package Mouse::PurePerl;
# The pure Perl backend for Mouse
package Mouse::Util;
use strict;
use warnings;
use warnings FATAL => 'redefine'; # to avoid to load Mouse::PurePerl twice
use Scalar::Util ();
use B ();
require Mouse::Util;
# taken from Class/MOP.pm
sub is_valid_class_name {
my $class = shift;
return 0 if ref($class);
return 0 unless defined($class);
return 1 if $class =~ /\A \w+ (?: :: \w+ )* \z/xms;
return 0;
}
sub is_class_loaded {
my $class = shift;
return 0 if ref($class) || !defined($class) || !length($class);
# walk the symbol table tree to avoid autovififying
# \*{${main::}{"Foo::"}{"Bar::"}} == \*main::Foo::Bar::
my $pack = \%::;
foreach my $part (split('::', $class)) {
$part .= '::';
return 0 if !exists $pack->{$part};
my $entry = \$pack->{$part};
return 0 if ref($entry) ne 'GLOB';
$pack = *{$entry}{HASH};
}
return 0 if !%{$pack};
# check for $VERSION or @ISA
return 1 if exists $pack->{VERSION}
&& defined *{$pack->{VERSION}}{SCALAR} && defined ${ $pack->{VERSION} };
return 1 if exists $pack->{ISA}
&& defined *{$pack->{ISA}}{ARRAY} && @{ $pack->{ISA} } != 0;
# check for any method
foreach my $name( keys %{$pack} ) {
my $entry = \$pack->{$name};
return 1 if ref($entry) ne 'GLOB' || defined *{$entry}{CODE};
}
# fail
return 0;
}
# taken from Sub::Identify
sub get_code_info {
my ($coderef) = @_;
ref($coderef) or return;
my $cv = B::svref_2object($coderef);
$cv->isa('B::CV') or return;
my $gv = $cv->GV;
$gv->isa('B::GV') or return;
return ($gv->STASH->NAME, $gv->NAME);
}
sub get_code_package{
my($coderef) = @_;
my $cv = B::svref_2object($coderef);
$cv->isa('B::CV') or return '';
my $gv = $cv->GV;
$gv->isa('B::GV') or return '';
return $gv->STASH->NAME;
}
sub get_code_ref{
my($package, $name) = @_;
no strict 'refs';
no warnings 'once';
use warnings FATAL => 'uninitialized';
return *{$package . '::' . $name}{CODE};
}
sub generate_isa_predicate_for {
my($for_class, $name) = @_;
my $predicate = sub{ Scalar::Util::blessed($_[0]) && $_[0]->isa($for_class) };
if(defined $name){
Mouse::Util::install_subroutines(scalar caller, $name => $predicate);
return;
}
return $predicate;
}
sub generate_can_predicate_for {
my($methods_ref, $name) = @_;
my @methods = @{$methods_ref};
my $predicate = sub{
my($instance) = @_;
if(Scalar::Util::blessed($instance)){
foreach my $method(@methods){
if(!$instance->can($method)){
return 0;
}
}
return 1;
}
return 0;
};
if(defined $name){
Mouse::Util::install_subroutines(scalar caller, $name => $predicate);
return;
}
return $predicate;
}
package Mouse::Util::TypeConstraints;
sub Any { 1 }
sub Item { 1 }
sub Bool { !$_[0] || $_[0] eq '1' }
sub Undef { !defined($_[0]) }
sub Defined { defined($_[0]) }
sub Value { defined($_[0]) && !ref($_[0]) }
sub Num { Scalar::Util::looks_like_number($_[0]) }
sub Str {
# We need to use a copy here to flatten MAGICs, for instance as in
# Str( substr($_, 0, 42) ).
my($value) = @_;
return defined($value) && ref(\$value) eq 'SCALAR';
}
sub Int {
# We need to use a copy here to save the original internal SV flags.
my($value) = @_;
return defined($value) && $value =~ /\A -? [0-9]+ \z/xms;
}
sub Ref { ref($_[0]) }
sub ScalarRef {
my($value) = @_;
return ref($value) eq 'SCALAR' || ref($value) eq 'REF';
}
sub ArrayRef { ref($_[0]) eq 'ARRAY' }
sub HashRef { ref($_[0]) eq 'HASH' }
sub CodeRef { ref($_[0]) eq 'CODE' }
sub RegexpRef { ref($_[0]) eq 'Regexp' }
sub GlobRef { ref($_[0]) eq 'GLOB' }
sub FileHandle {
my($value) = @_;
return Scalar::Util::openhandle($value)
|| (Scalar::Util::blessed($value) && $value->isa("IO::Handle"))
}
sub Object { Scalar::Util::blessed($_[0]) && ref($_[0]) ne 'Regexp' }
sub ClassName { Mouse::Util::is_class_loaded($_[0]) }
sub RoleName { (Mouse::Util::class_of($_[0]) || return 0)->isa('Mouse::Meta::Role') }
sub _parameterize_ArrayRef_for {
my($type_parameter) = @_;
my $check = $type_parameter->_compiled_type_constraint;
return sub {
foreach my $value (@{$_}) {
return undef unless $check->($value);
}
return 1;
}
}
sub _parameterize_HashRef_for {
my($type_parameter) = @_;
my $check = $type_parameter->_compiled_type_constraint;
return sub {
foreach my $value(values %{$_}){
return undef unless $check->($value);
}
return 1;
};
}
# 'Maybe' type accepts 'Any', so it requires parameters
sub _parameterize_Maybe_for {
my($type_parameter) = @_;
my $check = $type_parameter->_compiled_type_constraint;
return sub{
return !defined($_) || $check->($_);
};
}
package Mouse::Meta::Module;
sub name { $_[0]->{package} }
sub _method_map { $_[0]->{methods} }
sub _attribute_map{ $_[0]->{attributes} }
sub namespace{
my $name = $_[0]->{package};
no strict 'refs';
return \%{ $name . '::' };
}
sub add_method {
my($self, $name, $code) = @_;
if(!defined $name){
$self->throw_error('You must pass a defined name');
}
if(!defined $code){
$self->throw_error('You must pass a defined code');
}
if(ref($code) ne 'CODE'){
$code = \&{$code}; # coerce
}
$self->{methods}->{$name} = $code; # Moose stores meta object here.
Mouse::Util::install_subroutines($self->name,
$name => $code,
);
return;
}
my $generate_class_accessor = sub {
my($name) = @_;
return sub {
my $self = shift;
if(@_) {
return $self->{$name} = shift;
}
foreach my $class($self->linearized_isa) {
my $meta = Mouse::Util::get_metaclass_by_name($class)
or next;
if(exists $meta->{$name}) {
return $meta->{$name};
}
}
return undef;
};
};
package Mouse::Meta::Class;
use Mouse::Meta::Method::Constructor;
use Mouse::Meta::Method::Destructor;
sub method_metaclass { $_[0]->{method_metaclass} || 'Mouse::Meta::Method' }
sub attribute_metaclass { $_[0]->{attribute_metaclass} || 'Mouse::Meta::Attribute' }
sub constructor_class { $_[0]->{constructor_class} || 'Mouse::Meta::Method::Constructor' }
sub destructor_class { $_[0]->{destructor_class} || 'Mouse::Meta::Method::Destructor' }
sub is_anon_class{
return exists $_[0]->{anon_serial_id};
}
sub roles { $_[0]->{roles} }
sub linearized_isa { @{ Mouse::Util::get_linear_isa($_[0]->{package}) } }
sub new_object {
my $meta = shift;
my %args = (@_ == 1 ? %{$_[0]} : @_);
my $object = bless {}, $meta->name;
$meta->_initialize_object($object, \%args, 0);
# BUILDALL
if( $object->can('BUILD') ) {
for my $class (reverse $meta->linearized_isa) {
my $build = Mouse::Util::get_code_ref($class, 'BUILD')
|| next;
$object->$build(\%args);
}
}
return $object;
}
sub clone_object {
my $class = shift;
my $object = shift;
my $args = $object->Mouse::Object::BUILDARGS(@_);
(Scalar::Util::blessed($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, $args, 1);
return $cloned;
}
sub _initialize_object{
my($self, $object, $args, $is_cloning) = @_;
