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NAME

       Unicode::UCD - Unicode character database

SYNOPSIS

           use Unicode::UCD 'charinfo';
           my $charinfo   = charinfo($codepoint);

           use Unicode::UCD 'charprop';
           my $value  = charprop($codepoint, $property);

           use Unicode::UCD 'charprops_all';
           my $all_values_hash_ref = charprops_all($codepoint);

           use Unicode::UCD 'casefold';
           my $casefold = casefold($codepoint);

           use Unicode::UCD 'all_casefolds';
           my $all_casefolds_ref = all_casefolds();

           use Unicode::UCD 'casespec';
           my $casespec = casespec($codepoint);

           use Unicode::UCD 'charblock';
           my $charblock  = charblock($codepoint);

           use Unicode::UCD 'charscript';
           my $charscript = charscript($codepoint);

           use Unicode::UCD 'charblocks';
           my $charblocks = charblocks();

           use Unicode::UCD 'charscripts';
           my $charscripts = charscripts();

           use Unicode::UCD qw(charscript charinrange);
           my $range = charscript($script);
           print "looks like $script\n" if charinrange($range, $codepoint);

           use Unicode::UCD qw(general_categories bidi_types);
           my $categories = general_categories();
           my $types = bidi_types();

           use Unicode::UCD 'prop_aliases';
           my @space_names = prop_aliases("space");

           use Unicode::UCD 'prop_value_aliases';
           my @gc_punct_names = prop_value_aliases("Gc", "Punct");

           use Unicode::UCD 'prop_values';
           my @all_EA_short_names = prop_values("East_Asian_Width");

           use Unicode::UCD 'prop_invlist';
           my @puncts = prop_invlist("gc=punctuation");

           use Unicode::UCD 'prop_invmap';
           my ($list_ref, $map_ref, $format, $missing)
                                             = prop_invmap("General Category");

           use Unicode::UCD 'search_invlist';
           my $index = search_invlist(\@invlist, $code_point);

           # The following function should be used only internally in
           # implementations of the Unicode Normalization Algorithm, and there
           # are better choices than it.
           use Unicode::UCD 'compexcl';
           my $compexcl = compexcl($codepoint);

           use Unicode::UCD 'namedseq';
           my $namedseq = namedseq($named_sequence_name);

           my $unicode_version = Unicode::UCD::UnicodeVersion();

           my $convert_to_numeric =
                     Unicode::UCD::num("\N{RUMI DIGIT ONE}\N{RUMI DIGIT TWO}");

DESCRIPTION

       The Unicode::UCD module offers a series of functions that provide a simple interface to
       the Unicode Character Database.

   code point argument
       Some of the functions are called with a code point argument, which is either a decimal or
       a hexadecimal scalar designating a code point in the platform's native character set
       (extended to Unicode), or a string containing "U+" followed by hexadecimals designating a
       Unicode code point.  A leading 0 will force a hexadecimal interpretation, as will a
       hexadecimal digit that isn't a decimal digit.

       Examples:

           223     # Decimal 223 in native character set
           0223    # Hexadecimal 223, native (= 547 decimal)
           0xDF    # Hexadecimal DF, native (= 223 decimal)
           '0xDF'  # String form of hexadecimal (= 223 decimal)
           'U+DF'  # Hexadecimal DF, in Unicode's character set
                                     (= LATIN SMALL LETTER SHARP S)

       Note that the largest code point in Unicode is U+10FFFF.

   charinfo()
           use Unicode::UCD 'charinfo';

           my $charinfo = charinfo(0x41);

       This returns information about the input "code point argument" as a reference to a hash of
       fields as defined by the Unicode standard.  If the "code point argument" is not assigned
       in the standard (i.e., has the general category "Cn" meaning "Unassigned") or is a non-
       character (meaning it is guaranteed to never be assigned in the standard), "undef" is
       returned.

       Fields that aren't applicable to the particular code point argument exist in the returned
       hash, and are empty.

       For results that are less "raw" than this function returns, or to get the values for any
       property, not just the few covered by this function, use the "charprop()" function.

       The keys in the hash with the meanings of their values are:

       code
           the input native "code point argument" expressed in hexadecimal, with leading zeros
           added if necessary to make it contain at least four hexdigits

       name
           name of code, all IN UPPER CASE.  Some control-type code points do not have names.
           This field will be empty for "Surrogate" and "Private Use" code points, and for the
           others without a name, it will contain a description enclosed in angle brackets, like
           "<control>".

       category
           The short name of the general category of code.  This will match one of the keys in
           the hash returned by "general_categories()".

           The "prop_value_aliases()" function can be used to get all the synonyms of the
           category name.

       combining
           the combining class number for code used in the Canonical Ordering Algorithm.  For
           Unicode 5.1, this is described in Section 3.11 "Canonical Ordering Behavior" available
           at <http://www.unicode.org/versions/Unicode5.1.0/>

           The "prop_value_aliases()" function can be used to get all the synonyms of the
           combining class number.

       bidi
           bidirectional type of code.  This will match one of the keys in the hash returned by
           "bidi_types()".

           The "prop_value_aliases()" function can be used to get all the synonyms of the bidi
           type name.

       decomposition
           is empty if code has no decomposition; or is one or more codes (separated by spaces)
           that, taken in order, represent a decomposition for code.  Each has at least four
           hexdigits.  The codes may be preceded by a word enclosed in angle brackets, then a
           space, like "<compat> ", giving the type of decomposition

           This decomposition may be an intermediate one whose components are also decomposable.
           Use Unicode::Normalize to get the final decomposition in one step.

       decimal
           if code represents a decimal digit this is its integer numeric value

       digit
           if code represents some other digit-like number, this is its integer numeric value

       numeric
           if code represents a whole or rational number, this is its numeric value.  Rational
           values are expressed as a string like "1/4".

       mirrored
           "Y" or "N" designating if code is mirrored in bidirectional text

       unicode10
           name of code in the Unicode 1.0 standard if one existed for this code point and is
           different from the current name

       comment
           As of Unicode 6.0, this is always empty.

       upper
           is, if non-empty, the uppercase mapping for code expressed as at least four hexdigits.
           This indicates that the full uppercase mapping is a single character, and is identical
           to the simple (single-character only) mapping.  When this field is empty, it means
           that the simple uppercase mapping is code itself; you'll need some other means, (like
           "charprop()" or "casespec()" to get the full mapping.

       lower
           is, if non-empty, the lowercase mapping for code expressed as at least four hexdigits.
           This indicates that the full lowercase mapping is a single character, and is identical
           to the simple (single-character only) mapping.  When this field is empty, it means
           that the simple lowercase mapping is code itself; you'll need some other means, (like
           "charprop()" or "casespec()" to get the full mapping.

       title
           is, if non-empty, the titlecase mapping for code expressed as at least four hexdigits.
           This indicates that the full titlecase mapping is a single character, and is identical
           to the simple (single-character only) mapping.  When this field is empty, it means
           that the simple titlecase mapping is code itself; you'll need some other means, (like
           "charprop()" or "casespec()" to get the full mapping.

       block
           the block code belongs to (used in "\p{Blk=...}").  The "prop_value_aliases()"
           function can be used to get all the synonyms of the block name.

           See "Blocks versus Scripts".

       script
           the script code belongs to.  The "prop_value_aliases()" function can be used to get
           all the synonyms of the script name.  Note that this is the older "Script" property
           value, and not the improved "Script_Extensions" value.

           See "Blocks versus Scripts".

       Note that you cannot do (de)composition and casing based solely on the decomposition,
       combining, lower, upper, and title fields; you will need also the "casespec()" function
       and the "Composition_Exclusion" property.  (Or you could just use the lc(), uc(), and
       ucfirst() functions, and the Unicode::Normalize module.)

   charprop()
           use Unicode::UCD 'charprop';

           print charprop(0x41, "Gc"), "\n";
           print charprop(0x61, "General_Category"), "\n";

         prints
           Lu
           Ll

       This returns the value of the Unicode property given by the second parameter for the
       "code point argument" given by the first.

