package Mouse::Meta::Class;
use Mouse::Util qw/:meta get_linear_isa not_supported/; # enables strict and warnings
use Scalar::Util qw/blessed weaken/;
use Mouse::Meta::Module;
our @ISA = qw(Mouse::Meta::Module);
sub attribute_metaclass;
sub method_metaclass;
sub constructor_class;
sub destructor_class;
my @MetaClassTypes = qw(
attribute_metaclass
method_metaclass
constructor_class
destructor_class
);
sub _construct_meta {
my($class, %args) = @_;
$args{attributes} = {};
$args{methods} = {};
$args{roles} = [];
$args{superclasses} = do {
no strict 'refs';
\@{ $args{package} . '::ISA' };
};
my $self = bless \%args, ref($class) || $class;
if(ref($self) ne __PACKAGE__){
$self->meta->_initialize_object($self, \%args);
}
return $self;
}
sub create_anon_class{
my $self = shift;
return $self->create(undef, @_);
}
sub is_anon_class;
sub roles;
sub calculate_all_roles {
my $self = shift;
my %seen;
return grep { !$seen{ $_->name }++ }
map { $_->calculate_all_roles } @{ $self->roles };
}
sub superclasses {
my $self = shift;
if (@_) {
foreach my $super(@_){
Mouse::Util::load_class($super);
my $meta = Mouse::Util::get_metaclass_by_name($super);
next if not defined $meta;
if(Mouse::Util::is_a_metarole($meta)){
$self->throw_error("You cannot inherit from a Mouse Role ($super)");
}
next if $self->isa(ref $meta); # _superclass_meta_is_compatible
$self->_reconcile_with_superclass_meta($meta);
}
@{ $self->{superclasses} } = @_;
}
return @{ $self->{superclasses} };
}
sub _reconcile_with_superclass_meta {
my($self, $super_meta) = @_;
my @incompatibles;
foreach my $metaclass_type(@MetaClassTypes){
my $super_c = $super_meta->$metaclass_type();
my $self_c = $self->$metaclass_type();
if(!$super_c->isa($self_c)){
push @incompatibles, ($metaclass_type => $super_c);
}
}
my @roles;
foreach my $role($self->meta->calculate_all_roles){
if(!$super_meta->meta->does_role($role->name)){
push @roles, $role->name;
}
}
#print "reconcile($self vs. $super_meta; @roles; @incompatibles)\n";
require Mouse::Util::MetaRole;
Mouse::Util::MetaRole::apply_metaclass_roles(
for_class => $self,
metaclass => ref $super_meta,
metaclass_roles => \@roles,
@incompatibles,
);
return;
}
sub find_method_by_name{
my($self, $method_name) = @_;
defined($method_name)
or $self->throw_error('You must define a method name to find');
foreach my $class( $self->linearized_isa ){
my $method = $self->initialize($class)->get_method($method_name);
return $method if defined $method;
}
return undef;
}
sub get_all_methods {
my($self) = @_;
return map{ $self->find_method_by_name($_) } $self->get_all_method_names;
}
sub get_all_method_names {
my $self = shift;
my %uniq;
return grep { $uniq{$_}++ == 0 }
map { Mouse::Meta::Class->initialize($_)->get_method_list() }
$self->linearized_isa;
}
sub find_attribute_by_name{
my($self, $name) = @_;
my $attr;
foreach my $class($self->linearized_isa){
my $meta = Mouse::Util::get_metaclass_by_name($class) or next;
$attr = $meta->get_attribute($name) and last;
}
return $attr;
}
sub add_attribute {
my $self = shift;
my($attr, $name);
if(blessed $_[0]){
$attr = $_[0];
$attr->isa('Mouse::Meta::Attribute')
|| $self->throw_error("Your attribute must be an instance of Mouse::Meta::Attribute (or a subclass)");
$name = $attr->name;
}
else{
# _process_attribute
$name = shift;
my %args = (@_ == 1) ? %{$_[0]} : @_;
defined($name)
or $self->throw_error('You must provide a name for the attribute');
if ($name =~ s/^\+//) { # inherited attributes
my $inherited_attr = $self->find_attribute_by_name($name)
or $self->throw_error("Could not find an attribute by the name of '$name' to inherit from in ".$self->name);
$attr = $inherited_attr->clone_and_inherit_options(%args);
}
else{
my($attribute_class, @traits) = $self->attribute_metaclass->interpolate_class(\%args);
$args{traits} = \@traits if @traits;
$attr = $attribute_class->new($name, %args);
}
}
weaken( $attr->{associated_class} = $self );
$self->{attributes}{$attr->name} = $attr;
$attr->install_accessors();
if(Mouse::Util::_MOUSE_VERBOSE && !$attr->{associated_methods} && ($attr->{is} || '') ne 'bare'){