# The initializer, which is used everywhere, must be clear
# when an attribute is added. See Mouse::Meta::Class::add_attribute.
my $initializer = $self->{_mouse_cache}{_initialize_object} ||=
Mouse::Util::load_class($self->constructor_class)
->_generate_initialize_object($self);
goto &{$initializer};
}
sub get_all_attributes {
my($self) = @_;
return @{ $self->{_mouse_cache}{all_attributes}
||= $self->_calculate_all_attributes };
}
sub is_immutable { $_[0]->{is_immutable} }
sub strict_constructor;
*strict_constructor = $generate_class_accessor->('strict_constructor');
sub _invalidate_metaclass_cache {
my($self) = @_;
delete $self->{_mouse_cache};
return;
}
sub _report_unknown_args {
my($metaclass, $attrs, $args) = @_;
my @unknowns;
my %init_args;
foreach my $attr(@{$attrs}){
my $init_arg = $attr->init_arg;
if(defined $init_arg){
$init_args{$init_arg}++;
}
}
while(my $key = each %{$args}){
if(!exists $init_args{$key}){
push @unknowns, $key;
}
}
$metaclass->throw_error( sprintf
"Unknown attribute passed to the constructor of %s: %s",
$metaclass->name, Mouse::Util::english_list(@unknowns),
);
}
package Mouse::Meta::Role;
sub method_metaclass{ $_[0]->{method_metaclass} || 'Mouse::Meta::Role::Method' }
sub is_anon_role{
return exists $_[0]->{anon_serial_id};
}
sub get_roles { $_[0]->{roles} }
sub add_before_method_modifier {
my ($self, $method_name, $method) = @_;
push @{ $self->{before_method_modifiers}{$method_name} ||= [] }, $method;
return;
}
sub add_around_method_modifier {
my ($self, $method_name, $method) = @_;
push @{ $self->{around_method_modifiers}{$method_name} ||= [] }, $method;
return;
}
sub add_after_method_modifier {
my ($self, $method_name, $method) = @_;
push @{ $self->{after_method_modifiers}{$method_name} ||= [] }, $method;
return;
}
sub get_before_method_modifiers {
my ($self, $method_name) = @_;
return @{ $self->{before_method_modifiers}{$method_name} ||= [] }
}
sub get_around_method_modifiers {
my ($self, $method_name) = @_;
return @{ $self->{around_method_modifiers}{$method_name} ||= [] }
}
sub get_after_method_modifiers {
my ($self, $method_name) = @_;
return @{ $self->{after_method_modifiers}{$method_name} ||= [] }
}
sub add_metaclass_accessor { # for meta roles (a.k.a. traits)
my($meta, $name) = @_;
$meta->add_method($name => $generate_class_accessor->($name));
return;
}
package Mouse::Meta::Attribute;
require Mouse::Meta::Method::Accessor;
sub accessor_metaclass{ $_[0]->{accessor_metaclass} || 'Mouse::Meta::Method::Accessor' }
# readers
sub name { $_[0]->{name} }
sub associated_class { $_[0]->{associated_class} }
sub accessor { $_[0]->{accessor} }
sub reader { $_[0]->{reader} }
sub writer { $_[0]->{writer} }
sub predicate { $_[0]->{predicate} }
sub clearer { $_[0]->{clearer} }
sub handles { $_[0]->{handles} }
sub _is_metadata { $_[0]->{is} }
sub is_required { $_[0]->{required} }
sub default {
my($self, $instance) = @_;
my $value = $self->{default};
$value = $value->($instance) if defined($instance) and ref($value) eq "CODE";
return $value;
}
sub is_lazy { $_[0]->{lazy} }
sub is_lazy_build { $_[0]->{lazy_build} }
sub is_weak_ref { $_[0]->{weak_ref} }
sub init_arg { $_[0]->{init_arg} }
sub type_constraint { $_[0]->{type_constraint} }
sub trigger { $_[0]->{trigger} }
sub builder { $_[0]->{builder} }
sub should_auto_deref { $_[0]->{auto_deref} }
sub should_coerce { $_[0]->{coerce} }
sub documentation { $_[0]->{documentation} }
sub insertion_order { $_[0]->{insertion_order} }
# predicates
sub has_accessor { exists $_[0]->{accessor} }
