10 use Scalar::Util 'weaken';
12 use Class::MOP::Class;
13 use Class::MOP::Attribute;
14 use Class::MOP::Method;
16 use Class::MOP::Immutable;
20 our $VERSION = '0.65';
21 our $AUTHORITY = 'cpan:STEVAN';
23 *IS_RUNNING_ON_5_10 = ($] < 5.009_005)
27 *HAVE_ISAREV = defined(&mro::get_isarev)
32 # we may not use this yet, but once
33 # the get_code_info XS gets merged
34 # upstream to it, we will always use
35 # it. But for now it is just kinda
38 require Sub::Identify;
40 # stash these for a sec, and see how things go
41 my $_PP_subname = sub { $_[1] };
42 my $_PP_get_code_info = \&Sub::Identify::get_code_info;
44 if ($ENV{CLASS_MOP_NO_XS}) {
46 # this is if you really want things
47 # to be slow, then you can force the
48 # no-XS rule this way, otherwise we
49 # make an effort to load as much of
52 no warnings 'prototype', 'redefine';
54 # this is either part of core or set up appropriately by MRO::Compat
55 *check_package_cache_flag = \&mro::get_pkg_gen;
57 # our own version of Sub::Name
58 *subname = $_PP_subname;
59 # and the Sub::Identify version of the get_code_info
60 *get_code_info = $_PP_get_code_info;
63 # now try our best to get as much
64 # of the XS loaded as possible
69 XSLoader::load( 'Class::MOP', $VERSION );
71 die $@ if $@ && $@ !~ /object version|loadable object/;
73 # okay, so the XS failed to load, so
74 # use the pure perl one instead.
75 *get_code_info = $_PP_get_code_info if $@;
78 # get it from MRO::Compat
79 *check_package_cache_flag = \&mro::get_pkg_gen;
81 # now try and load the Sub::Name
82 # module and use that as a means
83 # for naming our CVs, if not, we
84 # use the workaround instead.
85 if ( eval { require Sub::Name } ) {
86 *subname = \&Sub::Name::subname;
89 *subname = $_PP_subname;
95 # Metaclasses are singletons, so we cache them here.
96 # there is no need to worry about destruction though
97 # because they should die only when the program dies.
98 # After all, do package definitions even get reaped?
101 # means of accessing all the metaclasses that have
102 # been initialized thus far (for mugwumps obj browser)
103 sub get_all_metaclasses { %METAS }
104 sub get_all_metaclass_instances { values %METAS }
105 sub get_all_metaclass_names { keys %METAS }
106 sub get_metaclass_by_name { $METAS{$_[0]} }
107 sub store_metaclass_by_name { $METAS{$_[0]} = $_[1] }
108 sub weaken_metaclass { weaken($METAS{$_[0]}) }
109 sub does_metaclass_exist { exists $METAS{$_[0]} && defined $METAS{$_[0]} }
110 sub remove_metaclass_by_name { $METAS{$_[0]} = undef }
113 # We only cache metaclasses, meaning instances of
114 # Class::MOP::Class. We do not cache instance of
115 # Class::MOP::Package or Class::MOP::Module. Mostly
116 # because I don't yet see a good reason to do so.
122 if (ref($class) || !defined($class) || !length($class)) {
123 my $display = defined($class) ? $class : 'undef';
124 confess "Invalid class name ($display)";
127 # if the class is not already loaded in the symbol table..
128 unless (is_class_loaded($class)) {
130 my $file = $class . '.pm';
132 eval { CORE::require($file) };
133 confess "Could not load class ($class) because : $@" if $@;
136 # initialize a metaclass if necessary
137 unless (does_metaclass_exist($class)) {
138 eval { Class::MOP::Class->initialize($class) };
139 confess "Could not initialize class ($class) because : $@" if $@;
142 return get_metaclass_by_name($class);
145 sub is_class_loaded {
148 return 0 if ref($class) || !defined($class) || !length($class);
150 # walk the symbol table tree to avoid autovififying
151 # \*{${main::}{"Foo::"}} == \*main::Foo::
154 foreach my $part (split('::', $class)) {
155 return 0 unless exists ${$$pack}{"${part}::"};
156 $pack = \*{${$$pack}{"${part}::"}};
159 # check for $VERSION or @ISA
160 return 1 if exists ${$$pack}{VERSION}
161 && defined *{${$$pack}{VERSION}}{SCALAR};
162 return 1 if exists ${$$pack}{ISA}
163 && defined *{${$$pack}{ISA}}{ARRAY};
165 # check for any method
166 foreach ( keys %{$$pack} ) {
167 next if substr($_, -2, 2) eq '::';
169 my $glob = ${$$pack}{$_} || next;
172 if ( IS_RUNNING_ON_5_10 ) {
173 return 1 if ref $glob eq 'SCALAR';
176 return 1 if defined *{$glob}{CODE};
184 ## ----------------------------------------------------------------------------
185 ## Setting up our environment ...
