package Moose::Meta::TypeConstraint; our $VERSION = '2.2207'; use strict; use warnings; use metaclass; use overload '0+' => sub { refaddr(shift) }, # id an object '""' => sub { shift->name }, # stringify to tc name bool => sub { 1 }, fallback => 1; use Eval::Closure; use Scalar::Util qw(refaddr); use Sub::Util qw(set_subname); use Try::Tiny; use parent 'Class::MOP::Object'; use Moose::Util 'throw_exception'; __PACKAGE__->meta->add_attribute('name' => ( reader => 'name', Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('parent' => ( reader => 'parent', predicate => 'has_parent', Class::MOP::_definition_context(), )); my $null_constraint = sub { 1 }; __PACKAGE__->meta->add_attribute('constraint' => ( reader => 'constraint', writer => '_set_constraint', default => sub { $null_constraint }, Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('message' => ( accessor => 'message', predicate => 'has_message', Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('_default_message' => ( accessor => '_default_message', Class::MOP::_definition_context(), )); # can't make this a default because it has to close over the type name, and # cmop attributes don't have lazy my $_default_message_generator = sub { my $name = shift; sub { my $value = shift; # have to load it late like this, since it uses Moose itself my $can_partialdump = try { # versions prior to 0.14 had a potential infinite loop bug require Devel::PartialDump; Devel::PartialDump->VERSION(0.14); 1; }; if ($can_partialdump) { $value = Devel::PartialDump->new->dump($value); } else { $value = (defined $value ? overload::StrVal($value) : 'undef'); } return "Validation failed for '" . $name . "' with value $value"; } }; __PACKAGE__->meta->add_attribute('coercion' => ( accessor => 'coercion', predicate => 'has_coercion', Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('inlined' => ( init_arg => 'inlined', accessor => 'inlined', predicate => '_has_inlined_type_constraint', Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('inline_environment' => ( init_arg => 'inline_environment', accessor => '_inline_environment', default => sub { {} }, Class::MOP::_definition_context(), )); sub parents { my $self = shift; $self->parent; } # private accessors __PACKAGE__->meta->add_attribute('compiled_type_constraint' => ( accessor => '_compiled_type_constraint', predicate => '_has_compiled_type_constraint', Class::MOP::_definition_context(), )); __PACKAGE__->meta->add_attribute('package_defined_in' => ( accessor => '_package_defined_in', Class::MOP::_definition_context(), )); sub new { my $class = shift; my ($first, @rest) = @_; my %args = ref $first ? %$first : $first ? ($first, @rest) : (); $args{name} = $args{name} ? "$args{name}" : "__ANON__"; if ( exists $args{message} && (!ref($args{message}) || ref($args{message}) ne 'CODE') ) { throw_exception( MessageParameterMustBeCodeRef => params => \%args, class => $class ); } my $self = $class->_new(%args); $self->compile_type_constraint() unless $self->_has_compiled_type_constraint; $self->_default_message($_default_message_generator->($self->name)) unless $self->has_message; return $self; } sub coerce { my $self = shift; my $coercion = $self->coercion; unless ($coercion) { throw_exception( CoercingWithoutCoercions => type_name => $self->name ); } return $_[0] if $self->check($_[0]); return $coercion->coerce(@_); } sub assert_coerce { my $self = shift; my $result = $self->coerce(@_); $self->assert_valid($result); return $result; } sub check { my ($self, @args) = @_; my $constraint_subref = $self->_compiled_type_constraint; return $constraint_subref->(@args) ? 1 : undef; } sub validate { my ($self, $value) = @_; if ($self->_compiled_type_constraint->($value)) { return undef; } else { $self->get_message($value); } } sub can_be_inlined { my $self = shift; if ( $self->has_parent && $self->constraint == $null_constraint ) { return $self->parent->can_be_inlined; } return $self->_has_inlined_type_constraint; } sub _inline_check { my $self = shift; unless ( $self->can_be_inlined ) { throw_exception( CannotInlineTypeConstraintCheck => type_name => $self->name ); } if ( $self->has_parent && $self->constraint == $null_constraint ) { return $self->parent->_inline_check(@_); } return '( do { ' . $self->inlined->( $self, @_ ) . ' } )'; } sub inline_environment { my $self = shift; if ( $self->has_parent && $self->constraint == $null_constraint ) { return $self->parent->inline_environment; } return $self->_inline_environment; } sub assert_valid { my ( $self, $value ) = @_; return 1 if $self->check($value); throw_exception( 'ValidationFailedForTypeConstraint', type => $self, value => $value ); } sub get_message { my ($self, $value) = @_; my $msg = $self->has_message ? $self->message : $self->_default_message; local $_ = $value; return $msg->($value); } ## type predicates ... sub equals { my ( $self, $type_or_name ) = @_; my $other = Moose::Util::TypeConstraints::find_type_constraint($type_or_name); return if not $other; return 1 if $self == $other; return unless $self->constraint == $other->constraint; if ( $self->has_parent ) { return unless $other->has_parent; return unless $self->parent->equals( $other->parent ); } else { return if $other->has_parent; } return; } sub is_a_type_of { my ($self, $type_or_name) = @_; my $type = Moose::Util::TypeConstraints::find_type_constraint($type_or_name); return if not $type; ($self->equals($type) || $self->is_subtype_of($type)); } sub is_subtype_of { my ($self, $type_or_name) = @_; my $type = Moose::Util::TypeConstraints::find_type_constraint($type_or_name); return if not $type; my $current = $self; while (my $parent = $current->parent) { return 1 if $parent->equals($type); $current = $parent; } return 0; } ## compiling the type constraint sub compile_type_constraint { my $self = shift; $self->_compiled_type_constraint($self->_actually_compile_type_constraint); } ## type compilers ... sub _actually_compile_type_constraint { my $self = shift; if ( $self->can_be_inlined ) { return eval_closure( source => 'sub { ' . $self->_inline_check('$_[0]') . ' }', environment => $self->inline_environment, ); } my $check = $self->constraint; unless ( defined $check ) { throw_exception( NoConstraintCheckForTypeConstraint => type_name => $self->name ); } return $self->_compile_subtype($check) if $self->has_parent; return $self->_compile_type($check); } sub _compile_subtype { my ($self, $check) = @_; # gather all the parent constraints in order my @parents; foreach my $parent ($self->_collect_all_parents) { push @parents => $parent->constraint; } @parents = grep { $_ != $null_constraint } reverse @parents; unless ( @parents ) { return $self->_compile_type($check); } else { # general case, check all the constraints, from the first parent to ourselves my @checks = @parents; push @checks, $check if $check != $null_constraint; return set_subname( $self->name => sub { my (@args) = @_; local $_ = $args[0]; foreach my $check (@checks) { return undef unless $check->(@args); } return 1; } ); } } sub _compile_type { my ($self, $check) = @_; return $check if $check == $null_constraint; # Item, Any return set_subname( $self->name => sub { my (@args) = @_; local $_ = $args[0]; $check->(@args); } ); } ## other utils ... sub _collect_all_parents { my $self = shift; my @parents; my $current = $self->parent; while (defined $current) { push @parents => $current; $current = $current->parent; } return @parents; } sub create_child_type { my ($self, %opts) = @_; my $class = ref $self; return $class->new(%opts, parent => $self); } 1; # ABSTRACT: The Moose Type Constraint metaclass __END__ =pod =encoding UTF-8 =head1 NAME Moose::Meta::TypeConstraint - The Moose Type Constraint metaclass =head1 VERSION version 2.2207 =head1 DESCRIPTION This class represents a single type constraint. Moose's built-in type constraints, as well as constraints you define, are all stored in a L object as objects of this class. =head1 INHERITANCE C is a subclass of L. =head1 METHODS =head2 Moose::Meta::TypeConstraint->new(%options) This creates a new type constraint based on the provided C<%options>: =over 4 =item * name The constraint name. If a name is not provided, it will be set to "__ANON__". =item * parent A C object which is the parent type for the type being created. This is optional. =item * constraint This is the subroutine reference that implements the actual constraint check. This defaults to a subroutine which always returns true. =item * message A subroutine reference which is used to generate an error message when the constraint fails. This is optional. =item * coercion A L object representing the coercions to the type. This is optional. =item * inlined A subroutine which returns a string suitable for inlining this type constraint. It will be called as a method on the type constraint object, and will receive a single additional parameter, a variable name to be tested (usually C<"$_"> or C<"$_[0]">. This is optional. =item * inline_environment A hash reference of variables to close over. The keys are variables names, and the values are I to the variables. =back =head2 $constraint->equals($type_name_or_object) Returns true if the supplied name or type object is the same as the current type. =head2 $constraint->is_subtype_of($type_name_or_object) Returns true if the supplied name or type object is a parent of the current type. =head2 $constraint->is_a_type_of($type_name_or_object) Returns true if the given type is the same as the current type, or is a parent of the current type. This is a shortcut for checking C and C. =head2 $constraint->coerce($value) This will attempt to coerce the value to the type. If the type does not have any defined coercions this will throw an error. If no coercion can produce a value matching C<$constraint>, the original value is returned. =head2 $constraint->assert_coerce($value) This method behaves just like C, but if the result is not valid according to C<$constraint>, an error is thrown. =head2 $constraint->check($value) Returns true if the given value passes the constraint for the type. =head2 $constraint->validate($value) This is similar to C. However, if the type I then the method returns an explicit C. If the type is not valid, we call C<< $self->get_message($value) >> internally to generate an error message. =head2 $constraint->assert_valid($value) Like C and C, this method checks whether C<$value> is valid under the constraint. If it is, it will return true. If it is not, an exception will be thrown with the results of C<< $self->get_message($value) >>. =head2 $constraint->name Returns the type's name, as provided to the constructor. =head2 $constraint->parent Returns the type's parent, as provided to the constructor, if any. =head2 $constraint->has_parent Returns true if the type has a parent type. =head2 $constraint->parents Returns all of the types parents as an list of type constraint objects. =head2 $constraint->constraint Returns the type's constraint, as provided to the constructor. =head2 $constraint->get_message($value) This generates a method for the given value. If the type does not have an explicit message, we generate a default message. =head2 $constraint->has_message Returns true if the type has a message. =head2 $constraint->message Returns the type's message as a subroutine reference. =head2 $constraint->coercion Returns the type's L object, if one exists. =head2 $constraint->has_coercion Returns true if the type has a coercion. =head2 $constraint->can_be_inlined Returns true if this type constraint can be inlined. A type constraint which subtypes an inlinable constraint and does not add an additional constraint "inherits" its parent type's inlining. =head2 $constraint->create_child_type(%options) This returns a new type constraint of the same class using the provided C<%options>. The C option will be the current type. This method exists so that subclasses of this class can override this behavior and change how child types are created. =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