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On the Unicode site it's written that UTF-8 can be represented by 1-4 bytes. As I understand from this question http://programmers.stackexchange.com/questions/77758/why-are-there-multiple-unicode-encodings UTF-8 is an 8-bits encoding. So, what's the truth? If it's 8-bits encoding, then what's the difference between ASCII and UTF-8? If it's not, then why is it called UTF-8 and why do we need UTF-16 and others if they occupy the same memory?

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3 Answers 3

up vote 6 down vote accepted

The Absolute Minimum Every Software Developer Absolutely, Positively Must Know About Unicode and Character Sets (No Excuses!)

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+1 for referring to Joel Spolsky's article. –  Buhake Sindi Jun 14 '11 at 9:49

The '8-bit' encoding means that the individual bytes of the encoding use 8 bits. In contrast, pure ASCII is a 7-bit encoding as it only has code points 0-127. It used to be that software had problems with 8-bit encodings; one of the reasons for Base-64 and uuencode encodings was to get binary data through email systems that did not handle 8-bit encodings. However, it's been a decade or more since that ceased to be allowable as a problem - software has had to be 8-bit clean, or capable of handling 8-bit encodings.

Unicode itself is a 21-bit character set. There are a number of encodings for it:

  • UTF-32 where each Unicode code point is stored in a 32-bit integer
  • UTF-16 where many Unicode code points are stored in a single 16-bit integer, but some need two 16-bit integers (so it needs 2 or 4 bytes per Unicode code point).
  • UTF-8 where Unicode code points can require 1, 2, 3 or 4 bytes to store a single Unicode code point.

So, "UTF-8 can be represented by 1-4 bytes" is probably not the most appropriate way of phrasing it. "Unicode code points can be represented by 1-4 bytes in UTF-8" would be more appropriate.

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then what the hell 21-bit character set means? UTF-8 - 8,16,24,32 bits, UTF-16 - 16,32 bits, UTF-32 - 32 bits. I don't see here 21. Sorry for being stupid. –  Sergey Jun 14 '11 at 4:26
@Sergey, Unicode has 1,114,112 codepoints as of the latest version. You would need 21 bits at a minimum to fully specify all codepoints. –  Vineet Reynolds Jun 14 '11 at 4:42
It means, Sergey, that the valid Unicode code points are all in the range U+0000 through U+10FFFF, and that U+10FFFF only requires 21 bits to represent it. The range is also chosen so that the Unicode code points can be encoded by two surrogates (a low surrogate and a high surrogate) in UTF-16. If the range was extended, that would no longer be possible. You will eventually learn to distinguish between the code points (U+wxyz values) and the various ways in which they can be encoded, such as UTF-8, UTF-16, and UTF-32. –  Jonathan Leffler Jun 14 '11 at 4:43
+1 for the "more appropriate" way of phrasing it. –  james.garriss Feb 26 '13 at 16:22
Vineet is correct, but @Sergey has a point. Characterizing Unicode as "a 21-bit character set" is potentially confusing in the context of this question. Unicode has 17 planes; each plane has 65,536 code points, giving a total of 1,114,112. To represent that total in binary (in base 2, rather than base 10), you need 21 digits (bits). That is, the binary number 111111111111111111111 (21 bits), when represented in decimal, is 2,097,151 (2 to the power 21, minus 1), which is greater than 1,114,112. 20 bits (1,048,575) is not quite enough. To that extent, Unicode is a "21-bit character set". –  Graham Hannington Jul 7 '14 at 4:54

UTF-8 is an 8-bit variable width encoding. The first 128 characters in the Unicode, when represented with UTF-8 encoding have the representation as the characters in ASCII.

To understand this further, Unicode treats characters as codepoints - a mere number that can be represented in multiple ways (the encodings). UTF-8 is one such encoding. It is most commonly used, for it gives the best space consumption characteristics among all encodings. If you are storing characters from the ASCII character set in UTF-8 encoding, then the UTF-8 encoded data will take the same amount of space. This allowed for applications that previously used ASCII to seamlessly move (well, not quite, but it certainly didn't result in something like Y2K) to Unicode, for the character representations are the same.

I'll leave this extract here from RFC 3629, on how the UTF-8 encoding would work:

   Char. number range  |        UTF-8 octet sequence
      (hexadecimal)    |              (binary)
   0000 0000-0000 007F | 0xxxxxxx
   0000 0080-0000 07FF | 110xxxxx 10xxxxxx
   0000 0800-0000 FFFF | 1110xxxx 10xxxxxx 10xxxxxx
   0001 0000-0010 FFFF | 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx

You'll notice why the encoding will result in characters occupying anywhere between 1 and 4 bytes (the right-hand column) for different ranges of characters in Unicode (the left-hand column).

UTF-16, UTF-32, UCS-2 etc. will employ different encoding schemes where the codepoints would represented as 16-bit or 32-bit codes, instead of 8-bit codes that UTF-8 does.

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