       The passed-in property may be specified as any of the synonyms returned by
       "prop_aliases()".

       The return value is always a scalar, either a string or a number.  For properties where
       there are synonyms for the values, the synonym returned by this function is the longest,
       most descriptive form, the one returned by "prop_value_aliases()" when called in a scalar
       context.  Of course, you can call "prop_value_aliases()" on the result to get other
       synonyms.

       The return values are more "cooked" than the "charinfo()" ones.  For example, the "uc"
       property value is the actual string containing the full uppercase mapping of the input
       code point.  You have to go to extra trouble with "charinfo" to get this value from its
       "upper" hash element when the full mapping differs from the simple one.

       Special note should be made of the return values for a few properties:

       Block
           The value returned is the new-style (see "Old-style versus new-style block names").

       Decomposition_Mapping
           Like "charinfo()", the result may be an intermediate decomposition whose components
           are also decomposable.  Use Unicode::Normalize to get the final decomposition in one
           step.

           Unlike "charinfo()", this does not include the decomposition type.  Use the
           "Decomposition_Type" property to get that.

       Name_Alias
           If the input code point's name has more than one synonym, they are returned joined
           into a single comma-separated string.

       Numeric_Value
           If the result is a fraction, it is converted into a floating point number to the
           accuracy of your platform.

       Script_Extensions
           If the result is multiple script names, they are returned joined into a single comma-
           separated string.

       When called with a property that is a Perl extension that isn't expressible in a compound
       form, this function currently returns "undef", as the only two possible values are true or
       false (1 or 0 I suppose).  This behavior may change in the future, so don't write code
       that relies on it.  "Present_In" is a Perl extension that is expressible in a bipartite or
       compound form (for example, "\p{Present_In=4.0}"), so "charprop" accepts it.  But "Any" is
       a Perl extension that isn't expressible that way, so "charprop" returns "undef" for it.
       Also "charprop" returns "undef" for all Perl extensions that are internal-only.

   charprops_all()
           use Unicode::UCD 'charprops_all';

           my $%properties_of_A_hash_ref = charprops_all("U+41");

       This returns a reference to a hash whose keys are all the distinct Unicode (no Perl
       extension) properties, and whose values are the respective values for those properties for
       the input "code point argument".

       Each key is the property name in its longest, most descriptive form.  The values are what
       "charprop()" would return.

       This function is expensive in time and memory.

   charblock()
           use Unicode::UCD 'charblock';

           my $charblock = charblock(0x41);
           my $charblock = charblock(1234);
           my $charblock = charblock(0x263a);
           my $charblock = charblock("U+263a");

           my $range     = charblock('Armenian');

       With a "code point argument" charblock() returns the block the code point belongs to, e.g.
       "Basic Latin".  The old-style block name is returned (see "Old-style versus new-style
       block names").  The "prop_value_aliases()" function can be used to get all the synonyms of
       the block name.

       If the code point is unassigned, this returns the block it would belong to if it were
       assigned.  (If the Unicode version being used is so early as to not have blocks, all code
       points are considered to be in "No_Block".)

       See also "Blocks versus Scripts".

       If supplied with an argument that can't be a code point, charblock() tries to do the
       opposite and interpret the argument as an old-style block name.  On an ASCII platform, the
       return value is a range set with one range: an anonymous array with a single element that
       consists of another anonymous array whose first element is the first code point in the
       block, and whose second element is the final code point in the block.  On an EBCDIC
       platform, the first two Unicode blocks are not contiguous.  Their range sets are lists
       containing start-of-range, end-of-range code point pairs.  You can test whether a code
       point is in a range set using the "charinrange()" function.  (To be precise, each range
       set contains a third array element, after the range boundary ones: the old_style block
       name.)

       If the argument to charblock() is not a known block, "undef" is returned.

   charscript()
           use Unicode::UCD 'charscript';

           my $charscript = charscript(0x41);
           my $charscript = charscript(1234);
           my $charscript = charscript("U+263a");

           my $range      = charscript('Thai');

       With a "code point argument", charscript() returns the script the code point belongs to,
       e.g., "Latin", "Greek", "Han".  If the code point is unassigned or the Unicode version
       being used is so early that it doesn't have scripts, this function returns "Unknown".  The
       "prop_value_aliases()" function can be used to get all the synonyms of the script name.

       Note that the Script_Extensions property is an improved version of the Script property,
       and you should probably be using that instead, with the "charprop()" function.

       If supplied with an argument that can't be a code point, charscript() tries to do the
       opposite and interpret the argument as a script name. The return value is a range set: an
       anonymous array of arrays that contain start-of-range, end-of-range code point pairs. You
       can test whether a code point is in a range set using the "charinrange()" function.  (To
       be precise, each range set contains a third array element, after the range boundary ones:
       the script name.)

       If the charscript() argument is not a known script, "undef" is returned.

       See also "Blocks versus Scripts".

   charblocks()
           use Unicode::UCD 'charblocks';

           my $charblocks = charblocks();

       charblocks() returns a reference to a hash with the known block names as the keys, and the
       code point ranges (see "charblock()") as the values.

       The names are in the old-style (see "Old-style versus new-style block names").

       prop_invmap("block") can be used to get this same data in a different type of data
       structure.

       prop_values("Block") can be used to get all the known new-style block names as a list,
       without the code point ranges.

       See also "Blocks versus Scripts".

   charscripts()
           use Unicode::UCD 'charscripts';

           my $charscripts = charscripts();

       charscripts() returns a reference to a hash with the known script names as the keys, and
       the code point ranges (see "charscript()") as the values.

       prop_invmap("script") can be used to get this same data in a different type of data
       structure.  Since the Script_Extensions property is an improved version of the Script
       property, you should instead use prop_invmap("scx").

       prop_values("Script") can be used to get all the known script names as a list, without the
       code point ranges.

       See also "Blocks versus Scripts".

   charinrange()
       In addition to using the "\p{Blk=...}" and "\P{Blk=...}" constructs, you can also test
       whether a code point is in the range as returned by "charblock()" and "charscript()" or as
       the values of the hash returned by "charblocks()" and "charscripts()" by using
       charinrange():

           use Unicode::UCD qw(charscript charinrange);

           $range = charscript('Hiragana');
           print "looks like hiragana\n" if charinrange($range, $codepoint);

   general_categories()
           use Unicode::UCD 'general_categories';

           my $categories = general_categories();

       This returns a reference to a hash which has short general category names (such as "Lu",
       "Nd", "Zs", "S") as keys and long names (such as "UppercaseLetter", "DecimalNumber",
       "SpaceSeparator", "Symbol") as values.  The hash is reversible in case you need to go from
       the long names to the short names.  The general category is the one returned from
       "charinfo()" under the "category" key.

       The "prop_values()" and "prop_value_aliases()" functions can be used as an alternative to
       this function; the first returning a simple list of the short category names; and the
       second gets all the synonyms of a given category name.

   bidi_types()
           use Unicode::UCD 'bidi_types';

           my $categories = bidi_types();

       This returns a reference to a hash which has the short bidi (bidirectional) type names
       (such as "L", "R") as keys and long names (such as "Left-to-Right", "Right-to-Left") as
       values.  The hash is reversible in case you need to go from the long names to the short
       names.  The bidi type is the one returned from "charinfo()" under the "bidi" key.  For the
       exact meaning of the various bidi classes the Unicode TR9 is recommended reading:
       <http://www.unicode.org/reports/tr9/> (as of Unicode 5.0.0)

       The "prop_values()" and "prop_value_aliases()" functions can be used as an alternative to
       this function; the first returning a simple list of the short bidi type names; and the
       second gets all the synonyms of a given bidi type name.

   compexcl()
       WARNING: Unicode discourages the use of this function or any of the alternative mechanisms
       listed in this section (the documentation of compexcl()), except internally in
       implementations of the Unicode Normalization Algorithm.  You should be using
       Unicode::Normalize directly instead of these.  Using these will likely lead to half-baked
       results.

           use Unicode::UCD 'compexcl';

           my $compexcl = compexcl(0x09dc);

       This routine returns "undef" if the Unicode version being used is so early that it doesn't
       have this property.

       compexcl() is included for backwards compatibility, but as of Perl 5.12 and more modern
       Unicode versions, for most purposes it is probably more convenient to use one of the
       following instead:

           my $compexcl = chr(0x09dc) =~ /\p{Comp_Ex};
           my $compexcl = chr(0x09dc) =~ /\p{Full_Composition_Exclusion};

       or even

           my $compexcl = chr(0x09dc) =~ /\p{CE};
           my $compexcl = chr(0x09dc) =~ /\p{Composition_Exclusion};

       The first two forms return true if the "code point argument" should not be produced by
       composition normalization.  For the final two forms to return true, it is additionally
       required that this fact not otherwise be determinable from the Unicode data base.

