14

Assuming the following:

>>> square = '²'      # Superscript Two (Unicode U+00B2)
>>> cube  = '³'       # Superscript Three (Unicode U+00B3)

Curiously:

>>> square.isdigit()
True
>>> cube.isdigit()
True

OK, let's convert those "digits" to integer:

>>> int(square)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
ValueError: invalid literal for int() with base 10: '²'
>>> int(cube)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
ValueError: invalid literal for int() with base 10: '³'

Oooops!

Could someone please explain what behavior I should expect from the str.isdigit() method when handling strings?

2
20

str.isdigit doesn't claim to be related to parsability as an int. It's reporting a simple Unicode property, is it a decimal character or digit of some sort:

str.isdigit()

Return True if all characters in the string are digits and there is at least one character, False otherwise. Digits include decimal characters and digits that need special handling, such as the compatibility superscript digits. This covers digits which cannot be used to form numbers in base 10, like the Kharosthi numbers. Formally, a digit is a character that has the property value Numeric_Type=Digit or Numeric_Type=Decimal.

In short, str.isdigit is thoroughly useless for detecting valid numbers. The correct solution to checking if a given string is a legal integer is to call int on it, and catch the ValueError if it's not a legal integer. Anything else you do will be (badly) reinventing the same tests the actual parsing code in int() performs, so why not let it do the work in the first place?

Side-note: You're using the term "utf-8" incorrectly. UTF-8 is a specific way of encoding Unicode, and only applies to raw binary data. Python's str is an "idealized" Unicode text type; it has no encoding (under the hood, it's stored encoded as one of ASCII, latin-1, UCS-2, UCS-4, and possibly also UTF-8, but none of that is visible at the Python layer outside of indirect measurements like sys.getsizeof, which only hints at the underlying encoding by letting you see how much memory the string consumes). The characters you're talking about are simple Unicode characters above the ASCII range, they're not specifically UTF-8.

8
  • 2
    I had no idea about isdigit doing that. Does this hold true for isnumeric? I'm going to have to grep my github org for that and fix it tomorrow.
    – flakes
    Sep 22 at 0:39
  • 2
    @flakes: isnumeric is also useless for detecting whether a string represents a number. It tests characters for Unicode properties Numeric_Type=Digit, Numeric_Type=Decimal or Numeric_Type=Numeric. Sep 22 at 0:41
  • 4
    @flakes: isnumeric is worse; it returns True for all things isdigit covers, plus a third category, Numeric_Type=Numeric. isdecimal seems to be the most strict test (and in fact, '²'.isdecimal() returns False, unlike isdigit and isnumeric), so it gets you closer to what constitutes a valid int, but again, the correct solution to "Is this a legal int?" is "Call int() on it and catch the ValueError if it fails"; prechecks for string properties will always be either too strict (-2 won't pass these tests, but int() can parse it) or too lax (allows ² and the like). Sep 22 at 0:43
  • 1
    Don't forget that isalnum will also be True.
    – sj95126
    Sep 22 at 0:45
  • 2
    Note that Numeric_Type=Digit is no longer used for new characters, so the test isdigit performs is now even less useful than it used to be - new characters that would previously have received Numeric_Type=Digit now receive Numeric_Type=Numeric. See Unicode Standard 14.0 chapter 4.6. Sep 22 at 0:45

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