package Mouse::Meta::Module; use Mouse::Util qw/:meta/; # enables strict and warnings use Carp (); use Scalar::Util (); my %METAS; if(Mouse::Util::MOUSE_XS){ # register meta storage for performance Mouse::Util::__register_metaclass_storage(\%METAS, 0); # ensure thread safety *CLONE = sub { Mouse::Util::__register_metaclass_storage(\%METAS, 1) }; } sub initialize { my($class, $package_name, @args) = @_; ($package_name && !ref($package_name)) || $class->throw_error("You must pass a package name and it cannot be blessed"); return $METAS{$package_name} ||= $class->_construct_meta(package => $package_name, @args); } sub reinitialize { my($class, $package_name, @args) = @_; $package_name = $package_name->name if ref $package_name; ($package_name && !ref($package_name)) || $class->throw_error("You must pass a package name and it cannot be blessed"); if(exists $METAS{$package_name}) { unshift @args, %{ $METAS{$package_name} }; } delete $METAS{$package_name}; return $class->initialize($package_name, @args); } sub _class_of{ my($class_or_instance) = @_; return undef unless defined $class_or_instance; return $METAS{ ref($class_or_instance) || $class_or_instance }; } # Means of accessing all the metaclasses that have # been initialized thus far. # The public versions are aliased into Mouse::Util::*. #sub _get_all_metaclasses { %METAS } sub _get_all_metaclass_instances { values %METAS } sub _get_all_metaclass_names { keys %METAS } sub _get_metaclass_by_name { $METAS{$_[0]} } #sub _store_metaclass_by_name { $METAS{$_[0]} = $_[1] } #sub _weaken_metaclass { weaken($METAS{$_[0]}) } #sub _does_metaclass_exist { defined $METAS{$_[0]} } #sub _remove_metaclass_by_name { delete $METAS{$_[0]} } sub name; sub namespace; # add_attribute is an abstract method sub get_attribute_map { # DEPRECATED Carp::cluck('get_attribute_map() has been deprecated. Use get_attribute_list() and get_attribute() instead'); return $_[0]->{attributes}; } sub has_attribute { exists $_[0]->{attributes}->{$_[1]} } sub get_attribute { $_[0]->{attributes}->{$_[1]} } sub remove_attribute { delete $_[0]->{attributes}->{$_[1]} } sub get_attribute_list{ keys %{$_[0]->{attributes}} } # XXX: not completely compatible with Moose my %foreign = map{ $_ => undef } qw( Mouse Mouse::Role Mouse::Util Mouse::Util::TypeConstraints Carp Scalar::Util List::Util ); sub _get_method_body { my($self, $method_name) = @_; my $code = Mouse::Util::get_code_ref($self->{package}, $method_name); return $code && !exists $foreign{ Mouse::Util::get_code_package($code) } ? $code : undef; } sub add_method; sub has_method { my($self, $method_name) = @_; defined($method_name) or $self->throw_error('You must define a method name'); return defined( $self->{methods}{$method_name} ) || defined( $self->_get_method_body($method_name) ); } sub get_method_body { my($self, $method_name) = @_; defined($method_name) or $self->throw_error('You must define a method name'); return $self->{methods}{$method_name} ||= $self->_get_method_body($method_name); } sub get_method { my($self, $method_name) = @_; if(my $code = $self->get_method_body($method_name)){ return Mouse::Util::load_class($self->method_metaclass)->wrap( body => $code, name => $method_name, package => $self->name, associated_metaclass => $self, ); } return undef; } sub get_method_list { my($self) = @_; return grep { $self->has_method($_) } keys %{ $self->namespace }; } sub _collect_methods { # Mouse specific, used for method modifiers my($meta, @args) = @_; my @methods; foreach my $arg(@args){ if(my $type = ref $arg){ if($type eq 'Regexp'){ push @methods, grep { $_ =~ $arg } $meta->get_all_method_names; } elsif($type eq 'ARRAY'){ push @methods, @{$arg}; } else{ my $subname = ( caller(1) )[3]; $meta->throw_error( sprintf( 'Methods passed to %s must be provided as a list,' . ' ArrayRef or regular expression, not %s', $subname, $type, ) ); } } else{ push @methods, $arg; } } return @methods; } my $ANON_SERIAL = 0; # anonymous class/role id my %IMMORTALS; # immortal anonymous classes sub create { my($self, $package_name, %options) = @_; my $class = ref($self) || $self; $self->throw_error('You must pass a package name') if @_ < 2; my $superclasses; if(exists $options{superclasses}){ if(Mouse::Util::is_a_metarole($self)){ delete $options{superclasses}; } else{ $superclasses = delete $options{superclasses}; (ref $superclasses eq 'ARRAY') || $self->throw_error("You must pass an ARRAY ref of superclasses"); } } my $attributes = delete $options{attributes}; if(defined $attributes){ (ref $attributes eq 'ARRAY' || ref $attributes eq 'HASH') || $self->throw_error("You must pass an ARRAY ref of attributes"); } my $methods = delete $options{methods}; if(defined $methods){ (ref $methods eq 'HASH') || $self->throw_error("You must pass a HASH ref of methods"); } my $roles = delete $options{roles}; if(defined $roles){ (ref $roles eq 'ARRAY') || $self->throw_error("You must pass an ARRAY ref of roles"); } my $mortal; my $cache_key; if(!defined $package_name){ # anonymous $mortal = !$options{cache}; # anonymous but immortal if(!$mortal){ # something like Super::Class|Super::Class::2=Role|Role::1 $cache_key = join '=' => ( join('|', @{$superclasses || []}), join('|', sort @{$roles || []}), ); return $IMMORTALS{$cache_key} if exists $IMMORTALS{$cache_key}; } $options{anon_serial_id} = ++$ANON_SERIAL; $package_name = $class . '::__ANON__::' . $ANON_SERIAL; } # instantiate a module { no strict 'refs'; ${ $package_name . '::VERSION' } = delete $options{version} if exists $options{version}; ${ $package_name . '::AUTHORITY' } = delete $options{authority} if exists $options{authority}; } my $meta = $self->initialize( $package_name, %options); Scalar::Util::weaken($METAS{$package_name}) if $mortal; $meta->add_method(meta => sub { $self->initialize(ref($_[0]) || $_[0]); }); $meta->superclasses(@{$superclasses}) if defined $superclasses; # NOTE: # process attributes first, so that they can # install accessors, but locally defined methods # can then overwrite them. It is maybe a little odd, but # I think this should be the order of things. if (defined $attributes) { if(ref($attributes) eq 'ARRAY'){ # array of Mouse::Meta::Attribute foreach my $attr (@{$attributes}) { $meta->add_attribute($attr); } } else{ # hash map of name and attribute spec pairs while(my($name, $attr) = each %{$attributes}){ $meta->add_attribute($name => $attr); } } } if (defined $methods) { while(my($method_name, $method_body) = each %{$methods}){ $meta->add_method($method_name, $method_body); } } if (defined $roles and !$options{in_application_to_instance}){ Mouse::Util::apply_all_roles($package_name, @{$roles}); } if($cache_key){ $IMMORTALS{$cache_key} = $meta; } return $meta; } sub DESTROY{ my($self) = @_; return if Mouse::Util::in_global_destruction(); my $serial_id = $self->{anon_serial_id}; return if !$serial_id; # XXX: cleaning stash with threads causes panic/SEGV on legacy perls. if(exists $INC{'threads.pm'}) { # (caller)[2] indicates the caller's line number, # which is zero when the current thread is joining (destroying). return if( (caller)[2] == 0); } # clean up mortal anonymous class stuff # @ISA is a magical variable, so we must clear it manually. @{$self->{superclasses}} = () if exists $self->{superclasses} && scalar(@{$self->{superclasses}}) > 0; # Then, clear the symbol table hash %{$self->namespace} = (); my $name = $self->name; delete $METAS{$name}; $name =~ s/ $serial_id \z//xms; no strict 'refs'; delete ${$name}{ $serial_id . '::' }; return; } 1; __END__ =head1 NAME Mouse::Meta::Module - The common base class of Mouse::Meta::Class and Mouse::Meta::Role =head1 VERSION This document describes Mouse version v2.5.10 =head1 DESCRIPTION This class is an abstract base class of meta classes and meta roles. =head1 SEE ALSO L L L =cut