Catalyst is an elegant web application framework, extremely flexible
yet extremely simple. It's similar to Ruby on Rails, Spring (Java), and
L<Maypole|Maypole>, upon which it was originally based. Its most
-important design philosphy is to provide easy access to all the tools
+important design philosophy is to provide easy access to all the tools
you need to develop web applications, with few restrictions on how you
need to use these tools. However, this does mean that it is always
possible to do things in a different way. Other web frameworks are
I<initially> simpler to use, but achieve this by locking the programmer
into a single set of tools. Catalyst's emphasis on flexibility means
that you have to think more to use it. We view this as a feature. For
-example, this leads to Catalyst being more suited to system integration
+example, this leads to Catalyst being better suited to system integration
tasks than other web frameworks.
=head3 MVC
=item * B<Controller>
Control the whole request phase, check parameters, dispatch actions, flow
-control. Catalyst itself!
+control. This is the meat of where Catalyst works.
=back
Now http://localhost:3000/hello prints "Hello World!".
-Note that actions with the C< :Global > attribute are equivalent to
+Note that actions with the C< :Local > attribute are equivalent to
using a C<:Path('action_name') > attribute, so our action could be
equivalently:
ready server (although you'll probably want to run it behind a front end proxy
if you end up using it).
+=item * PSGI Support
+
+Starting with Catalyst version 5.9 Catalyst ships with L<PSGI> integration
+for even more powerful and flexible testing and deployment options. See
+L<Catalyst::PSGI> for details.
+
=back
=head3 Simplicity
# perl -MCPAN -e 'install Catalyst::Runtime'
# perl -MCPAN -e 'install Catalyst::Devel'
+ # perl -MCPAN -e 'install Catalyst::View::TT'
=head3 Setup
=item * B<MyApp/Model/>
-=item * B<MyApp/M/>
-
=item * B<MyApp/View/>
-=item * B<MyApp/V/>
-
=item * B<MyApp/Controller/>
-=item * B<MyApp/C/>
-
=back
-In older versions of Catalyst, the recommended practice (and the one
-automatically created by helper scripts) was to name the directories
-C<M/>, C<V/>, and C<C/>. Though these still work, they are deprecated
-and we now recommend the use of the full names.
-
=head4 Views
To show how to define views, we'll use an already-existing base class for the
script/myapp_create.pl model MyModel DBIC::Schema MySchema create=static 'dbi:SQLite:/tmp/myapp.db'
-L<DBIx::Class::Schema::Loader> can automaticall load table layouts and
+L<DBIx::Class::Schema::Loader> can automatically load table layouts and
relationships, and convert them into a static schema definition
C<MySchema>, which you can edit later.
From a style perspective it's usually considered bad form to make your
model "too smart" about things - it should worry about business logic
and leave the integration details to the controllers. If, however, you
-find that it does not make sense at all to use an auxillary controller
+find that it does not make sense at all to use an auxiliary controller
around the model, and the model's need to access C<$c> cannot be
sidestepped, there exists a power tool called L</ACCEPT_CONTEXT>.
use base qw/Catalyst::Controller/;
- sub login : Path("login") { }
+ sub sign_in : Path("sign-in") { }
sub new_password : Path("new-password") { }
- sub logout : Path("logout") { }
+ sub sign_out : Path("sign-out") { }
package MyApp::Controller::Catalog;
model or view code. