NAME
Catalyst::Manual::ExtendingCatalyst - Extending The Framework
DESCRIPTION
This document will provide you with access points, techniques and best practices to extend the Catalyst framework, or to find more elegant ways to abstract and use your own code.
The design of Catalyst is such that the framework itself should not get in your way. There are many entry points to alter or extend Catalyst's behaviour, and this can be confusing. This document is written to help you understand the possibilities, current practices and their consequences.
Please read the "BEST PRACTICES" section before deciding on a design, especially if you plan to release your code to CPAN. The Catalyst developer and user communities, which you are part of, will benefit most if we all work together and coordinate.
If you are unsure on an implementation or have an idea you would like to have RFC'ed, it surely is a good idea to send your questions and suggestions to the Catalyst mailing list (See "SUPPORT" in Catalyst) and/or come to the #catalyst
channel on the irc.perl.org
network. You might also want to refer to those places for research to see if a module doing what you're trying to implement already exists. This might give you a solution to your problem or a basis for starting.
BEST PRACTICES
During Catalyst's early days, it was common to write plugins to provide functionality application wide. Since then, Catalyst has become a lot more flexible and powerful. It soon became a best practice to use some other form of abstraction or interface, to keep the scope of its influence as close as possible to where it belongs.
For those in a hurry, here's a quick checklist of some fundamental points. If you are going to read the whole thing anyway, you can jump forward to "Namespaces".
Quick Checklist
- Use the
CatalystX::*
namespace if you can! -
If your extension isn't a Model, View, Controller, Plugin, or Engine, it's best to leave it out of the
Catalyst::
namespace. Use <CatalystX::> instead. - Don't make it a plugin unless you have to!
-
A plugin should be careful since it's overriding Catalyst internals. If your plugin doesn't really need to muck with the internals, make it a base Controller or Model.
- There's a community. Use it!
-
There are many experienced developers in the Catalyst community, there's always the IRC channel and the mailing list to discuss things.
- Add tests and documentation!
-
This gives a stable basis for contribution, and even more importantly, builds trust. The easiest way is a test application. See Catalyst::Manual::Tutorial::Testing for more information.
Namespaces
While some core extensions (engines, plugins, etc.) have to be placed in the Catalyst::*
namespace, the Catalyst core would like to ask developers to use the CatalystX::*
namespace if possible.
When you try to put a base class for a Model
, View
or Controller
directly under your MyApp
directory as, for example, MyApp::Controller::Foo
, you will have the problem that Catalyst will try to load that base class as a component of your application. The solution is simple: Use another namespace. Common ones are MyApp::Base::Controller::*
or MyApp::ControllerBase::*
as examples.
Can it be a simple module?
Sometimes you want to use functionality in your application that doesn't require the framework at all. Remember that Catalyst is just Perl and you always can just use
a module. If you have application specific code that doesn't need the framework, there is no problem in putting it in your MyApp::*
namespace. Just don't put it in Model
, Controller
or View
, because that would make Catalyst try to load them as components.
Writing a generic component that only works with Catalyst is wasteful of your time. Try writing a plain perl module, and then a small bit of glue that integrates it with Catalyst. See Catalyst::Model::DBIC::Schema for a module that takes the approach. The advantage here is that your "Catalyst" DBIC schema works perfectly outside of Catalyst, making testing (and command-line scripts) a breeze. The actual Catalyst Model is just a few lines of glue that makes working with the schema convenient.
If you want the thinnest interface possible, take a look at Catalyst::Model::Adaptor.
Inheritance and overriding methods
While Catalyst itself is still based on NEXT (for multiple inheritance), extension developers are encouraged to use Class::C3, which is what Catalyst will be switching to in some point in the future.
When overriding a method, keep in mind that some day additionally arguments may be provided to the method, if the last parameter is not a flat list. It is thus better to override a method by shifting the invocant off of @_
and assign the rest of the used arguments, so you can pass your complete arguments to the original method via @_
:
use Class::C3; ...
sub foo { my $self = shift;
my ($bar, $baz) = @_; # ... return
$self->next::method(@_); }
If you would do the common
my ($self, $foo, $bar) = @_;
you'd have to use a much uglier construct to ensure that all arguments will be passed along and the method is future proof:
$self->next::method(@_[ 1 .. $#_ ]);
Tests and documentation
When you release your module to the CPAN, proper documentation and at least a basic test suite (which means more than pod or even just use_ok
, sorry) gives people a good base to contribute to the module. It also shows that you care for your users. If you would like your module to become a recommended addition, these things will prove invaluable.
If you're just getting started, try using CatalystX::Starter to generate some example tests for your module.
Maintenance
In planning to release a module to the community (Catalyst or CPAN and Perl), you should consider if you have the resources to keep it up to date, including fixing bugs and accepting contributions.
If you're not sure about this, you can always ask in the proper Catalyst or Perl channels if someone else might be interested in the project, and would jump in as co-maintainer.
A public repository can further ease interaction with the community. Even read only access enables people to provide you with patches to your current development version. subversion, SVN and SVK, are broadly preferred in the Catalyst community.
If you're developing a Catalyst extension, please consider asking the core team for space in Catalyst's own subversion repository. You can get in touch about this via IRC or the Catalyst developers mailing list.
The context object
Sometimes you want to get a hold of the context object in a component that was created on startup time, where no context existed yet. Often this is about the model reading something out of the stash or other context information (current language, for example).
If you use the context object in your component you have tied it to an existing request. This means that you might get into problems when you try to use the component (e.g. the model - the most common case) outside of Catalyst, for example in cronjobs.
A stable solution to this problem is to design the Catalyst model separately from the underlying model logic. Let's take Catalyst::Model::DBIC::Schema as an example. You can create a schema outside of Catalyst that knows nothing about the web. This kind of design ensures encapsulation and makes development and maintenance a whole lot easier. The you use the aforementioned model to tie your schema to your application. This gives you a MyApp::DBIC
(the name is of course just an example) model as well as MyApp::DBIC::TableName
models to access your result sources directly.
By creating such a thin layer between the actual model and the Catalyst application, the schema itself is not at all tied to any application and the layer in-between can access the model's API using information from the context object.
A Catalyst component accesses the context object at request time with "ACCEPT_CONTEXT($c, @args)" in Catalyst::Component.
CONFIGURATION
The application has to interact with the extension with some configuration. There is of course again more than one way to do it.
Attributes
You can specify any valid Perl attribute on Catalyst actions you like. (See "Syntax of Attribute Lists" in attributes for a description of what is valid.) These will be available on the Catalyst::Action
instance via its attributes
accessor. To give an example, this action:
sub foo : Local Bar('Baz') {
my ($self, $c) = @_;
my $attributes =
$self->action_for('foo')->attributes;
$c->res->body($attributes->{Bar}[0] );
}
will set the response body to Baz
. The values always come in an array reference. As you can see, you can use attributes to configure your actions. You can specify or alter these attributes via "Component Configuration", or even react on them as soon as Catalyst encounters them by providing your own component base class.
Creating custom accessors
Catalyst::Component uses Class::Accessor::Fast for accessor creation. Please refer to the modules documentation for usage information.
Component configuration
At creation time, the class configuration of your component (the one available via $self->config
) will be merged with possible configuration settings from the applications configuration (either directly or via config file). This is then stored in the controller object's hash reference. So, if you read possible configurations like:
my $model_name = $controller->{model_name};
you will get the right value. The config
accessor always only contains the original class configuration and must not be used for component configuration.
You are advised to create accessors on your component class for your configuration values. This is good practice and makes it easier to capture configuration key typos. You can do this with the mk_ro_accessors
method provided to Catalyst::Component via Class::Accessor::Fast:
use base 'Catalyst::Controller';
__PACKAGE__->mk_ro_accessors('model_name');
...
my $model_name = $controller->model_name;
IMPLEMENTATION
This part contains the technical details of various implementation methods. Please read the "BEST PRACTICES" before you start your implementation, if you haven't already.
Action classes
Usually, your action objects are of the class Catalyst::Action. You can override this with the ActionClass
attribute to influence execution and/or dispatching of the action. A widely used example of this is Catalyst::Action::RenderView, which is used in every newly created Catalyst application in your root controller:
sub end : ActionClass('RenderView') { }
Usually, you want to override the execute
and/or the match
method. The execute method of the action will naturally call the methods code. You can surround this by overriding the method in a subclass:
package Catalyst::Action::MyFoo; use strict;
use Class::C3; use base 'Catalyst::Action';
sub execute {
my $self = shift;
my ($controller, $c, @args) = @_;
# put your 'before' code here
my $r = $self->next::method(@_);
# put your 'after' code here
return $r;
}
1;
We are using Class::C3 to re-dispatch to the original execute
method in the Catalyst::Action class.
