at all times text encoded in UTF-8 will never give us more than a +50% file size of the same text encoded in UTF-16. true / false?

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攒了一身酷
攒了一身酷 2021-02-06 15:41

Somewhere I read (rephrased):

If we compare a UTF-8 encoded file VS a UTF-16 encoded file, At some times, the UTF-8 file may give a 50% to 100% larger fil

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  •  悲&欢浪女
    2021-02-06 16:24

    The answer is that in UTF-8, ASCII is just 1 byte, but that in general, most Western languages including English use a few characters here and there that require 2 bytes, so actual percentages vary. The Greek and Cyrillic languages all require at least 2 bytes per character in their script when encoded in UTF-8.

    Common Eastern languages require for their characters 3 bytes in UTF-8 but 2 in UTF-16. Note however that “uncommon” Eastern characters require 4 bytes in both UTF-8 and UTF-16 alike.

    3 is indeed only 50% greater than 2. But that is for a single code point only. It does not apply to an entire file.

    The actual percentage is impossible to state with precision, because you do not know whether the balance of code points down in the 1- or 2-byte UTF-8 range, or in the 4-byte UTF-8 range. If there is white space in the Asian text, then that is only byte of UTF-8, and yet it is a costly 2 bytes of UTF-16.

    These things do vary. You can only get precise numbers on precise text, not on general text. Code points in Asian text take 1, 2, 3, or 4 bytes of UTF-8, while in UTF-16 they variously require 2 or 4 bytes apiece.

    Case Study

    Compare the various languages’ Wikipedia pages on Tokyo to see what I mean. Even in Eastern languages, there is still plenty of ASCII going on. This alone makes your figures fluctuate. Consider:

    Paras Lines Words Graphs Chars  UTF16 UTF8   8:16 16:8  Language
    
     519  1525  6300  43120 43147  86296 44023   51% 196%  English
     343   728  1202   8623  8650  17302  9173   53% 189%  Welsh
     541  1722  9013  57377 57404 114810 59345   52% 193%  Spanish
     529  1712  9690  63871 63898 127798 67016   52% 191%  French
     321   837  2442  18999 19026  38054 21148   56% 180%  Hungarian
    
     202   464   976   7140  7167  14336 11848   83% 121%  Greek
     348   937  2938  21439 21467  42936 36585   85% 117%  Russian
    
     355   788   613   6439  6466  12934 13754  106%  94%  Chinese, simplified
     209   419   243   2163  2190   4382  3331   76% 132%  Chinese, traditional
     461  1127  1030  25341 25368  50738 65636  129%  77%  Japanese
     410   925  2955  13942 13969  27940 29561  106%  95%  Korean
    

    Each of those is the Tokyo Wikipedia page saved as text, not as HTML. All text is in NFC, not in NFD. The meaning of each of the columns is as follows:

    1. Paras is the number of blankline separated text spans.
    2. Lines is the number of linebreak separated text spans.
    3. Words is the number of whitespace separated text spans.
    4. Graphs is the number of Unicode extended grapheme clusters, sometimes called glyphs. These are user-visible characters.
    5. Chars is the number of Unicode code points. These are, or should be, programmer-visible characters.
    6. UTF16 is how many bytes that takes up when the file is stored as UTF-16.
    7. UTF8 is how many bytes that takes up when the file is stored as UTF-8.
    8. 8:16 is the ratio of UTF-8 size to UTF-16 size, expressed as a percentage.
    9. 16:8 is the ratio of UTF-16 size to UTF-8 size, expressed as a percentage.
    10. Language is which version of the Tokyo page we’re talking about here.

    I’ve grouped the languages into Western Latin, Western non-Latin, and Eastern. Observations:

    1. Western languages that use the Latin script suffer terribly upon conversion from UTF-8 to UTF-16, with English suffering the most by expanding by 96% and Hungarian the least by expanding by 80%. All are huge.

    2. Western languages that do not use the Latin script still suffer, but only 15-20%.

    3. Eastern languages DO NOT SUFFER in UTF-8 the way everyone claims that they do! Behold:

      • In Korean and in (simplified) Chinese, you get only 6% bigger in UTF-8 than in UTF-16.
      • In Japanese, you get only 29% bigger in UTF-8 than in UTF-16.
      • The traditional Chinese actually got smaller in UTF-8 than in UTF-16! In fact, it costs 32% to use UTF-16 over UTF-8 for this sample. If you look at the Lines and Words columns, it looks that this might be due to white space usage.

    I hope that answers your question. There is simply no +50% to +100% size increase for Eastern languages when encoded in UTF-8 compared to when these same texts are encoded in UTF-16. Only when taking individual code points do you ever see numbers like that, which is a completely unreasonable metric.

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