186 ## ----------------------------------------------------------------------------
187 ## Class::MOP needs to have a few things in the global perl environment so
188 ## that it can operate effectively. Those things are done here.
189 ## ----------------------------------------------------------------------------
191 # ... nothing yet actually ;)
193 ## ----------------------------------------------------------------------------
195 ## ----------------------------------------------------------------------------
196 ## The code below here is to bootstrap our MOP with itself. This is also
197 ## sometimes called "tying the knot". By doing this, we make it much easier
198 ## to extend the MOP through subclassing and such since now you can use the
199 ## MOP itself to extend itself.
201 ## Yes, I know, thats weird and insane, but it's a good thing, trust me :)
202 ## ----------------------------------------------------------------------------
204 # We need to add in the meta-attributes here so that
205 # any subclass of Class::MOP::* will be able to
206 # inherit them using &construct_instance
208 ## --------------------------------------------------------
209 ## Class::MOP::Package
211 Class::MOP::Package->meta->add_attribute(
212 Class::MOP::Attribute->new('package' => (
214 # NOTE: we need to do this in order
215 # for the instance meta-object to
216 # not fall into meta-circular death
218 # we just alias the original method
219 # rather than re-produce it here
220 'name' => \&Class::MOP::Package::name
222 init_arg => 'package',
226 Class::MOP::Package->meta->add_attribute(
227 Class::MOP::Attribute->new('namespace' => (
230 # we just alias the original method
231 # rather than re-produce it here
232 'namespace' => \&Class::MOP::Package::namespace
235 default => sub { \undef }
240 # use the metaclass to construct the meta-package
241 # which is a superclass of the metaclass itself :P
242 Class::MOP::Package->meta->add_method('initialize' => sub {
244 my $package_name = shift;
245 $class->meta->new_object('package' => $package_name, @_);
248 ## --------------------------------------------------------
249 ## Class::MOP::Module
252 # yeah this is kind of stretching things a bit,
253 # but truthfully the version should be an attribute
254 # of the Module, the weirdness comes from having to
255 # stick to Perl 5 convention and store it in the
256 # $VERSION package variable. Basically if you just
257 # squint at it, it will look how you want it to look.
258 # Either as a package variable, or as a attribute of
259 # the metaclass, isn't abstraction great :)
261 Class::MOP::Module->meta->add_attribute(
262 Class::MOP::Attribute->new('version' => (
265 # we just alias the original method
266 # rather than re-produce it here
267 'version' => \&Class::MOP::Module::version
270 default => sub { \undef }
275 # By following the same conventions as version here,
276 # we are opening up the possibility that people can
277 # use the $AUTHORITY in non-Class::MOP modules as
280 Class::MOP::Module->meta->add_attribute(
281 Class::MOP::Attribute->new('authority' => (
284 # we just alias the original method
285 # rather than re-produce it here
286 'authority' => \&Class::MOP::Module::authority
289 default => sub { \undef }
293 ## --------------------------------------------------------
296 Class::MOP::Class->meta->add_attribute(
297 Class::MOP::Attribute->new('attributes' => (
299 # NOTE: we need to do this in order
300 # for the instance meta-object to
301 # not fall into meta-circular death
303 # we just alias the original method
304 # rather than re-produce it here
305 'get_attribute_map' => \&Class::MOP::Class::get_attribute_map
307 init_arg => 'attributes',
308 default => sub { {} }
312 Class::MOP::Class->meta->add_attribute(
313 Class::MOP::Attribute->new('methods' => (
314 init_arg => 'methods',
317 # we just alias the original method
318 # rather than re-produce it here
319 'get_method_map' => \&Class::MOP::Class::get_method_map
321 default => sub { {} }
325 Class::MOP::Class->meta->add_attribute(
326 Class::MOP::Attribute->new('superclasses' => (
329 # we just alias the original method
330 # rather than re-produce it here
331 'superclasses' => \&Class::MOP::Class::superclasses
334 default => sub { \undef }
338 Class::MOP::Class->meta->add_attribute(
