woman using a laptop with her daughter

Inspired by my parents coming to visit at the end of the week, I thought I’d write about how Perl classes can have parents” as well, from which they inherit methods. Although it might seem on the surface as though there’s more than one way to do it, these techniques all share the same underlying mechanism.

Where it all BEGINs: @ISA

Perl classes are just repurposed packages, i.e., a namespace for variables and subroutines. The two key differences are:

If you wanted to do everything by hand at the lowest level, you could make a subclass at compile time like this:

package Local::MyChildClass;
BEGIN { # don't do this:
    require Local::MyParentClass;
    push @ISA, 'Local::MyParentClass';
}

Don’t do that though, because we have…

base and parent

In 1997 Perl 5.004_04 introduced the base pragma (back when Perl used that kind of versioning scheme; in these days of semantic versioning we’d call it version 5.4.4). It does the above BEGIN block in a single line:

use base 'Local::MyParentClass'; # don't do this unless you're also using fields

You might see use base in older code especially if it’s also using the fields pragma. However, Perl developers discourage both as the former silences certain module loading errors while the latter is at odds with the object-​oriented programming principle of encapsulation.

So use parent instead, which Perl has included since version 5.10.1 in 2009:

use parent 'Local::MyParentClass';

A couple of years ago my Newfold Digital colleague David Oswald created a fork of parent called parent::versioned that supports specifying the lowest version for superclasses. You call it like this:

use parent::versioned ['Local::MyParentClass' => 1.23];

Within an OO system

There are dozens of object-​oriented programming systems on CPAN that provide syntactic sugar and extra features to Perl’s minimal but flexible basics. Two of the more popular ones, Moose and Moo, offer an extends keyword that you should use instead of use parent so that your subclasses may take advantage of their features:

package Local::MyChildClass;
use Moo;
extends 'Local::MyParentClass';

Moose can also specify a required superclass version:

package Local::MyChildClass;
use Moose;
extends 'Local::MyParentClass' => {-version => 1.23};

Also, use the MooseX::NonMoose module when extending non-​Moose classes, again so you get Moose features even though your methods are coming from somewhere else:

package Local::MyMooseClass;
use Moose;
use MooseX::NonMoose;
extends 'Local::MyPlainParentClass';

The experimental Object::Pad module specifies a single superclass while defining the class name with an optional version. Per the author’s suggested file layout, including a required minimum version, it would look like:

use Object::Pad 0.41;
package Local::MyChildClass;
class Local::MyChildClass isa Local::MyParentClass 1.23;

Object::Pad and Corinna, its inspiration, are works in progress so this syntax isn’t set in stone. The latter’s designer Curtis Ovid” Poe blogged earlier this week about considering a more self-​consistent syntax.

Multiple inheritance vs. roles

To quote the Perl documentation, multiple inheritance often indicates a design problem, but Perl always gives you enough rope to hang yourself with if you ask for it.” All the techniques described above except for Object::Pad support multiple inheritance by specifying a list of superclasses. For example:

package Local::MyChildClass;
use parent qw(Local::MyParentClass1 Local::MyParentClass2);

If you’re using roles instead of or on top of superclasses (I’ve seen both situations) and your OO system doesn’t support them on its own, you can use the Role::Tiny module, first by describing your role in one package and then consuming it in another:

package Local::DoesSomething;
use Role::Tiny;

...

1;
package Local::MyConsumer;
use Role::Tiny::With;
with 'Local::DoesSomething';

...

1;

Moo::Role uses Role::Tiny under the hood and Moo can compose roles from either. The syntax for both Moo and Moose is similar:

package Local::DoesSomething;
use Moo::Role; # or "use Moose::Role;"

...

1;
package Local::MyConsumer;
use Moo; # or "use Moose;"
with 'Local::DoesSomething';

...

1;

Object::Pad specifies roles with the role keyword, and both classes and roles use does to consume them:

use Object::Pad 0.56;
package Local::DoesSomething;
role Local::DoesSomething does Local::DoesSomethingElse;

...

1;
use Object::Pad 0.56;
package Local::MyConsumer;
class Local::MyConsumer does Local::DoesSomething;

...

1;

The previous caveat about possible changes to this syntax applies.

Like parent, (sort of) like child

Of course, the whole point of inheritance or role consumption is so your child or consumer class can reuse functions and methods. Each of the techniques above has its ways of overriding that code, from the Perl built-​in SUPER pseudo-​class to Moose’s override and super keywords, to Moose’s and Moo’s method modifiers. (You can use the latter outside of Moo since it’s provided by Class::Method::Modifiers.)

I’ve written about choosing between overriding and modifying methods before, and when it comes to Moose and Moo code I’m now on the side of using the around method modifier if a method needs to call an inherited or consumed method of the same name. Object::Pad doesn’t have method modifiers (yet), so classes that use it will have to satisfy themselves with SUPER in their methods with an :override attribute that will throw an error if a parent doesn’t also provide the same method.

The Parent Wrap

In the end, your choice of Perl OO system will determine how (or whether) you handle inheritance and may even be a deciding factor. Which would you choose? And more importantly, have I made my parents proud with this post?