Your original pattern looks strange: most of the characters written with \x..
are in the ASCII table. Why using this complex notation when you can write (for example) \n
for \x0A
, \r
for \x0D
etc.? It can be written in a more simple way (always for PHP):
/^(?:\d{1,16}|(?:\n|\r|[ -Z]|_|[a-z]|\xC2\xA0|\xCE\xA9){1,11})$/i
(I removed the x modifier and non-significant spaces. The s modifier was useless.)
Since the pattern is case-insensitive (modifier i), [a-z]
is already included in [ -Z]
(that contains [A-Z]
, see the ASCII table) and can be removed. Other thing, using a character class instead of an alternation of single characters is shorter and more performant:
/^(?:\d{1,16}|(?:[\n\r -Z_]|\xC2\xA0|\xCE\xA9){1,11})$/i
About \xC2\xA0
and \xCE\xA9
: These sequences stand for the characters NO-BREAK SPACE
and GREEK CAPITAL LETTER OMEGA
encoded in UTF8.
PCRE (the PHP regex engine) doesn't support unicode by default and read a string as a sequence of single bytes (one byte per character). It is possible to read strings as UTF8 encoded strings if you add the u
modifier or if you starts the pattern with (*UTF8)
. In your pattern, there is no u
modifier so each byte is seen as a character.
The Java regex engine supports unicode by default and doesn't read a string byte by byte but character by character.
To make the "translation" from PHP to Java easier, I will rewrite the PHP pattern with the u modifier:
/^(?:[0-9]{1,16}|[\n\r -Z_\x{00A0}\x{03A9}]{1,11})$/iu
\xC2\xA0
which describes each byte is now replaced with \x{00A0}
where 00A0
is the unicode code point for the character NO-BREAK SPACE
. Same thing for omega. (take a look at the unicode table)
Note that the u modifier extends \d
to all digits in the unicode table. To prevent this side effect, I have replaced it with [0-9]
.
To write the Java pattern, all you need is to replace the \x{....}
syntax with the \u....
syntax and to use the CASE_INSENSITIVE option:
^(?:[0-9]{1,16}|[\n\r -Z_\u00A0\u03A9]{1,11})$
(don't forget to escape the backslashes)