package Class::MOP::Package; use strict; use warnings; use Scalar::Util 'blessed'; use Carp 'confess'; our $VERSION = '0.70_01'; $VERSION = eval $VERSION; our $AUTHORITY = 'cpan:STEVAN'; use base 'Class::MOP::Object'; # creation ... sub initialize { my ( $class, @args ) = @_; unshift @args, "package" if @args % 2; my %options = @args; my $package_name = $options{package}; # we hand-construct the class # until we can bootstrap it if ( my $meta = Class::MOP::get_metaclass_by_name($package_name) ) { return $meta; } else { my $meta = ( ref $class || $class )->_new({ 'package' => $package_name, }); Class::MOP::store_metaclass_by_name($package_name, $meta); return $meta; } } sub reinitialize { my ( $class, @args ) = @_; unshift @args, "package" if @args % 2; my %options = @args; my $package_name = delete $options{package}; (defined $package_name && $package_name && !blessed($package_name)) || confess "You must pass a package name and it cannot be blessed"; Class::MOP::remove_metaclass_by_name($package_name); $class->initialize($package_name, %options); # call with first arg form for compat } sub _new { my $class = shift; my $options = @_ == 1 ? $_[0] : {@_}; # NOTE: # because of issues with the Perl API # to the typeglob in some versions, we # need to just always grab a new # reference to the hash in the accessor. # Ideally we could just store a ref and # it would Just Work, but oh well :\ $options->{namespace} ||= \undef; bless $options, $class; } # Attributes # NOTE: # all these attribute readers will be bootstrapped # away in the Class::MOP bootstrap section sub name { $_[0]->{'package'} } sub namespace { # NOTE: # because of issues with the Perl API # to the typeglob in some versions, we # need to just always grab a new # reference to the hash here. Ideally # we could just store a ref and it would # Just Work, but oh well :\ no strict 'refs'; \%{$_[0]->{'package'} . '::'} } # utility methods { my %SIGIL_MAP = ( '$' => 'SCALAR', '@' => 'ARRAY', '%' => 'HASH', '&' => 'CODE', ); sub _deconstruct_variable_name { my ($self, $variable) = @_; (defined $variable) || confess "You must pass a variable name"; my $sigil = substr($variable, 0, 1, ''); (defined $sigil) || confess "The variable name must include a sigil"; (exists $SIGIL_MAP{$sigil}) || confess "I do not recognize that sigil '$sigil'"; return ($variable, $sigil, $SIGIL_MAP{$sigil}); } } # Class attributes # ... these functions have to touch the symbol table itself,.. yuk sub add_package_symbol { my ($self, $variable, $initial_value) = @_; my ($name, $sigil, $type) = ref $variable eq 'HASH' ? @{$variable}{qw[name sigil type]} : $self->_deconstruct_variable_name($variable); my $pkg = $self->{'package'}; no strict 'refs'; no warnings 'redefine', 'misc'; *{$pkg . '::' . $name} = ref $initial_value ? $initial_value : \$initial_value; } sub remove_package_glob { my ($self, $name) = @_; no strict 'refs'; delete ${$self->name . '::'}{$name}; } # ... these functions deal with stuff on the namespace level sub has_package_symbol { my ($self, $variable) = @_; my ($name, $sigil, $type) = ref $variable eq 'HASH' ? @{$variable}{qw[name sigil type]} : $self->_deconstruct_variable_name($variable); my $namespace = $self->namespace; return 0 unless exists $namespace->{$name}; # FIXME: # For some really stupid reason # a typeglob will have a default # value of \undef in the SCALAR # slot, so we need to work around # this. Which of course means that # if you put \undef in your scalar # then this is broken. if (ref($namespace->{$name}) eq 'SCALAR') { return ($type eq 'CODE'); } elsif ($type eq 'SCALAR') { my $val = *{$namespace->{$name}}{$type}; return defined(${$val}); } else { defined(*{$namespace->{$name}}{$type}); } } sub get_package_symbol { my ($self, $variable) = @_; my ($name, $sigil, $type) = ref $variable eq 'HASH' ? @{$variable}{qw[name sigil type]} : $self->_deconstruct_variable_name($variable); my $namespace = $self->namespace; $self->add_package_symbol($variable) unless exists $namespace->{$name}; if (ref($namespace->{$name}) eq 'SCALAR') { if ($type eq 'CODE') { no strict 'refs'; return \&{$self->name.'::'.