#!/usr/bin/perl -w
-
-#
-# mktables -- create the runtime Perl Unicode files (lib/unicore/**/*.pl)
-# from the Unicode database files (lib/unicore/*.txt).
-#
-
use strict;
+use Carp;
+
+##
+## mktables -- create the runtime Perl Unicode files (lib/unicore/**/*.pl)
+## from the Unicode database files (lib/unicore/*.txt).
+##
+
+mkdir("lib", 0755);
+mkdir("lib/gc_sc", 0755);
+mkdir("To", 0755);
+
+##
+## Process any args.
+##
+my $Verbose = 0;
+my $MakeTestScript = 0;
+
+while (@ARGV)
+{
+ my $arg = shift @ARGV;
+ if ($arg eq '-v') {
+ $Verbose = 1;
+ } elsif ($arg eq '-q') {
+ $Verbose = 0;
+ } elsif ($arg eq '-maketest') {
+ $MakeTestScript = 1;
+ } else {
+ die "usage: $0 [-v|-q] [-maketest]";
+ }
+}
my $LastUnicodeCodepoint = 0x10FFFF; # As of Unicode 3.1.1.
-mkdir("In", 0755);
-mkdir("Is", 0755);
-mkdir("To", 0755);
+my $HEADER=<<"EOF";
+# !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
+# This file is built by $0 from e.g. UnicodeData.txt.
+# Any changes made here will be lost!
-sub extend {
- my ($table, $last) = @_;
+EOF
+
+
+##
+## Given a filename and a reference to an array of lines,
+## write the lines to the file only if the contents have not changed.
+##
+sub WriteIfChanged($\@)
+{
+ my $file = shift;
+ my $lines = shift;
+
+ my $TextToWrite = join '', @$lines;
+ if (open IN, $file) {
+ local($/) = undef;
+ my $PreviousText = <IN>;
+ close IN;
+ if ($PreviousText eq $TextToWrite) {
+ print "$file unchanged.\n" if $Verbose;
+ return;
+ }
+ }
+ if (not open OUT, ">$file") {
+ die "$0: can't open $file for output: $!\n";
+ }
+ print "$file written.\n" if $Verbose;
- $table->[-1]->[1] = $last;
+ print OUT $TextToWrite;
+ close OUT;
}
-sub append {
- my ($table, $code, $name) = @_;
- if (@$table &&
- hex($table->[-1]->[1]) == hex($code) - 1 &&
- (!defined $name || $table->[-1]->[2] eq $name)) {
- extend($table, $code);
- } else {
- push @$table, [$code, $code, $name];
+##
+## The main datastructure (a "Table") represents a set of code points that
+## are part of a particular quality (that are part of \pL, \p{InGreek},
+## etc.). They are kept as ranges of code points (starting and ending of
+## each range).
+##
+## For example, a range ASCII LETTERS would be represented as:
+## [ [ 0x41 => 0x5A, 'UPPER' ],
+## [ 0x61 => 0x7A, 'LOWER, ] ]
+##
+sub RANGE_START() { 0 } ## index into range element
+sub RANGE_END() { 1 } ## index into range element
+sub RANGE_NAME() { 2 } ## index into range element
+
+## Conceptually, these should really be folded into the 'Table' objects
+my %TableInfo;
+my %TableDesc;
+my %FuzzyNames;
+my %AliasInfo;
+my %CanonicalToOrig;
+
+##
+## Turn something like
+## OLD-ITALIC
+## into
+## OldItalic
+##
+sub CanonicalName($)
+{
+ my $orig = shift;
+ my $name = lc $orig;
+ $name =~ s/(?<![a-z])(\w)/\u$1/g;
+ $name =~ s/[-_\s]+//g;
+
+ $CanonicalToOrig{$name} = $orig if not $CanonicalToOrig{$name};
+ return $name;
+}
+
+
+##
+## Store the alias definitions for later use.
+##
+my %PropertyAlias;
+my %PropValueAlias;
+
+my %PA_reverse;
+my %PVA_reverse;
+
+sub Build_Aliases()
+{
+ ##
+ ## Most of the work with aliases doesn't occur here,
+ ## but rather in utf8_heavy.pl, which uses utf8_pva.pl,
+ ## which contains just this function. However, this one
+ ##
+ ## -- japhy (2004/04/13)
+
+ open PA, "< PropertyAliases.txt"
+ or confess "Can't open PropertyAliases.txt: $!";
+ while (<PA>) {
+ s/#.*//;
+ s/\s+$//;
+ next if /^$/;
+
+ my ($abbrev, $name) = split /\s*;\s*/;
+ next if $abbrev eq "n/a";
+ $PropertyAlias{$abbrev} = $name;
+ $PA_reverse{$name} = $abbrev;
+ }
+ close PA;
+
+ open PVA, "< PropValueAliases.txt"
+ or confess "Can't open PropValueAliases.txt: $!";
+ while (<PVA>) {
+ s/#.*//;
+ s/\s+$//;
+ next if /^$/;
+
+ my ($prop, @data) = split /\s*;\s*/;
+
+ if ($prop eq 'ccc') {
+ $PropValueAlias{$prop}{$data[1]} = [ @data[0,2] ];
+ $PVA_reverse{$prop}{$data[2]} = [ @data[0,1] ];
+ }
+ else {
+ next if $data[0] eq "n/a";
+ $PropValueAlias{$prop}{$data[0]} = $data[1];
+ $PVA_reverse{$prop}{$data[1]} = $data[0];
+ }
}
+ close PVA;
}
-sub inverse {
- my ($table) = @_;
- my $inverse = [];
- my ($first, $last);
- if ($table->[0]->[0]) {
- $last = hex($table->[0]->[0]);
- push @$inverse, [ "0000",
- sprintf("%04X", $last - 1) ];
+
+##
+## Associates a property ("Greek", "Lu", "Assigned",...) with a Table.
+##
+## Called like:
+## New_Prop(In => 'Greek', $Table, Desc => 'Greek Block', Fuzzy => 1);
+##
+## Normally, these parameters are set when the Table is created (when the
+## Table->New constructor is called), but there are times when it needs to
+## be done after-the-fact...)
+##
+sub New_Prop($$$@)
+{
+ my $Type = shift; ## "Is" or "In";
+ my $Name = shift;
+ my $Table = shift;
+
+ ## remaining args are optional key/val
+ my %Args = @_;
+
+ my $Fuzzy = delete $Args{Fuzzy};
+ my $Desc = delete $Args{Desc}; # description
+
+ $Name = CanonicalName($Name) if $Fuzzy;
+
+ ## sanity check a few args
+ if (%Args or ($Type ne 'Is' and $Type ne 'In') or not ref $Table) {
+ confess "$0: bad args to New_Prop"
}
- for my $i (0..$#$table-1) {
- $first = defined $table->[$i ]->[1] ?
- hex($table->[$i ]->[1]) : 0;
- $last = defined $table->[$i + 1]->[0] ?
- hex($table->[$i + 1]->[0]) : $first;
- push @$inverse, [ sprintf("%04X", $first + 1),
- sprintf("%04X", $last - 1) ]
- unless $first + 1 == $last;
+
+ if (not $TableInfo{$Type}->{$Name})
+ {
+ $TableInfo{$Type}->{$Name} = $Table;
+ $TableDesc{$Type}->{$Name} = $Desc;
+ if ($Fuzzy) {
+ $FuzzyNames{$Type}->{$Name} = $Name;
+ }
}
- return $inverse;
}
-sub header {
- my $fh = shift;
- print $fh <<EOT;
-# !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
-# This file is built by $0 from e.g. Unicode.txt.
-# Any changes made here will be lost!
-EOT
+##
+## Creates a new Table object.
+##
+## Args are key/value pairs:
+## In => Name -- Name of "In" property to be associated with
+## Is => Name -- Name of "Is" property to be associated with
+## Fuzzy => Boolean -- True if name can be accessed "fuzzily"
+## Desc => String -- Description of the property
+##
+## No args are required.
+##
+sub Table::New
+{
+ my $class = shift;
+ my %Args = @_;
+
+ my $Table = bless [], $class;
+
+ my $Fuzzy = delete $Args{Fuzzy};
+ my $Desc = delete $Args{Desc};
+
+ for my $Type ('Is', 'In')
+ {
+ if (my $Name = delete $Args{$Type}) {
+ New_Prop($Type => $Name, $Table, Desc => $Desc, Fuzzy => $Fuzzy);
+ }
+ }
+
+ ## shouldn't have any left over
+ if (%Args) {
+ confess "$0: bad args to Table->New"
+ }
+
+ return $Table;
}
-sub begin {
- my $fh = shift;
+##
+## Returns true if the Table has no code points
+##
+sub Table::IsEmpty
+{
+ my $Table = shift; #self
+ return not @$Table;
+}
- print $fh <<EOT;
-return <<'END';
-EOT
+##
+## Returns true if the Table has code points
+##
+sub Table::NotEmpty
+{
+ my $Table = shift; #self
+ return @$Table;
}
-sub end {
- my $fh = shift;
-
- print $fh <<EOT;
-END
-EOT
-}
-
-sub flush {
- my ($table, $file) = @_;
- print "$file\n";
- if (open(my $fh, ">$file")) {
- header($fh);
- begin($fh);
- for my $i (@$table) {
- print $fh $i->[0], "\t",
- $i->[1] ne $i->[0] ? $i->[1] : "", "\t",
- defined $i->[2] ? $i->[2] : "", "\n";
- }
- end($fh);
- close($fh);
- } else {
- die "$0: $file: $!\n";
- }
+##
+## Returns the maximum code point currently in the table.
+##
+sub Table::Max
+{
+ my $Table = shift; #self
+ confess "oops" if $Table->IsEmpty; ## must have code points to have a max
+ return $Table->[-1]->[RANGE_END];
}
-#
-# The %In contains the mapping of the script/block name into a number.
-#
+##
+## Replaces the codepoints in the Table with those in the Table given
+## as an arg. (NOTE: this is not a "deep copy").
+##
+sub Table::Replace($$)
+{
+ my $Table = shift; #self
+ my $New = shift;
-my %In;
-my $InId = 0;
-my %InIn;
+ @$Table = @$New;
+}
-#
-# Read in the Unicode.txt, the main Unicode database.
-#
+##
+## Given a new code point, make the last range of the Table extend to
+## include the new (and all intervening) code points.
