| Moose::Cookbook::Basics::Genome_OverloadingSubtypesAndCoercion - phpMan
Moose::Cookbook::Basics::GenomMoose::Cookbook::Basics::Genome_OverloadingSubtypesAndCoercion(3pm)
NAME
Moose::Cookbook::Basics::Genome_OverloadingSubtypesAndCoercion - Operator overloading,
subtypes, and coercion
VERSION
version 2.1213
SYNOPSIS
package Human;
use Moose;
use Moose::Util::TypeConstraints;
subtype 'Sex'
=> as 'Str'
=> where { $_ =~ m{^[mf]$}s };
has 'sex' => ( is => 'ro', isa => 'Sex', required => 1 );
has 'mother' => ( is => 'ro', isa => 'Human' );
has 'father' => ( is => 'ro', isa => 'Human' );
use overload '+' => \&_overload_add, fallback => 1;
sub _overload_add {
my ( $one, $two ) = @_;
die('Only male and female humans may create children')
if ( $one->sex() eq $two->sex() );
my ( $mother, $father )
= ( $one->sex eq 'f' ? ( $one, $two ) : ( $two, $one ) );
my $sex = 'f';
$sex = 'm' if ( rand() >= 0.5 );
return Human->new(
sex => $sex,
mother => $mother,
father => $father,
);
}
DESCRIPTION
This Moose cookbook recipe shows how operator overloading, coercion, and subtypes can be
used to mimic the human reproductive system (well, the selection of genes at least).
INTRODUCTION
Our "Human" class uses operator overloading to allow us to "add" two humans together and
produce a child. Our implementation does require that the two objects be of opposite sex.
Remember, we're talking about biological reproduction, not marriage.
While this example works as-is, we can take it a lot further by adding genes into the mix.
We'll add the two genes that control eye color, and use overloading to combine the genes
from the parent to model the biology.
What is Operator Overloading?
Overloading is not a Moose-specific feature. It's a general OO concept that is implemented
in Perl with the "overload" pragma. Overloading lets objects do something sane when used
with Perl's built in operators, like addition ("+") or when used as a string.
In this example we overload addition so we can write code like "$child = $mother +
$father".
GENES
There are many genes which affect eye color, but there are two which are most important,
gey and bey2. We will start by making a class for each gene.
Human::Gene::bey2
package Human::Gene::bey2;
use Moose;
use Moose::Util::TypeConstraints;
type 'bey2_color' => where { $_ =~ m{^(?:brown|blue)$} };
has 'color' => ( is => 'ro', isa => 'bey2_color' );
This class is trivial. We have a type constraint for the allowed colors, and a "color"
attribute.
Human::Gene::gey
package Human::Gene::gey;
use Moose;
use Moose::Util::TypeConstraints;
type 'gey_color' => where { $_ =~ m{^(?:green|blue)$} };
has 'color' => ( is => 'ro', isa => 'gey_color' );
This is nearly identical to the "Humane::Gene::bey2" class, except that the gey gene
allows for different colors.
EYE COLOR
We could just give four attributes (two of each gene) to the "Human" class, but this is a
bit messy. Instead, we'll abstract the genes into a container class, "Human::EyeColor".
Then a "Human" can have a single "eye_color" attribute.
package Human::EyeColor;
use Moose;
use Moose::Util::TypeConstraints;
coerce 'Human::Gene::bey2'
=> from 'Str'
=> via { Human::Gene::bey2->new( color => $_ ) };
coerce 'Human::Gene::gey'
=> from 'Str'
=> via { Human::Gene::gey->new( color => $_ ) };
has [qw( bey2_1 bey2_2 )] =>
( is => 'ro', isa => 'Human::Gene::bey2', coerce => 1 );
has [qw( gey_1 gey_2 )] =>
( is => 'ro', isa => 'Human::Gene::gey', coerce => 1 );
The eye color class has two of each type of gene. We've also created a coercion for each
class that coerces a string into a new object. Note that a coercion will fail if it
attempts to coerce a string like "indigo", because that is not a valid color for either
type of gene.