Carp::cluck(qq{Attribute (}.$attr->name.qq{) of class }.$self->name.qq{ has no associated methods (did you mean to provide an "is" argument?)});
}
return $attr;
}
sub compute_all_applicable_attributes {
Carp::cluck('compute_all_applicable_attributes() has been deprecated')
if Mouse::Util::_MOUSE_VERBOSE;
return shift->get_all_attributes(@_)
}
sub linearized_isa;
sub new_object;
sub clone_object {
my $class = shift;
my $object = shift;
my %params = (@_ == 1) ? %{$_[0]} : @_;
(blessed($object) && $object->isa($class->name))
|| $class->throw_error("You must pass an instance of the metaclass (" . $class->name . "), not ($object)");
my $cloned = bless { %$object }, ref $object;
$class->_initialize_object($cloned, \%params);
return $cloned;
}
sub clone_instance {
my ($class, $instance, %params) = @_;
Carp::cluck('clone_instance has been deprecated. Use clone_object instead')
if Mouse::Util::_MOUSE_VERBOSE;
return $class->clone_object($instance, %params);
}
sub immutable_options {
my ( $self, @args ) = @_;
return (
inline_constructor => 1,
inline_destructor => 1,
constructor_name => 'new',
@args,
);
}
sub make_immutable {
my $self = shift;
my %args = $self->immutable_options(@_);
$self->{is_immutable}++;
if ($args{inline_constructor}) {
my $c = $self->constructor_class;
Mouse::Util::load_class($c);
$self->add_method($args{constructor_name} =>
$c->_generate_constructor($self, \%args));
}
if ($args{inline_destructor}) {
my $c = $self->destructor_class;
Mouse::Util::load_class($c);
$self->add_method(DESTROY =>
$c->_generate_destructor($self, \%args));
}
# Moose's make_immutable returns true allowing calling code to skip setting an explicit true value
# at the end of a source file.
return 1;
}
sub make_mutable { not_supported }
sub is_immutable { $_[0]->{is_immutable} }
sub is_mutable { !$_[0]->{is_immutable} }
sub _install_modifier_pp{
my( $self, $type, $name, $code ) = @_;
my $into = $self->name;
my $original = $into->can($name)
or $self->throw_error("The method '$name' is not found in the inheritance hierarchy for class $into");
my $modifier_table = $self->{modifiers}{$name};
if(!$modifier_table){
my(@before, @after, @around, $cache, $modified);
$cache = $original;
$modified = sub {
for my $c (@before) { $c->(@_) }
if(wantarray){ # list context
my @rval = $cache->(@_);
for my $c(@after){ $c->(@_) }
return @rval;
}
elsif(defined wantarray){ # scalar context
my $rval = $cache->(@_);
for my $c(@after){ $c->(@_) }
return $rval;
}
else{ # void context
$cache->(@_);
for my $c(@after){ $c->(@_) }
return;
}
};
$self->{modifiers}{$name} = $modifier_table = {
original => $original,
before => \@before,
after => \@after,
around => \@around,
cache => \$cache, # cache for around modifiers
};
$self->add_method($name => $modified);
}
if($type eq 'before'){
unshift @{$modifier_table->{before}}, $code;
}
elsif($type eq 'after'){
push @{$modifier_table->{after}}, $code;
}
else{ # around
push @{$modifier_table->{around}}, $code;
my $next = ${ $modifier_table->{cache} };
${ $modifier_table->{cache} } = sub{ $code->($next, @_) };
}
return;
}
sub _install_modifier {
my ( $self, $type, $name, $code ) = @_;
# load Class::Method::Modifiers first
my $no_cmm_fast = do{
local $@;
eval q{ require Class::Method::Modifiers::Fast };
$@;
};
my $impl;
if($no_cmm_fast){
$impl = \&_install_modifier_pp;
}
else{
my $install_modifier = Class::Method::Modifiers::Fast->can('_install_modifier');
$impl = sub {
my ( $self, $type, $name, $code ) = @_;
my $into = $self->name;
$install_modifier->($into, $type, $name, $code);
$self->add_method($name => do{
no strict 'refs';
\&{ $into . '::' . $name };
});
return;
};
}
# replace this method itself :)
{
no warnings 'redefine';
*_install_modifier = $impl;
}
$self->$impl( $type, $name, $code );
}
sub add_before_method_modifier {
my ( $self, $name, $code ) = @_;
$self->_install_modifier( 'before', $name, $code );
}
sub add_around_method_modifier {
my ( $self, $name, $code ) = @_;
$self->_install_modifier( 'around', $name, $code );
}