sub has_reader { exists $_[0]->{reader} }
sub has_writer { exists $_[0]->{writer} }
sub has_predicate { exists $_[0]->{predicate} }
sub has_clearer { exists $_[0]->{clearer} }
sub has_handles { exists $_[0]->{handles} }
sub has_default { exists $_[0]->{default} }
sub has_type_constraint { exists $_[0]->{type_constraint} }
sub has_trigger { exists $_[0]->{trigger} }
sub has_builder { exists $_[0]->{builder} }
sub has_documentation { exists $_[0]->{documentation} }
sub _process_options{
my($class, $name, $args) = @_;
# taken from Class::MOP::Attribute::new
defined($name)
or $class->throw_error('You must provide a name for the attribute');
if(!exists $args->{init_arg}){
$args->{init_arg} = $name;
}
# 'required' requires either 'init_arg', 'builder', or 'default'
my $can_be_required = defined( $args->{init_arg} );
if(exists $args->{builder}){
# XXX:
# Moose refuses a CODE ref builder, but Mouse doesn't for backward compatibility
# This feature will be changed in a future. (gfx)
$class->throw_error('builder must be a defined scalar value which is a method name')
#if ref $args->{builder} || !defined $args->{builder};
if !defined $args->{builder};
$can_be_required++;
}
elsif(exists $args->{default}){
if(ref $args->{default} && ref($args->{default}) ne 'CODE'){
$class->throw_error("References are not allowed as default values, you must "
. "wrap the default of '$name' in a CODE reference (ex: sub { [] } and not [])");
}
$can_be_required++;
}
if( $args->{required} && !$can_be_required ) {
$class->throw_error("You cannot have a required attribute ($name) without a default, builder, or an init_arg");
}
# taken from Mouse::Meta::Attribute->new and ->_process_args
if(exists $args->{is}){
my $is = $args->{is};
if($is eq 'ro'){
$args->{reader} ||= $name;
}
elsif($is eq 'rw'){
if(exists $args->{writer}){
$args->{reader} ||= $name;
}
else{
$args->{accessor} ||= $name;
}
}
elsif($is eq 'bare'){
# do nothing, but don't complain (later) about missing methods
}
else{
$is = 'undef' if !defined $is;
$class->throw_error("I do not understand this option (is => $is) on attribute ($name)");
}
}
my $tc;
if(exists $args->{isa}){
$tc = $args->{type_constraint} = Mouse::Util::TypeConstraints::find_or_create_isa_type_constraint($args->{isa});
}
if(exists $args->{does}){
if(defined $tc){ # both isa and does supplied
my $does_ok = do{
local $@;
eval{ "$tc"->does($args->{does}) };
};
if(!$does_ok){
$class->throw_error("Cannot have both an isa option and a does option because '$tc' does not do '$args->{does}' on attribute ($name)");
}
}
else {
$tc = $args->{type_constraint} = Mouse::Util::TypeConstraints::find_or_create_does_type_constraint($args->{does});
}
}
if($args->{coerce}){
defined($tc)
|| $class->throw_error("You cannot have coercion without specifying a type constraint on attribute ($name)");
$args->{weak_ref}
&& $class->throw_error("You cannot have a weak reference to a coerced value on attribute ($name)");
}
if ($args->{lazy_build}) {
exists($args->{default})
&& $class->throw_error("You can not use lazy_build and default for the same attribute ($name)");
$args->{lazy} = 1;
$args->{builder} ||= "_build_${name}";
if ($name =~ /^_/) {
$args->{clearer} ||= "_clear${name}";
$args->{predicate} ||= "_has${name}";
}
else {
$args->{clearer} ||= "clear_${name}";
$args->{predicate} ||= "has_${name}";
}
}
if ($args->{auto_deref}) {
defined($tc)
|| $class->throw_error("You cannot auto-dereference without specifying a type constraint on attribute ($name)");
( $tc->is_a_type_of('ArrayRef') || $tc->is_a_type_of('HashRef') )
|| $class->throw_error("You cannot auto-dereference anything other than a ArrayRef or HashRef on attribute ($name)");
}
if (exists $args->{trigger}) {
('CODE' eq ref $args->{trigger})
|| $class->throw_error("Trigger must be a CODE ref on attribute ($name)");
}
if ($args->{lazy}) {
(exists $args->{default} || defined $args->{builder})
|| $class->throw_error("You cannot have a lazy attribute ($name) without specifying a default value for it");
}
return;
}
package Mouse::Meta::TypeConstraint;
use overload
'""' => '_as_string',
'0+' => '_identity',
'|' => '_unite',
fallback => 1;
sub name { $_[0]->{name} }
sub parent { $_[0]->{parent} }
sub message { $_[0]->{message} }
sub _identity { Scalar::Util::refaddr($_[0]) } # overload 0+
sub type_parameter { $_[0]->{type_parameter} }
sub _compiled_type_constraint{ $_[0]->{compiled_type_constraint} }
sub __is_parameterized { exists $_[0]->{type_parameter} }
sub has_coercion { exists $_[0]->{_compiled_type_coercion} }
sub compile_type_constraint{
my($self) = @_;
# add parents first
my @checks;
for(my $parent = $self->{parent}; defined $parent; $parent = $parent->{parent}){
if($parent->{hand_optimized_type_constraint}){
unshift @checks, $parent->{hand_optimized_type_constraint};
last; # a hand optimized constraint must include all the parents
}
elsif($parent->{constraint}){
unshift @checks, $parent->{constraint};
}
}
# then add child
if($self->{constraint}){
push @checks, $self->{constraint};
}
if($self->{type_constraints}){ # Union
my @types = map{ $_->{compiled_type_constraint} } @{ $self->{type_constraints} };
push @checks, sub{
foreach my $c(@types){
return 1 if $c->($_[0]);
}
return 0;
};
}
if(@checks == 0){
$self->{compiled_type_constraint} = \&Mouse::Util::TypeConstraints::Any;
}
else{
$self->{compiled_type_constraint} = sub{
my(@args) = @_;
for ($args[0]) { # local $_ will cancel tie-ness due to perl's bug
foreach my $c(@checks){
return undef if !$c->(@args);
}
}
return 1;
};
}
return;
}
sub check {
my $self = shift;
return $self->_compiled_type_constraint->(@_);
}
package Mouse::Object;
sub BUILDARGS {
my $class = shift;
if (scalar @_ == 1) {
(ref($_[0]) eq 'HASH')
|| $class->meta->throw_error("Single parameters to new() must be a HASH ref");
return {%{$_[0]}};
}
else {
return {@_};
}
}
sub new {
my $class = shift;
my $args = $class->BUILDARGS(@_);
return $class->meta->new_object($args);
}
sub DESTROY {
my $self = shift;
return unless $self->can('DEMOLISH'); # short circuit
my $e = do{
local $?;
local $@;
eval{
# DEMOLISHALL
# We cannot count on being able to retrieve a previously made
# metaclass, _or_ being able to make a new one during global
# destruction. However, we should still be able to use mro at
# that time (at least tests suggest so ;)
foreach my $class (@{ Mouse::Util::get_linear_isa(ref $self) }) {
my $demolish = Mouse::Util::get_code_ref($class, 'DEMOLISH')
|| next;
$self->$demolish(Mouse::Util::in_global_destruction());
}
};
$@;
};
no warnings 'misc';
die $e if $e; # rethrow
}
sub BUILDALL {
my $self = shift;
# short circuit
return unless $self->can('BUILD');
for my $class (reverse $self->meta->linearized_isa) {
my $build = Mouse::Util::get_code_ref($class, 'BUILD')
|| next;
$self->$build(@_);
}
return;
}
sub DEMOLISHALL;
*DEMOLISHALL = \&DESTROY;
1;
__END__
=head1 NAME
Mouse::PurePerl - A Mouse guts in pure Perl
=head1 VERSION
This document describes Mouse version v2.4.5
=head1 SEE ALSO
L<Mouse::XS>
=cut