=over 4
-=item Input and Output Disciplines
+=item Input and Output Layers
Perl knows when a filehandle uses Perl's internal Unicode encodings
(UTF-8, or UTF-EBCDIC if in EBCDIC) if the filehandle is opened with
for Unicode data and byte semantics for non-Unicode data.
The decision to use character semantics is made transparently. If
input data comes from a Unicode source--for example, if a character
-encoding discipline is added to a filehandle or a literal Unicode
+encoding layer is added to a filehandle or a literal Unicode
string constant appears in a program--character semantics apply.
Otherwise, byte semantics are in effect. The C<bytes> pragma should
be used to force byte semantics on Unicode data.
=back
-The following cases do not yet work:
+Things to do with locales (Lithuanian, Turkish, Azeri) do B<not> work
+since Perl does not understand the concept of Unicode locales.
-=over 8
-
-=item *
-
-the "final sigma" (Greek), and
-
-=item *
-
-anything to with locales (Lithuanian, Turkish, Azeri).
+See the Unicode Technical Report #21, Case Mappings, for more details.
=back
-See the Unicode Technical Report #21, Case Mappings, for more details.
+=over 4
=item *
=head2 User-Defined Character Properties
You can define your own character properties by defining subroutines
-whose names begin with "In" or "Is". The subroutines must be
-visible in the package that uses the properties. The user-defined
-properties can be used in the regular expression C<\p> and C<\P>
-constructs.
+whose names begin with "In" or "Is". The subroutines must be defined
+in the C<main> package. The user-defined properties can be used in the
+regular expression C<\p> and C<\P> constructs. Note that the effect
+is compile-time and immutable once defined.
The subroutines must return a specially-formatted string, with one
or more newline-separated lines. Each line must be one of the following:
END
}
+You can also define your own mappings to be used in the lc(),
+lcfirst(), uc(), and ucfirst() (or their string-inlined versions).
+The principle is the same: define subroutines in the C<main> package
+with names like C<ToLower> (for lc() and lcfirst()), C<ToTitle> (for
+the first character in ucfirst()), and C<ToUpper> (for uc(), and the
+rest of the characters in ucfirst()).
+
+The string returned by the subroutines needs now to be three
+hexadecimal numbers separated by tabulators: start of the source
+range, end of the source range, and start of the destination range.
+For example:
+
+ sub ToUpper {
+ return <<END;
+ 0061\t0063\t0041
+ END
+ }
+
+defines an uc() mapping that causes only the characters "a", "b", and
+"c" to be mapped to "A", "B", "C", all other characters will remain
+unchanged.
+
+If there is no source range to speak of, that is, the mapping is from
+a single character to another single character, leave the end of the
+source range empty, but the two tabulator characters are still needed.
+For example:
+
+ sub ToLower {
+ return <<END;
+ 0041\t\t0061
+ END
+ }
+
+defines a lc() mapping that causes only "A" to be mapped to "a", all
+other characters will remain unchanged.
+
+(For serious hackers only) If you want to introspect the default
+mappings, you can find the data in the directory
+C<$Config{privlib}>/F<unicore/To/>. The mapping data is returned as
+the here-document, and the C<utf8::ToSpecFoo> are special exception
+mappings derived from <$Config{privlib}>/F<unicore/SpecialCasing.txt>.
+The C<Digit> and C<Fold> mappings that one can see in the directory
+are not directly user-accessible, one can use either the
+C<Unicode::UCD> module, or just match case-insensitively (that's when
+the C<Fold> mapping is used).
+
+A final note on the user-defined property tests and mappings: they
+will be used only if the scalar has been marked as having Unicode
+characters. Old byte-style strings will not be affected.
+
=head2 Character Encodings for Input and Output
See L<Encode>.
or user-defined character properties [b] to emulate subtraction
[ 7] include Letters in word characters
[ 8] note that Perl does Full case-folding in matching, not Simple:
- for example U+1F88 is equivalent with U+1F000 U+03B9,
+ for example U+1F88 is equivalent with U+1F00 U+03B9,
not with 1F80. This difference matters for certain Greek
capital letters with certain modifiers: the Full case-folding
decomposes the letter, while the Simple case-folding would map
it to a single character.