+##
+sub Table::Extend
+{
+ my $Table = shift; #self
+ my $codepoint = shift;
-my %Cat;
-my %General;
-my @General;
+ my $PrevMax = $Table->Max;
-if (open(my $Unicode, "Unicode.txt")) {
- my @Name;
- my @Bidi;
- my %Bidi;
- my @Comb;
- my @Deco;
- my %Deco;
- my %DC;
- my @Number;
- my @Mirrored;
- my %To;
- while (<$Unicode>) {
- next unless /^[0-9A-Fa-f]+;/;
- s/\s+$//;
+ confess "oops ($codepoint <= $PrevMax)" if $codepoint <= $PrevMax;
- my ($code, $name, $cat, $comb, $bidi, $deco,
- $decimal, $digit, $number,
- $mirrored, $unicode10, $comment,
- $upper, $lower, $title) = split(/\s*;\s*/);
-
- if ($name =~ /^<(.+), (First|Last)>$/) {
- $name = $1;
- if ($2 eq 'First') {
- append($General{$name} ||= [], $code, $name);
- } else {
- extend($General{$name} , $code);
- }
- unless (defined $In{$name}) {
- $In{$name} = $InId++;
- $InIn{$name} = $General{$name};
- }
- append($Cat{$cat} ||= [], $code);
- append($Cat{substr($cat, 0, 1)}
- ||= [], $code);
- } else {
- append(\@Name, $code, $name);
-
- append(\@General, $code, $cat);
-
- append($Cat{$cat} ||= [], $code);
- append($Cat{substr($cat, 0, 1)}
- ||= [], $code);
- # 005F: SPACING UNDERSCORE
- append($Cat{Word} ||= [], $code)
- if $cat =~ /^[LMN]/ or $code eq "005F";
- append($Cat{Alnum} ||= [], $code)
- if $cat =~ /^[LMN]/;
- append($Cat{Alpha} ||= [], $code)
- if $cat =~ /^[LM]/;
- # 0009: HORIZONTAL TABULATION
- # 000A: LINE FEED
- # 000B: VERTICAL TABULATION
- # 000C: FORM FEED
- # 000D: CARRIAGE RETURN
- # 0020: SPACE
- append($Cat{Space} ||= [], $code)
- if $cat =~ /^Z/ ||
- $code =~ /^(0009|000A|000B|000C|000D)$/;
- append($Cat{SpacePerl} ||= [], $code)
- if $cat =~ /^Z/ ||
- $code =~ /^(0009|000A|000C|000D)$/;
- append($Cat{Blank} ||= [], $code)
- if $code =~ /^(0020|0009)$/ ||
- $cat =~ /^Z[^lp]$/;
- append($Cat{Digit} ||= [], $code) if $cat eq "Nd";
- append($Cat{Upper} ||= [], $code) if $cat eq "Lu";
- append($Cat{Lower} ||= [], $code) if $cat eq "Ll";
- append($Cat{Title} ||= [], $code) if $cat eq "Lt";
- append($Cat{ASCII} ||= [], $code) if $code le "007F";
- append($Cat{Cntrl} ||= [], $code) if $cat =~ /^C/;
- append($Cat{Graph} ||= [], $code) if $cat =~ /^([LMNPS]|Co)/;
- append($Cat{Print} ||= [], $code) if $cat =~ /^([LMNPS]|Co|Zs)/;
- append($Cat{Punct} ||= [], $code) if $cat =~ /^P/;
- # 003[0-9]: DIGIT ZERO..NINE, 00[46][1-6]: A..F, a..f
- append($Cat{XDigit} ||= [], $code)
- if $code =~ /^00(3[0-9]|[46][1-6])$/;
-
- append($To{Upper} ||= [], $code, $upper) if $upper;
- append($To{Lower} ||= [], $code, $lower) if $lower;
- append($To{Title} ||= [], $code, $title) if $title;
- append($To{Digit} ||= [], $code, $decimal) if $decimal;
-
- append(\@Bidi, $code, $bidi);
- append($Bidi{$bidi} ||= [], $code);
-
- append(\@Comb, $code, $comb) if $comb;
-
- if ($deco) {
- append(\@Deco, $code, $deco);
- if ($deco =~/^<(\w+)>/) {
- append($Deco{Compat} ||= [], $code);
- append($DC{$1} ||= [], $code);
- } else {
- append($Deco{Canon} ||= [], $code);
- }
- }
-
- append(\@Number, $code, $number) if $number;
-
- append(\@Mirrored, $code) if $mirrored eq "Y";
- }
+ $Table->[-1]->[RANGE_END] = $codepoint;
+}
+
+##
+## Given a code point range start and end (and optional name), blindly
+## append them to the list of ranges for the Table.
+##
+## NOTE: Code points must be added in strictly ascending numeric order.
+##
+sub Table::RawAppendRange
+{
+ my $Table = shift; #self
+ my $start = shift;
+ my $end = shift;
+ my $name = shift;
+ $name = "" if not defined $name; ## warning: $name can be "0"
+
+ push @$Table, [ $start, # RANGE_START
+ $end, # RANGE_END
+ $name ]; # RANGE_NAME
+}
+
+##
+## Given a code point (and optional name), add it to the Table.
+##
+## NOTE: Code points must be added in strictly ascending numeric order.
+##
+sub Table::Append
+{
+ my $Table = shift; #self
+ my $codepoint = shift;
+ my $name = shift;
+ $name = "" if not defined $name; ## warning: $name can be "0"
+
+ ##
+ ## If we've already got a range working, and this code point is the next
+ ## one in line, and if the name is the same, just extend the current range.
+ ##
+ if ($Table->NotEmpty
+ and
+ $Table->Max == $codepoint - 1
+ and
+ $Table->[-1]->[RANGE_NAME] eq $name)
+ {
+ $Table->Extend($codepoint);
}
+ else
+ {
+ $Table->RawAppendRange($codepoint, $codepoint, $name);
+ }
+}
+
+##
+## Given a code point range starting value and ending value (and name),
+## Add the range to teh Table.
+##
+## NOTE: Code points must be added in strictly ascending numeric order.
+##
+sub Table::AppendRange
+{
+ my $Table = shift; #self
+ my $start = shift;
+ my $end = shift;
+ my $name = shift;
+ $name = "" if not defined $name; ## warning: $name can be "0"
+
+ $Table->Append($start, $name);
+ $Table->Extend($end) if $end > $start;
+}
- flush(\@Name, "Name.pl");
+##
+## Return a new Table that represents all code points not in the Table.
+##
+sub Table::Invert
+{
+ my $Table = shift; #self
+
+ my $New = Table->New();
+ my $max = -1;
+ for my $range (@$Table)
+ {
+ my $start = $range->[RANGE_START];
+ my $end = $range->[RANGE_END];
+ if ($start-1 >= $max+1) {
+ $New->AppendRange($max+1, $start-1, "");
+ }
+ $max = $end;
+ }
+ if ($max+1 < $LastUnicodeCodepoint) {
+ $New->AppendRange($max+1, $LastUnicodeCodepoint);
+ }
+ return $New;
+}
- foreach my $cat (sort keys %Cat) {
- flush($Cat{$cat}, "Is/$cat.pl");
+##
+## Merges any number of other tables with $self, returning the new table.
+## (existing tables are not modified)
+##
+##
+## Args may be Tables, or individual code points (as integers).
+##
+## Can be called as either a constructor or a method.
+##
+sub Table::Merge
+{
+ shift(@_) if not ref $_[0]; ## if called as a constructor, lose the class
+ my @Tables = @_;
+
+ ## Accumulate all records from all tables
+ my @Records;
+ for my $Arg (@Tables)
+ {
+ if (ref $Arg) {
+ ## arg is a table -- get its ranges
+ push @Records, @$Arg;
+ } else {
+ ## arg is a codepoint, make a range
+ push @Records, [ $Arg, $Arg ]
+ }
}
- foreach my $to (sort keys %To) {
- flush($To{$to}, "To/$to.pl");
+ ## sort by range start, with longer ranges coming first.
+ my ($first, @Rest) = sort {
+ ($a->[RANGE_START] <=> $b->[RANGE_START])
+ or
+ ($b->[RANGE_END] <=> $b->[RANGE_END])
+ } @Records;
+
+ my $New = Table->New();
+
+ ## Ensuring the first range is there makes the subsequent loop easier
+ $New->AppendRange($first->[RANGE_START],
+ $first->[RANGE_END]);
+
+ ## Fold in records so long as they add new information.
+ for my $set (@Rest)
+ {
+ my $start = $set->[RANGE_START];
+ my $end = $set->[RANGE_END];
+ if ($start > $New->Max) {
+ $New->AppendRange($start, $end);
+ } elsif ($end > $New->Max) {
+ $New->Extend($end);
+ }
}
- flush(\@Bidi, "Bidirectional.pl");
- foreach my $bidi (sort keys %Bidi) {
- flush($Bidi{$bidi}, "Is/Bidi$bidi.pl");
+ return $New;
+}
+
+##
+## Given a filename, write a representation of the Table to a file.
+## May have an optional comment as a 2nd arg.
+##
+sub Table::Write
+{
+ my $Table = shift; #self
+ my $filename = shift;
+ my $comment = shift;
+
+ my @OUT = $HEADER;
+ if (defined $comment) {
+ $comment =~ s/\s+\Z//;
+ $comment =~ s/^/# /gm;
+ push @OUT, "#\n$comment\n#\n";
+ }
+ push @OUT, "return <<'END';\n";
+
+ for my $set (@$Table)
+ {
+ my $start = $set->[RANGE_START];
+ my $end = $set->[RANGE_END];
+ my $name = $set->[RANGE_NAME];
+
+ if ($start == $end) {
+ push @OUT, sprintf "%04X\t\t%s\n", $start, $name;
+ } else {
+ push @OUT, sprintf "%04X\t%04X\t%s\n", $start, $end, $name;
+ }
}
- flush(\@Comb, "CombiningClass.pl");
+ push @OUT, "END\n";
- flush(\@Deco, "Decomposition.pl");
- foreach my $deco (sort keys %Deco) {
- flush($Deco{$deco}, "Is/Deco$deco.pl");
+ WriteIfChanged($filename, @OUT);
+}
+
+## This used only for making the test script.
+## helper function
+sub IsUsable($)
+{
+ my $code = shift;
+ return 0 if $code <= 0x0000; ## don't use null
+ return 0 if $code >= $LastUnicodeCodepoint; ## keep in range
+ return 0 if ($code >= 0xD800 and $code <= 0xDFFF); ## no surrogates
+ return 0 if ($code >= 0xFDD0 and $code <= 0xFDEF); ## utf8.c says no good
+ return 0 if (($code & 0xFFFF) == 0xFFFE); ## utf8.c says no good
+ return 0 if (($code & 0xFFFF) == 0xFFFF); ## utf8.c says no good
+ return 1;
+}
+
+## Return a code point that's part of the table.
+## Returns nothing if the table is empty (or covers only surrogates).