       This routine behaves identically to the final two forms.  That is, it does not return true
       if the code point has a decomposition consisting of another single code point, nor if its
       decomposition starts with a code point whose combining class is non-zero.  Code points
       that meet either of these conditions should also not be produced by composition
       normalization, which is probably why you should use the "Full_Composition_Exclusion"
       property instead, as shown above.

       The routine returns false otherwise.

   casefold()
           use Unicode::UCD 'casefold';

           my $casefold = casefold(0xDF);
           if (defined $casefold) {
               my @full_fold_hex = split / /, $casefold->{'full'};
               my $full_fold_string =
                           join "", map {chr(hex($_))} @full_fold_hex;
               my @turkic_fold_hex =
                               split / /, ($casefold->{'turkic'} ne "")
                                               ? $casefold->{'turkic'}
                                               : $casefold->{'full'};
               my $turkic_fold_string =
                               join "", map {chr(hex($_))} @turkic_fold_hex;
           }
           if (defined $casefold && $casefold->{'simple'} ne "") {
               my $simple_fold_hex = $casefold->{'simple'};
               my $simple_fold_string = chr(hex($simple_fold_hex));
           }

       This returns the (almost) locale-independent case folding of the character specified by
       the "code point argument".  (Starting in Perl v5.16, the core function fc() returns the
       "full" mapping (described below) faster than this does, and for entire strings.)

       If there is no case folding for the input code point, "undef" is returned.

       If there is a case folding for that code point, a reference to a hash with the following
       fields is returned:

       code
           the input native "code point argument" expressed in hexadecimal, with leading zeros
           added if necessary to make it contain at least four hexdigits

       full
           one or more codes (separated by spaces) that, taken in order, give the code points for
           the case folding for code.  Each has at least four hexdigits.

       simple
           is empty, or is exactly one code with at least four hexdigits which can be used as an
           alternative case folding when the calling program cannot cope with the fold being a
           sequence of multiple code points.  If full is just one code point, then simple equals
           full.  If there is no single code point folding defined for code, then simple is the
           empty string.  Otherwise, it is an inferior, but still better-than-nothing alternative
           folding to full.

       mapping
           is the same as simple if simple is not empty, and it is the same as full otherwise.
           It can be considered to be the simplest possible folding for code.  It is defined
           primarily for backwards compatibility.

       status
           is "C" (for "common") if the best possible fold is a single code point (simple equals
           full equals mapping).  It is "S" if there are distinct folds, simple and full (mapping
           equals simple).  And it is "F" if there is only a full fold (mapping equals full;
           simple is empty).  Note that this describes the contents of mapping.  It is defined
           primarily for backwards compatibility.

           For Unicode versions between 3.1 and 3.1.1 inclusive, status can also be "I" which is
           the same as "C" but is a special case for dotted uppercase I and dotless lowercase i:

           * If you use this "I" mapping
               the result is case-insensitive, but dotless and dotted I's are not distinguished

           * If you exclude this "I" mapping
               the result is not fully case-insensitive, but dotless and dotted I's are
               distinguished

       turkic
           contains any special folding for Turkic languages.  For versions of Unicode starting
           with 3.2, this field is empty unless code has a different folding in Turkic languages,
           in which case it is one or more codes (separated by spaces) that, taken in order, give
           the code points for the case folding for code in those languages.  Each code has at
           least four hexdigits.  Note that this folding does not maintain canonical equivalence
           without additional processing.

           For Unicode versions between 3.1 and 3.1.1 inclusive, this field is empty unless there
           is a special folding for Turkic languages, in which case status is "I", and mapping,
           full, simple, and turkic are all equal.

       Programs that want complete generality and the best folding results should use the folding
       contained in the full field.  But note that the fold for some code points will be a
       sequence of multiple code points.

       Programs that can't cope with the fold mapping being multiple code points can use the
       folding contained in the simple field, with the loss of some generality.  In Unicode 5.1,
       about 7% of the defined foldings have no single code point folding.

       The mapping and status fields are provided for backwards compatibility for existing
       programs.  They contain the same values as in previous versions of this function.

       Locale is not completely independent.  The turkic field contains results to use when the
       locale is a Turkic language.

       For more information about case mappings see <http://www.unicode.org/reports/tr21>

   all_casefolds()
           use Unicode::UCD 'all_casefolds';

           my $all_folds_ref = all_casefolds();
           foreach my $char_with_casefold (sort { $a <=> $b }
                                           keys %$all_folds_ref)
           {
               printf "%04X:", $char_with_casefold;
               my $casefold = $all_folds_ref->{$char_with_casefold};

               # Get folds for $char_with_casefold

               my @full_fold_hex = split / /, $casefold->{'full'};
               my $full_fold_string =
                           join "", map {chr(hex($_))} @full_fold_hex;
               print " full=", join " ", @full_fold_hex;
               my @turkic_fold_hex =
                               split / /, ($casefold->{'turkic'} ne "")
                                               ? $casefold->{'turkic'}
                                               : $casefold->{'full'};
               my $turkic_fold_string =
                               join "", map {chr(hex($_))} @turkic_fold_hex;
               print "; turkic=", join " ", @turkic_fold_hex;
               if (defined $casefold && $casefold->{'simple'} ne "") {
                   my $simple_fold_hex = $casefold->{'simple'};
                   my $simple_fold_string = chr(hex($simple_fold_hex));
                   print "; simple=$simple_fold_hex";
               }
               print "\n";
           }

       This returns all the case foldings in the current version of Unicode in the form of a
       reference to a hash.  Each key to the hash is the decimal representation of a Unicode
       character that has a casefold to other than itself.  The casefold of a semi-colon is
       itself, so it isn't in the hash; likewise for a lowercase "a", but there is an entry for a
       capital "A".  The hash value for each key is another hash, identical to what is returned
       by "casefold()" if called with that code point as its argument.  So the value
       "all_casefolds()->{ord("A")}'" is equivalent to "casefold(ord("A"))";

   casespec()
           use Unicode::UCD 'casespec';

           my $casespec = casespec(0xFB00);

       This returns the potentially locale-dependent case mappings of the "code point argument".
       The mappings may be longer than a single code point (which the basic Unicode case mappings
       as returned by "charinfo()" never are).

       If there are no case mappings for the "code point argument", or if all three possible
       mappings (lower, title and upper) result in single code points and are locale independent
       and unconditional, "undef" is returned (which means that the case mappings, if any, for
       the code point are those returned by "charinfo()").

       Otherwise, a reference to a hash giving the mappings (or a reference to a hash of such
       hashes, explained below) is returned with the following keys and their meanings:

       The keys in the bottom layer hash with the meanings of their values are:

       code
           the input native "code point argument" expressed in hexadecimal, with leading zeros
           added if necessary to make it contain at least four hexdigits

       lower
           one or more codes (separated by spaces) that, taken in order, give the code points for
           the lower case of code.  Each has at least four hexdigits.

       title
           one or more codes (separated by spaces) that, taken in order, give the code points for
           the title case of code.  Each has at least four hexdigits.

       upper
           one or more codes (separated by spaces) that, taken in order, give the code points for
           the upper case of code.  Each has at least four hexdigits.

       condition
           the conditions for the mappings to be valid.  If "undef", the mappings are always
           valid.  When defined, this field is a list of conditions, all of which must be true
           for the mappings to be valid.  The list consists of one or more locales (see below)
           and/or contexts (explained in the next paragraph), separated by spaces.  (Other than
           as used to separate elements, spaces are to be ignored.)  Case distinctions in the
           condition list are not significant.  Conditions preceded by "NON_" represent the
           negation of the condition.

           A context is one of those defined in the Unicode standard.  For Unicode 5.1, they are
           defined in Section 3.13 "Default Case Operations" available at
           <http://www.unicode.org/versions/Unicode5.1.0/>.  These are for context-sensitive
           casing.

       The hash described above is returned for locale-independent casing, where at least one of
       the mappings has length longer than one.  If "undef" is returned, the code point may have
       mappings, but if so, all are length one, and are returned by "charinfo()".  Note that when
       this function does return a value, it will be for the complete set of mappings for a code
       point, even those whose length is one.

       If there are additional casing rules that apply only in certain locales, an additional key
       for each will be defined in the returned hash.  Each such key will be its locale name,
       defined as a 2-letter ISO 3166 country code, possibly followed by a "_" and a 2-letter ISO
       language code (possibly followed by a "_" and a variant code).  You can find the lists of
       all possible locales, see Locale::Country and Locale::Language.  (In Unicode 6.0, the only
       locales returned by this function are "lt", "tr", and "az".)

       Each locale key is a reference to a hash that has the form above, and gives the casing
       rules for that particular locale, which take precedence over the locale-independent ones
       when in that locale.

       If the only casing for a code point is locale-dependent, then the returned hash will not
       have any of the base keys, like "code", "upper", etc., but will contain only locale keys.

       For more information about case mappings see <http://www.unicode.org/reports/tr21/>

   namedseq()
           use Unicode::UCD 'namedseq';

           my $namedseq = namedseq("KATAKANA LETTER AINU P");
           my @namedseq = namedseq("KATAKANA LETTER AINU P");
           my %namedseq = namedseq();

       If used with a single argument in a scalar context, returns the string consisting of the
       code points of the named sequence, or "undef" if no named sequence by that name exists.
       If used with a single argument in a list context, it returns the list of the ordinals of
       the code points.

       If used with no arguments in a list context, it returns a hash with the names of all the
       named sequences as the keys and their sequences as strings as the values.  Otherwise, it
       returns "undef" or an empty list depending on the context.

       This function only operates on officially approved (not provisional) named sequences.

       Note that as of Perl 5.14, "\N{KATAKANA LETTER AINU P}" will insert the named sequence
       into double-quoted strings, and "charnames::string_vianame("KATAKANA LETTER AINU P")" will
       return the same string this function does, but will also operate on character names that
       aren't named sequences, without you having to know which are which.  See charnames.

   num()
           use Unicode::UCD 'num';

           my $val = num("123");
           my $one_quarter = num("\N{VULGAR FRACTION ONE QUARTER}");
           my $val = num("12a", \$valid_length);  # $valid_length contains 2

       num() returns the numeric value of the input Unicode string; or "undef" if it doesn't
       think the entire string has a completely valid, safe numeric value.  If called with an
       optional second parameter, a reference to a scalar, num() will set the scalar to the
       length of any valid initial substring; or to 0 if none.

       If the string is just one character in length, the Unicode numeric value is returned if it
       has one, or "undef" otherwise.  If the optional scalar ref is passed, it would be set to 1
       if the return is valid; or 0 if the return is "undef".  Note that the numeric value
       returned need not be a whole number.  "num("\N{TIBETAN DIGIT HALF ZERO}")", for example
       returns -0.5.

       If the string is more than one character, "undef" is returned unless all its characters
       are decimal digits (that is, they would match "\d+"), from the same script.  For example
       if you have an ASCII '0' and a Bengali '3', mixed together, they aren't considered a valid
       number, and "undef" is returned.  A further restriction is that the digits all have to be
       of the same form.  A half-width digit mixed with a full-width one will return "undef".
       The Arabic script has two sets of digits;  "num" will return "undef" unless all the digits
       in the string come from the same set.  In all cases, the optional scalar ref parameter is
       set to how long any valid initial substring of digits is; hence it will be set to the
       entire string length if the main return value is not "undef".

       "num" errs on the side of safety, and there may be valid strings of decimal digits that it
       doesn't recognize.  Note that Unicode defines a number of "digit" characters that aren't
       "decimal digit" characters.  "Decimal digits" have the property that they have a
       positional value, i.e., there is a units position, a 10's position, a 100's, etc, AND they
       are arranged in Unicode in blocks of 10 contiguous code points.  The Chinese digits, for
       example, are not in such a contiguous block, and so Unicode doesn't view them as decimal
       digits, but merely digits, and so "\d" will not match them.  A single-character string
       containing one of these digits will have its decimal value returned by "num", but any
       longer string containing only these digits will return "undef".

       Strings of multiple sub- and superscripts are not recognized as numbers.  You can use
       either of the compatibility decompositions in Unicode::Normalize to change these into
       digits, and then call "num" on the result.

   prop_aliases()
           use Unicode::UCD 'prop_aliases';

           my ($short_name, $full_name, @other_names) = prop_aliases("space");
           my $same_full_name = prop_aliases("Space");     # Scalar context
           my ($same_short_name) = prop_aliases("Space");  # gets 0th element
           print "The full name is $full_name\n";
           print "The short name is $short_name\n";
           print "The other aliases are: ", join(", ", @other_names), "\n";

           prints:
           The full name is White_Space
           The short name is WSpace
           The other aliases are: Space

       Most Unicode properties have several synonymous names.  Typically, there is at least a
       short name, convenient to type, and a long name that more fully describes the property,
       and hence is more easily understood.

       If you know one name for a Unicode property, you can use "prop_aliases" to find either the
       long name (when called in scalar context), or a list of all of the names, somewhat ordered
       so that the short name is in the 0th element, the long name in the next element, and any
       other synonyms are in the remaining elements, in no particular order.

       The long name is returned in a form nicely capitalized, suitable for printing.

       The input parameter name is loosely matched, which means that white space, hyphens, and
       underscores are ignored (except for the trailing underscore in the old_form grandfathered-
       in "L_", which is better written as "LC", and both of which mean "General_Category=Cased
       Letter").

       If the name is unknown, "undef" is returned (or an empty list in list context).  Note that
       Perl typically recognizes property names in regular expressions with an optional ""Is_""
       (with or without the underscore) prefixed to them, such as "\p{isgc=punct}".  This
       function does not recognize those in the input, returning "undef".  Nor are they included
       in the output as possible synonyms.

       "prop_aliases" does know about the Perl extensions to Unicode properties, such as "Any"
       and "XPosixAlpha", and the single form equivalents to Unicode properties such as "XDigit",
       "Greek", "In_Greek", and "Is_Greek".  The final example demonstrates that the "Is_" prefix
       is recognized for these extensions; it is needed to resolve ambiguities.  For example,
       prop_aliases('lc') returns the list "(lc, Lowercase_Mapping)", but prop_aliases('islc')
       returns "(Is_LC, Cased_Letter)".  This is because "islc" is a Perl extension which is
       short for "General_Category=Cased Letter".  The lists returned for the Perl extensions
       will not include the "Is_" prefix (whether or not the input had it) unless needed to
       resolve ambiguities, as shown in the "islc" example, where the returned list had one
       element containing "Is_", and the other without.

       It is also possible for the reverse to happen:  prop_aliases('isc') returns the list
       "(isc, ISO_Comment)"; whereas prop_aliases('c') returns "(C, Other)" (the latter being a
       Perl extension meaning "General_Category=Other".  "Properties accessible through
       Unicode::UCD" in perluniprops lists the available forms, including which ones are
       discouraged from use.

