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I am porting some Python 2 code that calls split() on strings, so I need to know its exact behavior. The documentation states that when you do not specify the sep argument, "runs of consecutive whitespace are regarded as a single separator".

Unfortunately, it does not specify which characters that would be. There are some obvious contenders (like space, tab, and newline), but Unicode contains plenty of other candidates.

Which characters are considered to be whitespace by split()?

Since the answer might be implementation-specific, I'm targeting CPython.

(Note: I researched the answer to this myself since I couldn't find it anywhere, so I'll be posting it here, hopefully for the benefit of others.)

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2 Answers 2

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Unfortunately, it depends on whether your string is an str or a unicode (at least, in CPython - I don't know whether this behavior is actually mandated by a specification anywhere).

If it is an str, the answer is straightforward:

  • 0x09 Tab
  • 0x0a Newline
  • 0x0b Vertical Tab
  • 0x0c Form Feed
  • 0x0d Carriage Return
  • 0x20 Space

Source: these are the characters with PY_CTF_SPACE in Python/pyctype.c, which are used by Py_ISSPACE, which is used by STRINGLIB_ISSPACE, which is used by split_whitespace.

If it is a unicode, there are 29 characters, which in addition to the above are:

  • U+001c through 0x001f: File/Group/Record/Unit Separator
  • U+0085: Next Line
  • U+00a0: Non-Breaking Space
  • U+1680: Ogham Space Mark
  • U+2000 through 0x200a: various fixed-size spaces (e.g. Em Space), but note that Zero-Width Space is not included
  • U+2028: Line Separator
  • U+2029: Paragraph Separator
  • U+202f: Narrow No-Break Space
  • U+205f: Medium Mathematical Space
  • U+3000: Ideographic Space

Note that the first four are also valid ASCII characters, which means that an ASCII-only string might split differently depending on whether it is an str or a unicode!

Source: these are the characters listed in _PyUnicode_IsWhitespace, which is used by Py_UNICODE_ISSPACE, which is used by STRINGLIB_ISSPACE (it looks like they use the same function implementations for both str and unicode, but compile it separately for each type, with certain macros implemented differently). The docstring describes this set of characters as follows:

Unicode characters having the bidirectional type 'WS', 'B' or 'S' or the category 'Zs'

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  • Have you looked at string.whitespace?
    – awarrier99
    May 2, 2020 at 21:47
  • Not sure which characters exactly that entails but I'm sure you could print out their codes to check. Seems to be this string here ' \t\n\r\x0b\x0c'
    – awarrier99
    May 2, 2020 at 21:47
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    @awarrier99: Neither str.split nor unicode.split actually uses string.whitespace.
    – user2357112
    May 2, 2020 at 21:49
  • @user2357112supportsMonica huh I would've thought otherwise. Guess I should've checked the source first
    – awarrier99
    May 2, 2020 at 21:50
  • @awarrier99: Neat - that just gives the ASCII set, though, and since the documentation doesn't reference it, there is no guarantee that that's what's being used by split() (and it turns out that it's not) or that it agrees with what split() does (which turns out to be the case for str, but the docs don't promise that).
    – Aasmund Eldhuset
    May 2, 2020 at 21:51
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The answer by Aasmund Eldhuset is what I was attempting to do but I was beaten to the punch. It shows a lot of research and should definitely be the accepted answer.

If you want confirmation of that answer (or just want to test it in a different implementation, such as a non-CPython one, or a later one which may use a different Unicode standard under the covers), the following short program will print out the actual characters that cause a split when using .split() with no arguments.

It does this by constructing a string with the a and b characters(a) separated by the character being tested, then detecting if split creates an array more than one element:

int_ch = 0
while True:
    try:
        test_str = "a" + chr(int_ch) + "b"
    except Exception as e:
        print(f'Stopping, {e}')
        break
    if len(test_str.split()) != 1:
        print(f'0x{int_ch:06x} ({int_ch})')
    int_ch += 1

The output (for my system) is as follows:

0x000009 (9)
0x00000a (10)
0x00000b (11)
0x00000c (12)
0x00000d (13)
0x00001c (28)
0x00001d (29)
0x00001e (30)
0x00001f (31)
0x000020 (32)
0x000085 (133)
0x0000a0 (160)
0x001680 (5760)
0x002000 (8192)
0x002001 (8193)
0x002002 (8194)
0x002003 (8195)
0x002004 (8196)
0x002005 (8197)
0x002006 (8198)
0x002007 (8199)
0x002008 (8200)
0x002009 (8201)
0x00200a (8202)
0x002028 (8232)
0x002029 (8233)
0x00202f (8239)
0x00205f (8287)
0x003000 (12288)
Stopping, chr() arg not in range(0x110000)

You can ignore the error at the end, that's just to confirm it doesn't fail until we've moved out of the valid Unicode area (code points 0x000000 - 0x10ffff making up the seventeen planes).

(a) I'm hoping that no future version of Python ever considers a or b to be whitespace, as that would totally break this (and a lot of other) code.

I think the chances of that are rather slim, so it should be fine :-)

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  • Thanks! I was kind of cheating in that I typed up the answer in advance; the purpose of my question was just to document my find for others. I'm wondering why I didn't think of determining it experimentally like this, so thanks and +1!
    – Aasmund Eldhuset
    May 3, 2020 at 0:19
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    @Aasmund, not really "cheating" :-) Since one of the primary goals of SO is as a knowledge repo, if you have a question that's not asked already, it's considered valid to do so, and then answer it yourself.
    – paxdiablo
    May 3, 2020 at 0:38
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    That was the idea :-)
    – Aasmund Eldhuset
    May 3, 2020 at 1:42

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