I currently have the following code
def removeControlCharacters(line):
i = 0
for c in line:
if (c < chr(32)):
line = line[:i - 1] + line[i+1:]
i += 1
return line
This is just does not work if there are more than one character to be deleted.
There are hundreds of control characters in unicode. If you are sanitizing data from the web or some other source that might contain non-ascii characters, you will need Python's unicodedata module. The unicodedata.category(…) function returns the unicode category code (e.g., control character, whitespace, letter, etc.) of any character. For control characters, the category always starts with "C".
This snippet removes all control characters from a string.
import unicodedata
def remove_control_characters(s):
return "".join(ch for ch in s if unicodedata.category(ch)[0]!="C")
Examples of unicode categories:
>>> from unicodedata import category
>>> category('\r') # carriage return --> Cc : control character
'Cc'
>>> category('\0') # null character ---> Cc : control character
'Cc'
>>> category('\t') # tab --------------> Cc : control character
'Cc'
>>> category(' ') # space ------------> Zs : separator, space
'Zs'
>>> category(u'\u200A') # hair space -------> Zs : separator, space
'Zs'
>>> category(u'\u200b') # zero width space -> Cf : control character, formatting
'Cf'
>>> category('A') # letter "A" -------> Lu : letter, uppercase
'Lu'
>>> category(u'\u4e21') # 両 ---------------> Lo : letter, other
'Lo'
>>> category(',') # comma -----------> Po : punctuation
'Po'
>>>
Cn category, which are just "unassigned" characters (currently ~75% of available unicode points). Usually, you don't want these in your strings anyway, but in some cases the distinction matters.
Jan 22, 2022 at 23:00
You could use str.translate with the appropriate map, for example like this:
>>> mpa = dict.fromkeys(range(32))
>>> 'abc\02de'.translate(mpa)
'abcde'
TypeError: expected a character buffer object error. Python 2.6.
Oct 19, 2012 at 21:09
python-3.x
Oct 24, 2012 at 12:09
dict.fromkeys(range(33)) since range is upper-bound exclusive.
Oct 10, 2013 at 14:22
Anyone interested in a regex character class that matches any Unicode control character may use [\x00-\x1f\x7f-\x9f].
You may test it like this:
>>> import unicodedata, re, sys
>>> all_chars = [chr(i) for i in range(sys.maxunicode)]
>>> control_chars = ''.join(c for c in all_chars if unicodedata.category(c) == 'Cc')
>>> expanded_class = ''.join(c for c in all_chars if re.match(r'[\x00-\x1f\x7f-\x9f]', c))
>>> control_chars == expanded_class
True
So to remove the control characters using re just use the following:
>>> re.sub(r'[\x00-\x1f\x7f-\x9f]', '', 'abc\02de')
'abcde'
Cc while that one works for C*
Apr 6, 2018 at 22:23
This is the easiest, most complete, and most robust way I am aware of. It does require an external dependency, however. I consider it to be worth it for most projects.
pip install regex
import regex as rx
def remove_control_characters(str):
return rx.sub(r'\p{C}', '', 'my-string')
\p{C} is the unicode character property for control characters, so you can leave it up to the unicode consortium which ones of the millions of unicode characters available should be considered control. There are also other extremely useful character properties I frequently use, for example \p{Z} for any kind of whitespace.
regex library will have up-to-date unicode info, compared to the built-in unicodedata module.
import regex as re on general principals, particularly when it collides with Python's stdlib. This approach obfuscates dependencies in code, adding an unnecessary confusion node vis-a-vis readability. Sticking with import regex and using regex within your code makes everything more clear. Aside from that, +1 on this answer. Upvoting.
Jul 26, 2020 at 20:15
my_dataframe['column_1'].str is your input string, you would use rx.sub(r'\p{C}', '', my_dataframe['column_1'].str) to return the cleaned string.
Your implementation is wrong because the value of i is incorrect. However that's not the only problem: it also repeatedly uses slow string operations, meaning that it runs in O(n2) instead of O(n). Try this instead:
return ''.join(c for c in line if ord(c) >= 32)
ord chocks on non-BMP char
Dec 1, 2010 at 14:10
ord() choke on non-BMP chars? [ord(c) for c in u'\U00020000'] works fine for me, and the values in the resulting list are both >= 32 because they're surrogate pairs.
ord(u'\U00020000') will fail, at least on UCS2 builds of Python, but using ord(c) is fine in this case because iterating over the string always gives chars <= 65535.
And for Python 2, with the builtin translate:
import string
all_bytes = string.maketrans('', '') # String of 256 characters with (byte) value 0 to 255
line.translate(all_bytes, all_bytes[:32]) # All bytes < 32 are deleted (the second argument lists the bytes to delete)
You modify the line during iterating over it. Something like ''.join([x for x in line if ord(x) >= 32])
filter(string.printable[:-5].__contains__,line)
I've tried all the above and it didn't help. In my case, I had to remove Unicode 'LRM' chars:
Finally I found this solution that did the job:
df["AMOUNT"] = df["AMOUNT"].str.encode("ascii", "ignore")
df["AMOUNT"] = df["AMOUNT"].str.decode('UTF-8')
Reference here.
If you only want to remove a specific control character, you can do
line.replace("\x02", "")
Where \x02 is the code of the character, in this case STX (start of text). You can find these codes for example here.
In Python>=3.5 there is a built-in method str.isprintable() that will return False for any character in the Other category of Unicode except for the ASCII space (0x20) which is considered printable:
def remove_control_characters(s: str) -> str:
return "".join(c for c in s if c.isprintable())
print(remove_control_characters("a bc")) # a bc
print(remove_control_characters("a b\nc")) # a bc
If the intent is to replace the non-printable characters, then the function can be modified to:
def replace_control_characters(s: str) -> str:
return "".join(c if c.isprintable() else f"\\u{ord(c):04x}" for c in s)
print(replace_control_characters("a bc")) # a bc
print(replace_control_characters("a b\nc")) # a b\u000ac
This replacement function is based on the minbpe implementation.
