What is the maximum number of bytes for a single UTF-8 encoded character?

I'll be encrypting the bytes of a String encoded in UTF-8 and therefore need to be able to work out the maximum number of bytes for a UTF-8 encoded String.

Could someone confirm the maximum number of bytes for a single UTF-8 encoded character please

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    You did look at common resources, such as Wikipedia's UTF-8 Article, first ... right? – user166390 Mar 2 '12 at 12:38
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    I read several articles which gave mixed answers... I actually got the impression the answer was 3 so I'm very glad I asked – Edd Mar 2 '12 at 12:43
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    I will leave a youtube link here, featuring Tom Scott's Characters, Symbols, Unicode miracle: goo.gl/sUr1Hf. You get to hear and see how everything's being evolved from ASCII character encoding to utf-8. – Roy Lee Dec 24 '15 at 11:36
  • See also Calculating length in UTF-8 of Java String without actually encoding it for length-computing code example – Vadzim May 16 at 17:57

The maximum number of bytes per character is 4 according to RFC3629 which limited the character table to U+10FFFF:

In UTF-8, characters from the U+0000..U+10FFFF range (the UTF-16 accessible range) are encoded using sequences of 1 to 4 octets.

(The original specification allowed for up to six byte character codes for code points past U+10FFFF.)

Characters with a code less than 128 will require 1 byte only, and the next 1920 character codes require 2 bytes only. Unless you are working with an esoteric language, multiplying the character count by 4 will be a significant overestimation.

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    What is "esotheric language" for you? Any language which would exist in the real-world, or a text which switches between different languages of the world? Should a developer of an UTF-8-to-String function choose 2, 3 or 4 as multiplicator if he does a over-allocation and the downsizes the result after the actual convertion? – Daniel Marschall Jun 6 '14 at 7:35
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    @rinntech by 'esoteric language' he means a language that has a lot of high value unicode chars (something from near the bottom of this list: unicode-table.com/en/sections ). If you must over-allocate, choose 4. You could do a double pass, one to see how many bytes you'll need and allocate, then another to do the encoding; that may be better than allocating ~4 times the RAM needed. – matiu Sep 10 '14 at 19:36
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    Always try to handle worst case: hacker9.com/single-message-can-crash-whatsapp.html – Evgen Bodunov Dec 23 '15 at 7:51
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    CJKV characters mostly take 3 bytes (with some rare/archaic characters taking 4 bytes) and calling them esoteric is a bit of a stretch (China alone is almost 20% of the world's population...). – Tgr Feb 8 '16 at 18:23
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    i wonder if answer is for question 'how many bytes a utf8 codepoint can be'. I think answer for 'how many bytes a utf8 character can be' the answer is infinite? Because decomposition of multiple codepoints into single character? – ytti Apr 18 '18 at 23:03

Without further context, I would say that the maximum number of bytes for a character in UTF-8 is

answer: 6 bytes

The author of the accepted answer correctly pointed this out as the "original specification". That was valid through RFC-2279 1. As J. Cocoe pointed out in the comments below, this changed in 2003 with RFC-3629 2, which limits UTF-8 to encoding for 21 bits, which can be handled with the encoding scheme using four bytes.

answer if covering all unicode: 4 bytes

But, in Java <= v7, they talk about a 3-byte maximum for representing unicode with UTF-8? That's because the original unicode specification only defined the basic multi-lingual plane (BMP), i.e. it is an older version of unicode, or subset of modern unicode. So

answer if representing only original unicode, the BMP: 3 bytes

But, the OP talks about going the other way. Not from characters to UTF-8 bytes, but from UTF-8 bytes to a "String" of bytes representation. Perhaps the author of the accepted answer got that from the context of the question, but this is not necessarily obvious, so may confuse the casual reader of this question.

Going from UTF-8 to native encoding, we have to look at how the "String" is implemented. Some languages, like Python >= 3 will represent each character with integer code points, which allows for 4 bytes per character = 32 bits to cover the 21 we need for unicode, with some waste. Why not exactly 21 bits? Because things are faster when they are byte-aligned. Some languages like Python <= 2 and Java represent characters using a UTF-16 encoding, which means that they have to use surrogate pairs to represent extended unicode (not BMP). Either way that's still 4 bytes maximum.

answer if going UTF-8 -> native encoding: 4 bytes

So, final conclusion, 4 is the most common right answer, so we got it right. But, mileage could vary.

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    "this is still the current and correct specification, per wikipedia" -- not any more. Shortly after you wrote this (April 2nd edit), Wikipedia's UTF-8 article was changed to clarify that the 6-octet version isn't part of the current (2003) UTF-8 spec. – J. Cocoe Aug 27 '16 at 1:50
  • "But, in Java <= v7, they talk about a 3-byte maximum for representing unicode with UTF-8? That's because the original unicode specification only defined the basic multi-lingual plane" -- That is probably the original reason, but it's not the whole story. Java uses "modified UTF-8", and one of the modifications is that it "uses its own two-times-three-byte format" instead of "the four-byte format of standard UTF-8" (their words). – J. Cocoe Aug 27 '16 at 1:52
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    There are no codepoints allocated above the 10FFFF (just over a million) limit and many of the UTF8 implementations never implemented sequences longer than 4 bytes (and some only 3, eg MySQL) so I would consider it safe to hard limit to 4 bytes per codepoint even when considering compatibility with older implementations. You would just need to ensure you discard anything invalid on the way in. Note that matiu's recommendation of allocating after calculating exact byte length is a good one where possible. – thomasrutter May 25 '17 at 4:53
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    "... [U]nicode can represent up to x10FFFF code points. So, including 0, that means we can do it with these bytes: F FF FF, i.e. two-and-a-half bytes, or 20 bits." I believe this is a bit incorrect. The number of code points from 0x0 through 0x10FFFF would be 0x110000, which could be represented in 1F FF FF, or 21 bits. The 0x110000 number corresponds to the 17 planes of 0x10000 code points each. – neuralmer Jan 24 '18 at 19:08
  • PSA: Wikipedia is not a real source. Look at the article's actual references. – Nyerguds Mar 8 at 11:57

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