$name}; } else { return undef; } } else { return *{$namespace->{$name}}{$type}; } } sub remove_package_symbol { my ($self, $variable) = @_; my ($name, $sigil, $type) = ref $variable eq 'HASH' ? @{$variable}{qw[name sigil type]} : $self->_deconstruct_variable_name($variable); # FIXME: # no doubt this is grossly inefficient and # could be done much easier and faster in XS my ($scalar_desc, $array_desc, $hash_desc, $code_desc) = ( { sigil => '$', type => 'SCALAR', name => $name }, { sigil => '@', type => 'ARRAY', name => $name }, { sigil => '%', type => 'HASH', name => $name }, { sigil => '&', type => 'CODE', name => $name }, ); my ($scalar, $array, $hash, $code); if ($type eq 'SCALAR') { $array = $self->get_package_symbol($array_desc) if $self->has_package_symbol($array_desc); $hash = $self->get_package_symbol($hash_desc) if $self->has_package_symbol($hash_desc); $code = $self->get_package_symbol($code_desc) if $self->has_package_symbol($code_desc); } elsif ($type eq 'ARRAY') { $scalar = $self->get_package_symbol($scalar_desc) if $self->has_package_symbol($scalar_desc); $hash = $self->get_package_symbol($hash_desc) if $self->has_package_symbol($hash_desc); $code = $self->get_package_symbol($code_desc) if $self->has_package_symbol($code_desc); } elsif ($type eq 'HASH') { $scalar = $self->get_package_symbol($scalar_desc) if $self->has_package_symbol($scalar_desc); $array = $self->get_package_symbol($array_desc) if $self->has_package_symbol($array_desc); $code = $self->get_package_symbol($code_desc) if $self->has_package_symbol($code_desc); } elsif ($type eq 'CODE') { $scalar = $self->get_package_symbol($scalar_desc) if $self->has_package_symbol($scalar_desc); $array = $self->get_package_symbol($array_desc) if $self->has_package_symbol($array_desc); $hash = $self->get_package_symbol($hash_desc) if $self->has_package_symbol($hash_desc); } else { confess "This should never ever ever happen"; } $self->remove_package_glob($name); $self->add_package_symbol($scalar_desc => $scalar) if defined $scalar; $self->add_package_symbol($array_desc => $array) if defined $array; $self->add_package_symbol($hash_desc => $hash) if defined $hash; $self->add_package_symbol($code_desc => $code) if defined $code; } sub list_all_package_symbols { my ($self, $type_filter) = @_; my $namespace = $self->namespace; return keys %{$namespace} unless defined $type_filter; # NOTE: # or we can filter based on # type (SCALAR|ARRAY|HASH|CODE) if ( $type_filter eq 'CODE' ) { return grep { (ref($namespace->{$_}) ? (ref($namespace->{$_}) eq 'SCALAR') : (ref(\$namespace->{$_}) eq 'GLOB' && defined(*{$namespace->{$_}}{CODE}))); } keys %{$namespace}; } else { return grep { *{$namespace->{$_}}{$type_filter} } keys %{$namespace}; } } sub get_all_package_symbols { my ($self, $type_filter) = @_; die "Cannot call get_all_package_symbols as a class method" unless ref $self; my $namespace = $self->namespace; return %$namespace unless defined $type_filter; # for some reason this nasty impl is orders of magnitude faster than a clean version if ( $type_filter eq 'CODE' ) { my $pkg; no strict 'refs'; return map { (ref($namespace->{$_}) ? ( $_ => \&{$pkg ||= $self->name . "::$_"} ) : ( (*{$namespace->{$_}}{CODE}) # the extra parents prevent breakage on 5.8.2 ? ( $_ => *{$namespace->{$_}}{CODE} ) : () ) ) } keys %$namespace; } else { return map { $_ => *{$namespace->{$_}}{$type_filter} } grep { !ref($namespace->{$_}) && *{$namespace->{$_}}{$type_filter} } keys %$namespace; } } 1; __END__ =pod =head1 NAME Class::MOP::Package - Package Meta Object =head1 DESCRIPTION This is an abstraction of a Perl 5 package, it is a superclass of L and provides all of the symbol table introspection methods. =head1 METHODS =over 4 =item B Returns a metaclass for this package. =item B This will initialize a Class::MOP::Package instance which represents the package of C<$package_name>. =item B This removes the old metaclass, and creates a new one in it's place. Do B use this unless you really know what you are doing, it could very easily make a very large mess of your program. =item B This is a read-only attribute which returns the package name for the given instance. =item B This returns a HASH reference to the symbol table. The keys of the HASH are the symbol names, and the values are typeglob references. =item B Given a C<$variable_name>, which must contain a leading sigil, this method will create that variable within the package which houses the class. It also takes an optional C<$initial_value>, which must be a reference of the same type as the sigil of the C<$variable_name> implies. =item B This will return a reference to the package variable in C<$variable_name>. =item B Returns true (C<1>) if there is a package variable defined for C<$variable_name>, and false (C<0>) otherwise. =item B This will attempt to remove the package variable at C<$variable_name>. =item B This will attempt to remove the entire typeglob associated with C<$glob_name> from the package. =item B This will list all the glob names associated with the current package. By inspecting the globs returned you can discern all the variables in the package. By passing a C<$type_filter>, you can limit the list to only those which match the filter (either SCALAR, ARRAY, HASH or CODE). =item B Works exactly like C but returns a HASH of name => thing mapping instead of just an ARRAY of names. =back =head1 AUTHORS Stevan Little Estevan@iinteractive.comE =head1 COPYRIGHT AND LICENSE Copyright 2006-2008 by Infinity Interactive, Inc. L This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut