Moose::Cookbook::Roles::Comparable_CodeReuse - Using roles for code reuse
version 2.2207
package Eq;
use Moose::Role;
requires 'equal_to';
sub not_equal_to {
my ( $self, $other ) = @_;
not $self->equal_to($other);
}
package Comparable;
use Moose::Role;
with 'Eq';
requires 'compare';
sub equal_to {
my ( $self, $other ) = @_;
$self->compare($other) == 0;
}
sub greater_than {
my ( $self, $other ) = @_;
$self->compare($other) == 1;
}
sub less_than {
my ( $self, $other ) = @_;
$self->compare($other) == -1;
}
sub greater_than_or_equal_to {
my ( $self, $other ) = @_;
$self->greater_than($other) || $self->equal_to($other);
}
sub less_than_or_equal_to {
my ( $self, $other ) = @_;
$self->less_than($other) || $self->equal_to($other);
}
package Printable;
use Moose::Role;
requires 'to_string';
package US::Currency;
use Moose;
with 'Comparable', 'Printable';
has 'amount' => ( is => 'rw', isa => 'Num', default => 0 );
sub compare {
my ( $self, $other ) = @_;
$self->amount <=> $other->amount;
}
sub to_string {
my $self = shift;
sprintf '$%0.2f USD' => $self->amount;
}
Roles have two primary purposes: as interfaces, and as a means of code reuse. This recipe demonstrates the latter, with roles that define comparison and display code for objects.
Let's start with Eq
. First, note that we've replaced use Moose
with use Moose::Role
. We also have a new sugar function, requires
:
requires 'equal_to';
This says that any class which consumes this role must provide an equal_to
method. It can provide this method directly, or by consuming some other role.
The Eq
role defines its not_equal_to
method in terms of the required equal_to
method. This lets us minimize the methods that consuming classes must provide.
The next role, Comparable
, builds on the Eq
role. We include Eq
in Comparable
using with
, another new sugar function:
with 'Eq';
The with
function takes a list of roles to consume. In our example, the Comparable
role provides the equal_to
method required by Eq
. However, it could opt not to, in which case a class that consumed Comparable
would have to provide its own equal_to
. In other words, a role can consume another role without providing any required methods.
The Comparable
role requires a method, compare
:
requires 'compare';
The Comparable
role also provides a number of other methods, all of which ultimately rely on compare
.
sub equal_to {
my ( $self, $other ) = @_;
$self->compare($other) == 0;
}
sub greater_than {
my ( $self, $other ) = @_;
$self->compare($other) == 1;
}
sub less_than {
my ( $self, $other ) = @_;
$self->compare($other) == -1;
}
sub greater_than_or_equal_to {
my ( $self, $other ) = @_;
$self->greater_than($other) || $self->equal_to($other);
}
sub less_than_or_equal_to {
my ( $self, $other ) = @_;
$self->less_than($other) || $self->equal_to($other);
}
Finally, we define the Printable
role. This role exists solely to provide an interface. It has no methods, just a list of required methods. In this case, it just requires a to_string
method.
An interface role is useful because it defines both a method and a name. We know that any class which does this role has a to_string
method, but we can also assume that this method has the semantics we want. Presumably, in real code we would define those semantics in the documentation for the Printable
role. (1)
Finally, we have the US::Currency
class which consumes both the Comparable
and Printable
roles.
with 'Comparable', 'Printable';
It also defines a regular Moose attribute, amount
:
has 'amount' => ( is => 'rw', isa => 'Num', default => 0 );
Finally we see the implementation of the methods required by our roles. We have a compare
method:
sub compare {
my ( $self, $other ) = @_;
$self->amount <=> $other->amount;
}
By consuming the Comparable
role and defining this method, we gain the following methods for free: equal_to
, greater_than
, less_than
, greater_than_or_equal_to
and less_than_or_equal_to
.
Then we have our to_string
method:
sub to_string {
my $self = shift;
sprintf '$%0.2f USD' => $self->amount;
}
Roles can be very powerful. They are a great way of encapsulating reusable behavior, as well as communicating (semantic and interface) information about the methods our classes provide.
Consider two classes, Runner
and Process
, both of which define a run
method. If we just require that an object implements a run
method, we still aren't saying anything about what that method actually does. If we require an object that implements the Executable
role, we're saying something about semantics.
Stevan Little <stevan@cpan.org>
Dave Rolsky <autarch@urth.org>
Jesse Luehrs <doy@cpan.org>
Shawn M Moore <sartak@cpan.org>
יובל קוג'מן (Yuval Kogman) <nothingmuch@woobling.org>
Karen Etheridge <ether@cpan.org>
Florian Ragwitz <rafl@debian.org>
Hans Dieter Pearcey <hdp@cpan.org>
Chris Prather <chris@prather.org>
Matt S Trout <mstrout@cpan.org>
This software is copyright (c) 2006 by Infinity Interactive, Inc.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.