=head2 Important Caveats
-WARNING: While the implementation of Unicode support in Perl is now
-fairly complete it is still evolving to some extent.
-
-In particular the way Unicode is handled on EBCDIC platforms is still
-rather experimental. On such a platform references to UTF-8 encoding
-in this document and elsewhere should be read as meaning UTF-EBCDIC as
-specified in Unicode Technical Report 16 unless ASCII vs EBCDIC issues
-are specifically discussed. There is no C<utfebcdic> pragma or
-":utfebcdic" layer, rather "utf8" and ":utf8" are re-used to mean
-platform's "natural" 8-bit encoding of Unicode. See L<perlebcdic> for
-more discussion of the issues.
-
-The following areas are still under development.
+Unicode support is an extensive requirement. While perl does not
+implement the Unicode standard or the accompanying technical reports
+from cover to cover, Perl does support many Unicode features.
=over 4
A filehandle can be marked as containing perl's internal Unicode
encoding (UTF-8 or UTF-EBCDIC) by opening it with the ":utf8" layer.
Other encodings can be converted to perl's encoding on input, or from
-perl's encoding on output by use of the ":encoding()" layer. There is
-not yet a clean way to mark the Perl source itself as being in an
-particular encoding.
+perl's encoding on output by use of the ":encoding(...)" layer.
+See L<open>.
+
+To mark the Perl source itself as being in a particular encoding,
+see L<encoding>.
=item Regular Expressions
-The regular expression compiler does now attempt to produce
-polymorphic opcodes. That is the pattern should now adapt to the data
-and automatically switch to the Unicode character scheme when
-presented with Unicode data, or a traditional byte scheme when
-presented with byte data. The implementation is still new and
-(particularly on EBCDIC platforms) may need further work.
+The regular expression compiler produces polymorphic opcodes. That is,
+the pattern adapts to the data and automatically switch to the Unicode
+character scheme when presented with Unicode data, or a traditional
+byte scheme when presented with byte data.
=item C<use utf8> still needed to enable UTF-8/UTF-EBCDIC in scripts
The C<utf8> pragma implements the tables used for Unicode support.
-These tables are automatically loaded on demand, so the C<utf8> pragma
-need not normally be used.
+However, these tables are automatically loaded on demand, so the
+C<utf8> pragma should not normally be used.
-However, as a compatibility measure, this pragma must be explicitly
-used to enable recognition of UTF-8 in the Perl scripts themselves on
-ASCII based machines or recognize UTF-EBCDIC on EBCDIC based machines.
-B<NOTE: this should be the only place where an explicit C<use utf8> is
-needed>.
+As a compatibility measure, this pragma must be explicitly used to
+enable recognition of UTF-8 in the Perl scripts themselves on ASCII
+based machines or recognize UTF-EBCDIC on EBCDIC based machines.
+B<NOTE: this should be the only place where an explicit C<use utf8>
+is needed>.
+
+You can also use the C<encoding> pragma to change the default encoding
+of the data in your script; see L<encoding>.
=back
external programs, from information provided by the system (such as %ENV),
or from literals and constants in the source text.
-If the C<-C> command line switch is used, (or the
+On Windows platforms, if the C<-C> command line switch is used, (or the
${^WIDE_SYSTEM_CALLS} global flag is set to C<1>), all system calls
will use the corresponding wide character APIs. Note that this is
-currently only implemented on Windows since other platforms API
-standard on this area.
+currently only implemented on Windows since other platforms lack an
+API standard on this area.
Regardless of the above, the C<bytes> pragma can always be used to
force byte semantics in a particular lexical scope. See L<bytes>.
apply; otherwise, byte semantics are in effect. To force byte semantics
on Unicode data, the C<bytes> pragma should be used.
-Notice that if you have a string with byte semantics and you then
-add character data into it, the bytes will be upgraded I<as if they
-were ISO 8859-1 (Latin-1)> (or if in EBCDIC, after a translation
-to ISO 8859-1).