As an aside, you can see that we can define several identical attributes at once by
supplying an array reference of names as the first argument to "has".
We also need a method to calculate the actual eye color that results from a set of genes.
The bey2 brown gene is dominant over both blue and green. The gey green gene is dominant
over blue.
sub color {
my ($self) = @_;
return 'brown'
if ( $self->bey2_1->color() eq 'brown'
or $self->bey2_2->color() eq 'brown' );
return 'green'
if ( $self->gey_1->color() eq 'green'
or $self->gey_2->color() eq 'green' );
return 'blue';
}
We'd like to be able to treat a "Human::EyeColor" object as a string, so we define a
string overloading for the class:
use overload '""' => \&color, fallback => 1;
Finally, we need to define overloading for addition. That way we can add together two
"Human::EyeColor" objects and get a new one with a new (genetically correct) eye color.
use overload '+' => \&_overload_add, fallback => 1;
sub _overload_add {
my ( $one, $two ) = @_;
my $one_bey2 = 'bey2_' . _rand2();
my $two_bey2 = 'bey2_' . _rand2();
my $one_gey = 'gey_' . _rand2();
my $two_gey = 'gey_' . _rand2();
return Human::EyeColor->new(
bey2_1 => $one->$one_bey2->color(),
bey2_2 => $two->$two_bey2->color(),
gey_1 => $one->$one_gey->color(),
gey_2 => $two->$two_gey->color(),
);
}
sub _rand2 {
return 1 + int( rand(2) );
}
When two eye color objects are added together, the "_overload_add()" method will be passed
two "Human::EyeColor" objects. These are the left and right side operands for the "+"
operator. This method returns a new "Human::EyeColor" object.
ADDING EYE COLOR TO "Human"s
Our original "Human" class requires just a few changes to incorporate our new
"Human::EyeColor" class.
use List::MoreUtils qw( zip );
coerce 'Human::EyeColor'
=> from 'ArrayRef'
=> via { my @genes = qw( bey2_1 bey2_2 gey_1 gey_2 );
return Human::EyeColor->new( zip( @genes, @{$_} ) ); };
has 'eye_color' => (
is => 'ro',
isa => 'Human::EyeColor',
coerce => 1,
required => 1,
);
We also need to modify "_overload_add()" in the "Human" class to account for eye color:
return Human->new(
sex => $sex,
eye_color => ( $one->eye_color() + $two->eye_color() ),
mother => $mother,
father => $father,
);
CONCLUSION
The three techniques we used, overloading, subtypes, and coercion, combine to provide a
powerful interface.
If you'd like to learn more about overloading, please read the documentation for the
overload pragma.
To see all the code we created together, take a look at t/recipes/basics_recipe9.t.
NEXT STEPS
Had this been a real project we'd probably want:
Better Randomization with Crypt::Random
Characteristic Base Class
Mutating Genes
More Characteristics
Artificial Life
LICENSE
This work is licensed under a Creative Commons Attribution 3.0 Unported License.
License details are at: <http://creativecommons.org/licenses/by/3.0/>
AUTHORS
· Stevan Little <stevan.little AT iinteractive.com>
· Dave Rolsky <autarch AT urth.org>
· Jesse Luehrs <doy AT tozt.net>
· Shawn M Moore <code AT sartak.org>
· XXXX XXX'XX (Yuval Kogman) <nothingmuch AT woobling.org>
· Karen Etheridge <ether AT cpan.org>
· Florian Ragwitz <rafl AT debian.org>
· Hans Dieter Pearcey <hdp AT weftsoar.net>
· Chris Prather <chris AT prather.org>
· Matt S Trout <mst AT shadowcat.uk>
COPYRIGHT AND LICENSE
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.
perl v5.20.1 Moose::Cookbook::Basics::Genome_OverloadingSubtypesAndCoercion(3pm)
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