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Recently I read lots of thing about unicode code points and how they evolved over time and sure I read http://www.joelonsoftware.com/articles/Unicode.html this also.

But something I couldn't find the real reason why Java uses UTF-16 for a char.

For example If I had the string which contains 1024 letter of ASCII scoped charachter string. It means 1024 * 2 bytes which equals to 2KB string memory it will consume in anyway.

So if Java base char would be UTF-8 it would be just 1KB of data. Even if the string has any charachter which needs to 2bytes for example 10 charachter of "字" naturally it will increase the size of the memory consumption. (1014 * 1 byte) + (10 * 2 bytes) = 1KB + 20 bytes

The result isn't that obvious 1KB + 20 bytes VS. 2KB I don't say about ASCII but my curiosity about this why it is not UTF-8 which is just take cares of multibyte chars also. UTF-16 it looks like waste of memory in any string which has lots of non multibyte chars.

Is there any good reason behind this ?

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    Suppose you want to access the 576th char of the string, and it's represented as an UTF8 encoded byte array. What is the cost of the operation? – JB Nizet Mar 26 '16 at 14:32
  • hmm, sure I missed the point of cursoring. It have to compute all of the X byte to decide which charachter is it. Then they decided to sacrifice memory against the cpu. – FZE Mar 26 '16 at 14:56
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    Strings are immutable - it is possible (and it still would be possible to retrofit this without breaking existing Java code [it would probably break JNI]) to store strings with only codes 0-255 in an 8-bit encoding, and strings with other codes in 16-bit like it is now. But it seems that the need for this isn't very high (at least I haven't seen a big demand for this). – Erwin Bolwidt Mar 26 '16 at 15:05
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    @ErwinBolwidt it's actually scheduled for Java 9 – Clashsoft Mar 26 '16 at 17:20
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    It's safER to just go to the (576*2)th byte in a UTF16 string to find the 576th character. But UTF16 still allows for 32 bit characters (two 16-bit code points). afaik, java (and c# as well for that matter) just ignore this when accessing the Nth character in a string, meaning you could either end up at a different character than you expected to, or end up with half a character. – Cedric Mamo May 19 '16 at 20:33
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Java used UCS-2 before transitioning over UTF-16 in 2004/2005. The reason for the original choice of UCS-2 is mainly historical:

Unicode was originally designed as a fixed-width 16-bit character encoding. The primitive data type char in the Java programming language was intended to take advantage of this design by providing a simple data type that could hold any character.

This, and the birth of UTF-16, is further explained by the Unicode FAQ page:

Originally, Unicode was designed as a pure 16-bit encoding, aimed at representing all modern scripts. (Ancient scripts were to be represented with private-use characters.) Over time, and especially after the addition of over 14,500 composite characters for compatibility with legacy sets, it became clear that 16-bits were not sufficient for the user community. Out of this arose UTF-16.

As @wero has already mentioned, random access cannot be done efficiently with UTF-8. So all things weighed up, UCS-2 was seemingly the best choice at the time, particularly as the no supplementary characters had been allocated by that stage. This then left UTF-16 as the easiest natural progression beyond that.

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    utf-16 is still variable sized though. Each character is either 16 or 32 bit. So random access isn't really any different in utf-16... it's just safer for more characters. Random access still isn't possible if using a string containing characters that use 2 code points – Cedric Mamo May 19 '16 at 20:37
  • @CedricMamo: sorry, the point on random access was in reference to UCS-2 rather than UTF-16, thus the comment about supplementary characters. I'll edit it to be more explicit though, I can see why it'd be interpreted that way. – nj_ May 20 '16 at 9:13
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One reason are the performance characteristics of random access or iterating over the characters of a String:

UTF-8 encoding uses a variable number (1-4) bytes to encode a unicode char. Therefore accessing a character by index: String.charAt(i) would be way more complicated to implement and slower than the array access used by java.lang.String.

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    This was true for UCS-2, but UCS-2 ceased to be when Unicode expanded beyond the BMP (i.e. beyond the first 65536 characters); nowadays there's only UTF-16 and it is a variable length encoding exactly as UTF-8. You can put the head under the sand and think you are iterating over Unicode code points only until you find the first surrogate pair. See @nj_'s answer for the details. – Matteo Italia May 19 '16 at 20:26
  • @MatteoItalia The question asks why Java does not use e.g. UTF-8 to store Strings in order to save memory compared to the current implementation. My answer gave a particular reason - namely performance of accessing characters by index - why UTF-8 night not be a good idea. – wero May 19 '16 at 21:03
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    the point is that UTF-16 is too a variable length encoding. – Matteo Italia May 19 '16 at 21:53
  • @MatteoItalia so you want Oracle to remove String.charAt because it allows people to put their head under the sand? – wero May 19 '16 at 22:00
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    No, I want to point out that it's false that UTF-16 has any advantage over UTF-8 related to seeking at a given code point, because UTF-16, exactly as UTF-8, is a variable length encoding, which takes either 1 or 2 code units to encode a single code point. If you want O(1) seek to a given code point you want UTF-32, not UTF-16. For this reason, your answer is plain wrong - or actually, outdated of 21 years (IIRC it was in 1995 that Unicode was expanded beyond the BMP, killing the fixed-lenght UCS-2 encoding, which became the UTF-16 variable length encoding). – Matteo Italia May 19 '16 at 23:04

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