+Notice that if you concatenate strings with byte semantics and strings
+with Unicode character data, the bytes will by default be upgraded
+I<as if they were ISO 8859-1 (Latin-1)> (or if in EBCDIC, after a
+translation to ISO 8859-1). To change this, use the C<encoding>
+pragma, see L<encoding>.
Under character semantics, many operations that formerly operated on
bytes change to operating on characters. For ASCII data this makes no
The C<\p{Is...}> test for "general properties" such as "letter",
"digit", while the C<\p{In...}> test for Unicode scripts and blocks.
-The official Unicode script and block names have spaces and
-dashes and separators, but for convenience you can have
-dashes, spaces, and underbars at every word division, and
-you need not care about correct casing. It is recommended,
-however, that for consistency you use the following naming:
-the official Unicode script or block name (see below for
-the additional rules that apply to block names), with the whitespace
-and dashes removed, and the words "uppercase-first-lowercase-otherwise".
-That is, "Latin-1 Supplement" becomes "Latin1Supplement".
+The official Unicode script and block names have spaces and dashes and
+separators, but for convenience you can have dashes, spaces, and
+underbars at every word division, and you need not care about correct
+casing. It is recommended, however, that for consistency you use the
+following naming: the official Unicode script, block, or property name
+(see below for the additional rules that apply to block names),
+with whitespace and dashes replaced with underbar, and the words
+"uppercase-first-lowercase-rest". That is, "Latin-1 Supplement"
+becomes "Latin_1_Supplement".
You can also negate both C<\p{}> and C<\P{}> by introducing a caret
-(^) between the first curly and the property name: C<\p{^InTamil}> is
-equal to C<\P{InTamil}>.
+(^) between the first curly and the property name: C<\p{^In_Tamil}> is
+equal to C<\P{In_Tamil}>.
The C<In> and C<Is> can be left out: C<\p{Greek}> is equal to
-C<\p{InGreek}>, C<\P{Pd}> is equal to C<\P{Pd}>.
-
-Here is the list as of Unicode 3.1.1 (the two-letter classes) and as
-defined by Perl (the one-letter classes).
-
- L Letter
- Lu Letter, Uppercase
- Ll Letter, Lowercase
- Lt Letter, Titlecase
- Lm Letter, Modifier
- Lo Letter, Other
- M Mark
- Mn Mark, Non-Spacing
- Mc Mark, Spacing Combining
- Me Mark, Enclosing
- N Number
- Nd Number, Decimal Digit
- Nl Number, Letter
- No Number, Other
- P Punctuation
- Pc Punctuation, Connector
- Pd Punctuation, Dash
- Ps Punctuation, Open
- Pe Punctuation, Close
- Pi Punctuation, Initial quote
- (may behave like Ps or Pe depending on usage)
- Pf Punctuation, Final quote
- (may behave like Ps or Pe depending on usage)
- Po Punctuation, Other
- S Symbol
- Sm Symbol, Math
- Sc Symbol, Currency
- Sk Symbol, Modifier
- So Symbol, Other
- Z Separator
- Zs Separator, Space
- Zl Separator, Line
- Zp Separator, Paragraph
- C Other
- Cc Other, Control
- Cf Other, Format
- Cs Other, Surrogate
- Co Other, Private Use
- Cn Other, Not Assigned
+C<\p{In_Greek}>, C<\P{Pd}> is equal to C<\P{Pd}>.
+
+ Short Long
+
+ L Letter
+ Lu Uppercase_Letter
+ Ll Lowercase_Letter
+ Lt Titlecase_Letter
+ Lm Modifier_Letter
+ Lo Other_Letter
+
+ M Mark
+ Mn Nonspacing_Mark
+ Mc Spacing_Mark
+ Me Enclosing_Mark
+
+ N Number
+ Nd Decimal_Number
+ Nl Letter_Number
+ No Other_Number
+
+ P Punctuation
+ Pc Connector_Punctuation
+ Pd Dash_Punctuation
+ Ps Open_Punctuation
+ Pe Close_Punctuation
+ Pi Initial_Punctuation
+ (may behave like Ps or Pe depending on usage)
+ Pf Final_Punctuation
+ (may behave like Ps or Pe depending on usage)
+ Po Other_Punctuation
+
+ S Symbol
+ Sm Math_Symbol
+ Sc Currency_Symbol
+ Sk Modifier_Symbol
+ So Other_Symbol
+
+ Z Separator
+ Zs Space_Separator
+ Zl Line_Separator
+ Zp Paragraph_Separator
+
+ C Other
+ Cc Control
+ Cf Format
+ Cs Surrogate
+ Co Private_Use
+ Cn Unassigned
There's also C<L&> which is an alias for C<Ll>, C<Lu>, and C<Lt>.
+The following reserved ranges have C<In> tests:
+
+ CJK_Ideograph_Extension_A
+ CJK_Ideograph
+ Hangul_Syllable
+ Non_Private_Use_High_Surrogate
+ Private_Use_High_Surrogate
+ Low_Surrogate
+ Private_Surrogate
+ CJK_Ideograph_Extension_B
+ Plane_15_Private_Use
+ Plane_16_Private_Use
+
+For example C<"\x{AC00}" =~ \p{HangulSyllable}> will test true.
+(Handling of surrogates is not implemented yet, because Perl
+uses UTF-8 and not UTF-16 internally to represent Unicode.)
+
Additionally, because scripts differ in their directionality
(for example Hebrew is written right to left), all characters
have their directionality defined:
- BidiL Left-to-Right
- BidiLRE Left-to-Right Embedding
- BidiLRO Left-to-Right Override
- BidiR Right-to-Left
- BidiAL Right-to-Left Arabic
- BidiRLE Right-to-Left Embedding
- BidiRLO Right-to-Left Override
- BidiPDF Pop Directional Format
- BidiEN European Number
- BidiES European Number Separator
- BidiET European Number Terminator
- BidiAN Arabic Number
- BidiCS Common Number Separator
- BidiNSM Non-Spacing Mark
- BidiBN Boundary Neutral
- BidiB Paragraph Separator
- BidiS Segment Separator
- BidiWS Whitespace
- BidiON Other Neutrals
+ BidiL Left-to-Right
+ BidiLRE Left-to-Right Embedding
+ BidiLRO Left-to-Right Override
+ BidiR Right-to-Left
+ BidiAL Right-to-Left Arabic
+ BidiRLE Right-to-Left Embedding
+ BidiRLO Right-to-Left Override
+ BidiPDF Pop Directional Format
+ BidiEN European Number
+ BidiES European Number Separator
+ BidiET European Number Terminator
+ BidiAN Arabic Number
+ BidiCS Common Number Separator
+ BidiNSM Non-Spacing Mark
+ BidiBN Boundary Neutral
+ BidiB Paragraph Separator
+ BidiS Segment Separator
+ BidiWS Whitespace
+ BidiON Other Neutrals
=head2 Scripts
The scripts available for C<\p{In...}> and C<\P{In...}>, for example
\p{InCyrillic>, are as follows, for example C<\p{InLatin}> or C<\P{InHan}>:
- Latin
- Greek
- Cyrillic
- Armenian
- Hebrew
Arabic
- Syriac
- Thaana
- Devanagari
+ Armenian
Bengali
- Gurmukhi
+ Bopomofo
+ Canadian-Aboriginal
+ Cherokee
+ Cyrillic
+ Deseret
+ Devanagari
+ Ethiopic
+ Georgian
+ Gothic
+ Greek
Gujarati
- Oriya
- Tamil
- Telugu
+ Gurmukhi
+ Han
+ Hangul
+ Hebrew
+ Hiragana
+ Inherited
Kannada
- Malayalam
- Sinhala
- Thai
+ Katakana
+ Khmer
Lao
- Tibetan
+ Latin
+ Malayalam
+ Mongolian
Myanmar
