package Moose::Meta::Method::Constructor; use strict; use warnings; use Carp 'confess'; use Scalar::Util 'blessed', 'weaken', 'looks_like_number'; our $VERSION = '0.09'; our $AUTHORITY = 'cpan:STEVAN'; use base 'Moose::Meta::Method', 'Class::MOP::Method::Generated'; sub new { my $class = shift; my %options = @_; (exists $options{options} && ref $options{options} eq 'HASH') || confess "You must pass a hash of options"; my $self = bless { # from our superclass '&!body' => undef, # specific to this subclass '%!options' => $options{options}, '$!meta_instance' => $options{metaclass}->get_meta_instance, '@!attributes' => [ $options{metaclass}->compute_all_applicable_attributes ], # ... '$!associated_metaclass' => $options{metaclass}, } => $class; # we don't want this creating # a cycle in the code, if not # needed weaken($self->{'$!associated_metaclass'}); $self->initialize_body; return $self; } ## accessors sub options { (shift)->{'%!options'} } sub meta_instance { (shift)->{'$!meta_instance'} } sub attributes { (shift)->{'@!attributes'} } sub associated_metaclass { (shift)->{'$!associated_metaclass'} } ## method sub initialize_body { my $self = shift; # TODO: # the %options should also include a both # a call 'initializer' and call 'SUPER::' # options, which should cover approx 90% # of the possible use cases (even if it # requires some adaption on the part of # the author, after all, nothing is free) my $source = 'sub {'; $source .= "\n" . 'my $class = shift;'; $source .= "\n" . 'return $class->Moose::Object::new(@_)'; $source .= "\n" . ' if $class ne \'' . $self->associated_metaclass->name . '\';'; $source .= "\n" . 'my %params = (scalar @_ == 1) ? %{$_[0]} : @_;'; $source .= "\n" . 'my $instance = ' . $self->meta_instance->inline_create_instance('$class'); $source .= ";\n" . (join ";\n" => map { $self->_generate_slot_initializer($_) } 0 .. (@{$self->attributes} - 1)); $source .= ";\n" . $self->_generate_BUILDALL(); $source .= ";\n" . 'return $instance'; $source .= ";\n" . '}'; warn $source if $self->options->{debug}; my $code; { # NOTE: # create the nessecary lexicals # to be picked up in the eval my $attrs = $self->attributes; # We need to check if the attribute ->can('type_constraint') # since we may be trying to immutabilize a Moose meta class, # which in turn has attributes which are Class::MOP::Attribute # objects, rather than Moose::Meta::Attribute. And # Class::MOP::Attribute attributes have no type constraints. # However we need to make sure we leave an undef value there # because the inlined code is using the index of the attributes # to determine where to find the type constraint my @type_constraints = map { $_->can('type_constraint') ? $_->type_constraint : undef } @$attrs; my @type_constraint_bodies = map { defined $_ ? $_->_compiled_type_constraint : undef; } @type_constraints; $code = eval $source; confess "Could not eval the constructor :\n\n$source\n\nbecause :\n\n$@" if $@; } $self->{'&!body'} = $code; } sub _generate_BUILDALL { my $self = shift; my @BUILD_calls; foreach my $method (reverse $self->associated_metaclass->find_all_methods_by_name('BUILD')) { push @BUILD_calls => '$instance->' . $method->{class} . '::BUILD(\%params)'; } return join ";\n" => @BUILD_calls; } sub _generate_slot_initializer { my $self = shift; my $index = shift; my $attr = $self->attributes->[$index]; my @source = ('## ' . $attr->name); my $is_moose = $attr->isa('Moose::Meta::Attribute'); # XXX FIXME if ($is_moose && defined($attr->init_arg) && $attr->is_required && !$attr->has_default && !$attr->has_builder) { push @source => ('(exists $params{\'' . $attr->init_arg . '\'}) ' . '|| confess "Attribute (' . $attr->name . ') is required";'); } if (($attr->has_default || $attr->has_builder) && !