+## This used only for making the test script.
+sub Table::ValidCode
+{
+ my $Table = shift; #self
+ for my $set (@$Table) {
+ return $set->[RANGE_END] if IsUsable($set->[RANGE_END]);
}
- foreach my $dc (sort keys %DC) {
- flush($DC{$dc}, "Is/DC$dc.pl");
+ return ();
+}
+
+## Return a code point that's not part of the table
+## Returns nothing if the table covers all code points.
+## This used only for making the test script.
+sub Table::InvalidCode
+{
+ my $Table = shift; #self
+
+ return 0x1234 if $Table->IsEmpty();
+
+ for my $set (@$Table)
+ {
+ if (IsUsable($set->[RANGE_END] + 1))
+ {
+ return $set->[RANGE_END] + 1;
+ }
+
+ if (IsUsable($set->[RANGE_START] - 1))
+ {
+ return $set->[RANGE_START] - 1;
+ }
}
+ return ();
+}
- flush(\@Number, "Number.pl");
+###########################################################################
+###########################################################################
+###########################################################################
+
+
+##
+## Called like:
+## New_Alias(Is => 'All', SameAs => 'Any', Fuzzy => 1);
+##
+## The args must be in that order, although the Fuzzy pair may be omitted.
+##
+## This creates 'IsAll' as an alias for 'IsAny'
+##
+sub New_Alias($$$@)
+{
+ my $Type = shift; ## "Is" or "In"
+ my $Alias = shift;
+ my $SameAs = shift; # expecting "SameAs" -- just ignored
+ my $Name = shift;
+
+ ## remaining args are optional key/val
+ my %Args = @_;
+
+ my $Fuzzy = delete $Args{Fuzzy};
+
+ ## sanity check a few args
+ if (%Args or ($Type ne 'Is' and $Type ne 'In') or $SameAs ne 'SameAs') {
+ confess "$0: bad args to New_Alias"
+ }
+
+ $Alias = CanonicalName($Alias) if $Fuzzy;
+
+ if (not $TableInfo{$Type}->{$Name})
+ {
+ my $CName = CanonicalName($Name);
+ if ($TableInfo{$Type}->{$CName}) {
+ confess "$0: Use canonical form '$CName' instead of '$Name' for alias.";
+ } else {
+ confess "$0: don't have original $Type => $Name to make alias\n";
+ }
+ }
+ if ($TableInfo{$Alias}) {
+ confess "$0: already have original $Type => $Alias; can't make alias";
+ }
+ $AliasInfo{$Type}->{$Name} = $Alias;
+ if ($Fuzzy) {
+ $FuzzyNames{$Type}->{$Alias} = $Name;
+ }
- flush(\@Mirrored, "Is/Mirrored.pl");
-} else {
- die "$0: Unicode.txt: $!\n";
}
-# The general cateory can be written out already now.
-flush(\@General, "Category.pl");
+## All assigned code points
+my $Assigned = Table->New(Is => 'Assigned',
+ Desc => "All assigned code points",
+ Fuzzy => 0);
-#
-# Read in the LineBrk.txt.
-#
+my $Name = Table->New(); ## all characters, individually by name
+my $General = Table->New(); ## all characters, grouped by category
+my %General;
+my %Cat;
-if (open(my $LineBrk, "LineBrk.txt")) {
- my @Lbrk;
- my %Lbrk;
+##
+## Process UnicodeData.txt (Categories, etc.)
+##
+sub UnicodeData_Txt()
+{
+ my $Bidi = Table->New();
+ my $Deco = Table->New();
+ my $Comb = Table->New();
+ my $Number = Table->New();
+ my $Mirrored = Table->New();#Is => 'Mirrored',
+ #Desc => "Mirrored in bidirectional text",
+ #Fuzzy => 0);
- while (<$LineBrk>) {
- next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(\w+)/;
+ my %DC;
+ my %Bidi;
+ my %Number;
+ $DC{can} = Table->New();
+ $DC{com} = Table->New();
+
+ ## Initialize Perl-generated categories
+ ## (Categories from UnicodeData.txt are auto-initialized in gencat)
+ $Cat{Alnum} =
+ Table->New(Is => 'Alnum', Desc => "[[:Alnum:]]", Fuzzy => 0);
+ $Cat{Alpha} =
+ Table->New(Is => 'Alpha', Desc => "[[:Alpha:]]", Fuzzy => 0);
+ $Cat{ASCII} =
+ Table->New(Is => 'ASCII', Desc => "[[:ASCII:]]", Fuzzy => 0);
+ $Cat{Blank} =
+ Table->New(Is => 'Blank', Desc => "[[:Blank:]]", Fuzzy => 0);
+ $Cat{Cntrl} =
+ Table->New(Is => 'Cntrl', Desc => "[[:Cntrl:]]", Fuzzy => 0);
+ $Cat{Digit} =
+ Table->New(Is => 'Digit', Desc => "[[:Digit:]]", Fuzzy => 0);
+ $Cat{Graph} =
+ Table->New(Is => 'Graph', Desc => "[[:Graph:]]", Fuzzy => 0);
+ $Cat{Lower} =
+ Table->New(Is => 'Lower', Desc => "[[:Lower:]]", Fuzzy => 0);
+ $Cat{Print} =
+ Table->New(Is => 'Print', Desc => "[[:Print:]]", Fuzzy => 0);
+ $Cat{Punct} =
+ Table->New(Is => 'Punct', Desc => "[[:Punct:]]", Fuzzy => 0);
+ $Cat{Space} =
+ Table->New(Is => 'Space', Desc => "[[:Space:]]", Fuzzy => 0);
+ $Cat{Title} =
+ Table->New(Is => 'Title', Desc => "[[:Title:]]", Fuzzy => 0);
+ $Cat{Upper} =
+ Table->New(Is => 'Upper', Desc => "[[:Upper:]]", Fuzzy => 0);
+ $Cat{XDigit} =
+ Table->New(Is => 'XDigit', Desc => "[[:XDigit:]]", Fuzzy => 0);
+ $Cat{Word} =
+ Table->New(Is => 'Word', Desc => "[[:Word:]]", Fuzzy => 0);
+ $Cat{SpacePerl} =
+ Table->New(Is => 'SpacePerl', Desc => '\s', Fuzzy => 0);
- my ($first, $last, $lbrk) = ($1, $2, $3);
+ my %To;
+ $To{Upper} = Table->New();
+ $To{Lower} = Table->New();
+ $To{Title} = Table->New();
+ $To{Digit} = Table->New();
+
+ sub gencat($$$$)
+ {
+ my ($name, ## Name ("LATIN CAPITAL LETTER A")
+ $cat, ## Category ("Lu", "Zp", "Nd", etc.)
+ $code, ## Code point (as an integer)
+ $op) = @_;
+
+ my $MajorCat = substr($cat, 0, 1); ## L, M, Z, S, etc
+
+ $Assigned->$op($code);
+ $Name->$op($code, $name);
+ $General->$op($code, $cat);
+
+ ## add to the sub category (e.g. "Lu", "Nd", "Cf", ..)
+ $Cat{$cat} ||= Table->New(Is => $cat,
+ Desc => "General Category '$cat'",
+ Fuzzy => 0);
+ $Cat{$cat}->$op($code);
+
+ ## add to the major category (e.g. "L", "N", "C", ...)
+ $Cat{$MajorCat} ||= Table->New(Is => $MajorCat,
+ Desc => "Major Category '$MajorCat'",
+ Fuzzy => 0);
+ $Cat{$MajorCat}->$op($code);
+
+ ($General{$name} ||= Table->New)->$op($code, $name);
+
+ # 005F: SPACING UNDERSCORE
+ $Cat{Word}->$op($code) if $cat =~ /^[LMN]|Pc/;
+ $Cat{Alnum}->$op($code) if $cat =~ /^[LM]|Nd/;
+ $Cat{Alpha}->$op($code) if $cat =~ /^[LM]/;
+
+ my $isspace =
+ ($cat =~ /Zs|Zl|Zp/ &&
+ $code != 0x200B) # 200B is ZWSP which is for line break control
+ # and therefore it is not part of "space" even while it is "Zs".
+ || $code == 0x0009 # 0009: HORIZONTAL TAB
+ || $code == 0x000A # 000A: LINE FEED
+ || $code == 0x000B # 000B: VERTICAL TAB
+ || $code == 0x000C # 000C: FORM FEED
+ || $code == 0x000D # 000D: CARRIAGE RETURN
+ || $code == 0x0085 # 0085: NEL
+
+ ;
+
+ $Cat{Space}->$op($code) if $isspace;
+
+ $Cat{SpacePerl}->$op($code) if $isspace
+ && $code != 0x000B; # Backward compat.
+
+ $Cat{Blank}->$op($code) if $isspace
+ && !($code == 0x000A ||
+ $code == 0x000B ||
+ $code == 0x000C ||
+ $code == 0x000D ||
+ $code == 0x0085 ||
+ $cat =~ /^Z[lp]/);
+
+ $Cat{Digit}->$op($code) if $cat eq "Nd";
+ $Cat{Upper}->$op($code) if $cat eq "Lu";
+ $Cat{Lower}->$op($code) if $cat eq "Ll";
+ $Cat{Title}->$op($code) if $cat eq "Lt";
+ $Cat{ASCII}->$op($code) if $code <= 0x007F;
+ $Cat{Cntrl}->$op($code) if $cat =~ /^C/;
+ my $isgraph = !$isspace && $cat !~ /Cc|Cs|Cn/;
+ $Cat{Graph}->$op($code) if $isgraph;
+ $Cat{Print}->$op($code) if $isgraph || $isspace;
+ $Cat{Punct}->$op($code) if $cat =~ /^P/;
+
+ $Cat{XDigit}->$op($code) if ($code >= 0x30 && $code <= 0x39) ## 0..9
+ || ($code >= 0x41 && $code <= 0x46) ## A..F
+ || ($code >= 0x61 && $code <= 0x66); ## a..f
+ }
- append(\@Lbrk, $first, $lbrk);
- append($Lbrk{$lbrk} ||= [], $first);
- if (defined $last) {
- extend(\@Lbrk, $last);
- extend($Lbrk{$lbrk}, $last);
- }
+ ## open ane read file.....
+ if (not open IN, "UnicodeData.txt") {
+ die "$0: UnicodeData.txt: $!\n";
}
- flush(\@Lbrk, "Lbrk.pl");
- foreach my $lbrk (sort keys %Lbrk) {
- flush($Lbrk{$lbrk}, "Is/Lbrk$lbrk.pl");
+ ##
+ ## For building \p{_CombAbove} and \p{_CanonDCIJ}
+ ##
+ my %_Above_HexCodes; ## Hexcodes for chars with $comb == 230 ("ABOVE")
+
+ my %CodeToDeco; ## Maps code to decomp. list for chars with first
+ ## decomp. char an "i" or "j" (for \p{_CanonDCIJ})
+
+ ## This is filled in as we go....