- Georgian
- Hangul
- Ethiopic
- Cherokee
- CanadianAboriginal
Ogham
+ Old-Italic
+ Oriya
Runic
- Khmer
- Mongolian
- Hiragana
- Katakana
- Bopomofo
- Han
+ Sinhala
+ Syriac
+ Tamil
+ Telugu
+ Thaana
+ Thai
+ Tibetan
Yi
- OldItalic
- Gothic
- Deseret
- Inherited
There are also extended property classes that supplement the basic
properties, defined by the F<PropList> Unicode database:
- White_space
+ ASCII_Hex_Digit
Bidi_Control
- Join_Control
Dash
- Hyphen
- Quotation_Mark
- Other_Math
- Hex_Digit
- ASCII_Hex_Digit
- Other_Alphabetic
- Ideographic
Diacritic
Extender
+ Hex_Digit
+ Hyphen
+ Ideographic
+ Join_Control
+ Noncharacter_Code_Point
+ Other_Alphabetic
Other_Lowercase
+ Other_Math
Other_Uppercase
- Noncharacter_Code_Point
+ Quotation_Mark
+ White_Space
and further derived properties:
Any Any character
Assigned Any non-Cn character
Common Any character (or unassigned code point)
- not explicitly assigned to a script.
+ not explicitly assigned to a script
=head2 Blocks
In addition to B<scripts>, Unicode also defines B<blocks> of
characters. The difference between scripts and blocks is that the
-former concept is closer to natural languages, while the latter
+scripts concept is closer to natural languages, while the blocks
concept is more an artificial grouping based on groups of 256 Unicode
characters. For example, the C<Latin> script contains letters from
-many blocks, but it does not contain all the characters from those
-blocks, it does not for example contain digits.
+many blocks. On the other hand, the C<Latin> script does not contain
+all the characters from those blocks, it does not for example contain
+digits because digits are shared across many scripts. Digits and
+other similar groups, like punctuation, are in a category called
+C<Common>.
For more about scripts see the UTR #24:
http://www.unicode.org/unicode/reports/tr24/
version has C<Block> appended to its name, C<\p{InKatakanaBlock}>.
Notice that this definition was introduced in Perl 5.8.0: in Perl
-5.6.0 only the blocks were used; in Perl 5.8.0 scripts became the
+5.6 only the blocks were used; in Perl 5.8.0 scripts became the
preferential Unicode character class definition; this meant that
the definitions of some character classes changed (the ones in the
below list that have the C<Block> appended).
- BasicLatin
- Latin1Supplement
- LatinExtendedA
- LatinExtendedB
- IPAExtensions
- SpacingModifierLetters
- CombiningDiacriticalMarks
- GreekBlock
- CyrillicBlock
- ArmenianBlock
- HebrewBlock
- ArabicBlock
- SyriacBlock
- ThaanaBlock
- DevanagariBlock
- BengaliBlock
- GurmukhiBlock
- GujaratiBlock
- OriyaBlock
- TamilBlock
- TeluguBlock
- KannadaBlock
- MalayalamBlock
- SinhalaBlock
- ThaiBlock
- LaoBlock
- TibetanBlock
- MyanmarBlock
- GeorgianBlock
- HangulJamo
- EthiopicBlock
- CherokeeBlock
- UnifiedCanadianAboriginalSyllabics
- OghamBlock
- RunicBlock
- KhmerBlock
- MongolianBlock
- LatinExtendedAdditional
- GreekExtended
- GeneralPunctuation
- SuperscriptsandSubscripts
- CurrencySymbols
- CombiningMarksforSymbols
- LetterlikeSymbols
- NumberForms
+ Alphabetic Presentation Forms
+ Arabic Block
+ Arabic Presentation Forms-A
+ Arabic Presentation Forms-B
+ Armenian Block
