to avoid them in programs.

Here is a quite straightforward solution in pure python:

def camel_case_split(s):
idx = [0] + [i for i, e in enumerate(s) if e.isupper()] + [len(s)]
return [s[x:y] for x, y in zip(idx, idx[1:]) if x < y]

And some tests :

def test():
TESTS = [
("CamelCaseWordT", ['Camel', 'Case', 'Word', 'T']),
("CamelCaseWordTa", ['Camel', 'Case', 'Word', 'Ta']),
("aCamelCaseWordTa", ['a', 'Camel', 'Case', 'Word', 'Ta']),
("aCamelCaseWordT", ['a', 'Camel', 'Case', 'Word', 'T']),
("Ta", ['Ta']),
("aT", ['a', 'T']),
("a", ['a']),
("T", ['T']),
("", []),
]
for (q,a) in TESTS:
assert camel_case_split(q) == a

if __name__ == "__main__":
test()
• As you can see in the question, I specifically provided the test case "CamelCaseXYZ" which I intended to be split to ['Camel', 'Case', 'XYZ']. Your method returns ['Camel', 'Case', 'X', 'Y', 'Z'] for that. – AplusKminus Jun 1 at 20:42