-
package Moose;
-
use strict;
use warnings;
use 5.008;
-our $VERSION = '0.75';
+our $VERSION = '0.94';
$VERSION = eval $VERSION;
our $AUTHORITY = 'cpan:STEVAN';
use Moose::Exporter;
-use Class::MOP 0.81;
+use Class::MOP 0.94;
use Moose::Meta::Class;
use Moose::Meta::TypeConstraint;
use Moose::Util::TypeConstraints;
use Moose::Util ();
-sub _caller_info {
- my $level = @_ ? ($_[0] + 1) : 2;
- my %info;
- @info{qw(package file line)} = caller($level);
- return \%info;
-}
+use Moose::Meta::Attribute::Native;
sub throw_error {
- # FIXME This
+ # FIXME This
shift;
goto \&confess
}
sub extends {
- my $class = shift;
+ my $meta = shift;
Moose->throw_error("Must derive at least one class") unless @_;
# this checks the metaclass to make sure
# it is correct, sometimes it can get out
# of sync when the classes are being built
- Moose::Meta::Class->initialize($class)->superclasses(@_);
+ $meta->superclasses(@_);
}
sub with {
- my $class = shift;
- Moose::Util::apply_all_roles(Class::MOP::Class->initialize($class), @_);
+ Moose::Util::apply_all_roles(shift, @_);
}
sub has {
- my $class = shift;
- my $name = shift;
+ my $meta = shift;
+ my $name = shift;
Moose->throw_error('Usage: has \'name\' => ( key => value, ... )')
- if @_ == 1;
+ if @_ % 2 == 1;
- my %options = ( definition_context => _caller_info(), @_ );
+ my %options = ( definition_context => Moose::Util::_caller_info(), @_ );
my $attrs = ( ref($name) eq 'ARRAY' ) ? $name : [ ($name) ];
- Class::MOP::Class->initialize($class)->add_attribute( $_, %options ) for @$attrs;
+ $meta->add_attribute( $_, %options ) for @$attrs;
}
sub before {
- my $class = shift;
- Moose::Util::add_method_modifier($class, 'before', \@_);
+ Moose::Util::add_method_modifier(shift, 'before', \@_);
}
sub after {
- my $class = shift;
- Moose::Util::add_method_modifier($class, 'after', \@_);
+ Moose::Util::add_method_modifier(shift, 'after', \@_);
}
sub around {
- my $class = shift;
- Moose::Util::add_method_modifier($class, 'around', \@_);
+ Moose::Util::add_method_modifier(shift, 'around', \@_);
}
our $SUPER_PACKAGE;
}
sub override {
- my $class = shift;
+ my $meta = shift;
my ( $name, $method ) = @_;
- Class::MOP::Class->initialize($class)->add_override_method_modifier( $name => $method );
+ $meta->add_override_method_modifier( $name => $method );
}
sub inner {
}
sub augment {
- my $class = shift;
+ my $meta = shift;
my ( $name, $method ) = @_;
- Class::MOP::Class->initialize($class)->add_augment_method_modifier( $name => $method );
+ $meta->add_augment_method_modifier( $name => $method );
}
Moose::Exporter->setup_import_methods(
- with_caller => [
- qw( extends with has before after around override augment)
+ with_meta => [
+ qw( extends with has before after around override augment )
],
as_is => [
qw( super inner ),
if ( $meta = Class::MOP::get_metaclass_by_name($class) ) {
unless ( $meta->isa("Moose::Meta::Class") ) {
- Moose->throw_error("$class already has a metaclass, but it does not inherit $metaclass ($meta)");
+ my $error_message = "$class already has a metaclass, but it does not inherit $metaclass ($meta).";
+ if ( $meta->isa('Moose::Meta::Role') ) {
+ Moose->throw_error($error_message . ' You cannot make the same thing a role and a class. Remove either Moose or Moose::Role.');
+ } else {
+ Moose->throw_error($error_message);
+ }
}
} else {
# no metaclass, no 'meta' method
my $ancestor_meta = Class::MOP::get_metaclass_by_name($ancestor) || next;
my $ancestor_meta_class = ($ancestor_meta->is_immutable
- ? $ancestor_meta->get_mutable_metaclass_name
+ ? $ancestor_meta->_get_mutable_metaclass_name
: ref($ancestor_meta));
# if we have an ancestor metaclass that inherits $metaclass, we use
my $method_meta = $class->meta;
( blessed($method_meta) && $method_meta->isa('Moose::Meta::Class') )
- || Moose->throw_error("$class already has a &meta function, but it does not return a Moose::Meta::Class ($meta)");
+ || Moose->throw_error("$class already has a &meta function, but it does not return a Moose::Meta::Class ($method_meta)");
$meta = $method_meta;
}
Moose::Meta::Method::Augmented
Moose::Meta::Role
+ Moose::Meta::Role::Attribute
Moose::Meta::Role::Method
Moose::Meta::Role::Method::Required
+ Moose::Meta::Role::Method::Conflicting
Moose::Meta::Role::Composite
Moose::Meta::Role::Application::ToInstance
);
+Moose::Meta::Mixin::AttributeCore->meta->make_immutable(
+ inline_constructor => 0,
+ constructor_name => undef,
+);
+
1;
__END__
or to examine L<Task::Moose> which aims to keep an up-to-date, easily
installable list of Moose extensions.
+=head1 TRANSLATIONS
+
+Much of the Moose documentation has been translated into other languages.
+
+=over 4
+
+=item Japanese
+
+Japanese docs can be found at L<http://perldoc.perlassociation.org/pod/Moose-Doc-JA/index.html>. The source POD files can be found in GitHub: L<http://github.com/jpa/Moose-Doc-JA>
+
+=back
+
=head1 BUILDING CLASSES WITH MOOSE
Moose makes every attempt to provide as much convenience as possible during
=head1 PROVIDED METHODS
-Moose provides a number of methods to all your classes, mostly through the
+Moose provides a number of methods to all your classes, mostly through the
inheritance of L<Moose::Object>. There is however, one exception.
=over 4
=item B<with (@roles)>
-This will apply a given set of C<@roles> to the local class.
+This will apply a given set of C<@roles> to the local class.
=item B<has $name|@$names =E<gt> %options>
=item I<required =E<gt> (1|0)>
-This marks the attribute as being required. This means a I<defined> value must be
-supplied during class construction, and the attribute may never be set to
-C<undef> with an accessor.
+This marks the attribute as being required. This means a value must be
+supplied during class construction, I<or> the attribute must be lazy
+and have either a default or a builder. Note that c<required> does not
+say anything about the attribute's value, which can be C<undef>.
=item I<weak_ref =E<gt> (1|0)>
=item I<auto_deref =E<gt> (1|0)>
-This tells the accessor whether to automatically dereference the value returned.
-This is only legal if your C<isa> option is either C<ArrayRef> or C<HashRef>.
+This tells the accessor to automatically dereference the value of this
+attribute when called in list context. The accessor will still return a
+reference when called in scalar context. If this behavior isn't desirable,
+L<Moose::Meta::Attribute::Native::Trait::Array/elements> or
+L<Moose::Meta::Attribute::Native::Trait::Hash/elements> may be a better
+choice. The I<auto_deref> option is only legal if your I<isa> option is
+either C<ArrayRef> or C<HashRef>.
=item I<trigger =E<gt> $code>
The I<trigger> option is a CODE reference which will be called after
the value of the attribute is set. The CODE ref will be passed the
-instance itself and the updated value. You B<cannot> have a trigger on
-a read-only attribute.
+instance itself and the updated value. If the attribute already had a
+value, this will be passed as the third value to the trigger.
+
+You B<can> have a trigger on a read-only attribute.
B<NOTE:> Triggers will only fire when you B<assign> to the attribute,
either in the constructor, or using the writer. Default and built values will
B<not> cause the trigger to be fired.