The Catalyst dispatcher handles an incoming request and, depending upon the dispatch type, will call the appropriate target or chain. From time to time it asks the actions themselves, or through the controller, if they would match the current request. That's what the match
method does. So by overriding this, you can change on what the action will match and add new matching criteria.
For example, the action class below will make the action only match on Mondays:
package Catalyst::Action::OnlyMondays; use strict;
use Class::C3;
use base 'Catalyst::Action';
sub match {
my $self = shift;
return 0 if ( localtime(time) )[6] == 1;
return $self->next::method(@_);
}
1;
And this is how we'd use it:
sub foo: Local ActionClass('OnlyMondays') {
my ($self, $c) = @_;
$c->res->body('I feel motivated!');
}
If you are using action classes often or have some specific base classes that you want to specify more conveniently, you can implement a component base class providing an attribute handler.
For further information on action classes, please refer to Catalyst::Action and Catalyst::Manual::Actions.
Component base classes
Many Catalyst::Plugin that were written in Catalyst's early days should really have been just controller base classes. With such a class, you could provide functionality scoped to a single controller, not polluting the global namespace in the context object.
You can provide regular Perl methods in a base class as well as actions which will be inherited to the subclass. Please refer to "Controllers" for an example of this.
You can introduce your own attributes by specifying a handler method in the controller base. For example, to use a FullClass
attribute to specify a fully qualified action class name, you could use the following implementation. Note, however, that this functionality is already provided via the +
prefix for action classes. A simple
sub foo : Local ActionClass('+MyApp::Action::Bar') { ... }
will use MyApp::Action::Bar
as action class.
package MyApp::Base::Controller::FullClass; use strict; use base
'Catalyst::Controller';
sub _parse_FullClass_attr {
my ($self, $app_class, $action_name, $value, $attrs) = @_;
return( ActionClass => $value );
}
1;
Note that the full line of arguments is only provided for completeness sake. We could use this attribute in a subclass like any other Catalyst attribute:
package MyApp::Controller::Foo;
use strict;
use base 'MyApp::Base::Controller::FullClass';
sub foo : Local FullClass('MyApp::Action::Bar') { ... }
1;
Controllers
Many things can happen in controllers, and it often improves maintainability to abstract some of the code out into reusable base classes.
You can provide usual Perl methods that will be available via your controller object, or you can even define Catalyst actions which will be inherited by the subclasses. Consider this controller base class:
package MyApp::Base::Controller::ModelBase;
use strict;
use base 'Catalyst::Controller';
sub list : Chained('base') PathPart('') Args(0) {
my ($self, $c) = @_;
my $model = $c->model( $self->{model_name} );
my $condition = $self->{model_search_condition} || {};
my $attrs = $self->{model_search_attrs} || {};
$c->stash(rs => $model->search($condition, $attrs);
}
sub load : Chained('base') PathPart('') CaptureArgs(1) {
my ($self, $c, $id) = @_;
my $model = $c->model( $self->{model_name} );
$c->stash(row => $model->find($id));
}
1;
This example implements two simple actions. The list
action chains to a (currently non-existent) base
action and puts a result-set into the stash taking a configured model_name
as well as a search condition and attributes. This action is a chained endpoint. The other action, called load
is a chain midpoint that takes one argument. It takes the value as an ID and loads the row from the configured model. Please not that the above code is simplified for clarity. It misses error handling, input validation, and probably other things.
The class above is not very useful on its own, but we can combine it with some custom actions by sub-classing it:
package MyApp::Controller::Foo;
use strict;
use base 'MyApp::Base::Controller::ModelBase';
__PACKAGE__->config( model_name => 'DB::Foo',
model_search_condition=> { is_active => 1 },
model_search_attrs => { order_by => 'name' },
);
sub base : Chained PathPart('foo') CaptureArgs(0) { }
sub view : Chained('load') Args(0) {
my ($self, $c) = @_;
my $row = $c->stash->{row};
$c->res->body(join ': ', $row->name,
$row->description); }
1;
This class uses the formerly created controller as a base class. First, we see the configurations that were used in the parent class. Next comes the base
action, where everything chains off of.
Note that inherited actions act like they were declared in your controller itself. You can therefor call them just by their name in forward
s, detaches
and Chained(..)
specifications. This is an important part of what makes this technique so useful.
The new view
action ties itself to the load
action specified in the base class and outputs the loaded row's name
and description
columns. The controller MyApp::Controller::Foo
now has these publicly available paths:
- /foo
-
Will call the controller's
base
, then the base classeslist
action. - /foo/$id/view
-
First, the controller's
base
will be called, then it willload
the row with the corresponding$id
. After that,view
will display some fields out of the object.