Arrows
- MathematicalOperators
- MiscellaneousTechnical
- ControlPictures
- OpticalCharacterRecognition
- EnclosedAlphanumerics
- BoxDrawing
- BlockElements
- GeometricShapes
- MiscellaneousSymbols
+ Basic Latin
+ Bengali Block
+ Block Elements
+ Bopomofo Block
+ Bopomofo Extended
+ Box Drawing
+ Braille Patterns
+ Byzantine Musical Symbols
+ CJK Compatibility
+ CJK Compatibility Forms
+ CJK Compatibility Ideographs
+ CJK Compatibility Ideographs Supplement
+ CJK Radicals Supplement
+ CJK Symbols and Punctuation
+ CJK Unified Ideographs
+ CJK Unified Ideographs Extension A
+ CJK Unified Ideographs Extension B
+ Cherokee Block
+ Combining Diacritical Marks
+ Combining Half Marks
+ Combining Marks for Symbols
+ Control Pictures
+ Currency Symbols
+ Cyrillic Block
+ Deseret Block
+ Devanagari Block
Dingbats
- BraillePatterns
- CJKRadicalsSupplement
- KangxiRadicals
- IdeographicDescriptionCharacters
- CJKSymbolsandPunctuation
- HiraganaBlock
- KatakanaBlock
- BopomofoBlock
- HangulCompatibilityJamo
+ Enclosed Alphanumerics
+ Enclosed CJK Letters and Months
+ Ethiopic Block
+ General Punctuation
+ Geometric Shapes
+ Georgian Block
+ Gothic Block
+ Greek Block
+ Greek Extended
+ Gujarati Block
+ Gurmukhi Block
+ Halfwidth and Fullwidth Forms
+ Hangul Compatibility Jamo
+ Hangul Jamo
+ Hangul Syllables
+ Hebrew Block
+ High Private Use Surrogates
+ High Surrogates
+ Hiragana Block
+ IPA Extensions
+ Ideographic Description Characters
Kanbun
- BopomofoExtended
- EnclosedCJKLettersandMonths
- CJKCompatibility
- CJKUnifiedIdeographsExtensionA
- CJKUnifiedIdeographs
- YiSyllables
- YiRadicals
- HangulSyllables
- HighSurrogates
- HighPrivateUseSurrogates
- LowSurrogates
- PrivateUse
- CJKCompatibilityIdeographs
- AlphabeticPresentationForms
- ArabicPresentationFormsA
- CombiningHalfMarks
- CJKCompatibilityForms
- SmallFormVariants
- ArabicPresentationFormsB
+ Kangxi Radicals
+ Kannada Block
+ Katakana Block
+ Khmer Block
+ Lao Block
+ Latin 1 Supplement
+ Latin Extended Additional
+ Latin Extended-A
+ Latin Extended-B
+ Letterlike Symbols
+ Low Surrogates
+ Malayalam Block
+ Mathematical Alphanumeric Symbols
+ Mathematical Operators
+ Miscellaneous Symbols
+ Miscellaneous Technical
+ Mongolian Block
+ Musical Symbols
+ Myanmar Block
+ Number Forms
+ Ogham Block
+ Old Italic Block
+ Optical Character Recognition
+ Oriya Block
+ Private Use
+ Runic Block
+ Sinhala Block
+ Small Form Variants
+ Spacing Modifier Letters
Specials
- HalfwidthandFullwidthForms
- OldItalicBlock
- GothicBlock
- DeseretBlock
- ByzantineMusicalSymbols
- MusicalSymbols
- MathematicalAlphanumericSymbols
- CJKUnifiedIdeographsExtensionB
- CJKCompatibilityIdeographsSupplement
+ Superscripts and Subscripts
+ Syriac Block
Tags
+ Tamil Block
+ Telugu Block
+ Thaana Block
+ Thai Block
+ Tibetan Block
+ Unified Canadian Aboriginal Syllabics
+ Yi Radicals
+ Yi Syllables
=item *
=item *
Case translation operators use the Unicode case translation tables
-when provided character input. Note that C<uc()> translates to
-uppercase, while C<ucfirst> translates to titlecase (for languages
-that make the distinction). Naturally the corresponding backslash
-sequences have the same semantics.