339 Class::MOP::Attribute->new('attribute_metaclass' => (
342 # we just alias the original method
343 # rather than re-produce it here
344 'attribute_metaclass' => \&Class::MOP::Class::attribute_metaclass
346 init_arg => 'attribute_metaclass',
347 default => 'Class::MOP::Attribute',
351 Class::MOP::Class->meta->add_attribute(
352 Class::MOP::Attribute->new('method_metaclass' => (
355 # we just alias the original method
356 # rather than re-produce it here
357 'method_metaclass' => \&Class::MOP::Class::method_metaclass
359 init_arg => 'method_metaclass',
360 default => 'Class::MOP::Method',
364 Class::MOP::Class->meta->add_attribute(
365 Class::MOP::Attribute->new('instance_metaclass' => (
367 # NOTE: we need to do this in order
368 # for the instance meta-object to
369 # not fall into meta-circular death
371 # we just alias the original method
372 # rather than re-produce it here
373 'instance_metaclass' => \&Class::MOP::Class::instance_metaclass
375 init_arg => 'instance_metaclass',
376 default => 'Class::MOP::Instance',
381 # we don't actually need to tie the knot with
382 # Class::MOP::Class here, it is actually handled
383 # within Class::MOP::Class itself in the
384 # construct_class_instance method.
386 ## --------------------------------------------------------
387 ## Class::MOP::Attribute
389 Class::MOP::Attribute->meta->add_attribute(
390 Class::MOP::Attribute->new('name' => (
393 # NOTE: we need to do this in order
394 # for the instance meta-object to
395 # not fall into meta-circular death
397 # we just alias the original method
398 # rather than re-produce it here
399 'name' => \&Class::MOP::Attribute::name
404 Class::MOP::Attribute->meta->add_attribute(
405 Class::MOP::Attribute->new('associated_class' => (
406 init_arg => 'associated_class',
408 # NOTE: we need to do this in order
409 # for the instance meta-object to
410 # not fall into meta-circular death
412 # we just alias the original method
413 # rather than re-produce it here
414 'associated_class' => \&Class::MOP::Attribute::associated_class
419 Class::MOP::Attribute->meta->add_attribute(
420 Class::MOP::Attribute->new('accessor' => (
421 init_arg => 'accessor',
422 reader => { 'accessor' => \&Class::MOP::Attribute::accessor },
423 predicate => { 'has_accessor' => \&Class::MOP::Attribute::has_accessor },
427 Class::MOP::Attribute->meta->add_attribute(
428 Class::MOP::Attribute->new('reader' => (
429 init_arg => 'reader',
430 reader => { 'reader' => \&Class::MOP::Attribute::reader },
431 predicate => { 'has_reader' => \&Class::MOP::Attribute::has_reader },
435 Class::MOP::Attribute->meta->add_attribute(
436 Class::MOP::Attribute->new('initializer' => (
437 init_arg => 'initializer',
438 reader => { 'initializer' => \&Class::MOP::Attribute::initializer },
439 predicate => { 'has_initializer' => \&Class::MOP::Attribute::has_initializer },
443 Class::MOP::Attribute->meta->add_attribute(
444 Class::MOP::Attribute->new('writer' => (
445 init_arg => 'writer',
446 reader => { 'writer' => \&Class::MOP::Attribute::writer },
447 predicate => { 'has_writer' => \&Class::MOP::Attribute::has_writer },
451 Class::MOP::Attribute->meta->add_attribute(
452 Class::MOP::Attribute->new('predicate' => (
453 init_arg => 'predicate',
454 reader => { 'predicate' => \&Class::MOP::Attribute::predicate },
455 predicate => { 'has_predicate' => \&Class::MOP::Attribute::has_predicate },
459 Class::MOP::Attribute->meta->add_attribute(
460 Class::MOP::Attribute->new('clearer' => (
461 init_arg => 'clearer',
462 reader => { 'clearer' => \&Class::MOP::Attribute::clearer },
463 predicate => { 'has_clearer' => \&Class::MOP::Attribute::has_clearer },
467 Class::MOP::Attribute->meta->add_attribute(
468 Class::MOP::Attribute->new('builder' => (
469 init_arg => 'builder',
470 reader => { 'builder' => \&Class::MOP::Attribute::builder },
471 predicate => { 'has_builder' => \&Class::MOP::Attribute::has_builder },
475 Class::MOP::Attribute->meta->add_attribute(
476 Class::MOP::Attribute->new('init_arg' => (
477 init_arg => 'init_arg',
478 reader => { 'init_arg' => \&Class::MOP::Attribute::init_arg },
479 predicate => { 'has_init_arg' => \&Class::MOP::Attribute::has_init_arg },
483 Class::MOP::Attribute->meta->add_attribute(
484 Class::MOP::Attribute->new('default' => (
485 init_arg => 'default',
486 # default has a custom 'reader' method ...
487 predicate => { 'has_default' => \&Class::MOP::Attribute::has_default },
491 Class::MOP::Attribute->meta->add_attribute(
492 Class::MOP::Attribute->new('associated_methods' => (
493 init_arg => 'associated_methods',
494 reader => { 'associated_methods' => \&Class::MOP::Attribute::associated_methods },
495 default => sub { [] }
499 # NOTE: (meta-circularity)
500 # This should be one of the last things done
501 # it will "tie the knot" with Class::MOP::Attribute
502 # so that it uses the attributes meta-objects
503 # to construct itself.
504 Class::MOP::Attribute->meta->add_method('new' => sub {
505 my ( $class, @args ) = @_;
507 unshift @args, "name" if @args % 2 == 1;
510 my $name = $options{name};
512 (defined $name && $name)
513 || confess "You must provide a name for the attribute";
514 $options{init_arg} = $name
515 if not exists $options{init_arg};
517 if(exists $options{builder}){
518 confess("builder must be a defined scalar value which is a method name")
519 if ref $options{builder} || !(defined $options{builder});
520 confess("Setting both default and builder is not allowed.")
521 if exists $options{default};
523 (Class::MOP::Attribute::is_default_a_coderef(\%options))
524 || confess("References are not allowed as default values, you must ".
525 "wrap the default of '$name' in a CODE reference (ex: sub { [] } and not [])")
526 if exists $options{default} && ref $options{default};
529 # return the new object
530 $class->meta->new_object(%options);
533 Class::MOP::Attribute->meta->add_method('clone' => sub {
535 $self->meta->clone_object($self, @_);
538 ## --------------------------------------------------------
539 ## Class::MOP::Method
540 Class::MOP::Method->meta->add_attribute(
541 Class::MOP::Attribute->new('body' => (
543 reader => { 'body' => \&Class::MOP::Method::body },
547 Class::MOP::Method->meta->add_attribute(
548 Class::MOP::Attribute->new('package_name' => (
549 init_arg => 'package_name',
550 reader => { 'package_name' => \&Class::MOP::Method::package_name },
554 Class::MOP::Method->meta->add_attribute(
555 Class::MOP::Attribute->new('name' => (
557 reader => { 'name' => \&Class::MOP::Method::name },
561 Class::MOP::Method->meta->add_method('wrap' => sub {
562 my ( $class, @args ) = @_;
564 unshift @args, 'body' if @args % 2 == 1;
567 my $code = $options{body};
569 ('CODE' eq ref($code))
570 || confess "You must supply a CODE reference to bless, not (" . ($code || 'undef') . ")";
572 ($options{package_name} && $options{name})
573 || confess "You must supply the package_name and name parameters";
575 # return the new object
576 $class->meta->new_object(%options);
579 Class::MOP::Method->meta->add_method('clone' => sub {
581 $self->meta->clone_object($self, @_);
584 ## --------------------------------------------------------
585 ## Class::MOP::Method::Wrapped
588 # the way this item is initialized, this
589 # really does not follow the standard
590 # practices of attributes, but we put
591 # it here for completeness
592 Class::MOP::Method::Wrapped->meta->add_attribute(
593 Class::MOP::Attribute->new('modifier_table')
596 ## --------------------------------------------------------
597 ## Class::MOP::Method::Generated
599 Class::MOP::Method::Generated->meta->add_attribute(
600 Class::MOP::Attribute->new('is_inline' => (
601 init_arg => 'is_inline',
602 reader => { 'is_inline' => \&Class::MOP::Method::Generated::is_inline },
607 Class::MOP::Method::Generated->meta->add_method('new' => sub {
608 my ($class, %options) = @_;
609 ($options{package_name} && $options{name})
610 || confess "You must supply the package_name and name parameters";
611 my $self = $class->meta->new_object(%options);
612 $self->initialize_body;
616 ## --------------------------------------------------------
617 ## Class::MOP::Method::Accessor