Models and Views
If the functionality you'd like to add is really a data-set that you want to manipulate, for example internal document types, images, files, it might be better suited as a model.
The same applies for views. If your code handles representation or deals with the applications interface and should be universally available, it could be a perfect candidate for a view.
Please implement a process
method in your views. This method will be called by Catalyst if it is asked to forward to a component without a specified action. Note that process
is not a Catalyst action but a simple Perl method.
You are also encouraged to implement a render
method corresponding with the one in Catalyst::View::TT. This has proven invaluable, because people can use your view for much more fine-grained content generation.
Here is some example code for a fictional view:
package CatalystX::View::MyView;
use strict;
use base 'Catalyst::View';
sub process {
my ($self, $c) = @_;
my $template = $c->stash->{template};
my $content = $self->render($c, $template, $c->stash);
$c->res->body( $content );
}
sub render {
my ($self, $c, $template, $args) = @_;
# prepare content here
return $content;
}
1;
Plugins
The first thing to say about plugins is that if you're not sure if your module should be a plugin, it probably shouldn't. It once was common to add features to Catalyst by writing plugins that provide accessors to said functionality. As Catalyst grew more popular, it became obvious that this qualifies as bad practice.
By designing your module as a Catalyst plugin, every method you implement, import or inherit will be available via your applications context object. A plugin pollutes the global namespace, and you should be only doing that when you really need to.
Often, developers design extensions as plugins because they need to get hold of the context object. Either to get at the stash or request/response objects are the widely spread reasons. It is, however, perfectly possible to implement a regular Catalyst component (read: model, view or controller) that receives the current context object via "ACCEPT_CONTEXT($c, @args)" in Catalyst::Component.
When is a plugin suited to your task? Your code needs to be a plugin to act upon or alter specific parts of Catalyst's request lifecycle. If your functionality needs to wrap some prepare_*
or finalize_*
stages, you won't get around a plugin.
Another valid target for a plugin architecture are things that really have to be globally available, like sessions or authentication.
Please do not release Catalyst extensions as plugins only to provide some functionality application wide. Design it as a controller base class or another suiting technique with a smaller scope, so that your code only influences those parts of the application where it is needed, and namespace clashes and conflicts are ruled out.
The implementation is pretty easy. Your plugin will be inserted in the application's inheritance list, above Catalyst itself. You can by this alter Catalyst's request lifecycle behaviour. Every method you declare, every import in your package will be available as method on the application and the context object. As an example, let's say you want Catalyst to warn you every time uri_for returned an undefined value, for example because you specified the wrong number of captures for the targeted action chain. You could do this with this simple implementation (excuse the lame class name, it's just an example):
package Catalyst::Plugin::UriforUndefWarning;
use strict;
use Class::C3;
sub uri_for {
my $c = shift;
my $uri = $c->next::method(@_);
$c->log->warn( 'uri_for returned undef for:', join(', ', @_), );
return $uri;
}
1;
This would override Catalyst's uri_for
method and emit a warn
log entry containing the arguments that led to the undefined return value.
Factory components with COMPONENT()
Every component inheriting from Catalyst::Component contains a COMPONENT
method. It is used on application startup by setup_components
to instantiate the component object for the Catalyst application. By default, this will merge the components own config
uration with the application wide overrides and call the class' new
method to return the component object.
You can override this method and do and return whatever you want. However, you should use Class::C3 to forward to the original COMPONENT
method to merge the configuration of your component.
Here is a stub COMPONENT
method:
package CatalystX::Component::Foo;
use strict;
use base 'Catalyst::Component';
use Class::C3;
sub COMPONENT {
my $class = shift;
my ($app_class, $config) = @_;
# do things here before instantiation my
$obj = $self->next::method(@_);
# do things to object after instantiation
return $object;
}
The arguments are the class name of the component, the class name of the application instantiating the component, and a hash reference with the controller's configuration.
You are free to re-bless the object, instantiate a whole other component or really do anything compatible with Catalyst's expectations on a component.
For more information, please see "COMPONENT($c,$arguments)" in Catalyst::Component.
SEE ALSO
Catalyst, Catalyst::Manual::Actions, Catalyst::Component
AUTHOR
Robert Sedlacek <rs@474.at>
Jonathan Rockway <jrockway@cpan.org>
LICENSE AND COPYRIGHT
This document is free, you can redistribute it and/or modify it under the same terms as Perl itself.