package Moose::Meta::TypeConstraint::Class; our $VERSION = '2.2207'; use strict; use warnings; use metaclass; use B; use Scalar::Util (); use Moose::Util::TypeConstraints (); use parent 'Moose::Meta::TypeConstraint'; __PACKAGE__->meta->add_attribute('class' => ( reader => 'class', Class::MOP::_definition_context(), )); my $inliner = sub { my $self = shift; my $val = shift; return 'Scalar::Util::blessed(' . $val . ')' . ' && ' . $val . '->isa(' . B::perlstring($self->class) . ')'; }; sub new { my ( $class, %args ) = @_; $args{parent} = Moose::Util::TypeConstraints::find_type_constraint('Object'); my $class_name = $args{class}; $args{constraint} = sub { $_[0]->isa($class_name) }; $args{inlined} = $inliner; my $self = $class->SUPER::new( \%args ); $self->compile_type_constraint(); return $self; } sub parents { my $self = shift; return ( $self->parent, map { # FIXME find_type_constraint might find a TC named after the class but that isn't really it # I did this anyway since it's a convention that preceded TypeConstraint::Class, and it should DWIM # if anybody thinks this problematic please discuss on IRC. # a possible fix is to add by attr indexing to the type registry to find types of a certain property # regardless of their name Moose::Util::TypeConstraints::find_type_constraint($_) || __PACKAGE__->new( class => $_, name => "__ANON__" ) } Class::MOP::class_of($self->class)->superclasses, ); } sub equals { my ( $self, $type_or_name ) = @_; my $other = Moose::Util::TypeConstraints::find_type_constraint($type_or_name); if (!defined($other)) { if (!ref($type_or_name)) { return $self->class eq $type_or_name; } return; } return unless $other->isa(__PACKAGE__); return $self->class eq $other->class; } sub is_a_type_of { my ($self, $type_or_name) = @_; ($self->equals($type_or_name) || $self->is_subtype_of($type_or_name)); } sub is_subtype_of { my ($self, $type_or_name_or_class ) = @_; my $type = Moose::Util::TypeConstraints::find_type_constraint($type_or_name_or_class); if ( not defined $type ) { if ( not ref $type_or_name_or_class ) { # it might be a class my $class = $self->class; return 1 if $class ne $type_or_name_or_class && $class->isa( $type_or_name_or_class ); } return; } if ( $type->isa(__PACKAGE__) && $type->class ne $self->class) { # if $type_or_name_or_class isn't a class, it might be the TC name of another ::Class type # or it could also just be a type object in this branch return $self->class->isa( $type->class ); } else { # the only other thing we are a subtype of is Object $self->SUPER::is_subtype_of($type); } } # This is a bit counter-intuitive, but a child type of a Class type # constraint is not itself a Class type constraint (it has no class # attribute). This whole create_child_type thing needs some changing # though, probably making MMC->new a factory or something. sub create_child_type { my ($self, @args) = @_; return Moose::Meta::TypeConstraint->new(@args, parent => $self); } sub get_message { my $self = shift; my ($value) = @_; if ($self->has_message) { return $self->SUPER::get_message(@_); } $value = (defined $value ? overload::StrVal($value) : 'undef'); return "Validation failed for '" . $self->name . "' with value $value (not isa " . $self->class . ")"; } 1; # ABSTRACT: Class/TypeConstraint parallel hierarchy __END__ =pod =encoding UTF-8 =head1 NAME Moose::Meta::TypeConstraint::Class - Class/TypeConstraint parallel hierarchy =head1 VERSION version 2.2207 =head1 DESCRIPTION This class represents type constraints for a class. =head1 INHERITANCE C is a subclass of L. =head1 METHODS =head2 Moose::Meta::TypeConstraint::Class->new(%options) This creates a new class type constraint based on the given C<%options>. It takes the same options as its parent, with two exceptions. First, it requires an additional option, C, which is name of the constraint's class. Second, it automatically sets the parent to the C type. The constructor also overrides the hand optimized type constraint with one it creates internally. =head2 $constraint->class Returns the class name associated with the constraint. =head2 $constraint->parents Returns all the type's parent types, corresponding to its parent classes. =head2 $constraint->is_subtype_of($type_name_or_object) If the given type is also a class type, then this checks that the type's class is a subclass of the other type's class. Otherwise it falls back to the implementation in L. =head2 $constraint->create_child_type(%options) This returns a new L object with the type as its parent. Note that it does I return a C object! =head2 $constraint->get_message($value) This is the same as L except that it explicitly says C was checked. This is to help users deal with accidentally autovivified type constraints. =head1 BUGS See L for details on reporting bugs. =head1 AUTHORS =over 4 =item * Stevan Little =item * Dave Rolsky =item * Jesse Luehrs =item * Shawn M Moore =item * יובל קוג'מן (Yuval Kogman) =item * Karen Etheridge =item * Florian Ragwitz =item * Hans Dieter Pearcey =item * Chris Prather =item * Matt S Trout =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2006 by Infinity Interactive, Inc. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut