package fields; =head1 NAME fields - compile-time class fields =head1 SYNOPSIS { package Foo; use fields qw(foo bar _private); } ... my Foo $var = new Foo; $var->{foo} = 42; # This will generate a compile-time error. $var->{zap} = 42; { package Bar; use base 'Foo'; use fields 'bar'; # hides Foo->{bar} use fields qw(baz _private); # not shared with Foo } =head1 DESCRIPTION The C pragma enables compile-time verified class fields. It does so by updating the %FIELDS hash in the calling package. If a typed lexical variable holding a reference is used to access a hash element and the %FIELDS hash of the given type exists, then the operation is turned into an array access at compile time. The %FIELDS hash map from hash element names to the array indices. If the hash element is not present in the %FIELDS hash, then a compile-time error is signaled. Since the %FIELDS hash is used at compile-time, it must be set up at compile-time too. This is made easier with the help of the 'fields' and the 'base' pragma modules. The 'base' pragma will copy fields from base classes and the 'fields' pragma adds new fields. Field names that start with an underscore character are made private to a class and are not visible to subclasses. Inherited fields can be overridden but will generate a warning if used together with the C<-w> switch. The effect of all this is that you can have objects with named fields which are as compact and as fast arrays to access. This only works as long as the objects are accessed through properly typed variables. For untyped access to work you have to make sure that a reference to the proper %FIELDS hash is assigned to the 0'th element of the array object (so that the objects can be treated like an pseudo-hash). A constructor like this does the job: sub new { my $class = shift; no strict 'refs'; my $self = bless [\%{"$class\::FIELDS"], $class; $self; } =head1 SEE ALSO L, L =cut use strict; no strict 'refs'; use vars qw(%attr $VERSION); $VERSION = "0.02"; # some constants sub _PUBLIC () { 1 } sub _PRIVATE () { 2 } sub _INHERITED () { 4 } # The %attr hash holds the attributes of the currently assigned fields # per class. The hash is indexed by class names and the hash value is # an array reference. The array is indexed with the field numbers # (minus one) and the values are integer bit masks (or undef). The # size of the array also indicate the next field index too assign for # additional fields in this class. sub import { my $class = shift; my $package = caller(0); my $fields = \%{"$package\::FIELDS"}; my $fattr = ($attr{$package} ||= []); foreach my $f (@_) { if (my $fno = $fields->{$f}) { require Carp; if ($fattr->[$fno-1] & _INHERITED) { Carp::carp("Hides field '$f' in base class") if $^W; } else { Carp::croak("Field name '$f' already in use"); } } $fields->{$f} = @$fattr + 1; push(@$fattr, ($f =~ /^_/) ? _PRIVATE : _PUBLIC); } } sub inherit # called by base.pm { my($derived, $base) = @_; if (defined %{"$derived\::FIELDS"}) { require Carp; Carp::croak("Inherited %FIELDS can't override existing %FIELDS"); } else { my $base_fields = \%{"$base\::FIELDS"}; my $derived_fields = \%{"$derived\::FIELDS"}; $attr{$derived}[@{$attr{$base}}-1] = undef; while (my($k,$v) = each %$base_fields) { next if $attr{$base}[$v-1] & _PRIVATE; $attr{$derived}[$v-1] = _INHERITED; $derived_fields->{$k} = $v; } } } sub _dump # sometimes useful for debugging { for my $pkg (sort keys %attr) { print "\n$pkg"; if (defined @{"$pkg\::ISA"}) { print " (", join(", ", @{"$pkg\::ISA"}), ")"; } print "\n"; my $fields = \%{"$pkg\::FIELDS"}; for my $f (sort {$fields->{$a} <=> $fields->{$b}} keys %$fields) { my $no = $fields->{$f}; print " $no: $f"; my $fattr = $attr{$pkg}[$no-1]; if (defined $fattr) { my @a; push(@a, "public") if $fattr & _PUBLIC; push(@a, "private") if $fattr & _PRIVATE; push(@a, "inherited") if $fattr & _INHERITED; print "\t(", join(", ", @a), ")"; } print "\n"; } } } 1;