Beam::Wire::Help::Config - A brief introduction to dependency injection with Beam::Wire
version 1.019
This is tutorial for Beam::Wire, starting with simple use as a configuration file, to complex dependency injection.
This tutorial will guide you through the YAML configuration, its equivalent Perl data structure, and the equivalent Perl code that is executed.
The basic Beam::Wire configuration is a hash of hashes describing how to create objects (which, in a dependency injection context, are called "services"). The top-level keys are the name of the object, and the inner keys are object configuration. To configure an object, you need the class and, optionally, constructor arguments (args).
args
# container.yml malcolm: class: Person args: name: Malcolm Reynolds rank: Captain # container.pl my $config = { malcolm => { class => 'Person', args => { name => 'Malcolm Reynolds', rank => 'Captain', }, }, };
Once we have a configuration file (also called a "container file"), we can give it to Beam::Wire and get our objects ("services").
my $wire = Beam::Wire->new( file => 'container.yml' ); my $malcolm = $wire->get( 'malcolm' );
You can also configure objects directly in Beam::Wire.
my $wire = Beam::Wire->new( config => $config ); # $config from above my $malcolm = $wire->get( 'malcolm' );
The configuration will be used by Beam::Wire to create your object, similar to running this code:
my $malcolm = Person->new( name => 'Malcolm Reynolds', rank => 'Captain', );
Objects have varying ways of specifying arguments to their constructors. The most common method, used by most Perl object frameworks, of specifying name/value pairs is the easiest:
For any other kind of constructor arguments, you can specify an arbitrary array. If the object's constructor is not called new, you can use the method key:
new
method
# container.yml dbh: class: DBI method: connect args: - 'dbi:SQLite:firefly.db' - ~ - ~ - RaiseError: 1 # container.pl my $config = { sqlite => { class => 'DBI', method => 'connect', args => [ 'dbi:SQLite:firefly.db', undef, undef, { RaiseError => 1 }, ], }, };
This is the same as:
my $dbh = DBI->connect( 'dbi:SQLite:firefly.db', undef, undef, { RaiseError => 1 }, );
If you need a single hash reference of arguments, you can use an array with a single element, like this:
# container.yml wash: class: Person args: - name: "Hoban Washburne" rank: Pilot # container.pl my $config = { wash => { class => 'Person', args => [ { name => 'Hoban Washburne', rank => 'Pilot', }, ], }, };
Which is the same as:
my $wash = Person->new( { name => 'Hoban Washburne', rank => 'Pilot', } );
For brevity's sake, if your constructor takes a hash of arguments, you can configure your service using $class instead:
$class
# container.yml simon: $class: Person name: Simon Tam rank: Doctor # container.pl my $config = { simon => { '$class' => 'Person', name => 'Simon Tam', rank => 'Doctor', }, };
my $simon = Person->new( { name => 'Simon Tam', rank => 'Doctor', } );
This makes it easy to make a "default class" in your config file:
use Scalar::Util qw( blessed ); my $person = $wire->get( 'person' ); if ( !blessed $person ) { $person = Person->new( %$person ); }
By prefixing any metadata with the prefix character (default: $), you can interleave your args and your metadata.
$
By default, services are lazy and cached. They are not created until they are asked for (lazy), and once created, they are reused if asked for again (cached).
By default, all objects are cached in the container, so asking for the same object twice will get the exact same object. To prevent this caching, you can force the container to make a new object every time by setting the lifecycle to factory. Objects from a factory are not cached. For example:
lifecycle
factory
# container.yml light_drone: class: Drone lifecycle: factory args: model: Light cost: 20 # container.pl my $config = { light_drone => { class => 'Drone', lifecycle => 'factory', args => { model => 'Light', cost => 20, }, }, };
This is basically the same as creating a sub to create our objects, like so:
my $light_drone_factory = sub { return Drone->new( model => 'Light', cost => 20, ); };
We can then pull infinite numbers of separate drones out of our factory:
my $wire = Beam::Wire->new( file => 'container.yml' ); my $light_drone = $wire->get( 'light_drone' ); my $replacement = $wire->get( 'light_drone' ); my $other_drone = $wire->get( 'light_drone' );
Some special kinds of objects have global effects that happen when they are created, like a global logging system (like Log::Log4perl).
To force an object to be created as soon as possible, you can set lifecycle to eager.
eager
# container.yml black_box: $class: Logger $lifecycle: eager log_level: warn # container.pl my $config = { black_box => { '$class' => 'Logger', '$lifecycle' => 'eager', log_level => 'warn', }, };
Once the container has been read, all of the eager objects will be created, and cached as normal.
my $wire = Beam::Wire->new( file => 'container.yml' ); # black_box is created automatically
The key feature of a dependency injection container is the ability to inject dependencies into the services as they are created. Dependencies are other services (objects) that must be created and passed-in to our current object.
Unlike above, where we were giving simple arguments to our constructors, with dependency injection, we can give other objects as arguments.
References allow us to refer to another object in our container. If needed, the object is constructed for us, so that when we ask for an object, the objects it depends are created automatically.
