=item * is
-B<required>, must be C<ro> or C<rw>. Unsurprisingly, C<ro> generates an
-accessor that will not respond to arguments; to be clear: a getter only. C<rw>
-will create a perlish getter/setter.
+B<required>, may be C<ro>, C<rw>, C<lazy> or C<rwp>.
+
+C<ro> generates an accessor that dies if you attempt to write to it - i.e.
+a getter only - by defaulting C<reader> to the name of the attribute.
+
+C<rw> generates a normal getter/setter by defauting C<accessor> to the
+name of the attribute.
+
+C<lazy> generates a reader like C<ro>, but also sets C<lazy> to 1 and
+C<builder> to C<_build_${attribute_name}> to allow on-demand generated
+attributes. This feature was my attempt to fix my incompetence when
+originally designing C<lazy_build>, and is also implemented by
+L<MooseX::AttributeShortcuts>.
+
+C<rwp> generates a reader like C<ro>, but also sets C<writer> to
+C<_set_${attribute_name}> for attributes that are designed to be written
+from inside of the class, but read-only from outside.
+This feature comes from L<MooseX::AttributeShortcuts>.
=item * isa
L<Sub::Quote aware|/SUB QUOTE AWARE>
+If you want L<MooseX::Types> style named types, look at
+L<MooX::Types::MooseLike>.
+
+To cause your C<isa> entries to be automatically mapped to named
+L<Moose::Meta::TypeConstraint> objects (rather than the default behaviour
+of creating an anonymous type), set:
+
+ $Moo::HandleMoose::TYPE_MAP{$isa_coderef} = sub {
+ require MooseX::Types::Something;
+ return MooseX::Types::Something::TypeName();
+ };
+
+Note that this example is purely illustrative; anything that returns a
+L<Moose::Meta::TypeConstraint> object or something similar enough to it to
+make L<Moose> happy is fine.
+
=item * coerce
Takes a coderef which is meant to coerce the attribute. The basic idea is to
$_[0] + 1 unless $_[0] % 2
},
-Coerce does not require C<isa> to be defined.
+Coerce does not require C<isa> to be defined, but since L<Moose> does
+require it, the metaclass inflation for coerce-alone is a trifle insane
+and if you attempt to subtype the result will almost certainly break.
L<Sub::Quote aware|/SUB QUOTE AWARE>
includes the constructor. Coderef will be invoked against the object with the
new value as an argument.
+If you set this to just C<1>, it generates a trigger which calls the
+C<_trigger_${attr_name}> method on C<$self>. This feature comes from
+L<MooseX::AttributeShortcuts>.
+
Note that Moose also passes the old value, if any; this feature is not yet
supported.
Takes a method name which will return true if an attribute has a value.
-A common example of this would be to call it C<has_$foo>, implying that the
-object has a C<$foo> set.
+If you set this to just C<1>, the predicate is automatically named
+C<has_${attr_name}> if your attribute's name does not start with an
+underscore, or <_has_${attr_name_without_the_underscore}> if it does.
+This feature comes from L<MooseX::AttributeShortcuts>.
=item * builder
$self->$builder;
+If you set this to just C<1>, the predicate is automatically named
+C<_build_${attr_name}>. This feature comes from L<MooseX::AttributeShortcuts>.
+
=item * clearer
Takes a method name which will clear the attribute.
+If you set this to just C<1>, the clearer is automatically named
+C<clear_${attr_name}> if your attribute's name does not start with an
+underscore, or <_clear_${attr_name_without_the_underscore}> if it does.
+This feature comes from L<MooseX::AttributeShortcuts>.
+
=item * lazy
B<Boolean>. Set this if you want values for the attribute to be grabbed
Takes the name of the key to look for at instantiation time of the object. A
common use of this is to make an underscored attribute have a non-underscored
initialization name. C<undef> means that passing the value in on instantiation
+is ignored.
=back
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