perlootut - Object-Oriented Programming in Perl Tutorial
This document was created in February, 2011, and the last major revision was in February, 2013.
If you are reading this in the future then it's possible that the state of the art has changed. We recommend you start by reading the perlootut document in the latest stable release of Perl, rather than this version.
This document provides an introduction to object-oriented programming in Perl. It begins with a brief overview of the concepts behind object oriented design. Then it introduces several different OO systems from CPAN which build on top of what Perl provides.
By default, Perl's built-in OO system is very minimal, leaving you to do most of the work. This minimalism made a lot of sense in 1994, but in the years since Perl 5.0 we've seen a number of common patterns emerge in Perl OO. Fortunately, Perl's flexibility has allowed a rich ecosystem of Perl OO systems to flourish.
If you want to know how Perl OO works under the hood, the perlobj document explains the nitty gritty details.
This document assumes that you already understand the basics of Perl syntax, variable types, operators, and subroutine calls. If you don't understand these concepts yet, please read perlintro first. You should also read the perlsyn, perlop, and perlsub documents.
Most object systems share a number of common concepts. You've probably heard terms like "class", "object, "method", and "attribute" before. Understanding the concepts will make it much easier to read and write object-oriented code. If you're already familiar with these terms, you should still skim this section, since it explains each concept in terms of Perl's OO implementation.
An object is a data structure that bundles together data and subroutines which operate on that data. An object's data is called attributes, and its subroutines are called methods. An object can be thought of as a noun (a person, a web service, a computer).
An object represents a single discrete thing. For example, an object might represent a file. The attributes for a file object might include its path, content, and last modification time. If we created an object to represent /etc/hostname on a machine named "foo.example.com", that object's path would be "/etc/hostname", its content would be "foo\n", and it's last modification time would be 1304974868 seconds since the beginning of the epoch.
In Perl most objects are hashes, but the OO systems we recommend keep you from having to worry about this. In practice, it's best to consider an object's internal data structure opaque.
A class defines the behavior of a category of objects. A class is a name for a category (like "File"), and a class also defines the behavior of objects in that category.
All objects belong to a specific class. For example, our
/etc/hostname object belongs to the
class. When we want to
create a specific object, we start with its class, and construct or
instantiate an object. A specific object is often referred to as an
instance of a class.
In Perl, any package can be a class. The difference between a package
which is a class and one which isn't is based on how the package is
used. Here's our "class declaration" for the
In Perl, there is no special keyword for constructing an object.
However, most OO modules on CPAN use a method named
construct a new object:
- my $hostname = File->new(
- path => '/etc/hostname',
- content => "foo\n",
- last_mod_time => 1304974868,
(Don't worry about that
operator, it will be explained
As we said earlier, most Perl objects are hashes, but an object can be
an instance of any Perl data type (scalar, array, etc.). Turning a
plain data structure into an object is done by blessing that data
structure using Perl's
While we strongly suggest you don't build your objects from scratch, you should know the term bless. A blessed data structure (aka "a referent") is an object. We sometimes say that an object has been "blessed into a class".
Once a referent has been blessed, the
function from the
Scalar::Util core module can tell us its class name. This subroutine
returns an object's class when passed an object, and false otherwise.
A constructor creates a new object. In Perl, a class's constructor
is just another method, unlike some other languages, which provide
syntax for constructors. Most Perl classes use
as the name for
- my $file = File->new(...);
You already learned that a method is a subroutine that operates on an object. You can think of a method as the things that an object can do. If an object is a noun, then methods are its verbs (save, print, open).
In Perl, methods are simply subroutines that live in a class's package. Methods are always written to receive the object as their first argument:
What makes a method special is how it's called. The arrow operator
) tells Perl that we are calling a method.
When we make a method call, Perl arranges for the method's invocant to be passed as the first argument. Invocant is a fancy name for the thing on the left side of the arrow. The invocant can either be a class name or an object. We can also pass additional arguments to the method:
Each class can define its attributes. When we instantiate an object,
we assign values to those attributes. For example, every
has a path. Attributes are sometimes called properties.
Perl has no special syntax for attributes. Under the hood, attributes are often stored as keys in the object's underlying hash, but don't worry about this.
We recommend that you only access attributes via accessor methods.
These are methods that can get or set the value of each attribute. We
saw this earlier in the
example, which calls
You might also see the terms getter and setter. These are two types of accessors. A getter gets the attribute's value, while a setter sets it. Another term for a setter is mutator
Attributes are typically defined as read-only or read-write. Read-only attributes can only be set when the object is first created, while read-write attributes can be altered at any time.
The value of an attribute may itself be another object. For example,
instead of returning its last mod time as a number, the
could return a DateTime object representing that value.
It's possible to have a class that does not expose any publicly settable attributes. Not every class has attributes and methods.
Polymorphism is a fancy way of saying that objects from two
different classes share an API. For example, we could have
classes which both have a
method might produce different output for each class, but they share a
While the two classes may differ in many ways, when it comes to the
method, they are the same. This means that we can
try to call the
method on an object of either class,
and we don't have to know what class the object belongs to!
Polymorphism is one of the key concepts of object-oriented design.
Inheritance lets you create a specialized version of an existing class. Inheritance lets the new class reuse the methods and attributes of another class.
For example, we could create an
class which inherits
is-a more specific type of
All mp3 files are files, but not all files are mp3 files.
We often refer to inheritance relationships as parent-child or
relationships. Sometimes we say that the child
has an is-a relationship with its parent class.
is a superclass of
- package File::MP3;
- use parent 'File';
The parent module is one of several ways that Perl lets you define inheritance relationships.
Perl allows multiple inheritance, which means that a class can inherit from multiple parents. While this is possible, we strongly recommend against it. Generally, you can use roles to do everything you can do with multiple inheritance, but in a cleaner way.
Note that there's nothing wrong with defining multiple subclasses of a
given class. This is both common and safe. For example, we might define
distinguish between different types of mp3 file.
Inheritance allows two classes to share code. By default, every method
in the parent class is also available in the child. The child can
explicitly override a parent's method to provide its own
implementation. For example, if we have an
object, it has
- my $cage = File::MP3->new(
- path => 'mp3s/My-Body-Is-a-Cage.mp3',
- content => $mp3_data,
- last_mod_time => 1304974868,
- title => 'My Body Is a Cage',
- # The file is at mp3s/My-Body-Is-a-Cage.mp3
If we wanted to include the mp3's title in the greeting, we could override the method:
The process of determining what method should be used is called
method resolution. What Perl does is look at the object's class
in this case). If that class defines the method,
then that class's version of the method is called. If not, Perl looks
at each parent class in turn. For
, its only parent is
does not define the method, but
then Perl calls the method in
, which inherited from
then Perl would keep looking "up the chain" if necessary.
It is possible to explicitly call a parent method from a child:
bit tells Perl to look for the
class's inheritance chain. When it finds the parent class
that implements this method, the method is called.
We mentioned multiple inheritance earlier. The main problem with multiple inheritance is that it greatly complicates method resolution. See perlobj for more details.
Encapsulation is the idea that an object is opaque. When another developer uses your class, they don't need to know how it is implemented, they just need to know what it does.
Encapsulation is important for several reasons. First, it allows you to separate the public API from the private implementation. This means you can change that implementation without breaking the API.
Second, when classes are well encapsulated, they become easier to subclass. Ideally, a subclass uses the same APIs to access object data that its parent class uses. In reality, subclassing sometimes involves violating encapsulation, but a good API can minimize the need to do this.
We mentioned earlier that most Perl objects are implemented as hashes under the hood. The principle of encapsulation tells us that we should not rely on this. Instead, we should use accessor methods to access the data in that hash. The object systems that we recommend below all automate the generation of accessor methods. If you use one of them, you should never have to access the object as a hash directly.
In object-oriented code, we often find that one object references another object. This is called composition, or a has-a relationship.
Earlier, we mentioned that the
accessor could return a DateTime object. This is a perfect example
of composition. We could go even further, and make the
accessors return objects as well. The
then be composed of several other objects.
Roles are something that a class does, rather than something that it is. Roles are relatively new to Perl, but have become rather popular. Roles are applied to classes. Sometimes we say that classes consume roles.
Roles are an alternative to inheritance for providing polymorphism.
Let's assume we have two classes,
. Both of
these things have on/off switches. We want to model that in our class
We could have both classes inherit from a common parent, like
, but not all machines have on/off switches. We could create
a parent class called
, but that is very artificial.
Radios and computers are not specializations of this parent. This
parent is really a rather ridiculous creation.
This is where roles come in. It makes a lot of sense to create a
role and apply it to both classes. This role would
define a known API like providing
Perl does not have any built-in way to express roles. In the past, people just bit the bullet and used multiple inheritance. Nowadays, there are several good choices on CPAN for using roles.
Object Orientation is not the best solution to every problem. In Perl Best Practices (copyright 2004, Published by O'Reilly Media, Inc.), Damian Conway provides a list of criteria to use when deciding if OO is the right fit for your problem:
The system being designed is large, or is likely to become large.
The data can be aggregated into obvious structures, especially if there's a large amount of data in each aggregate.
The various types of data aggregate form a natural hierarchy that facilitates the use of inheritance and polymorphism.
You have a piece of data on which many different operations are applied.
You need to perform the same general operations on related types of data, but with slight variations depending on the specific type of data the operations are applied to.
It's likely you'll have to add new data types later.
The typical interactions between pieces of data are best represented by operators.
The implementation of individual components of the system is likely to change over time.
The system design is already object-oriented.
Large numbers of other programmers will be using your code modules.
As we mentioned before, Perl's built-in OO system is very minimal, but also quite flexible. Over the years, many people have developed systems which build on top of Perl's built-in system to provide more features and convenience.
We strongly recommend that you use one of these systems. Even the most minimal of them eliminates a lot of repetitive boilerplate. There's really no good reason to write your classes from scratch in Perl.
If you are interested in the guts underlying these systems, check out perlobj.
Moose bills itself as a "postmodern object system for Perl 5". Don't be scared, the "postmodern" label is a callback to Larry's description of Perl as "the first postmodern computer language".
provides a complete, modern OO system. Its biggest influence
is the Common Lisp Object System, but it also borrows ideas from
Smalltalk and several other languages.
was created by Stevan
Little, and draws heavily from his work on the Perl 6 OO design.
Here is our
provides a number of features:
provides a layer of declarative "sugar" for defining classes.
That sugar is just a set of exported functions that make declaring how
your class works simpler and more palatable. This lets you describe
what your class is, rather than having to tell Perl how to
implement your class.
subroutine declares an attribute, and
automatically creates accessors for these attributes. It also takes
care of creating a
method for you. This constructor knows
about the attributes you declared, so you can set them when creating a
lets you define roles the same way you define classes:
In the example above, you can see that we passed
isa => 'Bool'
when creating our
attribute. This tells
that this attribute must be a boolean value. If we try to set it to an
invalid value, our code will throw an error.
Perl's built-in introspection features are fairly minimal.
builds on top of them and creates a full introspection layer for your
classes. This lets you ask questions like "what methods does the File
class implement?" It also lets you modify your classes
describes itself using its own introspection API. Besides
being a cool trick, this means that you can extend
There is a rich ecosystem of
extensions on CPAN under the
namespace. In addition, many modules on CPAN already use
providing you with lots of examples to learn from.
is a very powerful tool, and we can't cover all of its
features here. We encourage you to learn more by reading the
documentation, starting with
can make your code slower to load.
itself is not
small, and it does a lot of code generation when you define your
class. This code generation means that your runtime code is as fast as
it can be, but you pay for this when your modules are first loaded.
This load time hit can be a problem when startup speed is important, such as with a command-line script or a "plain vanilla" CGI script that must be loaded each time it is executed.
Before you panic, know that many people do use
command-line tools and other startup-sensitive code. We encourage you
out first before worrying about startup speed.
also has several dependencies on other modules. Most of these
are small stand-alone modules, a number of which have been spun off
itself, and some of its dependencies, require a
compiler. If you need to install your software on a system without a
compiler, or if having any dependencies is a problem, then
may not be right for you.
If you try
and find that one of these issues is preventing you
, we encourage you to consider Moo next.
implements a subset of
's functionality in a simpler package.
For most features that it does implement, the end-user API is
, meaning you can switch from
does not implement most of
's introspection API, so it's
often faster when loading your modules. Additionally, none of its
dependencies require XS, so it can be installed on machines without a
's most compelling features is its interoperability with
. When someone tries to use
's introspection API on a
class or role, it is transparently inflated into a
class or role. This makes it easier to incorporate
code base and vice versa.
For example, a
class can subclass a
or consume a
authors hope that one day
can be made obsolete by
enough, but for now it provides a worthwhile
Class::Accessor is the polar opposite of
. It provides very
few features, nor is it self-hosting.
It is, however, very simple, pure Perl, and it has no non-core dependencies. It also provides a "Moose-like" API on demand for the features it supports.
Even though it doesn't do much, it is still preferable to writing your own classes from scratch.
import flag tells
that you want to
define your attributes using
-like syntax. The only parameter
that you can pass to
. We recommend that you use this
Moose-like syntax if you choose
since it means you
will have a smoother upgrade path if you later decide to move to
generates accessor methods and a
constructor for your class.
Finally, we have Class::Tiny. This module truly lives up to its name. It has an incredibly minimal API and absolutely no dependencies on any recent Perl. Still, we think it's a lot easier to use than writing your own OO code from scratch.
class once more:
, all accessors are read-write. It generates a
constructor for you, as well as the accessors you define.
You can also use Class::Tiny::Antlers for
As we mentioned before, roles provide an alternative to inheritance, but Perl does not have any built-in role support. If you choose to use Moose, it comes with a full-fledged role implementation. However, if you use one of our other recommended OO modules, you can still use roles with Role::Tiny
provides some of the same features as Moose's role
system, but in a much smaller package. Most notably, it doesn't support
any sort of attribute declaration, so you have to do that by hand.
Still, it's useful, and works well with
Here's a brief recap of the options we covered:
is the maximal option. It has a lot of features, a big
ecosystem, and a thriving user base. We also covered Moo briefly.
lite, and a reasonable alternative when Moose
doesn't work for your application.
does a lot less than
, and is a nice
alternative if you find
overwhelming. It's been around a long
time and is well battle-tested. It also has a minimal
compatibility mode which makes moving from
is the absolute minimal option. It has no dependencies,
and almost no syntax to learn. It's a good option for a super minimal
environment and for throwing something together quickly without having
to worry about details.
find yourself considering multiple inheritance. If you go with
, it comes with its own role implementation.
There are literally dozens of other OO-related modules on CPAN besides those covered here, and you're likely to run across one or more of them if you work with other people's code.
In addition, plenty of code in the wild does all of its OO "by hand", using just the Perl built-in OO features. If you need to maintain such code, you should read perlobj to understand exactly how Perl's built-in OO works.
As we said before, Perl's minimal OO system has led to a profusion of OO systems on CPAN. While you can still drop down to the bare metal and write your classes by hand, there's really no reason to do that with modern Perl.
For bigger projects, Moose provides a rich set of features that will let you focus on implementing your business logic.