619 Class::MOP::Method::Accessor->meta->add_attribute(
620 Class::MOP::Attribute->new('attribute' => (
621 init_arg => 'attribute',
623 'associated_attribute' => \&Class::MOP::Method::Accessor::associated_attribute
628 Class::MOP::Method::Accessor->meta->add_attribute(
629 Class::MOP::Attribute->new('accessor_type' => (
630 init_arg => 'accessor_type',
631 reader => { 'accessor_type' => \&Class::MOP::Method::Accessor::accessor_type },
635 Class::MOP::Method::Accessor->meta->add_method('new' => sub {
639 (exists $options{attribute})
640 || confess "You must supply an attribute to construct with";
642 (exists $options{accessor_type})
643 || confess "You must supply an accessor_type to construct with";
645 (Scalar::Util::blessed($options{attribute}) && $options{attribute}->isa('Class::MOP::Attribute'))
646 || confess "You must supply an attribute which is a 'Class::MOP::Attribute' instance";
648 ($options{package_name} && $options{name})
649 || confess "You must supply the package_name and name parameters";
651 # return the new object
652 my $self = $class->meta->new_object(%options);
654 # we don't want this creating
655 # a cycle in the code, if not
657 Scalar::Util::weaken($self->{'attribute'});
659 $self->initialize_body;
665 ## --------------------------------------------------------
666 ## Class::MOP::Method::Constructor
668 Class::MOP::Method::Constructor->meta->add_attribute(
669 Class::MOP::Attribute->new('options' => (
670 init_arg => 'options',
672 'options' => \&Class::MOP::Method::Constructor::options
674 default => sub { +{} }
678 Class::MOP::Method::Constructor->meta->add_attribute(
679 Class::MOP::Attribute->new('associated_metaclass' => (
680 init_arg => 'metaclass',
682 'associated_metaclass' => \&Class::MOP::Method::Constructor::associated_metaclass
687 Class::MOP::Method::Constructor->meta->add_method('new' => sub {
691 (Scalar::Util::blessed $options{metaclass} && $options{metaclass}->isa('Class::MOP::Class'))
692 || confess "You must pass a metaclass instance if you want to inline"
693 if $options{is_inline};
695 ($options{package_name} && $options{name})
696 || confess "You must supply the package_name and name parameters";
698 # return the new object
699 my $self = $class->meta->new_object(%options);
701 # we don't want this creating
702 # a cycle in the code, if not
704 Scalar::Util::weaken($self->{'associated_metaclass'});
706 $self->initialize_body;
711 ## --------------------------------------------------------
712 ## Class::MOP::Instance
715 # these don't yet do much of anything, but are just
716 # included for completeness
718 Class::MOP::Instance->meta->add_attribute(
719 Class::MOP::Attribute->new('associated_metaclass')
722 Class::MOP::Instance->meta->add_attribute(
723 Class::MOP::Attribute->new('attributes')
726 Class::MOP::Instance->meta->add_attribute(
727 Class::MOP::Attribute->new('slots')
730 Class::MOP::Instance->meta->add_attribute(
731 Class::MOP::Attribute->new('slot_hash')
735 # we need the meta instance of the meta instance to be created now, in order
736 # for the constructor to be able to use it
737 Class::MOP::Instance->meta->get_meta_instance;
739 Class::MOP::Instance->meta->add_method('new' => sub {
741 my $options = $class->BUILDARGS(@_);
743 my $self = $class->meta->new_object(%$options);
745 Scalar::Util::weaken($self->{'associated_metaclass'});
750 # pretend the add_method never happenned. it hasn't yet affected anything
751 undef Class::MOP::Instance->meta->{_package_cache_flag};
753 ## --------------------------------------------------------
754 ## Now close all the Class::MOP::* classes
757 # we don't need to inline the
758 # constructors or the accessors
759 # this only lengthens the compile
760 # time of the MOP, and gives us
761 # no actual benefits.