+when provided character input. Note that C<uc()> (also known as C<\U>
+in doublequoted strings) translates to uppercase, while C<ucfirst>
+(also known as C<\u> in doublequoted strings) translates to titlecase
+(for languages that make the distinction). Naturally the
+corresponding backslash sequences have the same semantics.
=item *
=item *
-lc(), uc(), lcfirst(), and ucfirst() work only for some of the
-simplest cases, where the mapping goes from a single Unicode character
-to another single Unicode character, and where the mapping does not
-depend on surrounding characters, or on locales. More complex cases,
-where for example one character maps into several, are not yet
-implemented. See the Unicode Technical Report #21, Case Mappings,
-for more details. The Unicode::UCD module (part of Perl since 5.8.0)
-casespec() and casefold() interfaces supply information about the more
-complex cases.
+lc(), uc(), lcfirst(), and ucfirst() work for the following cases:
+
+=over 8
+
+=item *
+
+the case mapping is from a single Unicode character to another
+single Unicode character
+
+=item *
+
+the case mapping is from a single Unicode character to more
+than one Unicode character
+
+=back
+
+What doesn't yet work are the followng cases:
+
+=over 8
+
+=item *
+
+the "final sigma" (Greek)
+
+=item *
+
+anything to with locales (Lithuanian, Turkish, Azeri)
+
+=back
+
+See the Unicode Technical Report #21, Case Mappings, for more details.
=item *
2.2 Categories - done [3][4]
2.3 Subtraction - MISSING [5][6]
2.4 Simple Word Boundaries - done [7]
- 2.5 Simple Loose Matches - MISSING [8]
+ 2.5 Simple Loose Matches - done [8]
2.6 End of Line - MISSING [9][10]
[ 1] \x{...}
[ 5] have negation
[ 6] can use look-ahead to emulate subtracion
[ 7] include Letters in word characters
- [ 8] see UTR#21 Case Mappings
+ [ 8] see UTR#21 Case Mappings: Perl implements 1:1 mappings
[ 9] see UTR#13 Unicode Newline Guidelines
[10] should do ^ and $ also on \x{2028} and \x{2029}
=back
+=head2 Unicode Encodings
+
+Unicode characters are assigned to I<code points> which are abstract
+numbers. To use these numbers various encodings are needed.
+
+=over 4
+
+=item UTF-8
+
+UTF-8 is the encoding used internally by Perl. UTF-8 is a variable
+length (1 to 6 bytes, current character allocations require 4 bytes),
+byteorder independent encoding. For ASCII, UTF-8 is transparent
+(and we really do mean 7-bit ASCII, not any 8-bit encoding).
+
+=item UTF-16, UTF-16BE, UTF16-LE, Surrogates, and BOMs (Byte Order Marks)
+
+UTF-16 is a 2 or 4 byte encoding. The Unicode code points
+0x0000..0xFFFF are stored in two 16-bit units, and the code points
+0x010000..0x10FFFF in four 16-bit units. The latter case is
+using I<surrogates>, the first 16-bit unit being the I<high
+surrogate>, and the second being the I<low surrogate>.
