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Difference between UTF-8 and UTF-16? Why do we need these?

MessageDigest md = MessageDigest.getInstance("SHA-256");
String text = "This is some text";

md.update(text.getBytes("UTF-8")); // Change this to "UTF-16" if needed
byte[] digest = md.digest();
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jon skeet has a good article on encoding....csharpindepth.com/Articles/General/Unicode.aspx –  Mitch Wheat Jan 11 '11 at 7:40

5 Answers 5

up vote 98 down vote accepted

I believe there are a lot of good articles about this around the Web, but here is a short summary.

Both UTF-8 and UTF-16 are variable length encodings. However, in UTF-8 a character may occupy a minimum of 8 bits, while in UTF-16 character length starts with 16 bits.

Main UTF-8 pros:

  • Basic ASCII characters like digits, Latin characters with no accents, etc. occupy one byte which is identical to US-ASCII representation. This way all US-ASCII strings become valid UTF-8, which provides decent backwards compatibility in many cases.
  • No null bytes, which allows to use null-terminated strings, this introduces a great deal of backwards compatibility too.

Main UTF-8 cons:

  • Many common characters have different length, which slows indexing and calculating a string length terribly.

Main UTF-16 pros:

  • Most reasonable characters, like Latin, Cyrillic, Chinese, Japanese can be represented with 2 bytes. Unless really exotic characters are needed, this means that the 16-bit subset of UTF-16 can be used as a fixed-length encoding, which speeds indexing.

Main UTF-16 cons:

  • Lots of null bytes in US-ASCII strings, which means no null-terminated strings and a lot of wasted memory.

In general, UTF-16 is usually better for in-memory representation while UTF-8 is extremely good for text files and network protocols.

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Nice recap of the pros and cons! –  Abdullah Jibaly Jan 11 '11 at 7:53
Missing only BE/LE part on UTF16 :) UTF-8 has another downside, it may generate longer output than UTF16 –  bestsss Jan 11 '11 at 10:17
Yes, I forgot about BE/LE. It's not a big deal, though, especially for in-memory use. UTF-8 will generate longer output only if three-byte characters are involved, but that means mostly Chinese and Japanese. On the other hand, if the text contains a lot of US-ASCII characters, it may generate shorter output, so whether it is a downside or not depends on a particular situation. –  Sergey Tachenov Jan 11 '11 at 15:05
I didn't even think of mentioning the immediate pro of utf-8, shorter length. About the longer output of utf-8 it was 'may' for a reason, yet if the target is far east, the default encoding should be utf-16. As for the example md.update(text.getBytes("UTF-8")); the encoding doesn't matter since the hash is stable both ways. –  bestsss Jan 11 '11 at 19:24
The fastest way to convert String to byte array is something like that, posted down as sample –  bestsss Jan 11 '11 at 19:27

They're simply different schemes for representing Unicode characters.

Both are variable-length - UTF-16 uses 2 bytes for all characters in the basic multilingual plane (BMP) which contains most characters in common use.

UTF-8 uses between 1 and 3 bytes for characters in the BMP, up to 4 for characters in the current Unicode range of U+0000 to U+1FFFFF, and is extensible up to U+7FFFFFFF if that ever becomes necessary... but notably all ASCII characters are represented in a single byte each.

For the purposes of a message digest it won't matter which of these you pick, so long as everyone who tries to recreate the digest uses the same option.

See this page for more about UTF-8 and Unicode.

(Note that all Java characters are UTF-16 code points within the BMP; to represent characters above U+FFFF you need to use surrogate pairs in Java.)

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This is unrelated to UTF-8/16 (in general, although it does convert to UTF16 and the BE/LE part can be set w/ a single line), yet below is the fastest way to convert String to byte[]. For instance: good exactly for the case provided (hash code). String.getBytes(enc) is relatively slow.

static byte[] toBytes(String s){
        byte[] b=new byte[s.length()*2];
        return b;
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Originally came from the number of bytes (java uses utf-16) per character. utf-8 is 1 byte, utf-16 is 2 bytes. The reason you need to know this is because some text files can be encoded in utf-8.

This link should help:


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Wrong. One character can take up to 6 bytes in UTF-8. –  ulidtko Jan 11 '11 at 7:40
I guess the naming originally came from what I described above but as noted by Jon that's not always the case. –  Abdullah Jibaly Jan 11 '11 at 7:42
@ulidtko, where did you get 6? What's the codepage (and its max value) –  bestsss Jan 11 '11 at 10:21
@bestsss, I don't know what are codepages. (And don't wanna know). Any Unicode code point between U+4000000 and U+7FFFFFFF is encoded in UTF-8 by 6 bytes. See Wikipedia article about UTF-8 for details. –  ulidtko Jan 11 '11 at 11:53
@ulidtko: UTF-8 originally supported up to 6 bytes per character. However, it has since been revised down to cover only those characters which can be expressed in 4 bytes or fewer. See tools.ietf.org/html/rfc3629#section-4 –  dkarp Jan 11 '11 at 19:45

Both can encode the same information: the full zillion-and-a-half characters defined by the Unicode standard. They just use different numbers of bits/bytes to do so, and because of that difference, they end up representing characters with different, although similar and easily translatable, character codes.

UTF-8 uses a minimum of 1 8-bit byte to encode characters. For the 128 7-bit characters of the ASCII character set, it is backward-compatible with ASCII: a roman-alphabet ASCII text encoded in UTF-8 will display normally on a system that does not understand UTF-8. Accented characters are not part of ASCII and so they will all be more or less garbled. Beyond 1 byte, UTF-8 may use 2, 3 or 4 bytes to encode the rest of the Unicode character set. Because of the way it uses the first byte of multi-byte sequences, UTF-8 uses 3 bytes for some characters that require only 2 bytes in UTF-16.

UTF-16 uses a minimum of 2 bytes/16 bits. This makes it incompatible with ASCII. Given an /A-Za-z/ text in UTF-16, a system that does not understand UTF-16 will make a mess of it (showing a null character before every single character).

A few examples:

  1. "A" in ASCII is hex 0x41; in UTF-8 it is also 0x41; in UTF-16 it is 0x0041
  2. "À" in Latin-1 is 0xC0; in UTF-8 it is 0xC3 0x80; in UTF-16 it is 0x00C0,
  3. The Tibetan letter ཨ in UTF-8 is 0xE0 0xBD 0xA8; it UTF-16 it is 0x0F68,
  4. This character*: http://www.fileformat.info/info/... in UTF-8 is 0xF0 0xA0 0x80 0x8B; in UTF-16 it is 0xD840 0xDC0B
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