286 lines
7.8 KiB
Perl
286 lines
7.8 KiB
Perl
package fields;
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=head1 NAME
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fields - compile-time class fields
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=head1 SYNOPSIS
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{
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package Foo;
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use fields qw(foo bar _Foo_private);
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sub new {
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my Foo $self = shift;
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unless (ref $self) {
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$self = fields::new($self);
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$self->{_Foo_private} = "this is Foo's secret";
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}
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$self->{foo} = 10;
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$self->{bar} = 20;
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return $self;
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}
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}
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my Foo $var = Foo::->new;
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$var->{foo} = 42;
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# this will generate a compile-time error
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$var->{zap} = 42;
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# subclassing
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{
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package Bar;
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use base 'Foo';
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use fields qw(baz _Bar_private); # not shared with Foo
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sub new {
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my $class = shift;
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my $self = fields::new($class);
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$self->SUPER::new(); # init base fields
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$self->{baz} = 10; # init own fields
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$self->{_Bar_private} = "this is Bar's secret";
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return $self;
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}
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}
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=head1 DESCRIPTION
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The C<fields> pragma enables compile-time verified class fields.
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NOTE: The current implementation keeps the declared fields in the %FIELDS
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hash of the calling package, but this may change in future versions.
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Do B<not> update the %FIELDS hash directly, because it must be created
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at compile-time for it to be fully useful, as is done by this pragma.
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If a typed lexical variable holding a reference is used to access a
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hash element and a package with the same name as the type has declared
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class fields using this pragma, then the operation is turned into an
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array access at compile time.
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The related C<base> pragma will combine fields from base classes and any
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fields declared using the C<fields> pragma. This enables field
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inheritance to work properly.
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Field names that start with an underscore character are made private to
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the class and are not visible to subclasses. Inherited fields can be
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overridden but will generate a warning if used together with the C<-w>
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switch.
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The effect of all this is that you can have objects with named fields
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which are as compact and as fast arrays to access. This only works
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as long as the objects are accessed through properly typed variables.
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If the objects are not typed, access is only checked at run time.
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The following functions are supported:
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=over 8
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=item new
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fields::new() creates and blesses a pseudo-hash comprised of the fields
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declared using the C<fields> pragma into the specified class.
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This makes it possible to write a constructor like this:
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package Critter::Sounds;
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use fields qw(cat dog bird);
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sub new {
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my Critter::Sounds $self = shift;
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$self = fields::new($self) unless ref $self;
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$self->{cat} = 'meow'; # scalar element
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@$self{'dog','bird'} = ('bark','tweet'); # slice
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return $self;
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}
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=item phash
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fields::phash() can be used to create and initialize a plain (unblessed)
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pseudo-hash. This function should always be used instead of creating
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pseudo-hashes directly.
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If the first argument is a reference to an array, the pseudo-hash will
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be created with keys from that array. If a second argument is supplied,
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it must also be a reference to an array whose elements will be used as
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the values. If the second array contains less elements than the first,
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the trailing elements of the pseudo-hash will not be initialized.
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This makes it particularly useful for creating a pseudo-hash from
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subroutine arguments:
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sub dogtag {
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my $tag = fields::phash([qw(name rank ser_num)], [@_]);
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}
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fields::phash() also accepts a list of key-value pairs that will
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be used to construct the pseudo hash. Examples:
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my $tag = fields::phash(name => "Joe",
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rank => "captain",
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ser_num => 42);
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my $pseudohash = fields::phash(%args);
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=back
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=head1 SEE ALSO
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L<base>,
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L<perlref/Pseudo-hashes: Using an array as a hash>
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=cut
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use 5.005_64;
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use strict;
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no strict 'refs';
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use warnings::register;
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our(%attr, $VERSION);
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$VERSION = "1.01";
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# some constants
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sub _PUBLIC () { 1 }
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sub _PRIVATE () { 2 }
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# The %attr hash holds the attributes of the currently assigned fields
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# per class. The hash is indexed by class names and the hash value is
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# an array reference. The first element in the array is the lowest field
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# number not belonging to a base class. The remaining elements' indices
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# are the field numbers. The values are integer bit masks, or undef
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# in the case of base class private fields (which occupy a slot but are
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# otherwise irrelevant to the class).
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sub import {
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my $class = shift;
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return unless @_;
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my $package = caller(0);
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# avoid possible typo warnings
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%{"$package\::FIELDS"} = () unless %{"$package\::FIELDS"};
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my $fields = \%{"$package\::FIELDS"};
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my $fattr = ($attr{$package} ||= [1]);
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my $next = @$fattr;
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if ($next > $fattr->[0]
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and ($fields->{$_[0]} || 0) >= $fattr->[0])
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{
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# There are already fields not belonging to base classes.
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# Looks like a possible module reload...
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$next = $fattr->[0];
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}
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foreach my $f (@_) {
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my $fno = $fields->{$f};
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# Allow the module to be reloaded so long as field positions
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# have not changed.
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if ($fno and $fno != $next) {
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require Carp;
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if ($fno < $fattr->[0]) {
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warnings::warnif("Hides field '$f' in base class") ;
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} else {
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Carp::croak("Field name '$f' already in use");
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}
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}
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$fields->{$f} = $next;
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$fattr->[$next] = ($f =~ /^_/) ? _PRIVATE : _PUBLIC;
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$next += 1;
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}
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if (@$fattr > $next) {
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# Well, we gave them the benefit of the doubt by guessing the
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# module was reloaded, but they appear to be declaring fields
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# in more than one place. We can't be sure (without some extra
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# bookkeeping) that the rest of the fields will be declared or
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# have the same positions, so punt.
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require Carp;
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Carp::croak ("Reloaded module must declare all fields at once");
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}
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}
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sub inherit { # called by base.pm when $base_fields is nonempty
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my($derived, $base) = @_;
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my $base_attr = $attr{$base};
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my $derived_attr = $attr{$derived} ||= [];
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# avoid possible typo warnings
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%{"$base\::FIELDS"} = () unless %{"$base\::FIELDS"};
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%{"$derived\::FIELDS"} = () unless %{"$derived\::FIELDS"};
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my $base_fields = \%{"$base\::FIELDS"};
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my $derived_fields = \%{"$derived\::FIELDS"};
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$derived_attr->[0] = $base_attr ? scalar(@$base_attr) : 1;
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while (my($k,$v) = each %$base_fields) {
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my($fno);
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if ($fno = $derived_fields->{$k} and $fno != $v) {
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require Carp;
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Carp::croak ("Inherited %FIELDS can't override existing %FIELDS");
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}
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if ($base_attr->[$v] & _PRIVATE) {
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$derived_attr->[$v] = undef;
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} else {
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$derived_attr->[$v] = $base_attr->[$v];
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$derived_fields->{$k} = $v;
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}
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}
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}
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sub _dump # sometimes useful for debugging
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{
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for my $pkg (sort keys %attr) {
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print "\n$pkg";
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if (@{"$pkg\::ISA"}) {
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print " (", join(", ", @{"$pkg\::ISA"}), ")";
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}
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print "\n";
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my $fields = \%{"$pkg\::FIELDS"};
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for my $f (sort {$fields->{$a} <=> $fields->{$b}} keys %$fields) {
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my $no = $fields->{$f};
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print " $no: $f";
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my $fattr = $attr{$pkg}[$no];
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if (defined $fattr) {
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my @a;
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push(@a, "public") if $fattr & _PUBLIC;
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push(@a, "private") if $fattr & _PRIVATE;
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push(@a, "inherited") if $no < $attr{$pkg}[0];
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print "\t(", join(", ", @a), ")";
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}
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print "\n";
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}
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}
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}
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sub new {
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my $class = shift;
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$class = ref $class if ref $class;
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return bless [\%{$class . "::FIELDS"}], $class;
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}
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sub phash {
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my $h;
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my $v;
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if (@_) {
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if (ref $_[0] eq 'ARRAY') {
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my $a = shift;
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@$h{@$a} = 1 .. @$a;
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if (@_) {
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$v = shift;
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unless (! @_ and ref $v eq 'ARRAY') {
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require Carp;
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Carp::croak ("Expected at most two array refs\n");
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}
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}
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}
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else {
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if (@_ % 2) {
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require Carp;
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Carp::croak ("Odd number of elements initializing pseudo-hash\n");
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}
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my $i = 0;
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@$h{grep ++$i % 2, @_} = 1 .. @_ / 2;
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$i = 0;
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$v = [grep $i++ % 2, @_];
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}
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}
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else {
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$h = {};
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$v = [];
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}
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[ $h, @$v ];
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}
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1;
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