To refer to another object, use $ref:
$ref
# container.yml serenity: class: Ship args: captain: $ref: malcolm pilot: $ref: wash engineer: $ref: kaylee # container.pl my $config = { serenity => { class => 'Ship', args => { captain => { '$ref' => 'malcolm' }, pilot => { '$ref' => 'wash' }, engineer => { '$ref' => 'kaylee' }, }, }, };
This is equivalent to:
my $malcolm = Person->new( ... ); my $wash = Person->new( ... ); my $kaylee = Person->new( ... ); my $serenity = Ship->new( captain => $malcolm, pilot => $wash, engineer => $kaylee, );
Remember that, by default, all the objects are cached, so another reference to malcolm gets the same shuài space captain. If that's not desired, you can use the lifecycle config.
malcolm
Instead of having to create a named service, you can create a new, anonymous object as a dependency. This is useful when you want to keep related objects together in the configuration file.
You can create an anonymous object anywhere you could create a reference ($ref). To create an anonymous object, use $class and optionally $args and $method.
$args
$method
# container.yml cargo: class: Box args: contents: $class: Person $args: name: River Tam status: Hibernating # container.pl my $config = { cargo => { class => 'Box', args => { contents => { '$class' => 'Person', '$args' => { name => 'River Tam', status => 'Hibernating', }, }, }, }, };
my $cargo = Box->new( contents => Person->new( name => 'River Tam', status => 'Hibernating', ), );
One of the benefits of using Beam::Wire to define your configuration is being able to intelligently compose your objects to reduce duplication and prevent messy copy/paste jobs.
If you have a bunch of objects that need to share properties, or that only differ in one or two things, you can inherit properties using extends:
extends
# container.yml serenity_crew: class: Person args: ship: Serenity model: Firefly kaylee: extends: serenity_crew args: name: Kaylee Frye rank: Engineer # container.pl my $config = { serenity_crew => { class => 'Person', args => { ship => 'Serenity', model => 'Firefly', }, }, kaylee => { extends => 'serenity_crew', args => { name => 'Kaylee Frye', rank => 'Engineer', }, }, };
Which ends up composing our object as:
my $kaylee = Person->new( ship => 'Serenity', # from "serenity_crew" model => 'Firefly', # from "serenity_crew" name => 'Kaylee Frye', # from "kaylee" rank => 'Engineer', # from "kaylee" );
This allows us to quickly change any object config that extends the parent object config (say, to update their status to fugitive).
status
fugitive
Not everything in our container needs to be an object. Some services may need to share simple configuration values (such as usernames and passwords) or even entire configuration files.
Instead of creating an object, we can create simple values like strings, numbers, arrays, and hashes using the value key:
value
# container.yml bounty: value: 100000 itinerary: value: - Heaven - Highgate - Muir - Miranda # container.pl my $config = { bounty => { value => 100000, }, itinerary => { value => [ 'Heaven', 'Highgate', 'Muir', 'Miranda', ], }, };
These services can be used like any other. You can get the value with the get() method:
get()
my $itinerary = $wire->get( 'itinerary' );
And you can set up relationships with $ref:
# container.yml serenity_crew: class: Person args: bounty: $ref: bounty
A config service allows you to read a config file and use it as a service, giving all or part of it to other objects in your container.
To create a config service, use the config key. The value is the path to the file to read. By default, YAML, JSON, XML, and Perl files are supported (via Config::Any).
config
This works very much like a value service (above). The configuration file is read, and the data inside is the result.
# manifest.yml - 12 pair socks - 5 shirts, black - 5 shirts, slightly darker black - 1 strawberry # container.yml manifest: config: manifest.yml # container.pl my $config = { manifest => { config => 'manifest.yml', }, };
my $manifest = $wire->get( 'manifest' );
# container.yml serenity: class: Ship args: cargo: $ref: manifest
If you only need the config file once, you can create an anonymous config object.
# container.yml serenity: class: Ship args: cargo: $config: manifest.yml
Additionally, any service that does not look like an object config (does not pass the is_meta method) will be treated like a bare service. A bare service is like a value service, except that references inside are resolved. With this, you can set up arrays and hashes of objects.
# container.yml crew_list: - $ref: malcolm - $ref: zoe - $ref: wash - $ref: kaylee - $ref: jayne crew_manifest: captain: $ref: malcolm pilot: $ref: wash engineer: $ref: kaylee # container.pl my $config = { crew_list => [ { '$ref' => 'malcolm' }, { '$ref' => 'zoe' }, { '$ref' => 'wash' }, { '$ref' => 'kaylee' }, { '$ref' => 'jayne' }, ], crew_manifest => { captain => { '$ref' => 'malcolm', }, pilot => { '$ref' => 'wash', }, engineer => { '$ref' => 'kaylee', }, }, };
Nested containers can be created by adding Beam::Wire objects to a Beam::Wire container. This can be useful for sharing common objects (logging, database, or others) between multiple containers, or combining multiple containers into one.
# actors.yml malcolm: class: Actor args: name: Nathan Fillion zoe: class: Actor args: name: Gina Torres # container.yml actors: class: Beam::Wire args: file: actors.yml # script.pl my $wire = Beam::Wire->new( file => 'container.yml' ); my $actor = $wire->get( 'actors/malcolm' );
Nested container file paths are relative to the current container file by default. If needed, you can set the dir attribute to change what directory to search in.
If your objects use the Beam::Emitter event system, you can attach events to your object using the on key. This ensures that when your object is created, all of its event handlers are also created.
on
The on key should be an array of hashes. The hash key is the name of the event. The hash value should be a reference ($ref) or an anonymous object ($class), and must include a subroutine to call on that service using the $sub key.
$sub
# container.yml serenity: class: Ship on: - compressor_alert: $ref: ignore $sub: ignore_alert - airlock_open: $class: Klaxon $args: volume: loud $sub: alert
If you're not using YAML, you can organize event handlers as a simple hash, or a hash of arrays if you need multiple handlers for the same event:
# container.pl my $config = { serenity => { class => 'Ship', on => { compressor_alert => { '$ref' => 'ignore', '$sub' => 'ignore_alert', }, airlock_open => { '$class' => 'Klaxon', '$args' => { volume => 'loud', }, '$sub' => 'alert', }, }, }, };
Sometimes we have an object, but we also want to add a role to it. Instead of having to create a new, concrete class to compose every possible combination of roles, we can instead compose those roles when creating the object with the with key.
with
with can be a single string, which is a role class to compose, or an array of strings to compose multiple roles.
# container.yml shepherd: class: Person with: DarkPast # container.pl my $config = { shepherd => { class => 'Person', with => 'DarkPast', }, };
Then, when the shepherd object is created, a new, anonymous class is created that extends the Person class and adds the DarkPast role.
shepherd
Person
DarkPast
Sometimes an object can't be constructed with just a single method. We may have to call some methods to set attributes that are puzzlingly not exposed in the constructor, or we may want to immediately try to connect to a service.
To call multiple methods during construction, we can pass an array to the method key. Each member of the array should be a hash containing another method key, which will be the method to call, and optionally an args key, which will be the arguments to that specific method.
The first constructor method must construct the object itself. Each other method will be called on the object, and then the object will be used as the service.
# container.yml malcolm: class: Person method: - method: new args: name: 'Malcolm Reynolds' - method: set_bounty args: - 100000 - method: set_rank args: - Captain # container.pl my $config = { malcolm => { class => 'Person', method => [ { method => 'new', args => { name => 'Malcolm Reynolds', }, }, { method => 'set_bounty', args => [ 100000 ], }, { method => 'set_rank', args => [ 'Captain' ], }, ], }, };
This is equivalent to doing:
my $malcolm = Person->new( name => 'Malcolm Reynolds' ); $malcolm->set_bounty( 100000 ); $malcolm->set_rank( 'Captain' ); return $malcolm;
It's not a commonly-needed feature, but it exists just in case. Instead of doing this, you may be better off wrapping the class that requires this in your own class which provides a saner construction API. You could then release this wrapper class to CPAN in the Beam::Service::* namespace).
Beam::Service::*
Chained constructor methods work the same as multiple constructor methods, except the result of the first method is used as the invocant of the second method, and the result of the second method is used as the invocant of the third method.
To chain a method to its following method, add return: chain to the hash of method attributes. The last instance of return: chain will be the return value used for the service.
return: chain
# container.yml malcolm: class: Person method: - method: new args: name: 'Malcolm Reynolds' return: chain - method: set_bounty args: - 100000 return: chain - method: set_rank args: - Captain return: chain # container.pl my $config = { malcolm => { class => 'Person', method => [ { method => 'new', args => { name => 'Malcolm Reynolds', }, }, { method => 'set_bounty', args => [ 100000 ], }, { method => 'set_rank', args => [ 'Captain' ], }, ], }, };
my $malcolm = Person->new( name => 'Malcolm Reynolds' ); $malcolm = $malcolm->set_bounty( 100000 ); $malcolm = $malcolm->set_rank( 'Captain' ); return $malcolm;
This is useful if you need to connect to a database, and then get a specific object for a table (DBIx::Class) or collection (MongoDB).
You can reference individual items in a value or config service using $path references. This uses the Data::DPath module to match parts of the data structure. This is a powerful tool that can be used to create automatic filters on data structures, even executing Perl code to find items to return.
$path
# container.yml bounties: value: malcolm: 50000 zoe: 35000 simon: 100000 captain: class: Person args: name: Malcolm Reynolds bounty: $ref: bounties $path: /malcolm
NOTE: You cannot use $path and anonymous config objects.
Doug Bell <preaction@cpan.org>
Al Newkirk <anewkirk@ana.io>
This software is copyright (c) 2015 by Doug Bell.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
To install Beam::Wire, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Beam::Wire
CPAN shell
perl -MCPAN -e shell install Beam::Wire
For more information on module installation, please visit the detailed CPAN module installation guide.