-=item I<handles =E<gt> ARRAY | HASH | REGEXP | ROLE | CODE>
+=item I<handles =E<gt> ARRAY | HASH | REGEXP | ROLE | DUCKTYPE | CODE>
The I<handles> option provides Moose classes with automated delegation features.
This is a pretty complex and powerful option. It accepts many different option
overriding locally defined methods, if you do want to do this, you should do it
manually, not with Moose.
-You do not I<need> to have a reader (or accessor) for the attribute in order
-to delegate to it. Moose will create a means of accessing the value for you,
-however this will be several times B<less> efficient then if you had given
+You do not I<need> to have a reader (or accessor) for the attribute in order
+to delegate to it. Moose will create a means of accessing the value for you,
+however this will be several times B<less> efficient then if you had given
the attribute a reader (or accessor) to use.
Below is the documentation for each option format:
which delegate to the C<node> and C<children> methods (respectively) of the Tree
instance stored in the C<parent> slot.
+You may also use an array reference to curry arguments to the original method.
+
+ has 'thing' => (
+ ...
+ handles => { set_foo => [ set => 'foo' ] },
+ );
+
+ # $self->set_foo(...) calls $self->thing->set('foo', ...)
+
+The first element of the array reference is the original method name, and the
+rest is a list of curried arguments.
+
=item C<REGEXP>
The regexp option works very similar to the ARRAY option, except that it builds
that this does B<not> include any method modifiers or generated attribute
methods (which is consistent with role composition).
+=item C<DUCKTYPE>
+
+With the duck type option, you pass a duck type object whose "interface" then
+becomes the list of methods to handle. The "interface" can be defined as; the
+list of methods passed to C<duck_type> to create a duck type object. For more
+information on C<duck_type> please check
+L<Moose::Util::TypeConstraints>.
+
=item C<CODE>
This is the option to use when you really want to do something funky. You should
This tells the class to use a custom attribute metaclass for this particular
attribute. Custom attribute metaclasses are useful for extending the
capabilities of the I<has> keyword: they are the simplest way to extend the MOP,
-but they are still a fairly advanced topic and too much to cover here, see
+but they are still a fairly advanced topic and too much to cover here, see
L<Moose::Cookbook::Meta::Recipe1> for more information.
-The default behavior here is to just load C<$metaclass_name>; however, we also
-have a way to alias to a shorter name. This will first look to see if
-B<Moose::Meta::Attribute::Custom::$metaclass_name> exists. If it does, Moose
-will then check to see if that has the method C<register_implementation>, which
-should return the actual name of the custom attribute metaclass. If there is no
-C<register_implementation> method, it will fall back to using
-B<Moose::Meta::Attribute::Custom::$metaclass_name> as the metaclass name.
+See L<Metaclass and Trait Name Resolution> for details on how a metaclass name
+is resolved to a class name.
=item I<traits =E<gt> [ @role_names ]>
-This tells Moose to take the list of C<@role_names> and apply them to the
-attribute meta-object. This is very similar to the I<metaclass> option, but
+This tells Moose to take the list of C<@role_names> and apply them to the
+attribute meta-object. This is very similar to the I<metaclass> option, but
allows you to use more than one extension at a time.
-See L<TRAIT NAME RESOLUTION> for details on how a trait name is
-resolved to a class name.
+See L<Metaclass and Trait Name Resolution> for details on how a trait name is
+resolved to a role name.
Also see L<Moose::Cookbook::Meta::Recipe3> for a metaclass trait
example.
The value of this key is the name of the method that will be called to
obtain the value used to initialize the attribute. See the L<builder
option docs in Class::MOP::Attribute|Class::MOP::Attribute/builder>
- and/or L<Moose::Cookbook::Basics::Recipe9> for more information.
+ and/or L<Moose::Cookbook::Basics::Recipe8> for more information.
=item I<default> => SCALAR | CODE
Class::MOP::Attribute|Class::MOP::Attribute/initializer> for more
information.