+ my $CombAbove = Table->New(Is => '_CombAbove',
+ Desc => '(for internal casefolding use)',
+ Fuzzy => 0);
+
+ while (<IN>)
+ {
+ next unless /^[0-9A-Fa-f]+;/;
+ s/\s+$//;
+
+ my ($hexcode, ## code point in hex (e.g. "0041")
+ $name, ## character name (e.g. "LATIN CAPITAL LETTER A")
+ $cat, ## category (e.g. "Lu")
+ $comb, ## Canonical combining class (e.t. "230")
+ $bidi, ## directional category (e.g. "L")
+ $deco, ## decomposition mapping
+ $decimal, ## decimal digit value
+ $digit, ## digit value
+ $number, ## numeric value
+ $mirrored, ## mirrored
+ $unicode10, ## name in Unicode 1.0
+ $comment, ## comment field
+ $upper, ## uppercase mapping
+ $lower, ## lowercase mapping
+ $title, ## titlecase mapping
+ ) = split(/\s*;\s*/);
+
+ # Note that in Unicode 3.2 there will be names like
+ # LINE FEED (LF), which probably means that \N{} needs
+ # to cope also with LINE FEED and LF.
+ $name = $unicode10 if $name eq '<control>' && $unicode10 ne '';
+
+ my $code = hex($hexcode);
+
+ if ($comb and $comb == 230) {
+ $CombAbove->Append($code);
+ $_Above_HexCodes{$hexcode} = 1;
+ }
+
+ ## Used in building \p{_CanonDCIJ}
+ if ($deco and $deco =~ m/^006[9A]\b/) {
+ $CodeToDeco{$code} = $deco;
+ }
+
+ ##
+ ## There are a few pairs of lines like:
+ ## AC00;<Hangul Syllable, First>;Lo;0;L;;;;;N;;;;;
+ ## D7A3;<Hangul Syllable, Last>;Lo;0;L;;;;;N;;;;;
+ ## that define ranges.
+ ##
+ if ($name =~ /^<(.+), (First|Last)>$/)
+ {
+ $name = $1;
+ gencat($name, $cat, $code, $2 eq 'First' ? 'Append' : 'Extend');
+ #New_Prop(In => $name, $General{$name}, Fuzzy => 1);
+ }
+ else
+ {
+ ## normal (single-character) lines
+ gencat($name, $cat, $code, 'Append');
+
+ # No Append() here since since several codes may map into one.
+ $To{Upper}->RawAppendRange($code, $code, $upper) if $upper;
+ $To{Lower}->RawAppendRange($code, $code, $lower) if $lower;
+ $To{Title}->RawAppendRange($code, $code, $title) if $title;
+ $To{Digit}->Append($code, $decimal) if length $decimal;
+
+ $Bidi->Append($code, $bidi);
+ $Comb->Append($code, $comb) if $comb;
+ $Number->Append($code, $number) if length $number;
+
+ length($decimal) and ($Number{De} ||= Table->New())->Append($code)
+ or
+ length($digit) and ($Number{Di} ||= Table->New())->Append($code)
+ or
+ length($number) and ($Number{Nu} ||= Table->New())->Append($code);
+
+ $Mirrored->Append($code) if $mirrored eq "Y";
+
+ $Bidi{$bidi} ||= Table->New();#Is => "bt/$bidi",
+ #Desc => "Bi-directional category '$bidi'",
+ #Fuzzy => 0);
+ $Bidi{$bidi}->Append($code);
+
+ if ($deco)
+ {
+ $Deco->Append($code, $deco);
+ if ($deco =~/^<(\w+)>/)
+ {
+ my $dshort = $PVA_reverse{dt}{ucfirst lc $1};
+ $DC{com}->Append($code);
+
+ $DC{$dshort} ||= Table->New();
+ $DC{$dshort}->Append($code);
+ }
+ else
+ {
+ $DC{can}->Append($code);
+ }
+ }
+ }
+ }
+ close IN;
+
+ ##
+ ## Tidy up a few special cases....
+ ##
+
+ $Cat{Cn} = $Assigned->Invert; ## Cn is everything that doesn't exist
+ New_Prop(Is => 'Cn',
+ $Cat{Cn},
+ Desc => "General Category 'Cn' [not functional in Perl]",
+ Fuzzy => 0);
+
+ ## Unassigned is the same as 'Cn'
+ New_Alias(Is => 'Unassigned', SameAs => 'Cn', Fuzzy => 0);
+
+ $Cat{C}->Replace($Cat{C}->Merge($Cat{Cn})); ## Now merge in Cn into C
+
+
+ # LC is Ll, Lu, and Lt.
+ # (used to be L& or L_, but PropValueAliases.txt defines it as LC)
+ New_Prop(Is => 'LC',
+ Table->Merge(@Cat{qw[Ll Lu Lt]}),
+ Desc => '[\p{Ll}\p{Lu}\p{Lt}]',
+ Fuzzy => 0);
+
+ ## Any and All are all code points.
+ my $Any = Table->New(Is => 'Any',
+ Desc => sprintf("[\\x{0000}-\\x{%X}]",
+ $LastUnicodeCodepoint),
+ Fuzzy => 0);
+ $Any->RawAppendRange(0, $LastUnicodeCodepoint);
+
+ New_Alias(Is => 'All', SameAs => 'Any', Fuzzy => 0);
+
+ ##
+ ## Build special properties for Perl's internal case-folding needs:
+ ## \p{_CaseIgnorable}
+ ## \p{_CanonDCIJ}
+ ## \p{_CombAbove}
+ ## _CombAbove was built above. Others are built here....
+ ##
+
+ ## \p{_CaseIgnorable} is [\p{Mn}\0x00AD\x2010]
+ New_Prop(Is => '_CaseIgnorable',
+ Table->Merge($Cat{Mn},
+ 0x00AD, #SOFT HYPHEN
+ 0x2010), #HYPHEN
+ Desc => '(for internal casefolding use)',
+ Fuzzy => 0);
+
+
+ ## \p{_CanonDCIJ} is fairly complex...
+ my $CanonCDIJ = Table->New(Is => '_CanonDCIJ',
+ Desc => '(for internal casefolding use)',
+ Fuzzy => 0);
+ ## It contains the ASCII 'i' and 'j'....
+ $CanonCDIJ->Append(0x0069); # ASCII ord("i")
+ $CanonCDIJ->Append(0x006A); # ASCII ord("j")
+ ## ...and any character with a decomposition that starts with either of
+ ## those code points, but only if the decomposition does not have any
+ ## combining character with the "ABOVE" canonical combining class.
+ for my $code (sort { $a <=> $b} keys %CodeToDeco)
+ {
+ ## Need to ensure that all decomposition characters do not have
+ ## a %HexCodeToComb in %AboveCombClasses.
+ my $want = 1;
+ for my $deco_hexcode (split / /, $CodeToDeco{$code})
+ {
+ if (exists $_Above_HexCodes{$deco_hexcode}) {
+ ## one of the decmposition chars has an ABOVE combination
+ ## class, so we're not interested in this one
+ $want = 0;
+ last;
+ }
+ }
+ if ($want) {
+ $CanonCDIJ->Append($code);
+ }
}
-} else {
- die "$0: LineBrk.txt: $!\n";
-}
-#
-# Read in the ArabShap.txt.
-#
-if (open(my $ArabShap, "ArabShap.txt")) {
- my @ArabLink;
- my @ArabLinkGroup;
- while (<$ArabShap>) {
- next unless /^[0-9A-Fa-f]+;/;
- s/\s+$//;
+ ##
+ ## Now dump the files.
+ ##
+ $Name->Write("Name.pl");
- my ($code, $name, $link, $linkgroup) = split(/\s*;\s*/);
+ # $Bidi->Write("Bidirectional.pl");
+ mkdir("lib/bc", 0755);
+ for (keys %Bidi) {
+ $Bidi{$_}->Write(
+ "lib/bc/$_.pl",
+ "BidiClass category '$PropValueAlias{bc}{$_}'"
+ );
+ }
- append(\@ArabLink, $code, $link);
- append(\@ArabLinkGroup, $code, $linkgroup);
+ $Comb->Write("CombiningClass.pl");
+ mkdir("lib/ccc", 0755);
+ for (keys %{ $PropValueAlias{ccc} }) {
+ my ($code, $name) = @{ $PropValueAlias{ccc}{$_} };
+ (my $c = Table->New())->Append($code);
+ $c->Write(
+ "lib/ccc/$_.pl",
+ "CombiningClass category '$name'"
+ );
}
- flush(\@ArabLink, "ArabLink.pl");
- flush(\@ArabLinkGroup, "ArabLnkGrp.pl");
-} else {
- die "$0: ArabShap.txt: $!\n";
-}
+ $Deco->Write("Decomposition.pl");
+ mkdir("lib/dt", 0755);
+ for (keys %DC) {
+ $DC{$_}->Write(
+ "lib/dt/$_.pl",
+ "DecompositionType category '$PropValueAlias{dt}{$_}'"
+ );
+ }
-#
-# Read in the Jamo.txt.
-#
+ # $Number->Write("Number.pl");
+ mkdir("lib/nt", 0755);
+ for (keys %Number) {
+ $Number{$_}->Write(
+ "lib/nt/$_.pl",
+ "NumericType category '$PropValueAlias{nt}{$_}'"
+ );
+ }
-if (open(my $Jamo, "Jamo.txt")) {
- my @Short;
+ # $General->Write("Category.pl");
- while (<$Jamo>) {
- next unless /^([0-9A-Fa-f]+)\s*;\s*(\w*)/;
+ for my $to (sort keys %To) {
+ $To{$to}->Write("To/$to.pl");
+ }
- my ($code, $short) = ($1, $2);
+ for (keys %{ $PropValueAlias{gc} }) {
+ New_Alias(Is => $PropValueAlias{gc}{$_}, SameAs => $_, Fuzzy => 1);
+ }
+}
- append(\@Short, $code, $short);
+##
+## Process LineBreak.txt
+##
+sub LineBreak_Txt()
+{
+ if (not open IN, "LineBreak.txt") {
+ die "$0: LineBreak.txt: $!\n";
}
- flush(\@Short, "JamoShort.pl");
-} else {
- die "$0: Jamo.txt: $!\n";
-}
+ my $Lbrk = Table->New();
+ my %Lbrk;
-#
-# Read in the Scripts.txt.
-#
+ while (<IN>)
+ {
+ next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(\w+)/;
-my @Scripts;
+ my ($first, $last, $lbrk) = (hex($1), hex($2||""), $3);
-if (open(my $Scripts, "Scripts.txt")) {
- while (<$Scripts>) {
- next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(.+?)\s*\#/;
+ $Lbrk->Append($first, $lbrk);
- # Wait until all the scripts have been read since
- # they are not listed in numeric order.
- push @Scripts, [ hex($1), $1, $2, $3 ];
+ $Lbrk{$lbrk} ||= Table->New();
+ $Lbrk{$lbrk}->Append($first);
+
+ if ($last) {
+ $Lbrk->Extend($last);
+ $Lbrk{$lbrk}->Extend($last);
+ }
+ }
+ close IN;
+
+ # $Lbrk->Write("Lbrk.pl");
+
+ mkdir("lib/lb", 0755);
+
+ for (keys %Lbrk) {
+ $Lbrk{$_}->Write(
+ "lib/lb/$_.pl",
+ "Linebreak category '$PropValueAlias{lb}{$_}'"
+ );
}
-} else {
- die "$0: Scripts.txt: $!\n";
}
-# Now append the scripts properties in their code point order.
+##
+## Process ArabicShaping.txt.
+##
+sub ArabicShaping_txt()
+{
+ if (not open IN, "ArabicShaping.txt") {
+ die "$0: ArabicShaping.txt: $!\n";
+ }
+
+ my $ArabLink = Table->New();
+ my $ArabLinkGroup = Table->New();
+
+ my %JoinType;
-my %Script;
-my $Scripts = [];
+ while (<IN>)
+ {
+ next unless /^[0-9A-Fa-f]+;/;
+ s/\s+$//;
-for my $script (sort { $a->[0] <=> $b->[0] } @Scripts) {
- my ($code, $first, $last, $name) = @$script;
- append($Scripts, $first, $name);
- append($Script{$name} ||= [], $first, $name);
- if (defined $last) {
- extend($Scripts, $last);
- extend($Script{$name}, $last);
+ my ($hexcode, $name, $link, $linkgroup) = split(/\s*;\s*/);
+ my $code = hex($hexcode);
+ $ArabLink->Append($code, $link);
+ $ArabLinkGroup->Append($code, $linkgroup);
+
+ $JoinType{$link} ||= Table->New(Is => "JoinType$link");
+ $JoinType{$link}->Append($code);
}
- unless (defined $In{$name}) {
- $In{$name} = $InId++;
- $InIn{$name} = $Script{$name};
+ close IN;
+
+ # $ArabLink->Write("ArabLink.pl");
+ # $ArabLinkGroup->Write("ArabLnkGrp.pl");
+
+ mkdir("lib/jt", 0755);
+
+ for (keys %JoinType) {
+ $JoinType{$_}->Write(
+ "lib/jt/$_.pl",
+ "JoiningType category '$PropValueAlias{jt}{$_}'"
+ );
}
}
-# Scripts.pl can be written out already now.
+##
+## Process EastAsianWidth.txt.
+##
+sub EastAsianWidth_txt()
+{
+ if (not open IN, "EastAsianWidth.txt") {
+ die "$0: EastAsianWidth.txt: $!\n";
+ }
-flush(\@Scripts, "Scripts.pl");
+ my %EAW;
-# Common is everything not explicitly assigned to a Script
+ while (<IN>)
+ {
+ next unless /^[0-9A-Fa-f]+;/;
+ s/#.*//;
+ s/\s+$//;
-$In{Common} = $InId++;
-my $Common = inverse($Scripts);
-$InIn{Common} = $Common;
+ my ($hexcode, $pv) = split(/\s*;\s*/);
+ my $code = hex($hexcode);
+ $EAW{$pv} ||= Table->New(Is => "EastAsianWidth$pv");
+ $EAW{$pv}->Append($code);
+ }
+ close IN;
-#
-# Read in the Blocks.txt.
-#
+ mkdir("lib/ea", 0755);
-my @Blocks;
-my %Blocks;
-
-if (open(my $Blocks, "Blocks.txt")) {
- while (<$Blocks>) {
- next unless /^([0-9A-Fa-f]+)\.\.([0-9A-Fa-f]+)\s*;\s*(.+?)\s*$/;
-
- my ($first, $last, $name) = ($1, $2, $3);
-
- # If there's a naming conflict (the script names are
- # in uppercase), the name of the block has " Block"
- # appended to it.
- $name = "$name Block" if defined $In{"\U$name"};
-
- append(\@Blocks, $first, $name);
- append($Blocks{$name} ||= [], $first, $name);
- if (defined $last) {
- extend(\@Blocks, $last);
- extend($Blocks{$name}, $last);
- }
- unless (defined $In{$name}) {
- $In{$name} = $InId++;
- $InIn{$name} = $Blocks{$name};
- }
+ for (keys %EAW) {
+ $EAW{$_}->Write(
+ "lib/ea/$_.pl",
+ "EastAsianWidth category '$PropValueAlias{ea}{$_}'"
+ );
}
-} else {
- die "$0: Blocks.txt: $!\n";
}
-# Blocks.pl can be written out already now.
+##
+## Process HangulSyllableType.txt.
+##
+sub HangulSyllableType_txt()
+{
+ if (not open IN, "HangulSyllableType.txt") {
+ die "$0: HangulSyllableType.txt: $!\n";
+ }
-flush(\@Blocks, "Blocks.pl");
+ my %HST;
-#
-# Read in the PropList.txt. It contains extended properties not
-# listed in the Unicode.txt, such as 'Other_Alphabetic':
-# alphabetic but not of the general category L; many modifiers
-# belong to this extended property category: while they are not
-# alphabets, they are alphabetic in nature.
-#
+ while (<IN>)
+ {
+ next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(\w+)/;
+ my ($first, $last, $pv) = (hex($1), hex($2||""), $3);
-my @Props;
+ $HST{$pv} ||= Table->New(Is => "HangulSyllableType$pv");
+ $HST{$pv}->Append($first);
-if (open(my $Props, "PropList.txt")) {
- while (<$Props>) {
- next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(.+?)\s*\#/;
+ if ($last) { $HST{$pv}->Extend($last) }
+ }
+ close IN;
- # Wait until all the extended properties have been read since
- # they are not listed in numeric order.
- push @Props, [ hex($1), $1, $2, $3 ];
+ mkdir("lib/hst", 0755);
+
+ for (keys %HST) {
+ $HST{$_}->Write(
+ "lib/hst/$_.pl",
+ "HangulSyllableType category '$PropValueAlias{hst}{$_}'"
+ );
}
-} else {
- die "$0: PropList.txt: $!\n";
}
-# Now append the extended properties in their code point order.
+##
+## Process Jamo.txt.
+##
+sub Jamo_txt()
+{
+ if (not open IN, "Jamo.txt") {
+ die "$0: Jamo.txt: $!\n";
+ }
+ my $Short = Table->New();
+
+ while (<IN>)
+ {
+ next unless /^([0-9A-Fa-f]+)\s*;\s*(\w*)/;
+ my ($code, $short) = (hex($1), $2);
+
+ $Short->Append($code, $short);
+ }
+ close IN;
+ # $Short->Write("JamoShort.pl");
+}
+
+##
+## Process Scripts.txt.
+##
+sub Scripts_txt()
+{
+ my @ScriptInfo;
-my %Prop;
-my $Props = [];
+ if (not open(IN, "Scripts.txt")) {
+ die "$0: Scripts.txt: $!\n";
+ }
+ while (<IN>) {
+ next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(.+?)\s*\#/;
-for my $prop (sort { $a->[0] <=> $b->[0] } @Props) {
- my ($code, $first, $last, $name) = @$prop;
- append($Props, $first, $name);
- append($Prop{$name} ||= [], $first, $name);
- if (defined $last) {
- extend($Props, $last);
- extend($Prop{$name}, $last);
+ # Wait until all the scripts have been read since
+ # they are not listed in numeric order.
+ push @ScriptInfo, [ hex($1), hex($2||""), $3 ];
}
- unless (defined $In{$name}) {
- $In{$name} = $InId++;
- $InIn{$name} = $Prop{$name};
+ close IN;
+
+ # Now append the scripts properties in their code point order.
+
+ my %Script;
+ my $Scripts = Table->New();
+
+ for my $script (sort { $a->[0] <=> $b->[0] } @ScriptInfo)
+ {
+ my ($first, $last, $name) = @$script;
+ $Scripts->Append($first, $name);
+
+ $Script{$name} ||= Table->New(Is => $name,
+ Desc => "Script '$name'",
+ Fuzzy => 1);
+ $Script{$name}->Append($first, $name);
+
+ if ($last) {
+ $Scripts->Extend($last);
+ $Script{$name}->Extend($last);
+ }
}
+
+ # $Scripts->Write("Scripts.pl");
+
+ ## Common is everything not explicitly assigned to a Script
+ ##
+ ## ***shouldn't this be intersected with \p{Assigned}? ******
+ ##
+ New_Prop(Is => 'Common',
+ $Scripts->Invert,
+ Desc => 'Pseudo-Script of codepoints not in other Unicode scripts',
+ Fuzzy => 1);
}
-# Assigned is everything not Cn aka Noncharacter_Code_Point
+##
+## Given a name like "Close Punctuation", return a regex (that when applied
+## with /i) matches any valid form of that name (e.g. "ClosePunctuation",
+## "Close-Punctuation", etc.)
+##
+## Accept any space, dash, or underbar where in the official name there is
+## space or a dash (or underbar, but there never is).
+##
+##
+sub NameToRegex($)
+{
+ my $Name = shift;
+ $Name =~ s/[- _]/(?:[-_]|\\s+)?/g;
+ return $Name;
+}
-$In{Assigned} = $InId++;
-my $Assigned = inverse($Prop{Noncharacter_Code_Point});
-$InIn{Assigned} = $Assigned;
+##
+## Process Blocks.txt.
+##
+sub Blocks_txt()
+{
+ my $Blocks = Table->New();
+ my %Blocks;
-sub merge_general_and_extended {
- my ($name, $general, $extended) = @_;
- my $merged;
+ if (not open IN, "Blocks.txt") {
+ die "$0: Blocks.txt: $!\n";
+ }
- push @$merged,
- map { pop @{$_}; $_ }
- sort { $a->[2] <=> $b->[2] }
- map { [ $_->[0], $_->[1], hex($_->[0]) ] }
- ($general ?
- map { ref $_ ? @$_ : $_ }
- @Cat {ref $general ? @$general : $general } :
- (),
- $extended ?
- map { ref $_ ? @$_ : $_ }
- @Prop{ref $extended ? @$extended : $extended} :
- ());
+ while (<IN>)
+ {
+ #next if not /Private Use$/;
+ next if not /^([0-9A-Fa-f]+)\.\.([0-9A-Fa-f]+)\s*;\s*(.+?)\s*$/;
- $In{$name} = $InId++;
- $InIn{$name} = $merged;
-
- return $merged;
+ my ($first, $last, $name) = (hex($1), hex($2), $3);
+
+ $Blocks->Append($first, $name);
+
+ $Blocks{$name} ||= Table->New(In => $name,
+ Desc => "Block '$name'",
+ Fuzzy => 1);
+ $Blocks{$name}->Append($first, $name);
+
+ if ($last and $last != $first) {
+ $Blocks->Extend($last);
+ $Blocks{$name}->Extend($last);
+ }
+ }
+ close IN;
+
+ # $Blocks->Write("Blocks.pl");
}
-# Alphabetic is L and Other_Alphabetic.
+##
+## Read in the PropList.txt. It contains extended properties not
+## listed in the UnicodeData.txt, such as 'Other_Alphabetic':
+## alphabetic but not of the general category L; many modifiers
+## belong to this extended property category: while they are not
+## alphabets, they are alphabetic in nature.
+##
+sub PropList_txt()
+{
+ my @PropInfo;
+
+ if (not open IN, "PropList.txt") {
+ die "$0: PropList.txt: $!\n";
+ }
-my $Alphabetic =
- merge_general_and_extended('Alphabetic', 'L', 'Other_Alphabetic');
+ while (<IN>)
+ {
+ next unless /^([0-9A-Fa-f]+)(?:\.\.([0-9A-Fa-f]+))?\s*;\s*(.+?)\s*\#/;
-# Lowercase is Ll and Other_Lowercase.
+ # Wait until all the extended properties have been read since
+ # they are not listed in numeric order.
+ push @PropInfo, [ hex($1), hex($2||""), $3 ];
+ }
+ close IN;
+
+ # Now append the extended properties in their code point order.
+ my $Props = Table->New();
+ my %Prop;
+
+ for my $prop (sort { $a->[0] <=> $b->[0] } @PropInfo)
+ {
+ my ($first, $last, $name) = @$prop;
+ $Props->Append($first, $name);
+
+ $Prop{$name} ||= Table->New(Is => $name,
+ Desc => "Extended property '$name'",
+ Fuzzy => 1);
+ $Prop{$name}->Append($first, $name);
+
+ if ($last) {
+ $Props->Extend($last);
+ $Prop{$name}->Extend($last);
+ }
+ }
-my $Lowercase =
- merge_general_and_extended('Lowercase', 'Ll', 'Other_Lowercase');
+ for (keys %Prop) {
+ (my $file = $PA_reverse{$_}) =~ tr/_//d;
+ $Prop{$_}->Write(
+ "lib/gc_sc/$file.pl",
+ "Binary property '$_'"
+ );
+ }
-# Uppercase is Lu and Other_Uppercase.
+ # Alphabetic is L and Other_Alphabetic.
+ New_Prop(Is => 'Alphabetic',
+ Table->Merge($Cat{L}, $Prop{Other_Alphabetic}),
+ Desc => '[\p{L}\p{OtherAlphabetic}]', # use canonical names here
+ Fuzzy => 1);
+
+ # Lowercase is Ll and Other_Lowercase.
+ New_Prop(Is => 'Lowercase',
+ Table->Merge($Cat{Ll}, $Prop{Other_Lowercase}),
+ Desc => '[\p{Ll}\p{OtherLowercase}]', # use canonical names here
+ Fuzzy => 1);
+
+ # Uppercase is Lu and Other_Uppercase.
+ New_Prop(Is => 'Uppercase',
+ Table->Merge($Cat{Lu}, $Prop{Other_Uppercase}),
+ Desc => '[\p{Lu}\p{Other_Uppercase}]', # use canonical names here
+ Fuzzy => 1);
+
+ # Math is Sm and Other_Math.
+ New_Prop(Is => 'Math',
+ Table->Merge($Cat{Sm}, $Prop{Other_Math}),
+ Desc => '[\p{Sm}\p{OtherMath}]', # use canonical names here
+ Fuzzy => 1);
+
+ # ID_Start is Ll, Lu, Lt, Lm, Lo, and Nl.
+ New_Prop(Is => 'ID_Start',
+ Table->Merge(@Cat{qw[Ll Lu Lt Lm Lo Nl]}),
+ Desc => '[\p{Ll}\p{Lu}\p{Lt}\p{Lm}\p{Lo}\p{Nl}]',
+ Fuzzy => 1);
+
+ # ID_Continue is ID_Start, Mn, Mc, Nd, and Pc.
+ New_Prop(Is => 'ID_Continue',
+ Table->Merge(@Cat{qw[Ll Lu Lt Lm Lo Nl Mn Mc Nd Pc ]}),
+ Desc => '[\p{ID_Start}\p{Mn}\p{Mc}\p{Nd}\p{Pc}]',
+ Fuzzy => 1);
+}
-my $Uppercase =
- merge_general_and_extended('Uppercase', 'Lu', 'Other_Uppercase');
-# Math is Sm and Other_Math.
+##
+## These are used in:
+## MakePropTestScript()
+## WriteAllMappings()
+## for making the test script.
+##
+my %FuzzyNameToTest;
+my %ExactNameToTest;
+
+
+## This used only for making the test script
+sub GenTests($$$$)
+{
+ my $FH = shift;
+ my $Prop = shift;
+ my $MatchCode = shift;
+ my $FailCode = shift;
+
+ if (defined $MatchCode) {
+ printf $FH qq/Expect(1, "\\x{%04X}", '\\p{$Prop}' );\n/, $MatchCode;
+ printf $FH qq/Expect(0, "\\x{%04X}", '\\p{^$Prop}');\n/, $MatchCode;
+ printf $FH qq/Expect(0, "\\x{%04X}", '\\P{$Prop}' );\n/, $MatchCode;
+ printf $FH qq/Expect(1, "\\x{%04X}", '\\P{^$Prop}');\n/, $MatchCode;
+ }
+ if (defined $FailCode) {
+ printf $FH qq/Expect(0, "\\x{%04X}", '\\p{$Prop}' );\n/, $FailCode;
+ printf $FH qq/Expect(1, "\\x{%04X}", '\\p{^$Prop}');\n/, $FailCode;
+ printf $FH qq/Expect(1, "\\x{%04X}", '\\P{$Prop}' );\n/, $FailCode;
+ printf $FH qq/Expect(0, "\\x{%04X}", '\\P{^$Prop}');\n/, $FailCode;
+ }
+}
-my $Math =
- merge_general_and_extended('Math', 'Sm', 'Other_Math');
+## This used only for making the test script
+sub ExpectError($$)
+{
+ my $FH = shift;
+ my $prop = shift;
-# Lampersand is Ll, Lu, and Lt.
+ print $FH qq/Error('\\p{$prop}');\n/;
+ print $FH qq/Error('\\P{$prop}');\n/;
+}
-my $Lampersand =
- merge_general_and_extended('Lampersand', [ qw(Ll Lu Lt) ]);
+## This used only for making the test script
+my @GoodSeps = (
+ " ",
+ "-",
+ " \t ",
+ "",
+ "",
+ "_",
+ );
+my @BadSeps = (
+ "--",
+ "__",
+ " _",
+ "/"
+ );
+
+## This used only for making the test script
+sub RandomlyFuzzifyName($;$)
+{
+ my $Name = shift;
+ my $WantError = shift; ## if true, make an error
+
+ my @parts;
+ for my $part (split /[-\s_]+/, $Name)
+ {
+ if (@parts) {
+ if ($WantError and rand() < 0.3) {
+ push @parts, $BadSeps[rand(@BadSeps)];
+ $WantError = 0;
+ } else {
+ push @parts, $GoodSeps[rand(@GoodSeps)];
+ }
+ }
+ my $switch = int rand(4);
+ if ($switch == 0) {
+ push @parts, uc $part;
+ } elsif ($switch == 1) {
+ push @parts, lc $part;
+ } elsif ($switch == 2) {
+ push @parts, ucfirst $part;
+ } else {
+ push @parts, $part;
+ }
+ }
+ my $new = join('', @parts);
+
+ if ($WantError) {
+ if (rand() >= 0.5) {
+ $new .= $BadSeps[rand(@BadSeps)];
+ } else {
+ $new = $BadSeps[rand(@BadSeps)] . $new;
+ }
+ }
+ return $new;
+}
-# ID_Start is Ll, Lu, Lt, Lm, Lo, and Nl.
+## This used only for making the test script
+sub MakePropTestScript()
+{
+ ## this written directly -- it's huge.
+ if (not open OUT, ">TestProp.pl") {
+ die "$0: TestProp.pl: $!\n";
+ }
+ print OUT <DATA>;
-my $ID_Start =
- merge_general_and_extended('ID_Start', [ qw(Ll Lu Lt Lm Lo Nl) ]);
+ while (my ($Name, $Table) = each %ExactNameToTest)
+ {
+ GenTests(*OUT, $Name, $Table->ValidCode, $Table->InvalidCode);
+ ExpectError(*OUT, uc $Name) if uc $Name ne $Name;
+ ExpectError(*OUT, lc $Name) if lc $Name ne $Name;
+ }
-# ID_Continue is ID_Start, Mn, Mc, Nd, and Pc.
-my $ID_Continue =
- merge_general_and_extended('ID_Continue', [ qw(Ll Lu Lt Lm Lo Nl
- Mn Mc Nd Pc) ]);
+ while (my ($Name, $Table) = each %FuzzyNameToTest)
+ {
+ my $Orig = $CanonicalToOrig{$Name};
+ my %Names = (
+ $Name => 1,
+ $Orig => 1,
+ RandomlyFuzzifyName($Orig) => 1
+ );
-#
-# Any is any.
-#
+ for my $N (keys %Names) {
+ GenTests(*OUT, $N, $Table->ValidCode, $Table->InvalidCode);
+ }
-$In{Any} = $InId++;
-my $Any = [ [ 0, sprintf("%04X", $LastUnicodeCodepoint) ] ];
-$InIn{Any} = $Any;
+ ExpectError(*OUT, RandomlyFuzzifyName($Orig, 'ERROR'));
+ }
-#
-# mapping() will be used to write out the In and Is virtual mappings.
-#
+ print OUT "Finished();\n";
+ close OUT;
+}
-sub mapping {
- my ($map, $name) = @_;
-
- if (open(my $fh, ">$name.pl")) {
- print "$name.pl\n";
- header($fh);
-
- # The %pat will hold a hash that maps the first two
- # lowercased letters of a class to a 'fuzzified' regular
- # expression that points to the real mapping.