763 $_->meta->make_immutable(
764 inline_constructor => 0,
765 inline_accessors => 0,
771 Class::MOP::Attribute
777 Class::MOP::Method::Generated
779 Class::MOP::Method::Accessor
780 Class::MOP::Method::Constructor
781 Class::MOP::Method::Wrapped
792 Class::MOP - A Meta Object Protocol for Perl 5
796 This module is a fully functioning meta object protocol for the
797 Perl 5 object system. It makes no attempt to change the behavior or
798 characteristics of the Perl 5 object system, only to create a
799 protocol for its manipulation and introspection.
801 That said, it does attempt to create the tools for building a rich
802 set of extensions to the Perl 5 object system. Every attempt has been
803 made for these tools to keep to the spirit of the Perl 5 object
804 system that we all know and love.
806 This documentation is admittedly sparse on details, as time permits
807 I will try to improve them. For now, I suggest looking at the items
808 listed in the L<SEE ALSO> section for more information. In particular
809 the book "The Art of the Meta Object Protocol" was very influential
810 in the development of this system.
812 =head2 What is a Meta Object Protocol?
814 A meta object protocol is an API to an object system.
816 To be more specific, it is a set of abstractions of the components of
817 an object system (typically things like; classes, object, methods,
818 object attributes, etc.). These abstractions can then be used to both
819 inspect and manipulate the object system which they describe.
821 It can be said that there are two MOPs for any object system; the
822 implicit MOP, and the explicit MOP. The implicit MOP handles things
823 like method dispatch or inheritance, which happen automatically as
824 part of how the object system works. The explicit MOP typically
825 handles the introspection/reflection features of the object system.
826 All object systems have implicit MOPs, without one, they would not
827 work. Explict MOPs however as less common, and depending on the
828 language can vary from restrictive (Reflection in Java or C#) to
829 wide open (CLOS is a perfect example).
831 =head2 Yet Another Class Builder!! Why?
833 This is B<not> a class builder so much as it is a I<class builder
834 B<builder>>. My intent is that an end user does not use this module
835 directly, but instead this module is used by module authors to
836 build extensions and features onto the Perl 5 object system.
838 =head2 Who is this module for?
840 This module is specifically for anyone who has ever created or
841 wanted to create a module for the Class:: namespace. The tools which
842 this module will provide will hopefully make it easier to do more
843 complex things with Perl 5 classes by removing such barriers as
844 the need to hack the symbol tables, or understand the fine details
847 =head2 What changes do I have to make to use this module?
849 This module was designed to be as unintrusive as possible. Many of
850 its features are accessible without B<any> change to your existsing
851 code at all. It is meant to be a compliment to your existing code and
852 not an intrusion on your code base. Unlike many other B<Class::>
853 modules, this module B<does not> require you subclass it, or even that
854 you C<use> it in within your module's package.
856 The only features which requires additions to your code are the
857 attribute handling and instance construction features, and these are
858 both completely optional features. The only reason for this is because
859 Perl 5's object system does not actually have these features built
860 in. More information about this feature can be found below.
862 =head2 A Note about Performance?
864 It is a common misconception that explict MOPs are performance drains.
865 But this is not a universal truth at all, it is an side-effect of
866 specific implementations. For instance, using Java reflection is much
867 slower because the JVM cannot take advantage of any compiler
868 optimizations, and the JVM has to deal with much more runtime type
869 information as well. Reflection in C# is marginally better as it was
870 designed into the language and runtime (the CLR). In contrast, CLOS
871 (the Common Lisp Object System) was built to support an explicit MOP,
872 and so performance is tuned for it.
874 This library in particular does it's absolute best to avoid putting
875 B<any> drain at all upon your code's performance. In fact, by itself
876 it does nothing to affect your existing code. So you only pay for
877 what you actually use.
879 =head2 About Metaclass compatibility
881 This module makes sure that all metaclasses created are both upwards
882 and downwards compatible. The topic of metaclass compatibility is
883 highly esoteric and is something only encountered when doing deep and
884 involved metaclass hacking. There are two basic kinds of metaclass
885 incompatibility; upwards and downwards.