+=item I<documentation> => $string
+
+An arbitrary string that can be retrieved later by calling C<<
+$attr->documentation >>.
+
+
+
=back
=item B<has +$name =E<gt> %options>
This is variation on the normal attribute creator C<has> which allows you to
-clone and extend an attribute from a superclass or from a role. Here is an
+clone and extend an attribute from a superclass or from a role. Here is an
example of the superclass usage:
package Foo;
has '+message' => (default => 'Hello I am My::Foo');
-In this case, we are basically taking the attribute which the role supplied
-and altering it within the bounds of this feature.
+In this case, we are basically taking the attribute which the role supplied
+and altering it within the bounds of this feature.
+
+Note that you can only extend an attribute from either a superclass or a role,
+you cannot extend an attribute in a role that composes over an attribute from
+another role.
-Aside from where the attributes come from (one from superclass, the other
-from a role), this feature works exactly the same. This feature is restricted
-somewhat, so as to try and force at least I<some> sanity into it. You are only
+Aside from where the attributes come from (one from superclass, the other
+from a role), this feature works exactly the same. This feature is restricted
+somewhat, so as to try and force at least I<some> sanity into it. You are only
allowed to change the following attributes:
=over 4
=item I<isa>
-You I<are> allowed to change the type without restriction.
+You I<are> allowed to change the type without restriction.
-It is recommended that you use this freedom with caution. We used to
-only allow for extension only if the type was a subtype of the parent's
-type, but we felt that was too restrictive and is better left as a
-policy decision.
+It is recommended that you use this freedom with caution. We used to
+only allow for extension only if the type was a subtype of the parent's
+type, but we felt that was too restrictive and is better left as a
+policy decision.
=item I<handles>
=item B<around $name|@names =E<gt> sub { ... }>
-This three items are syntactic sugar for the before, after, and around method
+These three items are syntactic sugar for the before, after, and around method
modifier features that L<Class::MOP> provides. More information on these may be
-found in the L<Class::MOP::Class documentation|Class::MOP::Class/"Method
-Modifiers"> for now.
+found in L<Moose::Manual::MethodModifiers> and the
+L<Class::MOP::Class documentation|Class::MOP::Class/"Method Modifiers">.
=item B<super>
=item B<confess>
This is the C<Carp::confess> function, and exported here because I use it
-all the time.
+all the time.
=item B<blessed>
This is very similar to the attribute traits feature. When you do
this, your class's C<meta> object will have the specified traits
-applied to it. See L<TRAIT NAME RESOLUTION> for more details.
+applied to it. See L<Metaclass and Trait Name Resolution> for more
+details.
-=head2 Trait Name Resolution
+=head2 Metaclass and Trait Name Resolution
By default, when given a trait name, Moose simply tries to load a
class of the same name. If such a class does not exist, it then looks
C<register_implementation> method, it will fall back to using
B<Moose::Meta::$type::Custom::Trait::$trait> as the trait name.
+The lookup method for metaclasses is the same, except that it looks
+for a class matching B<Moose::Meta::$type::Custom::$metaclass_name>.
+
If all this is confusing, take a look at
L<Moose::Cookbook::Meta::Recipe3>, which demonstrates how to create an
attribute trait.
=head2 The MooseX:: namespace
-Generally if you're writing an extension I<for> Moose itself you'll want
-to put your extension in the C<MooseX::> namespace. This namespace is
-specifically for extensions that make Moose better or different in some
-fundamental way. It is traditionally B<not> for a package that just happens
-to use Moose. This namespace follows from the examples of the C<LWPx::>
+Generally if you're writing an extension I<for> Moose itself you'll want
+to put your extension in the C<MooseX::> namespace. This namespace is
+specifically for extensions that make Moose better or different in some
+fundamental way. It is traditionally B<not> for a package that just happens
+to use Moose. This namespace follows from the examples of the C<LWPx::>
and C<DBIx::> namespaces that perform the same function for C<LWP> and C<DBI>
respectively.
a message. To subscribe, send an empty message to
L<moose-subscribe@perl.org>
-You can also visit us at L<#moose on
-irc.perl.org|irc://irc.perl.org/#moose>. This channel is quite active,
-and questions at all levels (on Moose-related topics ;) are welcome.