sub add_after_method_modifier {
my ( $self, $name, $code ) = @_;
$self->_install_modifier( 'after', $name, $code );
}
sub add_override_method_modifier {
my ($self, $name, $code) = @_;
if($self->has_method($name)){
$self->throw_error("Cannot add an override method if a local method is already present");
}
my $package = $self->name;
my $super_body = $package->can($name)
or $self->throw_error("You cannot override '$name' because it has no super method");
$self->add_method($name => sub {
local $Mouse::SUPER_PACKAGE = $package;
local $Mouse::SUPER_BODY = $super_body;
local @Mouse::SUPER_ARGS = @_;
$code->(@_);
});
return;
}
sub add_augment_method_modifier {
my ($self, $name, $code) = @_;
if($self->has_method($name)){
$self->throw_error("Cannot add an augment method if a local method is already present");
}
my $super = $self->find_method_by_name($name)
or $self->throw_error("You cannot augment '$name' because it has no super method");
my $super_package = $super->package_name;
my $super_body = $super->body;
$self->add_method($name => sub{
local $Mouse::INNER_BODY{$super_package} = $code;
local $Mouse::INNER_ARGS{$super_package} = [@_];
$super_body->(@_);
});
return;
}
sub does_role {
my ($self, $role_name) = @_;
(defined $role_name)
|| $self->throw_error("You must supply a role name to look for");
for my $class ($self->linearized_isa) {
my $meta = Mouse::Util::get_metaclass_by_name($class)
or next;
for my $role (@{ $meta->roles }) {
return 1 if $role->does_role($role_name);
}
}
return 0;
}
1;
__END__
=head1 NAME
Mouse::Meta::Class - The Mouse class metaclass
=head1 VERSION
This document describes Mouse version 0.44
=head1 METHODS
=head2 C<< initialize(ClassName) -> Mouse::Meta::Class >>
Finds or creates a C<Mouse::Meta::Class> instance for the given ClassName. Only
one instance should exist for a given class.
=head2 C<< name -> ClassName >>
Returns the name of the owner class.
=head2 C<< superclasses -> ClassNames >> C<< superclass(ClassNames) >>
Gets (or sets) the list of superclasses of the owner class.
=head2 C<< add_method(name => CodeRef) >>
Adds a method to the owner class.
=head2 C<< has_method(name) -> Bool >>
Returns whether we have a method with the given name.
=head2 C<< get_method(name) -> Mouse::Meta::Method | undef >>
Returns a L<Mouse::Meta::Method> with the given name.
Note that you can also use C<< $metaclass->name->can($name) >> for a method body.
=head2 C<< get_method_list -> Names >>
Returns a list of method names which are defined in the local class.
If you want a list of all applicable methods for a class, use the
C<get_all_methods> method.
=head2 C<< get_all_methods -> (Mouse::Meta::Method) >>
Return the list of all L<Mouse::Meta::Method> instances associated with
the class and its superclasses.
=head2 C<< add_attribute(name => spec | Mouse::Meta::Attribute) >>
Begins keeping track of the existing L<Mouse::Meta::Attribute> for the owner
class.
=head2 C<< has_attribute(Name) -> Bool >>
Returns whether we have a L<Mouse::Meta::Attribute> with the given name.
=head2 C<< get_attribute Name -> Mouse::Meta::Attribute | undef >>
Returns the L<Mouse::Meta::Attribute> with the given name.
=head2 C<< get_attribute_list -> Names >>
Returns a list of attribute names which are defined in the local
class. If you want a list of all applicable attributes for a class,
use the C<get_all_attributes> method.
=head2 C<< get_all_attributes -> (Mouse::Meta::Attribute) >>
Returns the list of all L<Mouse::Meta::Attribute> instances associated with
this class and its superclasses.
=head2 C<< linearized_isa -> [ClassNames] >>
Returns the list of classes in method dispatch order, with duplicates removed.
=head2 C<< new_object(Parameters) -> Instance >>
Creates a new instance.
=head2 C<< clone_object(Instance, Parameters) -> Instance >>
Clones the given instance which must be an instance governed by this
metaclass.
=head2 C<< throw_error(Message, Parameters) >>
Throws an error with the given message.
=head1 SEE ALSO
L<Mouse::Meta::Module>
L<Moose::Meta::Class>
L<Class::MOP::Class>
=cut