       Those discouraged forms are accepted as input to "prop_aliases", but are not returned in
       the lists.  prop_aliases('isL&') and prop_aliases('isL_'), which are old synonyms for
       "Is_LC" and should not be used in new code, are examples of this.  These both return
       "(Is_LC, Cased_Letter)".  Thus this function allows you to take a discouraged form, and
       find its acceptable alternatives.  The same goes with single-form Block property
       equivalences.  Only the forms that begin with "In_" are not discouraged; if you pass
       "prop_aliases" a discouraged form, you will get back the equivalent ones that begin with
       "In_".  It will otherwise look like a new-style block name (see.  "Old-style versus new-
       style block names").

       "prop_aliases" does not know about any user-defined properties, and will return "undef" if
       called with one of those.  Likewise for Perl internal properties, with the exception of
       "Perl_Decimal_Digit" which it does know about (and which is documented below in
       "prop_invmap()").

   prop_values()
           use Unicode::UCD 'prop_values';

           print "AHex values are: ", join(", ", prop_values("AHex")),
                                      "\n";
         prints:
           AHex values are: N, Y

       Some Unicode properties have a restricted set of legal values.  For example, all binary
       properties are restricted to just "true" or "false"; and there are only a few dozen
       possible General Categories.  Use "prop_values" to find out if a given property is one
       such, and if so, to get a list of the values:

           print join ", ", prop_values("NFC_Quick_Check");
         prints:
           M, N, Y

       If the property doesn't have such a restricted set, "undef" is returned.

       There are usually several synonyms for each possible value.  Use "prop_value_aliases()" to
       access those.

       Case, white space, hyphens, and underscores are ignored in the input property name (except
       for the trailing underscore in the old-form grandfathered-in general category property
       value "L_", which is better written as "LC").

       If the property name is unknown, "undef" is returned.  Note that Perl typically recognizes
       property names in regular expressions with an optional ""Is_"" (with or without the
       underscore) prefixed to them, such as "\p{isgc=punct}".  This function does not recognize
       those in the property parameter, returning "undef".

       For the block property, new-style block names are returned (see "Old-style versus new-
       style block names").

       "prop_values" does not know about any user-defined properties, and will return "undef" if
       called with one of those.

   prop_value_aliases()
           use Unicode::UCD 'prop_value_aliases';

           my ($short_name, $full_name, @other_names)
                                          = prop_value_aliases("Gc", "Punct");
           my $same_full_name = prop_value_aliases("Gc", "P");   # Scalar cntxt
           my ($same_short_name) = prop_value_aliases("Gc", "P"); # gets 0th
                                                                  # element
           print "The full name is $full_name\n";
           print "The short name is $short_name\n";
           print "The other aliases are: ", join(", ", @other_names), "\n";

         prints:
           The full name is Punctuation
           The short name is P
           The other aliases are: Punct

       Some Unicode properties have a restricted set of legal values.  For example, all binary
       properties are restricted to just "true" or "false"; and there are only a few dozen
       possible General Categories.

       You can use "prop_values()" to find out if a given property is one which has a restricted
       set of values, and if so, what those values are.  But usually each value actually has
       several synonyms.  For example, in Unicode binary properties, truth can be represented by
       any of the strings "Y", "Yes", "T", or "True"; and the General Category "Punctuation" by
       that string, or "Punct", or simply "P".

       Like property names, there is typically at least a short name for each such property-
       value, and a long name.  If you know any name of the property-value (which you can get by
       "prop_values()", you can use "prop_value_aliases"() to get the long name (when called in
       scalar context), or a list of all the names, with the short name in the 0th element, the
       long name in the next element, and any other synonyms in the remaining elements, in no
       particular order, except that any all-numeric synonyms will be last.

       The long name is returned in a form nicely capitalized, suitable for printing.

       Case, white space, hyphens, and underscores are ignored in the input parameters (except
       for the trailing underscore in the old-form grandfathered-in general category property
       value "L_", which is better written as "LC").

       If either name is unknown, "undef" is returned.  Note that Perl typically recognizes
       property names in regular expressions with an optional ""Is_"" (with or without the
       underscore) prefixed to them, such as "\p{isgc=punct}".  This function does not recognize
       those in the property parameter, returning "undef".

       If called with a property that doesn't have synonyms for its values, it returns the input
       value, possibly normalized with capitalization and underscores, but not necessarily
       checking that the input value is valid.

       For the block property, new-style block names are returned (see "Old-style versus new-
       style block names").

       To find the synonyms for single-forms, such as "\p{Any}", use "prop_aliases()" instead.

       "prop_value_aliases" does not know about any user-defined properties, and will return
       "undef" if called with one of those.

   prop_invlist()
       "prop_invlist" returns an inversion list (described below) that defines all the code
       points for the binary Unicode property (or "property=value" pair) given by the input
       parameter string:

        use feature 'say';
        use Unicode::UCD 'prop_invlist';
        say join ", ", prop_invlist("Any");

        prints:
        0, 1114112

       If the input is unknown "undef" is returned in scalar context; an empty-list in list
       context.  If the input is known, the number of elements in the list is returned if called
       in scalar context.

       perluniprops gives the list of properties that this function accepts, as well as all the
       possible forms for them (including with the optional "Is_" prefixes).  (Except this
       function doesn't accept any Perl-internal properties, some of which are listed there.)
       This function uses the same loose or tighter matching rules for resolving the input
       property's name as is done for regular expressions.  These are also specified in
       perluniprops.  Examples of using the "property=value" form are:

        say join ", ", prop_invlist("Script_Extensions=Shavian");

        prints:
        66640, 66688

        say join ", ", prop_invlist("ASCII_Hex_Digit=No");

        prints:
        0, 48, 58, 65, 71, 97, 103

        say join ", ", prop_invlist("ASCII_Hex_Digit=Yes");

        prints:
        48, 58, 65, 71, 97, 103

       Inversion lists are a compact way of specifying Unicode property-value definitions.  The
       0th item in the list is the lowest code point that has the property-value.  The next item
       (item [1]) is the lowest code point beyond that one that does NOT have the property-value.
       And the next item beyond that ([2]) is the lowest code point beyond that one that does
       have the property-value, and so on.  Put another way, each element in the list gives the
       beginning of a range that has the property-value (for even numbered elements), or doesn't
       have the property-value (for odd numbered elements).  The name for this data structure
       stems from the fact that each element in the list toggles (or inverts) whether the
       corresponding range is or isn't on the list.

       In the final example above, the first ASCII Hex digit is code point 48, the character "0",
       and all code points from it through 57 (a "9") are ASCII hex digits.  Code points 58
       through 64 aren't, but 65 (an "A") through 70 (an "F") are, as are 97 ("a") through 102
       ("f").  103 starts a range of code points that aren't ASCII hex digits.  That range
       extends to infinity, which on your computer can be found in the variable
       $Unicode::UCD::MAX_CP.  (This variable is as close to infinity as Perl can get on your
       platform, and may be too high for some operations to work; you may wish to use a smaller
       number for your purposes.)

       Note that the inversion lists returned by this function can possibly include non-Unicode
       code points, that is anything above 0x10FFFF.  Unicode properties are not defined on such
       code points.  You might wish to change the output to not include these.  Simply add
       0x110000 at the end of the non-empty returned list if it isn't already that value; and pop
       that value if it is; like:

        my @list = prop_invlist("foo");
        if (@list) {
            if ($list[-1] == 0x110000) {
                pop @list;  # Defeat the turning on for above Unicode
            }
            else {
                push @list, 0x110000; # Turn off for above Unicode
            }
        }

       It is a simple matter to expand out an inversion list to a full list of all code points
       that have the property-value:

        my @invlist = prop_invlist($property_name);
        die "empty" unless @invlist;
        my @full_list;
        for (my $i = 0; $i < @invlist; $i += 2) {
           my $upper = ($i + 1) < @invlist
                       ? $invlist[$i+1] - 1      # In range
                       : $Unicode::UCD::MAX_CP;  # To infinity.
           for my $j ($invlist[$i] .. $upper) {
               push @full_list, $j;
           }
        }

       "prop_invlist" does not know about any user-defined nor Perl internal-only properties, and
       will return "undef" if called with one of those.

       The "search_invlist()" function is provided for finding a code point within an inversion
       list.

   prop_invmap()
        use Unicode::UCD 'prop_invmap';
        my ($list_ref, $map_ref, $format, $default)
                                             = prop_invmap("General Category");

       "prop_invmap" is used to get the complete mapping definition for a property, in the form
       of an inversion map.  An inversion map consists of two parallel arrays.  One is an ordered
       list of code points that mark range beginnings, and the other gives the value (or mapping)
       that all code points in the corresponding range have.

       "prop_invmap" is called with the name of the desired property.  The name is loosely
       matched, meaning that differences in case, white-space, hyphens, and underscores are not
       meaningful (except for the trailing underscore in the old-form grandfathered-in property
       "L_", which is better written as "LC", or even better, "Gc=LC").

       Many Unicode properties have more than one name (or alias).  "prop_invmap" understands all
       of these, including Perl extensions to them.  Ambiguities are resolved as described above
       for "prop_aliases()" (except if a property has both a complete mapping, and a binary
       "Y"/"N" mapping, then specifying the property name prefixed by "is" causes the binary one
       to be returned).  The Perl internal property "Perl_Decimal_Digit, described below, is also
       accepted.  An empty list is returned if the property name is unknown.  See "Properties
       accessible through Unicode::UCD" in perluniprops for the properties acceptable as inputs
       to this function.

       It is a fatal error to call this function except in list context.

       In addition to the two arrays that form the inversion map, "prop_invmap" returns two other
       values; one is a scalar that gives some details as to the format of the entries of the map
       array; the other is a default value, useful in maps whose format name begins with the
       letter "a", as described below in its subsection; and for specialized purposes, such as
       converting to another data structure, described at the end of this main section.

       This means that "prop_invmap" returns a 4 element list.  For example,

        my ($blocks_ranges_ref, $blocks_maps_ref, $format, $default)
                                                        = prop_invmap("Block");

       In this call, the two arrays will be populated as shown below (for Unicode 6.0):

        Index  @blocks_ranges  @blocks_maps
          0        0x0000      Basic Latin
          1        0x0080      Latin-1 Supplement
          2        0x0100      Latin Extended-A
          3        0x0180      Latin Extended-B
          4        0x0250      IPA Extensions
          5        0x02B0      Spacing Modifier Letters
          6        0x0300      Combining Diacritical Marks
          7        0x0370      Greek and Coptic
          8        0x0400      Cyrillic
         ...
        233        0x2B820     No_Block
        234        0x2F800     CJK Compatibility Ideographs Supplement
        235        0x2FA20     No_Block
        236        0xE0000     Tags
        237        0xE0080     No_Block
        238        0xE0100     Variation Selectors Supplement
        239        0xE01F0     No_Block
        240        0xF0000     Supplementary Private Use Area-A
        241        0x100000    Supplementary Private Use Area-B
        242        0x110000    No_Block

       The first line (with Index [0]) means that the value for code point 0 is "Basic Latin".
       The entry "0x0080" in the @blocks_ranges column in the second line means that the value
       from the first line, "Basic Latin", extends to all code points in the range from 0 up to
       but not including 0x0080, that is, through 127.  In other words, the code points from 0 to
       127 are all in the "Basic Latin" block.  Similarly, all code points in the range from
       0x0080 up to (but not including) 0x0100 are in the block named "Latin-1 Supplement", etc.
       (Notice that the return is the old-style block names; see "Old-style versus new-style
       block names").

       The final line (with Index [242]) means that the value for all code points above the legal
       Unicode maximum code point have the value "No_Block", which is the term Unicode uses for a
       non-existing block.

       The arrays completely specify the mappings for all possible code points.  The final
       element in an inversion map returned by this function will always be for the range that
       consists of all the code points that aren't legal Unicode, but that are expressible on the
       platform.  (That is, it starts with code point 0x110000, the first code point above the
       legal Unicode maximum, and extends to infinity.) The value for that range will be the same
       that any typical unassigned code point has for the specified property.  (Certain
       unassigned code points are not "typical"; for example the non-character code points, or
       those in blocks that are to be written right-to-left.  The above-Unicode range's value is
       not based on these atypical code points.)  It could be argued that, instead of treating
       these as unassigned Unicode code points, the value for this range should be "undef".  If
       you wish, you can change the returned arrays accordingly.

       The maps for almost all properties are simple scalars that should be interpreted as-is.
       These values are those given in the Unicode-supplied data files, which may be inconsistent
       as to capitalization and as to which synonym for a property-value is given.  The results
       may be normalized by using the "prop_value_aliases()" function.

       There are exceptions to the simple scalar maps.  Some properties have some elements in
       their map list that are themselves lists of scalars; and some special strings are returned
       that are not to be interpreted as-is.  Element [2] (placed into $format in the example
       above) of the returned four element list tells you if the map has any of these special
       elements or not, as follows:

       "s" means all the elements of the map array are simple scalars, with no special elements.
           Almost all properties are like this, like the "block" example above.

       "sl"
           means that some of the map array elements have the form given by "s", and the rest are
           lists of scalars.  For example, here is a portion of the output of calling
           "prop_invmap"() with the "Script Extensions" property:

            @scripts_ranges  @scripts_maps
                 ...
                 0x0953      Devanagari
                 0x0964      [ Bengali, Devanagari, Gurumukhi, Oriya ]
                 0x0966      Devanagari
                 0x0970      Common

           Here, the code points 0x964 and 0x965 are both used in Bengali, Devanagari, Gurmukhi,
           and Oriya, but no other scripts.

           The Name_Alias property is also of this form.  But each scalar consists of two
           components:  1) the name, and 2) the type of alias this is.  They are separated by a
           colon and a space.  In Unicode 6.1, there are several alias types:

           "correction"
               indicates that the name is a corrected form for the original name (which remains
               valid) for the same code point.

           "control"
               adds a new name for a control character.

           "alternate"
               is an alternate name for a character

           "figment"
               is a name for a character that has been documented but was never in any actual
               standard.

           "abbreviation"
               is a common abbreviation for a character

           The lists are ordered (roughly) so the most preferred names come before less preferred
           ones.

           For example,

            @aliases_ranges        @alias_maps
               ...
               0x009E        [ 'PRIVACY MESSAGE: control', 'PM: abbreviation' ]
               0x009F        [ 'APPLICATION PROGRAM COMMAND: control',
                               'APC: abbreviation'
                             ]
               0x00A0        'NBSP: abbreviation'
               0x00A1        ""
               0x00AD        'SHY: abbreviation'
               0x00AE        ""
               0x01A2        'LATIN CAPITAL LETTER GHA: correction'
               0x01A3        'LATIN SMALL LETTER GHA: correction'
               0x01A4        ""
               ...

           A map to the empty string means that there is no alias defined for the code point.

       "a" is like "s" in that all the map array elements are scalars, but here they are
           restricted to all being integers, and some have to be adjusted (hence the name "a") to
           get the correct result.  For example, in:

            my ($uppers_ranges_ref, $uppers_maps_ref, $format, $default)
                                     = prop_invmap("Simple_Uppercase_Mapping");

           the returned arrays look like this:

            @$uppers_ranges_ref    @$uppers_maps_ref   Note
                  0                      0
                 97                     65          'a' maps to 'A', b => B ...
                123                      0
                181                    924          MICRO SIGN => Greek Cap MU
                182                      0
                ...

           and $default is 0.

           Let's start with the second line.  It says that the uppercase of code point 97 is 65;
           or uc("a") == "A".  But the line is for the entire range of code points 97 through
           122.  To get the mapping for any code point in this range, you take the offset it has
           from the beginning code point of the range, and add that to the mapping for that first
           code point.  So, the mapping for 122 ("z") is derived by taking the offset of 122 from
           97 (=25) and adding that to 65, yielding 90 ("Z").  Likewise for everything in
           between.

