The Unicode Normalization FAQ includes the following paragraph:

Programs should always compare canonical-equivalent Unicode strings as equal ... The Unicode Standard provides well-defined normalization forms that can be used for this: NFC and NFD.

and continues...

The choice of which to use depends on the particular program or system. NFC is the best form for general text, since it is more compatible with strings converted from legacy encodings. ... NFD and NFKD are most useful for internal processing.

My questions are:

What makes NFC best for "general text." What defines "internal processing" and why is it best left to NFD? And finally, never minding what is "best," are the two forms interchangable as long as two strings are compared using the same normalization form?

  • «NFC is the best form for general text, since it is more compatible with strings converted from legacy encodings. ... NFD and NFKD are most useful for internal processing.» are somewhat bogus statements. While legacy strings may come in a form that when converted to Unicode is in NFC form, for future maintenance (code always ends up being used in unforeseen conditions) you'll be better if you do the conversion to NF[CD] explicitly. – ninjalj Apr 13 '13 at 11:00

The FAQ is somewhat misleading, starting from its use of “should” followed by the inconsistent use of “requirement” about the same thing. The Unicode Standard itself (cited in the FAQ) is more accurate. Basically, you should not expect programs to treat canonically equivalent strings as different, but neither should you expect all programs to treat them as identical.

In practice, it really depends on what your software needs to do. In most situations, you don’t need to normalize at all, and normalization may destroy essential information in the data.

For example, U+0387 GREEK ANO TELEIA (·) is defined as canonical equivalent to U+00B7 MIDDLE DOT (·). This was a mistake, as the characters are really distinct and should be rendered differently and treated differently in processing. But it’s too late to change that, since this part of Unicode has been carved into stone. Consequently, if you convert data to NFC or otherwise discard differences between canonically equivalent strings, you risk getting wrong characters.

There are risks that you take by not normalizing. For example, the letter “ä” can appear as a single Unicode character U+00E4 LATIN SMALL LETTER A WITH DIAERESIS or as two Unicode characters U+0061 LATIN SMALL LETTER A U+0308 COMBINING DIAERESIS. It will mostly be the former, i.e. the precomposed form, but if it is the latter and your code tests for data containing “ä”, using the precomposed form only, then it will not detect the latter. But in many cases, you don’t do such things but simply store the data, concatenate strings, print them, etc. Then there is a risk that the two representations result in somewhat different renderings.

It also matters whether your software passes character data to other software somehow. The recipient might expect, due to naive implicit assumptions or consciously and in a documented manner, that its input is normalized.

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    One place where U+0061 LATIN SMALL LETTER A U+0308 COMBINING DIAERESIS would be the way to express “ä” would be Max OS X filenames, which require a specific version of NFD. – hippietrail Apr 13 '13 at 12:50
  • @hippietrail is that documented somewhere? – Keith4G Jan 8 '14 at 22:37
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    @Keith4G: There should be questions about it on SO. Let me have a look for you. I'm not a Mac guy but years ago did some stuff to read Mac partitions for fun and ran into this. – hippietrail Jan 9 '14 at 4:50
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    I was having trouble looking for specific information about OS X normalization. Thanks – Keith4G Jan 9 '14 at 15:06
  1. NFC is the general common sense form that you should use, ä is 1 code point there and that makes sense.

  2. NFD is good for certain internal processing - if you want to make accent-insensitive searches or sorting, having your string in NFD makes it much easier and faster. Another usage is making more robust slug titles. These are just the most obvious ones, I am sure there are plenty of more uses.

  3. If two strings x and y are canonical equivalents, then
    toNFC(x) = toNFC(y)
    toNFD(x) = toNFD(y)

    Is that what you meant?

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    Re 3, I don't think that's always the case. E.g. (from Wikipedia) string 1 contains "U+212B" (the angstrom sign "Å"), string 2 contains "U+0041 U+030A" (Latin letter "A" and combining ring above "°"). Under NFD, they are equivalent, but under NFC string 2 is converted to "U+00C5" (the Swedish letter "Å"), so the two are not equivalent. It seems to me that NFD is the safest choice. en.wikipedia.org/wiki/Unicode_equivalence#Normal_forms – Aurimas Dec 16 '13 at 23:01
  • @Aurimas it's from unicode website unicode.org/reports/tr15/tr15-18.html – Esailija Dec 16 '13 at 23:47
  • You're absolutely right, I was about to change my comment after reading more about this issue. The key here is that to go to NFC you first convert to NFD. – Aurimas Dec 17 '13 at 0:18

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