Class::Method::Modifiers - provides Moose-like method modifiers
version 2.10
package Child;
use parent 'Parent';
use Class::Method::Modifiers;
sub new_method { }
before 'old_method' => sub {
carp "old_method is deprecated, use new_method";
};
around 'other_method' => sub {
my $orig = shift;
my $ret = $orig->(@_);
return $ret =~ /\d/ ? $ret : lc $ret;
};
after 'private', 'protected' => sub {
debug "finished calling a dangerous method";
};
use Class::Method::Modifiers qw(fresh);
fresh 'not_in_hierarchy' => sub {
warn "freshly added method\n";
};
Method modifiers are a convenient feature from the CLOS (Common Lisp Object System) world.
In its most basic form, a method modifier is just a method that calls
$self->SUPER::foo(@_). I for one have trouble remembering that exact
invocation, so my classes seldom re-dispatch to their base classes. Very bad!
Class::Method::Modifiers provides three modifiers: before, around, and
after. before and after are run just before and after the method they
modify, but can not really affect that original method. around is run in
place of the original method, with a hook to easily call that original method.
See the MODIFIERS section for more details on how the particular modifiers
work.
One clear benefit of using Class::Method::Modifiers is that you can define
multiple modifiers in a single namespace. These separate modifiers don't need
to know about each other. This makes top-down design easy. Have a base class
that provides the skeleton methods of each operation, and have plugins modify
those methods to flesh out the specifics.
Parent classes need not know about Class::Method::Modifiers. This means you
should be able to modify methods in any subclass. See
Term::VT102::ZeroBased for an example of subclassing with
ClasS::Method::Modifiers.
In short, Class::Method::Modifiers solves the problem of making sure you
call $self->SUPER::foo(@_), and provides a cleaner interface for it.
As of version 1.00, Class::Method::Modifiers is faster in some cases than
Moose. See benchmark/method_modifiers.pl in the Moose distribution.
Class::Method::Modifiers also provides an additional "modifier" type,
fresh; see below.
before is called before the method it is modifying. Its return value is
totally ignored. It receives the same @_ as the method it is modifying
would have received. You can modify the @_ the original method will receive
by changing $_[0] and friends (or by changing anything inside a reference).
This is a feature!
after is called after the method it is modifying. Its return value is
totally ignored. It receives the same @_ as the method it is modifying
received, mostly. The original method can modify @_ (such as by changing
$_[0] or references) and after will see the modified version. If you
don't like this behavior, specify both a before and after, and copy the
@_ during before for after to use.
around is called instead of the method it is modifying. The method you're
overriding is passed in as the first argument (called $orig by convention).
Watch out for contextual return values of $orig.
You can use around to:
-
Pass
$origa different@_around 'method' => sub { my $orig = shift; my $self = shift; $orig->($self, reverse @_); }; -
Munge the return value of
$origaround 'method' => sub { my $orig = shift; ucfirst $orig->(@_); }; -
Avoid calling
$orig-- conditionallyaround 'method' => sub { my $orig = shift; return $orig->(@_) if time() % 2; return "no dice, captain"; };
Unlike the other modifiers, this does not modify an existing method.
Ordinarily, fresh merely installs the coderef as a method in the
appropriate class; but if the class hierarchy already contains a method of
the same name, an exception is thrown. The idea of this "modifier" is to
increase safety when subclassing. Suppose you're writing a subclass of a
class Some::Base, and adding a new method:
package My::SubclassOf::C;
use base 'Some::Base';
sub foo { ... }
If a later version of Some::Base also adds a new method named foo, your
method will shadow that method. Alternatively, you can use fresh
to install the additional method into your subclass:
package My::SubclassOf::C;
use base 'Some::Base';
use Class::Method::Modifiers 'fresh';
fresh 'foo' => sub { ... };
Now upgrading Some::Base to a version with a conflicting foo method will
cause an exception to be thrown; seeing that error will give you the
opportunity to fix the problem (perhaps by picking a different method name
in your subclass, or similar).
Creating fresh methods with install_modifier (see below) provides a way
to get similar safety benefits when adding local monkeypatches to existing
classes; see http://aaroncrane.co.uk/talks/monkey_patching_subclassing/.
For API compatibility reasons, this function is exported only when you ask
for it specifically, or for :all.
install_modifier is like before, after, around, and fresh but
it also lets you dynamically select the modifier type ('before', 'after',
'around', 'fresh')
and package that the method modifiers are installed into. This expert-level
function is exported only when you ask for it specifically, or for :all.
All three normal modifiers; before, after, and around; are exported
into your namespace by default. You may use Class::Method::Modifiers () to
avoid thrashing your namespace. I may steal more features from Moose, namely
super, override, inner, augment, and whatever the Moose folks
come up with next.
Note that the syntax and semantics for these modifiers is directly borrowed from Moose (the implementations, however, are not).
Class::Trigger shares a few similarities with Class::Method::Modifiers,
and they even have some overlap in purpose -- both can be used to implement
highly pluggable applications. The difference is that Class::Trigger
provides a mechanism for easily letting parent classes to invoke hooks defined
by other code. Class::Method::Modifiers provides a way of
overriding/augmenting methods safely, and the parent class need not know about
it.
When adding before or after modifiers, the wrapper method will be
an lvalue method if the wrapped sub is, and assigning to the method
will propagate to the wrapped method as expected. For around
modifiers, it is the modifier sub that determines if the wrapper
method is an lvalue method.
It is erroneous to modify a method that doesn't exist in your class's inheritance hierarchy. If this occurs, an exception will be thrown when the modifier is defined.
It doesn't yet play well with caller. There are some TODO tests for this.
Don't get your hopes up though!
Applying modifiers to array lvalue methods is not fully supported. Attempting
to assign to an array lvalue method that has an after modifier applied will
result in an error. Array lvalue methods are not well supported by perl in
general, and should be avoided.
This module was bumped to 1.00 following a complete reimplementation, to indicate breaking backwards compatibility. The "guard" modifier was removed, and the internals are completely different.
The new version is a few times faster with half the code. It's now even faster than Moose.
Any code that just used modifiers should not change in behavior, except to become more correct. And, of course, faster. :)
Class::Method::Modifiers::Fast Moose, Class::Trigger, Class::MOP::Method::Wrapped, MRO::Compat, CLOS
Shawn M Moore, sartak@gmail.com
Thanks to Stevan Little for Moose, I would never have known about method modifiers otherwise.
Thanks to Matt Trout and Stevan Little for their advice.
Copyright 2007-2009 Shawn M Moore.
This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.