package Moose::Meta::Method::Accessor::Native::Collection; BEGIN { $Moose::Meta::Method::Accessor::Native::Collection::AUTHORITY = 'cpan:STEVAN'; } $Moose::Meta::Method::Accessor::Native::Collection::VERSION = '2.1204'; use strict; use warnings; use Moose::Role; requires qw( _adds_members ); sub _inline_coerce_new_values { my $self = shift; return unless $self->associated_attribute->should_coerce; return unless $self->_tc_member_type_can_coerce; return ( '(' . $self->_new_members . ') = map { $member_coercion->($_) }', $self->_new_members . ';', ); } sub _tc_member_type_can_coerce { my $self = shift; my $member_tc = $self->_tc_member_type; return $member_tc && $member_tc->has_coercion; } sub _tc_member_type { my $self = shift; my $tc = $self->associated_attribute->type_constraint; while ($tc) { return $tc->type_parameter if $tc->can('type_parameter'); $tc = $tc->parent; } return; } sub _writer_value_needs_copy { my $self = shift; return $self->_constraint_must_be_checked && !$self->_check_new_members_only; } sub _inline_tc_code { my $self = shift; my ($value, $tc, $coercion, $message, $is_lazy) = @_; return unless $self->_constraint_must_be_checked; if ($self->_check_new_members_only) { return unless $self->_adds_members; return $self->_inline_check_member_constraint($self->_new_members); } else { return ( $self->_inline_check_coercion($value, $tc, $coercion, $is_lazy), $self->_inline_check_constraint($value, $tc, $message, $is_lazy), ); } } sub _check_new_members_only { my $self = shift; my $attr = $self->associated_attribute; my $tc = $attr->type_constraint; # If we have a coercion, we could come up with an entirely new value after # coercing, so we need to check everything, return 0 if $attr->should_coerce && $tc->has_coercion; # If the parent is our root type (ArrayRef, HashRef, etc), that means we # can just check the new members of the collection, because we know that # we will always be generating an appropriate collection type. # # However, if this type has its own constraint (it's Parameteriz_able_, # not Paramet_erized_), we don't know what is being checked by the # constraint, so we need to check the whole value, not just the members. return 1 if $self->_is_root_type( $tc->parent ) && ( $tc->isa('Moose::Meta::TypeConstraint::Parameterized') || $tc->isa('Specio::Constraint::Parameterized') ); return 0; } sub _inline_check_member_constraint { my $self = shift; my ($new_value) = @_; my $attr_name = $self->associated_attribute->name; my $check = $self->_tc_member_type->can_be_inlined ? '! (' . $self->_tc_member_type->_inline_check('$new_val') . ')' : ' !$member_tc->($new_val) '; return ( 'for my $new_val (' . $new_value . ') {', "if ($check) {", 'my $msg = do { local $_ = $new_val; $member_message->($new_val) };'. $self->_inline_throw_exception( "ValidationFailedForInlineTypeConstraint => ". "attribute_name => '".$attr_name."',". 'type_constraint_message => $msg,'. 'class_name => $class_name,'. 'value => $new_val,'. 'new_member => 1', ) . ';', '}', '}', ); } sub _inline_get_old_value_for_trigger { my $self = shift; my ($instance, $old) = @_; my $attr = $self->associated_attribute; return unless $attr->has_trigger; return ( 'my ' . $old . ' = ' . $self->_has_value($instance), '? ' . $self->_copy_old_value($self->_get_value($instance)), ': ();', ); } around _eval_environment => sub { my $orig = shift; my $self = shift; my $env = $self->$orig(@_); my $member_tc = $self->_tc_member_type; return $env unless $member_tc; $env->{'$member_tc'} = \( $member_tc->_compiled_type_constraint ); $env->{'$member_coercion'} = \( $member_tc->coercion->_compiled_type_coercion ) if $member_tc->has_coercion; $env->{'$member_message'} = \( $member_tc->has_message ? $member_tc->message : $member_tc->_default_message ); my $tc_env = $member_tc->inline_environment(); $env = { %{$env}, %{$tc_env} }; return $env; }; no Moose::Role; 1;