           Requiring this simple adjustment allows the returned arrays to be significantly
           smaller than otherwise, up to a factor of 10, speeding up searching through them.

           Ranges that map to $default, "0", behave somewhat differently.  For these, each code
           point maps to itself.  So, in the first line in the example, "ord(uc(chr(0)))" is 0,
           "ord(uc(chr(1)))" is 1, ..  "ord(uc(chr(96)))" is 96.

       "al"
           means that some of the map array elements have the form given by "a", and the rest are
           ordered lists of code points.  For example, in:

            my ($uppers_ranges_ref, $uppers_maps_ref, $format, $default)
                                            = prop_invmap("Uppercase_Mapping");

           the returned arrays look like this:

            @$uppers_ranges_ref    @$uppers_maps_ref
                  0                      0
                 97                     65
                123                      0
                181                    924
                182                      0
                ...
               0x0149              [ 0x02BC 0x004E ]
               0x014A                    0
               0x014B                  330
                ...

           This is the full Uppercase_Mapping property (as opposed to the
           Simple_Uppercase_Mapping given in the example for format "a").  The only difference
           between the two in the ranges shown is that the code point at 0x0149 (LATIN SMALL
           LETTER N PRECEDED BY APOSTROPHE) maps to a string of two characters, 0x02BC (MODIFIER
           LETTER APOSTROPHE) followed by 0x004E (LATIN CAPITAL LETTER N).

           No adjustments are needed to entries that are references to arrays; each such entry
           will have exactly one element in its range, so the offset is always 0.

           The fourth (index [3]) element ($default) in the list returned for this format is 0.

       "ae"
           This is like "a", but some elements are the empty string, and should not be adjusted.
           The one internal Perl property accessible by "prop_invmap" is of this type:
           "Perl_Decimal_Digit" returns an inversion map which gives the numeric values that are
           represented by the Unicode decimal digit characters.  Characters that don't represent
           decimal digits map to the empty string, like so:

            @digits    @values
            0x0000       ""
            0x0030        0
            0x003A:      ""
            0x0660:       0
            0x066A:      ""
            0x06F0:       0
            0x06FA:      ""
            0x07C0:       0
            0x07CA:      ""
            0x0966:       0
            ...

           This means that the code points from 0 to 0x2F do not represent decimal digits; the
           code point 0x30 (DIGIT ZERO) represents 0;  code point 0x31, (DIGIT ONE), represents
           0+1-0 = 1; ... code point 0x39, (DIGIT NINE), represents 0+9-0 = 9; ... code points
           0x3A through 0x65F do not represent decimal digits; 0x660 (ARABIC-INDIC DIGIT ZERO),
           represents 0; ... 0x07C1 (NKO DIGIT ONE), represents 0+1-0 = 1 ...

           The fourth (index [3]) element ($default) in the list returned for this format is the
           empty string.

       "ale"
           is a combination of the "al" type and the "ae" type.  Some of the map array elements
           have the forms given by "al", and the rest are the empty string.  The property
           "NFKC_Casefold" has this form.  An example slice is:

            @$ranges_ref  @$maps_ref         Note
               ...
              0x00AA       97                FEMININE ORDINAL INDICATOR => 'a'
              0x00AB        0
              0x00AD                         SOFT HYPHEN => ""
              0x00AE        0
              0x00AF     [ 0x0020, 0x0304 ]  MACRON => SPACE . COMBINING MACRON
              0x00B0        0
              ...

           The fourth (index [3]) element ($default) in the list returned for this format is 0.

       "ar"
           means that all the elements of the map array are either rational numbers or the string
           "NaN", meaning "Not a Number".  A rational number is either an integer, or two
           integers separated by a solidus ("/").  The second integer represents the denominator
           of the division implied by the solidus, and is actually always positive, so it is
           guaranteed not to be 0 and to not be signed.  When the element is a plain integer
           (without the solidus), it may need to be adjusted to get the correct value by adding
           the offset, just as other "a" properties.  No adjustment is needed for fractions, as
           the range is guaranteed to have just a single element, and so the offset is always 0.

           If you want to convert the returned map to entirely scalar numbers, you can use
           something like this:

            my ($invlist_ref, $invmap_ref, $format) = prop_invmap($property);
            if ($format && $format eq "ar") {
                map { $_ = eval $_ if $_ ne 'NaN' } @$map_ref;
            }

           Here's some entries from the output of the property "Nv", which has format "ar".

            @numerics_ranges  @numerics_maps       Note
                   0x00           "NaN"
                   0x30             0           DIGIT 0 .. DIGIT 9
                   0x3A           "NaN"
                   0xB2             2           SUPERSCRIPTs 2 and 3
                   0xB4           "NaN"
                   0xB9             1           SUPERSCRIPT 1
                   0xBA           "NaN"
                   0xBC            1/4          VULGAR FRACTION 1/4
                   0xBD            1/2          VULGAR FRACTION 1/2
                   0xBE            3/4          VULGAR FRACTION 3/4
                   0xBF           "NaN"
                   0x660            0           ARABIC-INDIC DIGIT ZERO .. NINE
                   0x66A          "NaN"

           The fourth (index [3]) element ($default) in the list returned for this format is
           "NaN".

       "n" means the Name property.  All the elements of the map array are simple scalars, but
           some of them contain special strings that require more work to get the actual name.

           Entries such as:

            CJK UNIFIED IDEOGRAPH-<code point>

           mean that the name for the code point is "CJK UNIFIED IDEOGRAPH-" with the code point
           (expressed in hexadecimal) appended to it, like "CJK UNIFIED IDEOGRAPH-3403"
           (similarly for "CJK COMPATIBILITY IDEOGRAPH-<code point>").

           Also, entries like

            <hangul syllable>

           means that the name is algorithmically calculated.  This is easily done by the
           function "charnames::viacode(code)" in charnames.

           Note that for control characters ("Gc=cc"), Unicode's data files have the string
           ""<control>"", but the real name of each of these characters is the empty string.
           This function returns that real name, the empty string.  (There are names for these
           characters, but they are considered aliases, not the Name property name, and are
           contained in the "Name_Alias" property.)

       "ad"
           means the Decomposition_Mapping property.  This property is like "al" properties,
           except that one of the scalar elements is of the form:

            <hangul syllable>

           This signifies that this entry should be replaced by the decompositions for all the
           code points whose decomposition is algorithmically calculated.  (All of them are
           currently in one range and no others outside the range are likely to ever be added to
           Unicode; the "n" format has this same entry.)  These can be generated via the function
           Unicode::Normalize::NFD().

           Note that the mapping is the one that is specified in the Unicode data files, and to
           get the final decomposition, it may need to be applied recursively.  Unicode in fact
           discourages use of this property except internally in implementations of the Unicode
           Normalization Algorithm.

           The fourth (index [3]) element ($default) in the list returned for this format is 0.

       Note that a format begins with the letter "a" if and only the property it is for requires
       adjustments by adding the offsets in multi-element ranges.  For all these properties, an
       entry should be adjusted only if the map is a scalar which is an integer.  That is, it
       must match the regular expression:

           / ^ -? \d+ $ /xa

       Further, the first element in a range never needs adjustment, as the adjustment would be
       just adding 0.

       A binary search such as that provided by "search_invlist()", can be used to quickly find a
       code point in the inversion list, and hence its corresponding mapping.

