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How can I determine the display width of a Unicode string in Python 3.x, and is there a way to use that information to align those strings with str.format()?

Motivating example: Printing a table of strings to the console. Some of the strings contain non-ASCII characters.

>>> for title in d.keys():
>>>     print("{:<20} | {}".format(title, d[title]))

    zootehni-           | zooteh.
    zootekni-           | zootek.
    zoothèque          | zooth.
    zooveterinar-       | zoovet.
    zoovetinstitut-     | zoovetinst.
    母                   | 母母

>>> s = 'è'
>>> len(s)
>>> [ord(c) for c in s]
    [101, 768]
>>> unicodedata.name(s[1])
>>> s2 = '母'
>>> len(s2)

As can be seen, str.format() simply takes the number of code-points in the string (len(s)) as its width, leading to skewed columns in the output. Searching through the unicodedata module, I have not found anything suggesting a solution.

Unicode normalization can fix the problem for è, but not for Asian characters, which often have larger display width. Similarly, zero-width unicode characters exist (e.g. zero-width space for allowing line breaks within words). You can't work around these issues with normalization, so please do not suggest "normalize your strings".

Edit: Added info about normalization.

Edit 2: In my original dataset also have some European combining characters that don't result in a single code-point even after normalization:

    zwemwater     | zwemw.
    zwia̢z-       | zw.

>>> s3 = 'a\u0322'   # The 'a + combining retroflex hook below' from zwiaz
>>> len(unicodedata.normalize('NFC', s3))
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marked as duplicate by Wooble, Ashwini Chaudhary, David, Donal Fellows, Lipis Mar 6 '14 at 14:38

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

No. Normalization does not fix this problem as a whole. It fixes it for combining characters in European languages. However, Asian characters often have larger display widths, again breaking str.format() and posing the question "What is the display width of the string". –  Christian Aichinger Mar 6 '14 at 13:10
And unicodedata.east_asian_width doesn't help with that part? –  Martijn Pieters Mar 6 '14 at 13:14
Note that it still depends on your console font if East Asian Width characters are actually displayed with a narrow or wide glyph and string formatting cannot help you there. –  Martijn Pieters Mar 6 '14 at 13:17
Updated the answer. Please show me how to roll a solution for my problem out of unicodedata.east_asian_width(). AFAICS it's not possible. E.g. s2 = unicodedata.normalize('NFC', s) gives "LATIN SMALL LETTER E WITH GRAVE" as desired. Then calling unicodedata.east_asian_width(s2) returns "A", which the documentation helpfully tells us is "ambiguous" - although it's display width is certainly 1. –  Christian Aichinger Mar 6 '14 at 13:22
Note that I updated my question. I grant you that normalization fixes a part of the problem. But the whole purpose of Unicode is for code not to break once you throw exotic characters at it. I do not want a half-baked solution ("it's good enough for you"), so I don't believe this question should be closed at this point. Examples in other languages: C's wcswidth(). –  Christian Aichinger Mar 6 '14 at 13:26

1 Answer 1

You have several options:

  1. Some consoles support escape sequences for pixel-exact positioning of the cursor. Might cause some overprinting, though.

    Historical note: This approach was used in the Amiga terminal to display images in a console window by printing a line of text and then advancing the cursor down by one pixel. The leftover pixels of the text line slowly built an image.

  2. Create a table in your code which contains the real (pixel) widths of all Unicode characters in the font that is used in the console / terminal window. Use a UI framework and a small Python script to generate this table.

    Then add code which calculates the real width of the text using this table. The result might not be a multiple of the character width in the console, though. Together with pixel-exact cursor movement, this might solve your issue.

    Note: You'll have to add special handling for ligatures (fi, fl) and composites. Alternatively, you can load a UI framework without opening a window and use the graphics primitives to calculate the string widths.

  3. Use the tab character (\t) to indent. But that will only help if your shell actually uses the real text width to place the cursor. Many terminals will simply count characters.

  4. Create a HTML file with a table and look at it in a browser.

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