+
+Surrogates are code points set aside to encode the 0x01000..0x10FFFF
+range of Unicode code points in pairs of 16-bit units. The I<high
+surrogates> are the range 0xD800..0xDBFF, and the I<low surrogates>
+are the range 0xDC00..0xDFFFF. The surrogate encoding is
+
+ $hi = ($uni - 0x10000) / 0x400 + 0xD800;
+ $lo = ($uni - 0x10000) % 0x400 + 0xDC00;
+
+and the decoding is
+
+ $uni = 0x10000 + ($hi - 0xD8000) * 0x400 + ($lo - 0xDC00);
+
+Because of the 16-bitness, UTF-16 is byteorder dependent. UTF-16
+itself can be used for in-memory computations, but if storage or
+transfer is required, either UTF-16BE (Big Endian) or UTF-16LE
+(Little Endian) must be chosen.
+
+This introduces another problem: what if you just know that your data
+is UTF-16, but you don't know which endianness? Byte Order Marks
+(BOMs) are a solution to this. A special character has been reserved
+in Unicode to function as a byte order marker: the character with the
+code point 0xFEFF is the BOM.
+
+The trick is that if you read a BOM, you will know the byte order,
+since if it was written on a big endian platform, you will read the
+bytes 0xFE 0xFF, but if it was written on a little endian platform,
+you will read the bytes 0xFF 0xFE. (And if the originating platform
+was writing in UTF-8, you will read the bytes 0xEF 0xBB 0xBF.)
+
+The way this trick works is that the character with the code point
+0xFFFE is guaranteed not to be a valid Unicode character, so the
+sequence of bytes 0xFF 0xFE is unambiguously "BOM, represented in
+little-endian format" and cannot be "0xFFFE, represented in big-endian
+format".
+
+=item UTF-32, UTF-32BE, UTF32-LE
+
+The UTF-32 family is pretty much like the UTF-16 family, expect that
+the units are 32-bit, and therefore the surrogate scheme is not
+needed. The BOM signatures will be 0x00 0x00 0xFE 0xFF for BE and
+0xFF 0xFE 0x00 0x00 for LE.
+
+=item UCS-2, UCS-4
+
+Encodings defined by the ISO 10646 standard. UCS-2 is a 16-bit
+encoding, UCS-4 is a 32-bit encoding. Unlike UTF-16, UCS-2
+is not extensible beyond 0xFFFF, because it does not use surrogates.
+
+=item UTF-7
+
+A seven-bit safe (non-eight-bit) encoding, useful if the
+transport/storage is not eight-bit safe. Defined by RFC 2152.
+
+=head2 Security Implications of Malformed UTF-8
+
+Unfortunately, the specification of UTF-8 leaves some room for
+interpretation of how many bytes of encoded output one should generate
+from one input Unicode character. Strictly speaking, one is supposed
+to always generate the shortest possible sequence of UTF-8 bytes,
+because otherwise there is potential for input buffer overflow at the
+receiving end of a UTF-8 connection. Perl always generates the shortest
+length UTF-8, and with warnings on (C<-w> or C<use warnings;>) Perl will
+warn about non-shortest length UTF-8 (and other malformations, too,
+such as the surrogates, which are not real character code points.)
+
+=head2 Unicode in Perl on EBCDIC
+
+The way Unicode is handled on EBCDIC platforms is still rather
+experimental. On such a platform, references to UTF-8 encoding in this
+document and elsewhere should be read as meaning UTF-EBCDIC as
+specified in Unicode Technical Report 16 unless ASCII vs EBCDIC issues
+are specifically discussed. There is no C<utfebcdic> pragma or
+":utfebcdic" layer, rather, "utf8" and ":utf8" are re-used to mean
+the platform's "natural" 8-bit encoding of Unicode. See L<perlebcdic>
+for more discussion of the issues.
+
+=back
+
=head1 SEE ALSO
-L<bytes>, L<utf8>, L<perlretut>, L<perlvar/"${^WIDE_SYSTEM_CALLS}">
+L<encoding>, L<Encode>, L<open>, L<bytes>, L<utf8>, L<perlretut>,
+L<perlvar/"${^WIDE_SYSTEM_CALLS}">
=cut
https://perl5.git.perl.org / perl5.git / blobdiff