($is_moose && $attr->is_lazy)) { if ( defined( my $init_arg = $attr->init_arg ) ) { push @source => 'if (exists $params{\'' . $init_arg . '\'}) {'; push @source => ('my $val = $params{\'' . $init_arg . '\'};'); if ($is_moose && $attr->has_type_constraint) { if ($attr->should_coerce && $attr->type_constraint->has_coercion) { push @source => $self->_generate_type_coercion( $attr, '$type_constraints[' . $index . ']', '$val', '$val' ); } push @source => $self->_generate_type_constraint_check( $attr, '$type_constraint_bodies[' . $index . ']', '$type_constraints[' . $index . ']', '$val' ); } push @source => $self->_generate_slot_assignment($attr, '$val', $index); push @source => "} else {"; } my $default; if ( $attr->has_default ) { $default = $self->_generate_default_value($attr, $index); } else { my $builder = $attr->builder; $default = '$instance->' . $builder; } push @source => '{'; # wrap this to avoid my $val overwrite warnings push @source => ('my $val = ' . $default . ';'); push @source => $self->_generate_type_constraint_check( $attr, ('$type_constraint_bodies[' . $index . ']'), ('$type_constraints[' . $index . ']'), '$val' ) if ($is_moose && $attr->has_type_constraint); push @source => $self->_generate_slot_assignment($attr, '$val', $index); push @source => '}'; # close - wrap this to avoid my $val overrite warnings push @source => "}" if defined $attr->init_arg; } elsif ( defined( my $init_arg = $attr->init_arg ) ) { push @source => '(exists $params{\'' . $init_arg . '\'}) && do {'; push @source => ('my $val = $params{\'' . $init_arg . '\'};'); if ($is_moose && $attr->has_type_constraint) { if ($attr->should_coerce && $attr->type_constraint->has_coercion) { push @source => $self->_generate_type_coercion( $attr, '$type_constraints[' . $index . ']', '$val', '$val' ); } push @source => $self->_generate_type_constraint_check( $attr, '$type_constraint_bodies[' . $index . ']', '$type_constraints[' . $index . ']', '$val' ); } push @source => $self->_generate_slot_assignment($attr, '$val', $index); push @source => "}"; } return join "\n" => @source; } sub _generate_slot_assignment { my ($self, $attr, $value, $index) = @_; my $source; if ($attr->has_initializer) { $source = ( '$attrs->[' . $index . ']->set_initial_value($instance, ' . $value . ');' ); } else { $source = ( $self->meta_instance->inline_set_slot_value( '$instance', ("'" . $attr->name . "'"), $value ) . ';' ); } my $is_moose = $attr->isa('Moose::Meta::Attribute'); # XXX FIXME if ($is_moose && $attr->is_weak_ref) { $source .= ( "\n" . $self->meta_instance->inline_weaken_slot_value( '$instance', ("'" . $attr->name . "'") ) . ' if ref ' . $value . ';' ); } return $source; } sub _generate_type_coercion { my ($self, $attr, $type_constraint_name, $value_name, $return_value_name) = @_; return ($return_value_name . ' = ' . $type_constraint_name . '->coerce(' . $value_name . ');'); } sub _generate_type_constraint_check { my ($self, $attr, $type_constraint_cv, $type_constraint_obj, $value_name) = @_; return ( $type_constraint_cv . '->(' . $value_name . ')' . "\n\t" . '|| confess "Attribute (' . $attr->name . ') does not pass the type constraint because: " . ' . $type_constraint_obj . '->get_message(' . $value_name . ');' ); } sub _generate_default_value { my ($self, $attr, $index) = @_; # NOTE: # default values can either be CODE refs # in which case we need to call them. Or # they can be scalars (strings/numbers) # in which case we can just deal with them # in the code we eval. if ($attr->is_default_a_coderef) { return '$attrs->[' . $index . ']->default($instance)'; } else { my $default = $attr->default; # make sure to quote strings ... unless (looks_like_number($default)) { $default = "'$default'"; } return $default; } } 1; __END__ =pod =head1 NAME Moose::Meta::Method::Constructor - Method Meta Object for constructors =head1 DESCRIPTION This is a subclass of L which handles constructing an approprate Constructor methods. This is primarily used in the making of immutable metaclasses, otherwise it is not particularly useful. =head1 METHODS =over 4 =item B =item B =item B =item B =item B =item B =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