+You can also visit us at C<#moose> on L<irc://irc.perl.org/#moose>
+This channel is quite active, and questions at all levels (on Moose-related
+topics ;) are welcome.
=head1 ACKNOWLEDGEMENTS
=item The Art of the MetaObject Protocol
-I mention this in the L<Class::MOP> docs too, this book was critical in
+I mention this in the L<Class::MOP> docs too, this book was critical in
the development of both modules and is highly recommended.
=back
=head1 BUGS
All complex software has bugs lurking in it, and this module is no
-exception. If you find a bug please either email me, or add the bug
-to cpan-RT.
+exception.
+
+Please report any bugs to C<bug-moose@rt.cpan.org>, or through the web
+interface at L<http://rt.cpan.org>.
+
+You can also discuss feature requests or possible bugs on the Moose mailing
+list (moose@perl.org) or on IRC at L<irc://irc.perl.org/#moose>.
=head1 FEATURE REQUESTS
-We are very strict about what features we add to the Moose core, especially
-the user-visible features. Instead we have made sure that the underlying
-meta-system of Moose is as extensible as possible so that you can add your
-own features easily. That said, occasionally there is a feature needed in the
-meta-system to support your planned extension, in which case you should
-either email the mailing list or join us on irc at #moose to discuss. The
-L<Moose::Manual::Contributing> has more detail about how and when you can
-contribute.
+We are very strict about what features we add to the Moose core, especially
+the user-visible features. Instead we have made sure that the underlying
+meta-system of Moose is as extensible as possible so that you can add your
+own features easily.
+
+That said, occasionally there is a feature needed in the meta-system
+to support your planned extension, in which case you should either
+email the mailing list (moose@perl.org) or join us on IRC at
+L<irc://irc.perl.org/#moose> to discuss. The
+L<Moose::Manual::Contributing> has more detail about how and when you
+can contribute.
=head1 AUTHOR
-Moose is an open project, there are at this point dozens of people who have
-contributed, and can contribute. If you have added anything to the Moose
+Moose is an open project, there are at this point dozens of people who have
+contributed, and can contribute. If you have added anything to the Moose
project you have a commit bit on this file and can add your name to the list.
=head2 CABAL
-However there are only a few people with the rights to release a new version
+However there are only a few people with the rights to release a new version
of Moose. The Moose Cabal are the people to go to with questions regarding
the wider purview of Moose, and help out maintaining not just the code
but the community as well.
Stevan (stevan) Little E<lt>stevan@iinteractive.comE<gt>
+Jesse (doy) Luehrs E<lt>doy at tozt dot netE<gt>
+
Yuval (nothingmuch) Kogman
-Shawn (sartak) Moore
+Shawn (sartak) Moore E<lt>sartak@bestpractical.comE<gt>
+
+Hans Dieter (confound) Pearcey E<lt>hdp@pobox.comE<gt>
+
+Chris (perigrin) Prather
+
+Florian Ragwitz E<lt>rafl@debian.orgE<gt>
Dave (autarch) Rolsky E<lt>autarch@urth.orgE<gt>
Christian (chansen) Hansen
-Hans Dieter (confound) Pearcey
-
Eric (ewilhelm) Wilhelm
Guillermo (groditi) Roditi
Shlomi (rindolf) Fish
-Chris (perigrin) Prather
-
Wallace (wreis) Reis
Jonathan (jrockway) Rockway
Cory (gphat) Watson
+Dylan Hardison (doc fixes)
+
... and many other #moose folks
=head1 COPYRIGHT AND LICENSE
-Copyright 2006-2009 by Infinity Interactive, Inc.
+Copyright 2006-2010 by Infinity Interactive, Inc.
L<http://www.iinteractive.com>