-
- my %pat;
-
- # But first write out the offical name to real name
- # (the filename) mapping.
-
- print $fh <<EOT;
-%utf8::${name} =
-(
-EOT
- for my $i (sort { lc $a cmp lc $b } keys %$map) {
- my $pat = $i;
- # Here is the 'fuzzification': accept any space,
- # dash, or underbar where in the official name
- # there is space or a dash (or underbar, but
- # there never is).
- $pat =~ s/([- _])/(?:[-_]|\\s+)?/g;
- # The prefix length of 2 is enough spread,
- # and besides, we have 'Yi' as an In category.
- push @{$pat{lc(substr($i, 0, 2))}}, [ $i, $pat ];
- printf $fh "%-45s => '$map->{$i}',\n", "'$i'";
- }
- print $fh <<EOT;
-);
-EOT
-
- # Now write out the %pat mapping.
-
- print $fh <<EOT;
-%utf8::${name}Pat =
-(
-EOT
- foreach my $prefix (sort keys %pat) {
- print $fh "'$prefix' => {\n";
- foreach my $ipat (@{$pat{$prefix}}) {
- my ($i, $pat) = @$ipat;
- print $fh "\t'$pat' => '$map->{$i}',\n";
- }
- print $fh "},\n";
- }
- print $fh <<EOT;
-);
-EOT
- close($fh);
- } else {
- die "$0: $name.pl: $!\n";
+##
+## These are used only in:
+## RegisterFileForName()
+## WriteAllMappings()
+##
+my %Exact; ## will become %utf8::Exact;
+my %Canonical; ## will become %utf8::Canonical;
+my %CaComment; ## Comment for %Canonical entry of same key
+
+##
+## Given info about a name and a datafile that it should be associated with,
+## register that assocation in %Exact and %Canonical.
+sub RegisterFileForName($$$$)
+{
+ my $Type = shift;
+ my $Name = shift;
+ my $IsFuzzy = shift;
+ my $filename = shift;
+
+ ##
+ ## Now in details for the mapping. $Type eq 'Is' has the
+ ## Is removed, as it will be removed in utf8_heavy when this
+ ## data is being checked. In keeps its "In", but a second
+ ## sans-In record is written if it doesn't conflict with
+ ## anything already there.
+ ##
+ if (not $IsFuzzy)
+ {
+ if ($Type eq 'Is') {
+ die "oops[$Name]" if $Exact{$Name};
+ $Exact{$Name} = $filename;
+ } else {
+ die "oops[$Type$Name]" if $Exact{"$Type$Name"};
+ $Exact{"$Type$Name"} = $filename;
+ $Exact{$Name} = $filename if not $Exact{$Name};
+ }
+ }
+ else
+ {
+ my $CName = lc $Name;
+ if ($Type eq 'Is') {
+ die "oops[$CName]" if $Canonical{$CName};
+ $Canonical{$CName} = $filename;
+ $CaComment{$CName} = $Name if $Name =~ tr/A-Z// >= 2;
+ } else {
+ die "oops[$Type$CName]" if $Canonical{lc "$Type$CName"};
+ $Canonical{lc "$Type$CName"} = $filename;
+ $CaComment{lc "$Type$CName"} = "$Type$Name";
+ if (not $Canonical{$CName}) {
+ $Canonical{$CName} = $filename;
+ $CaComment{$CName} = "$Type$Name";
+ }
+ }
}
}
-#
-# Write out the virtual In mappings.
-#
+##
+## Writes the info accumulated in
+##
+## %TableInfo;
+## %FuzzyNames;
+## %AliasInfo;
+##
+##
+sub WriteAllMappings()
+{
+ my @MAP;
+
+ my %BaseNames; ## Base names already used (for avoiding 8.3 conflicts)
+
+ ## 'Is' *MUST* come first, so its names have precidence over 'In's
+ for my $Type ('Is', 'In')
+ {
+ my %RawNameToFile; ## a per-$Type cache
+
+ for my $Name (sort {length $a <=> length $b} keys %{$TableInfo{$Type}})
+ {
+ ## Note: $Name is already canonical
+ my $Table = $TableInfo{$Type}->{$Name};
+ my $IsFuzzy = $FuzzyNames{$Type}->{$Name};
+
+ ## Need an 8.3 safe filename (which means "an 8 safe" $filename)
+ my $filename;
+ {
+ ## 'Is' items lose 'Is' from the basename.
+ $filename = $Type eq 'Is' ?
+ ($PVA_reverse{sc}{$Name} || $Name) :
+ "$Type$Name";
+
+ $filename =~ s/[^\w_]+/_/g; # "L&" -> "L_"
+ substr($filename, 8) = '' if length($filename) > 8;
+
+ ##
+ ## Make sure the basename doesn't conflict with something we
+ ## might have already written. If we have, say,
+ ## InGreekExtended1
+ ## InGreekExtended2
+ ## they become
+ ## InGreekE
+ ## InGreek2
+ ##
+ while (my $num = $BaseNames{lc $filename}++)
+ {
+ $num++; ## so basenames with numbers start with '2', which
+ ## just looks more natural.
+ ## Want to append $num, but if it'll make the basename longer
+ ## than 8 characters, pre-truncate $filename so that the result
+ ## is acceptable.
+ my $delta = length($filename) + length($num) - 8;
+ if ($delta > 0) {
+ substr($filename, -$delta) = $num;
+ } else {
+ $filename .= $num;
+ }
+ }
+ };
+
+ ##
+ ## Construct a nice comment to add to the file, and build data
+ ## for the "./Properties" file along the way.
+ ##
+ my $Comment;
+ {
+ my $Desc = $TableDesc{$Type}->{$Name} || "";
+ ## get list of names this table is reference by
+ my @Supported = $Name;
+ while (my ($Orig, $Alias) = each %{ $AliasInfo{$Type} })
+ {
+ if ($Orig eq $Name) {
+ push @Supported, $Alias;
+ }
+ }
+
+ my $TypeToShow = $Type eq 'Is' ? "" : $Type;
+ my $OrigProp;
+
+ $Comment = "This file supports:\n";
+ for my $N (@Supported)
+ {
+ my $IsFuzzy = $FuzzyNames{$Type}->{$N};
+ my $Prop = "\\p{$TypeToShow$Name}";
+ $OrigProp = $Prop if not $OrigProp; #cache for aliases
+ if ($IsFuzzy) {
+ $Comment .= "\t$Prop (and fuzzy permutations)\n";
+ } else {
+ $Comment .= "\t$Prop\n";
+ }
+ my $MyDesc = ($N eq $Name) ? $Desc : "Alias for $OrigProp ($Desc)";
+
+ push @MAP, sprintf("%s %-42s %s\n",
+ $IsFuzzy ? '*' : ' ', $Prop, $MyDesc);
+ }
+ if ($Desc) {
+ $Comment .= "\nMeaning: $Desc\n";
+ }
+
+ }
+ ##
+ ## Okay, write the file...
+ ##
+ $Table->Write("lib/gc_sc/$filename.pl", $Comment);
+
+ ## and register it
+ $RawNameToFile{$Name} = $filename;
+ RegisterFileForName($Type => $Name, $IsFuzzy, $filename);
+
+ if ($IsFuzzy)
+ {
+ my $CName = CanonicalName($Type . '_'. $Name);
+ $FuzzyNameToTest{$Name} = $Table if !$FuzzyNameToTest{$Name};
+ $FuzzyNameToTest{$CName} = $Table if !$FuzzyNameToTest{$CName};
+ } else {
+ $ExactNameToTest{$Name} = $Table;
+ }
+
+ }
+
+ ## Register aliase info
+ for my $Name (sort {length $a <=> length $b} keys %{$AliasInfo{$Type}})
+ {
+ my $Alias = $AliasInfo{$Type}->{$Name};
+ my $IsFuzzy = $FuzzyNames{$Type}->{$Alias};
+ my $filename = $RawNameToFile{$Name};
+ die "oops [$Alias]->[$Name]" if not $filename;
+ RegisterFileForName($Type => $Alias, $IsFuzzy, $filename);
+
+ my $Table = $TableInfo{$Type}->{$Name};
+ die "oops" if not $Table;
+ if ($IsFuzzy)
+ {
+ my $CName = CanonicalName($Type .'_'. $Alias);
+ $FuzzyNameToTest{$Alias} = $Table if !$FuzzyNameToTest{$Alias};
+ $FuzzyNameToTest{$CName} = $Table if !$FuzzyNameToTest{$CName};
+ } else {
+ $ExactNameToTest{$Alias} = $Table;
+ }
+ }
+ }
-mapping(\%In, "In");
+ ##
+ ## Write out the property list
+ ##
+ {
+ my @OUT = (
+ "##\n",
+ "## This file created by $0\n",
+ "## List of built-in \\p{...}/\\P{...} properties.\n",
+ "##\n",
+ "## '*' means name may be 'fuzzy'\n",
+ "##\n\n",
+ sort { substr($a,2) cmp substr($b, 2) } @MAP,
+ );
+ WriteIfChanged('Properties', @OUT);
+ }
-# Easy low-calorie cheat.
-use File::Copy;
-copy("In/$In{Noncharacter_Code_Point}.pl", "Is/Cn.pl");
+ use Text::Tabs (); ## using this makes the files about half the size
+
+ ## Write Exact.pl
+ {
+ my @OUT = (
+ $HEADER,
+ "##\n",
+ "## Data in this file used by ../utf8_heavy.pl\n",
+ "##\n\n",
+ "## Mapping from name to filename in ./lib/gc_sc\n",
+ "%utf8::Exact = (\n",
+ );
+
+ $Exact{InGreek} = 'InGreekA'; # this is evil kludge
+ for my $Name (sort keys %Exact)
+ {
+ my $File = $Exact{$Name};
+ $Name = $Name =~ m/\W/ ? qq/'$Name'/ : " $Name ";
+ my $Text = sprintf("%-15s => %s,\n", $Name, qq/'$File'/);
+ push @OUT, Text::Tabs::unexpand($Text);
+ }
+ push @OUT, ");\n1;\n";
+
+ WriteIfChanged('Exact.pl', @OUT);
+ }
-#
-# Write out the real In mappings
-# (the In.pl written out just above has the virtual In mappings)
-#
+ ## Write Canonical.pl
+ {
+ my @OUT = (
+ $HEADER,
+ "##\n",
+ "## Data in this file used by ../utf8_heavy.pl\n",
+ "##\n\n",
+ "## Mapping from lc(canonical name) to filename in ./lib\n",
+ "%utf8::Canonical = (\n",
+ );
+ my $Trail = ""; ## used just to keep the spacing pretty
+ for my $Name (sort keys %Canonical)
+ {
+ my $File = $Canonical{$Name};
+ if ($CaComment{$Name}) {
+ push @OUT, "\n" if not $Trail;
+ push @OUT, " # $CaComment{$Name}\n";
+ $Trail = "\n";
+ } else {
+ $Trail = "";
+ }
+ $Name = $Name =~ m/\W/ ? qq/'$Name'/ : " $Name ";
+ my $Text = sprintf(" %-41s => %s,\n$Trail", $Name, qq/'$File'/);
+ push @OUT, Text::Tabs::unexpand($Text);
+ }
+ push @OUT, ");\n1\n";
+ WriteIfChanged('Canonical.pl', @OUT);
+ }
-foreach my $in (sort { $In{$a} <=> $In{$b} } keys %In) {
- flush($InIn{$in}, "In/$In{$in}.pl");
+ MakePropTestScript() if $MakeTestScript;
}
-#
-# The mapping from General Category long forms to short forms is
-# currently hardwired here since no simple data file in the UCD
-# seems to do that.
