Java is a language for the Internet. Since the citizens of the Net speak and write in many different human languages, Java must be able to handle a large number of languages as well. One of the ways in which Java supports internationalization is through the Unicode character set. Unicode is a worldwide standard that supports the scripts of most languages.[6] The latest version of Java bases its character and string data on the Unicode 6.0 standard, which uses at least two bytes to represent each symbol internally.
Java source code can be written using Unicode and stored in any number of character encodings, ranging from a full binary form to ASCII-encoded Unicode character values. This makes Java a friendly language for non-English-speaking programmers who can use their native language for class, method, and variable names just as they can for the text displayed by the application.
The Java char type and String class natively
support Unicode values. Internally, the text is stored as multibyte
characters using the UTF-16 encoding; however, the Java language and APIs
make this transparent to you and you will not generally have to think
about it. Unicode is also very ASCII-friendly (ASCII is the most common
character encoding for English). The first 256 characters are defined to
be identical to the first 256 characters in the ISO 8859-1 (Latin-1)
character set, so Unicode is effectively backward-compatible with the most
common English character sets. Furthermore, one of the most common file
encodings for Unicode, called UTF-8, preserves ASCII values in their
single byte form. This encoding is used by default in compiled Java class
files, so storage remains compact for English text.
Most platforms can’t display all currently defined Unicode characters. As a result, Java programs can be written with special Unicode escape sequences. A Unicode character can be represented with this escape sequence:
\uxxxx
xxxx is a sequence of one to four
hexadecimal digits. The escape sequence indicates an ASCII-encoded Unicode
character. This is also the form Java uses to output (print) Unicode
characters in an environment that doesn’t otherwise support them. Java
also comes with classes to read and write Unicode character streams in
specific encodings, including UTF-8.
[6] For more information about Unicode, see http://www.unicode.org. Ironically, one of the scripts listed as “obsolete and archaic” and not currently supported by the Unicode standard is Javanese—a historical language of the people of the Island of Java.