       The final, fourth element (index [3], assigned to $default in the "block" example) in the
       four element list returned by this function is used with the "a" format types; it may also
       be useful for applications that wish to convert the returned inversion map data structure
       into some other, such as a hash.  It gives the mapping that most code points map to under
       the property.  If you establish the convention that any code point not explicitly listed
       in your data structure maps to this value, you can potentially make your data structure
       much smaller.  As you construct your data structure from the one returned by this
       function, simply ignore those ranges that map to this value.  For example, to convert to
       the data structure searchable by "charinrange()", you can follow this recipe for
       properties that don't require adjustments:

        my ($list_ref, $map_ref, $format, $default) = prop_invmap($property);
        my @range_list;

        # Look at each element in the list, but the -2 is needed because we
        # look at $i+1 in the loop, and the final element is guaranteed to map
        # to $default by prop_invmap(), so we would skip it anyway.
        for my $i (0 .. @$list_ref - 2) {
           next if $map_ref->[$i] eq $default;
           push @range_list, [ $list_ref->[$i],
                               $list_ref->[$i+1],
                               $map_ref->[$i]
                             ];
        }

        print charinrange(\@range_list, $code_point), "\n";

       With this, charinrange() will return "undef" if its input code point maps to $default.
       You can avoid this by omitting the "next" statement, and adding a line after the loop to
       handle the final element of the inversion map.

       Similarly, this recipe can be used for properties that do require adjustments:

        for my $i (0 .. @$list_ref - 2) {
           next if $map_ref->[$i] eq $default;

           # prop_invmap() guarantees that if the mapping is to an array, the
           # range has just one element, so no need to worry about adjustments.
           if (ref $map_ref->[$i]) {
               push @range_list,
                          [ $list_ref->[$i], $list_ref->[$i], $map_ref->[$i] ];
           }
           else {  # Otherwise each element is actually mapped to a separate
                   # value, so the range has to be split into single code point
                   # ranges.

               my $adjustment = 0;

               # For each code point that gets mapped to something...
               for my $j ($list_ref->[$i] .. $list_ref->[$i+1] -1 ) {

                   # ... add a range consisting of just it mapping to the
                   # original plus the adjustment, which is incremented for the
                   # next time through the loop, as the offset increases by 1
                   # for each element in the range
                   push @range_list,
                                    [ $j, $j, $map_ref->[$i] + $adjustment++ ];
               }
           }
        }

       Note that the inversion maps returned for the "Case_Folding" and "Simple_Case_Folding"
       properties do not include the Turkic-locale mappings.  Use "casefold()" for these.

       "prop_invmap" does not know about any user-defined properties, and will return "undef" if
       called with one of those.

       The returned values for the Perl extension properties, such as "Any" and "Greek" are
       somewhat misleading.  The values are either "Y" or ""N"".  All Unicode properties are
       bipartite, so you can actually use the "Y" or ""N"" in a Perl regular expression for
       these, like "qr/\p{ID_Start=Y/}" or "qr/\p{Upper=N/}".  But the Perl extensions aren't
       specified this way, only like "/qr/\p{Any}", etc.  You can't actually use the "Y" and
       ""N"" in them.

       Getting every available name

       Instead of reading the Unicode Database directly from files, as you were able to do for a
       long time, you are encouraged to use the supplied functions. So, instead of reading
       "Name.pl" directly, which changed formats in 5.32, and may do so again without notice in
       the future or even disappear, you ought to use "prop_invmap()" like this:

         my (%name, %cp, %cps, $n);
         # All codepoints
         foreach my $cat (qw( Name Name_Alias )) {
             my ($codepoints, $names, $format, $default) = prop_invmap($cat);
             # $format => "n", $default => ""
             foreach my $i (0 .. @$codepoints - 2) {
                 my ($cp, $n) = ($codepoints->[$i], $names->[$i]);
                 # If $n is a ref, the same codepoint has multiple names
                 foreach my $name (ref $n ? @$n : $n) {
                     $name{$cp} //= $name;
                     $cp{$name} //= $cp;
                 }
             }
         }
         # Named sequences
         {   my %ns = namedseq();
             foreach my $name (sort { $ns{$a} cmp $ns{$b} } keys %ns) {
                 $cp{$name} //= [ map { ord } split "" => $ns{$name} ];
             }
         }

   search_invlist()
        use Unicode::UCD qw(prop_invmap prop_invlist);
        use Unicode::UCD 'search_invlist';

        my @invlist = prop_invlist($property_name);
        print $code_point, ((search_invlist(\@invlist, $code_point) // -1) % 2)
                            ? " isn't"
                            : " is",
            " in $property_name\n";

        my ($blocks_ranges_ref, $blocks_map_ref) = prop_invmap("Block");
        my $index = search_invlist($blocks_ranges_ref, $code_point);
        print "$code_point is in block ", $blocks_map_ref->[$index], "\n";

       "search_invlist" is used to search an inversion list returned by "prop_invlist" or
       "prop_invmap" for a particular "code point argument".  "undef" is returned if the code
       point is not found in the inversion list (this happens only when it is not a legal "code
       point argument", or is less than the list's first element).  A warning is raised in the
       first instance.

       Otherwise, it returns the index into the list of the range that contains the code point.;
       that is, find "i" such that

           list[i]<= code_point < list[i+1].

       As explained in "prop_invlist()", whether a code point is in the list or not depends on if
       the index is even (in) or odd (not in).  And as explained in "prop_invmap()", the index is
       used with the returned parallel array to find the mapping.

   Unicode::UCD::UnicodeVersion
       This returns the version of the Unicode Character Database, in other words, the version of
       the Unicode standard the database implements.  The version is a string of numbers
       delimited by dots ('.').

   Blocks versus Scripts
       The difference between a block and a script is that scripts are closer to the linguistic
       notion of a set of code points required to represent languages, while block is more of an
       artifact of the Unicode code point numbering and separation into blocks of consecutive
       code points (so far the size of a block is some multiple of 16, like 128 or 256).

       For example the Latin script is spread over several blocks, such as "Basic Latin", "Latin
       1 Supplement", "Latin Extended-A", and "Latin Extended-B".  On the other hand, the Latin
       script does not contain all the characters of the "Basic Latin" block (also known as
       ASCII): it includes only the letters, and not, for example, the digits nor the
       punctuation.

       For blocks see <http://www.unicode.org/Public/UNIDATA/Blocks.txt>

       For scripts see UTR #24: <http://www.unicode.org/reports/tr24/>

   Matching Scripts and Blocks
       Scripts are matched with the regular-expression construct "\p{...}" (e.g. "\p{Tibetan}"
       matches characters of the Tibetan script), while "\p{Blk=...}" is used for blocks (e.g.
       "\p{Blk=Tibetan}" matches any of the 256 code points in the Tibetan block).

   Old-style versus new-style block names
       Unicode publishes the names of blocks in two different styles, though the two are
       equivalent under Unicode's loose matching rules.

       The original style uses blanks and hyphens in the block names (except for "No_Block"),
       like so:

        Miscellaneous Mathematical Symbols-B

       The newer style replaces these with underscores, like this:

        Miscellaneous_Mathematical_Symbols_B

       This newer style is consistent with the values of other Unicode properties.  To preserve
       backward compatibility, all the functions in Unicode::UCD that return block names (except
       as noted) return the old-style ones.  "prop_value_aliases()" returns the new-style and can
       be used to convert from old-style to new-style:

        my $new_style = prop_values_aliases("block", $old_style);

       Perl also has single-form extensions that refer to blocks, "In_Cyrillic", meaning
       "Block=Cyrillic".  These have always been written in the new style.

       To convert from new-style to old-style, follow this recipe:

        $old_style = charblock((prop_invlist("block=$new_style"))[0]);

       (which finds the range of code points in the block using "prop_invlist", gets the lower
       end of the range (0th element) and then looks up the old name for its block using
       "charblock").

       Note that starting in Unicode 6.1, many of the block names have shorter synonyms.  These
       are always given in the new style.

   Use with older Unicode versions
       The functions in this module work as well as can be expected when used on earlier Unicode
       versions.  But, obviously, they use the available data from that Unicode version.  For
       example, if the Unicode version predates the definition of the script property (Unicode
       3.1), then any function that deals with scripts is going to return "undef" for the script
       portion of the return value.

AUTHOR

       Jarkko Hietaniemi.  Now maintained by perl5 porters.