887 Upwards metaclass compatibility means that the metaclass of a
888 given class is either the same as (or a subclass of) all of the
891 Downward metaclass compatibility means that the metaclasses of a
892 given class's anscestors are all either the same as (or a subclass
895 Here is a diagram showing a set of two classes (C<A> and C<B>) and
896 two metaclasses (C<Meta::A> and C<Meta::B>) which have correct
897 metaclass compatibility both upwards and downwards.
899 +---------+ +---------+
900 | Meta::A |<----| Meta::B | <....... (instance of )
901 +---------+ +---------+ <------- (inherits from)
904 +---------+ +---------+
906 +---------+ +---------+
908 As I said this is a highly esoteric topic and one you will only run
909 into if you do a lot of subclassing of B<Class::MOP::Class>. If you
910 are interested in why this is an issue see the paper
911 I<Uniform and safe metaclass composition> linked to in the
912 L<SEE ALSO> section of this document.
914 =head2 Using custom metaclasses
916 Always use the metaclass pragma when using a custom metaclass, this
917 will ensure the proper initialization order and not accidentely
918 create an incorrect type of metaclass for you. This is a very rare
919 problem, and one which can only occur if you are doing deep metaclass
920 programming. So in other words, don't worry about it.
924 The protocol is divided into 4 main sub-protocols:
928 =item The Class protocol
930 This provides a means of manipulating and introspecting a Perl 5
931 class. It handles all of symbol table hacking for you, and provides
932 a rich set of methods that go beyond simple package introspection.
934 See L<Class::MOP::Class> for more details.
936 =item The Attribute protocol
938 This provides a consistent represenation for an attribute of a
939 Perl 5 class. Since there are so many ways to create and handle
940 attributes in Perl 5 OO, this attempts to provide as much of a
941 unified approach as possible, while giving the freedom and
942 flexibility to subclass for specialization.
944 See L<Class::MOP::Attribute> for more details.
946 =item The Method protocol
948 This provides a means of manipulating and introspecting methods in
949 the Perl 5 object system. As with attributes, there are many ways to
950 approach this topic, so we try to keep it pretty basic, while still
951 making it possible to extend the system in many ways.
953 See L<Class::MOP::Method> for more details.
955 =item The Instance protocol
957 This provides a layer of abstraction for creating object instances.
958 Since the other layers use this protocol, it is relatively easy to
959 change the type of your instances from the default HASH ref to other
960 types of references. Several examples are provided in the F<examples/>
961 directory included in this distribution.
963 See L<Class::MOP::Instance> for more details.
973 =item I<IS_RUNNING_ON_5_10>
975 We set this constant depending on what version perl we are on, this
976 allows us to take advantage of new 5.10 features and stay backwards
981 Whether or not C<mro> provides C<get_isarev>, a much faster way to get all the
982 subclasses of a certain class.
986 =head2 Utility functions
990 =item B<load_class ($class_name)>
992 This will load a given C<$class_name> and if it does not have an
993 already initialized metaclass, then it will intialize one for it.
994 This function can be used in place of tricks like
995 C<eval "use $module"> or using C<require>.
997 =item B<is_class_loaded ($class_name)>
999 This will return a boolean depending on if the C<$class_name> has
1002 NOTE: This does a basic check of the symbol table to try and
1003 determine as best it can if the C<$class_name> is loaded, it
1004 is probably correct about 99% of the time.
1006 =item B<check_package_cache_flag ($pkg)>
1008 This will return an integer that is managed by C<Class::MOP::Class>
1009 to determine if a module's symbol table has been altered.
1011 In Perl 5.10 or greater, this flag is package specific. However in
1012 versions prior to 5.10, this will use the C<PL_sub_generation> variable
1013 which is not package specific.
1015 =item B<get_code_info ($code)>
1017 This function returns two values, the name of the package the C<$code>
1018 is from and the name of the C<$code> itself. This is used by several
1019 elements of the MOP to detemine where a given C<$code> reference is from.
1021 =item B<subname ($name, $code)>
1023 B<NOTE: DO NOT USE THIS FUNCTION, IT IS FOR INTERNAL USE ONLY!>
1025 If possible, we will load the L<Sub::Name> module and this will function
1026 as C<Sub::Name::subname> does, otherwise it will just return the C<$code>
1031 =head2 Metaclass cache functions
1033 Class::MOP holds a cache of metaclasses, the following are functions
1034 (B<not methods>) which can be used to access that cache. It is not
1035 recommended that you mess with this, bad things could happen. But if
1036 you are brave and willing to risk it, go for it.
1040 =item B<get_all_metaclasses>
1042 This will return an hash of all the metaclass instances that have
1043 been cached by B<Class::MOP::Class> keyed by the package name.
1045 =item B<get_all_metaclass_instances>
1047 This will return an array of all the metaclass instances that have
1048 been cached by B<Class::MOP::Class>.
1050 =item B<get_all_metaclass_names>
1052 This will return an array of all the metaclass names that have
1053 been cached by B<Class::MOP::Class>.
1055 =item B<get_metaclass_by_name ($name)>
1057 This will return a cached B<Class::MOP::Class> instance of nothing
1058 if no metaclass exist by that C<$name>.
1060 =item B<store_metaclass_by_name ($name, $meta)>
1062 This will store a metaclass in the cache at the supplied C<$key>.
1064 =item B<weaken_metaclass ($name)>
1066 In rare cases it is desireable to store a weakened reference in
1067 the metaclass cache. This function will weaken the reference to
1068 the metaclass stored in C<$name>.
1070 =item B<does_metaclass_exist ($name)>
1072 This will return true of there exists a metaclass stored in the
1073 C<$name> key and return false otherwise.
1075 =item B<remove_metaclass_by_name ($name)>
1077 This will remove a the metaclass stored in the C<$name> key.
1085 There are very few books out on Meta Object Protocols and Metaclasses
1086 because it is such an esoteric topic. The following books are really
1087 the only ones I have found. If you know of any more, B<I<please>>
1088 email me and let me know, I would love to hear about them.
1092 =item "The Art of the Meta Object Protocol"
1094 =item "Advances in Object-Oriented Metalevel Architecture and Reflection"
1096 =item "Putting MetaClasses to Work"
1098 =item "Smalltalk: The Language"
1106 =item Uniform and safe metaclass composition
1108 An excellent paper by the people who brought us the original Traits paper.
1109 This paper is on how Traits can be used to do safe metaclass composition,
1110 and offers an excellent introduction section which delves into the topic of
1111 metaclass compatibility.
1113 L<http://www.iam.unibe.ch/~scg/Archive/Papers/Duca05ySafeMetaclassTrait.pdf>
1115 =item Safe Metaclass Programming
1117 This paper seems to precede the above paper, and propose a mix-in based
1118 approach as opposed to the Traits based approach. Both papers have similar
1119 information on the metaclass compatibility problem space.
1121 L<http://citeseer.ist.psu.edu/37617.html>
1129 =item The Perl 6 MetaModel work in the Pugs project
1133 =item L<http://svn.openfoundry.org/pugs/perl5/Perl6-MetaModel>
1135 =item L<http://svn.openfoundry.org/pugs/perl5/Perl6-ObjectSpace>
1145 =item CPAN Module Review of Class::MOP
1147 L<http://www.oreillynet.com/onlamp/blog/2006/06/cpan_module_review_classmop.html>
1151 =head1 SIMILAR MODULES
1153 As I have said above, this module is a class-builder-builder, so it is
1154 not the same thing as modules like L<Class::Accessor> and
1155 L<Class::MethodMaker>. That being said there are very few modules on CPAN
1156 with similar goals to this module. The one I have found which is most
1157 like this module is L<Class::Meta>, although it's philosophy and the MOP it
1158 creates are very different from this modules.
1162 All complex software has bugs lurking in it, and this module is no
1163 exception. If you find a bug please either email me, or add the bug
1166 =head1 ACKNOWLEDGEMENTS
1172 Thanks to Rob for actually getting the development of this module kick-started.
1178 Stevan Little E<lt>stevan@iinteractive.comE<gt>
1180 B<with contributions from:>
1182 Brandon (blblack) Black
1184 Guillermo (groditi) Roditi
1188 Rob (robkinyon) Kinyon
1190 Yuval (nothingmuch) Kogman
1192 Scott (konobi) McWhirter
1194 =head1 COPYRIGHT AND LICENSE
1196 Copyright 2006-2008 by Infinity Interactive, Inc.
1198 L<http://www.iinteractive.com>
1200 This library is free software; you can redistribute it and/or modify
1201 it under the same terms as Perl itself.