-#
-my %Is = (
- 'Letter' => 'L',
- 'Uppercase Letter' => 'Lu',
- 'Lowercase Letter' => 'Ll',
- 'Titlecase Letter' => 'Lt',
- 'Modifier Letter' => 'Lm',
- 'Other Letter' => 'Lo',
-
- 'Mark' => 'M',
- 'Non-Spacing Mark' => 'Mn',
- 'Spacing Combining Mark' => 'Mc',
- 'Enclosing Mark' => 'Me',
-
- 'Separator' => 'Z',
- 'Space Separator' => 'Zs',
- 'Line Separator' => 'Zl',
- 'Paragraph Separator' => 'Zp',
-
- 'Number' => 'N',
- 'Decimal Digit Number' => 'Nd',
- 'Letter Number' => 'Nl',
- 'Other Number' => 'No',
-
- 'Punctuation' => 'P',
- 'Connector Punctuation' => 'Pc',
- 'Dash Punctuation' => 'Pd',
- 'Open Punctuation' => 'Ps',
- 'Close Punctuation' => 'Pe',
- 'Initial Punctuation' => 'Pi',
- 'Final Punctuation' => 'Pf',
- 'Other Punctuation' => 'Po',
-
- 'Symbol' => 'S',
- 'Math Symbol' => 'Sm',
- 'Currency Symbol' => 'Sc',
- 'Modifier Symbol' => 'Sk',
- 'Other Symbol' => 'So',
-
- 'Other' => 'C',
- 'Control' => 'Cc',
- 'Format' => 'Cf',
- 'Surrogate' => 'Cs',
- 'Private Use' => 'Co',
- 'Not Assigned' => 'Cn',
- # 'Other' aliases
- 'Other Control' => 'Cc',
- 'Other Format' => 'Cf',
- 'Other Surrogate' => 'Cs',
- 'Other Private Use' => 'Co',
- 'Other Not Assigned' => 'Cn',
-);
+sub SpecialCasing_txt()
+{
+ #
+ # Read in the special cases.
+ #
-#
-# Write out the virtual Is mappings.
-#
+ my %CaseInfo;
-mapping(\%Is, "Is");
+ if (not open IN, "SpecialCasing.txt") {
+ die "$0: SpecialCasing.txt: $!\n";
+ }
+ while (<IN>) {
+ next unless /^[0-9A-Fa-f]+;/;
+ s/\#.*//;
+ s/\s+$//;
+
+ my ($code, $lower, $title, $upper, $condition) = split(/\s*;\s*/);
+
+ if ($condition) { # not implemented yet
+ print "# SKIPPING $_\n" if $Verbose;
+ next;
+ }
+
+ # Wait until all the special cases have been read since
+ # they are not listed in numeric order.
+ my $ix = hex($code);
+ push @{$CaseInfo{Lower}}, [ $ix, $code, $lower ]
+ unless $code eq $lower;
+ push @{$CaseInfo{Title}}, [ $ix, $code, $title ]
+ unless $code eq $title;
+ push @{$CaseInfo{Upper}}, [ $ix, $code, $upper ]
+ unless $code eq $upper;
+ }
+ close IN;
+
+ # Now write out the special cases properties in their code point order.
+ # Prepend them to the To/{Upper,Lower,Title}.pl.
+
+ for my $case (qw(Lower Title Upper))
+ {
+ my $NormalCase = do "To/$case.pl" || die "$0: $@\n";
+
+ my @OUT =
+ (
+ $HEADER, "\n",
+ "# The key UTF-8 _bytes_, the value UTF-8 (speed hack)\n",
+ "%utf8::ToSpec$case =\n(\n",
+ );
+
+ for my $prop (sort { $a->[0] <=> $b->[0] } @{$CaseInfo{$case}}) {
+ my ($ix, $code, $to) = @$prop;
+ my $tostr =
+ join "", map { sprintf "\\x{%s}", $_ } split ' ', $to;
+ push @OUT, sprintf qq["%s" => "$tostr",\n], join("", map { sprintf "\\x%02X", $_ } unpack("U0C*", pack("U", $ix)));
+ # Remove any single-character mappings for
+ # the same character since we are going for
+ # the special casing rules.
+ $NormalCase =~ s/^$code\t\t\w+\n//m;
+ }
+ push @OUT, (
+ ");\n\n",
+ "return <<'END';\n",
+ $NormalCase,
+ "END\n"
+ );
+ WriteIfChanged("To/$case.pl", @OUT);
+ }
+}
#
-# Read in the special cases.
+# Read in the case foldings.
#
+# We will do full case folding, C + F + I (see CaseFolding.txt).
+#
+sub CaseFolding_txt()
+{
+ if (not open IN, "CaseFolding.txt") {
+ die "$0: CaseFolding.txt: $!\n";
+ }
-my %Case;
+ my $Fold = Table->New();
+ my %Fold;
-if (open(my $SpecCase, "SpecCase.txt")) {
- while (<$SpecCase>) {
- next unless /^[0-9A-Fa-f]+;/;
- s/\#.*//;
- s/\s+$//;
+ while (<IN>) {
+ # Skip status 'S', simple case folding
+ next unless /^([0-9A-Fa-f]+)\s*;\s*([CFI])\s*;\s*([0-9A-Fa-f]+(?: [0-9A-Fa-f]+)*)\s*;/;
- my ($code, $lower, $title, $upper, $condition) = split(/\s*;\s*/);
+ my ($code, $status, $fold) = (hex($1), $2, $3);
- if ($condition) { # not implemented yet
- print "# SKIPPING $_\n";
- next;
+ if ($status eq 'C') { # Common: one-to-one folding
+ # No append() since several codes may fold into one.
+ $Fold->RawAppendRange($code, $code, $fold);
+ } else { # F: full, or I: dotted uppercase I -> dotless lowercase I
+ $Fold{$code} = $fold;
}
-
- # Wait until all the special cases have been read since
- # they are not listed in numeric order.
- my $ix = hex($code);
- push @{$Case{Lower}}, [ $ix, $code, $lower ];
- push @{$Case{Title}}, [ $ix, $code, $title ];
- push @{$Case{Upper}}, [ $ix, $code, $upper ];
}
-} else {
- die "$0: SpecCase.txt: $!\n";
+ close IN;
+
+ $Fold->Write("To/Fold.pl");
+
+ #
+ # Prepend the special foldings to the common foldings.
+ #
+ my $CommonFold = do "To/Fold.pl" || die "$0: To/Fold.pl: $!\n";
+
+ my @OUT =
+ (
+ $HEADER, "\n",
+ "# The ke UTF-8 _bytes_, the value UTF-8 (speed hack)\n",
+ "%utf8::ToSpecFold =\n(\n",
+ );
+ for my $code (sort { $a <=> $b } keys %Fold) {
+ my $foldstr =
+ join "", map { sprintf "\\x{%s}", $_ } split ' ', $Fold{$code};
+ push @OUT, sprintf qq["%s" => "$foldstr",\n], join("", map { sprintf "\\x%02X", $_ } unpack("U0C*", pack("U", $code)));
+ }
+ push @OUT, (
+ ");\n\n",
+ "return <<'END';\n",
+ $CommonFold,
+ "END\n",
+ );
+
+ WriteIfChanged("To/Fold.pl", @OUT);
}
-# Now write out the special cases properties in their code point order.
-# The To/Spec{Lower,Title,Upper}.pl are unused for now since the swash
-# routines do not do returning multiple characters.
+## Do it....
+
+Build_Aliases();
+UnicodeData_Txt();
+PropList_txt();
+
+Scripts_txt();
+Blocks_txt();
+
+WriteAllMappings();
-for my $case (qw(Lower Title Upper)) {
- my @case;
- for my $prop (sort { $a->[0] <=> $b->[0] } @{$Case{$case}}) {
- my ($ix, $code, $to) = @$prop;
- append(\@case, $code, $to);
+LineBreak_Txt();
+ArabicShaping_txt();
+EastAsianWidth_txt();
+HangulSyllableType_txt();
+Jamo_txt();
+SpecialCasing_txt();
+CaseFolding_txt();
+
+exit(0);
+
+## TRAILING CODE IS USED BY MakePropTestScript()
+__DATA__
+use strict;
+use warnings;
+
+my $Tests = 0;
+my $Fails = 0;
+
+sub Expect($$$)
+{
+ my $Expect = shift;
+ my $String = shift;
+ my $Regex = shift;
+ my $Line = (caller)[2];
+
+ $Tests++;
+ my $RegObj;
+ my $result = eval {
+ $RegObj = qr/$Regex/;
+ $String =~ $RegObj ? 1 : 0
+ };
+
+ if (not defined $result) {
+ print "couldn't compile /$Regex/ on $0 line $Line: $@\n";
+ $Fails++;
+ } elsif ($result ^ $Expect) {
+ print "bad result (expected $Expect) on $0 line $Line: $@\n";
+ $Fails++;
}
- flush(\@case, "To/Spec$case.pl");
}
-# That's all, folks!
+sub Error($)
+{
+ my $Regex = shift;
+ $Tests++;
+ if (eval { 'x' =~ qr/$Regex/; 1 }) {
+ $Fails++;
+ my $Line = (caller)[2];
+ print "expected error for /$Regex/ on $0 line $Line: $@\n";
+ }
+}
+sub Finished()
+{
+ if ($Fails == 0) {
+ print "All $Tests tests passed.\n";
+ exit(0);
+ } else {
+ print "$Tests tests, $Fails failed!\n";
+ exit(-1);
+ }
+}
projects / p5sagit/p5-mst-13.2.git / blobdiff