[ 9] see UTR#13 Unicode Newline Guidelines
- [10] should do ^ and $ also on \x{85}, \x{2028} and \x{2029})
+ [10] should do ^ and $ also on \x{85}, \x{2028} and \x{2029}
(should also affect <>, $., and script line numbers)
(the \x{85}, \x{2028} and \x{2029} do match \s)
Level 2 - Extended Unicode Support
- 3.1 Surrogates - MISSING
- 3.2 Canonical Equivalents - MISSING [11][12]
- 3.3 Locale-Independent Graphemes - MISSING [13]
- 3.4 Locale-Independent Words - MISSING [14]
- 3.5 Locale-Independent Loose Matches - MISSING [15]
+ 3.1 Surrogates - MISSING [11]
+ 3.2 Canonical Equivalents - MISSING [12][13]
+ 3.3 Locale-Independent Graphemes - MISSING [14]
+ 3.4 Locale-Independent Words - MISSING [15]
+ 3.5 Locale-Independent Loose Matches - MISSING [16]
- [11] see UTR#15 Unicode Normalization
- [12] have Unicode::Normalize but not integrated to regexes
- [13] have \X but at this level . should equal that
- [14] need three classes, not just \w and \W
- [15] see UTR#21 Case Mappings
+ [11] Surrogates are solely a UTF-16 concept and Perl's internal
+ representation is UTF-8. The Encode module does UTF-16, though.
+ [12] see UTR#15 Unicode Normalization
+ [13] have Unicode::Normalize but not integrated to regexes
+ [14] have \X but at this level . should equal that
+ [15] need three classes, not just \w and \W
+ [16] see UTR#21 Case Mappings
=item *
=head2 Using Unicode in XS
-If you want to handle Perl Unicode in XS extensions, you may find
-the following C APIs useful. See L<perlapi> for details.
+If you want to handle Perl Unicode in XS extensions, you may find the
+following C APIs useful. See also L<perlguts/"Unicode Support"> for an
+explanation about Unicode at the XS level, and L<perlapi> for the API
+details.
=over 4
C<split()> for byte-encoded data, it pales in comparison to the speed
of C<split()> when used with UTF-8 data.
+=head2 Porting code from perl-5.6.X
+
+Perl 5.8 has a different Unicode model from 5.6. In 5.6 the programmer
+was required to use the C<utf8> pragma to declare that a given scope
+expected to deal with Unicode data and had to make sure that only
+Unicode data were reaching that scope. If you have code that is
+working with 5.6, you will need some of the following adjustments to
+your code. The examples are written such that the code will continue
+to work under 5.6, so you should be safe to try them out.
+
+=over 4
+
+=item *
+
+A filehandle that should read or write UTF-8
+
+ if ($] > 5.007) {
+ binmode $fh, ":utf8";
+ }
+
+=item *
+
+A scalar that is going to be passed to some extension
+
+Be it Compress::Zlib, Apache::Request or any extension that has no
+mention of Unicode in the manpage, you need to make sure that the
+UTF-8 flag is stripped off. Note that at the time of this writing
+(October 2002) the mentioned modules are not UTF-8-aware. Please
+check the documentation to verify if this is still true.
+
+ if ($] > 5.007) {
+ require Encode;
+ $val = Encode::encode_utf8($val); # make octets
+ }
+
+=item *
+
+A scalar we got back from an extension
+
+If you believe the scalar comes back as UTF-8, you will most likely
+want the UTF-8 flag restored:
+
+ if ($] > 5.007) {
+ require Encode;
+ $val = Encode::decode_utf8($val);
+ }
+
+=item *
+
+Same thing, if you are really sure it is UTF-8
+
+ if ($] > 5.007) {
+ require Encode;
+ Encode::_utf8_on($val);
+ }
+
+=item *
+
+A wrapper for fetchrow_array and fetchrow_hashref
+
+When the database contains only UTF-8, a wrapper function or method is
+a convenient way to replace all your fetchrow_array and
+fetchrow_hashref calls. A wrapper function will also make it easier to
+adapt to future enhancements in your database driver. Note that at the
+time of this writing (October 2002), the DBI has no standardized way
+to deal with UTF-8 data. Please check the documentation to verify if
+that is still true.
+
+ sub fetchrow {
+ my($self, $sth, $what) = @_; # $what is one of fetchrow_{array,hashref}
+ if ($] < 5.007) {
+ return $sth->$what;
+ } else {
+ require Encode;
+ if (wantarray) {
+ my @arr = $sth->$what;
+ for (@arr) {
+ defined && /[^\000-\177]/ && Encode::_utf8_on($_);
+ }
+ return @arr;
+ } else {
+ my $ret = $sth->$what;
+ if (ref $ret) {
+ for my $k (keys %$ret) {
+ defined && /[^\000-\177]/ && Encode::_utf8_on($_) for $ret->{$k};
+ }
+ return $ret;
+ } else {
+ defined && /[^\000-\177]/ && Encode::_utf8_on($_) for $ret;
+ return $ret;
+ }
+ }
+ }
+ }
+
+
+=item *
+
+A large scalar that you know can only contain ASCII
+
+Scalars that contain only ASCII and are marked as UTF-8 are sometimes
+a drag to your program. If you recognize such a situation, just remove
+the UTF-8 flag:
+
+ utf8::downgrade($val) if $] > 5.007;
+
+=back
+
=head1 SEE ALSO
L<perluniintro>, L<encoding>, L<Encode>, L<open>, L<utf8>, L<bytes>,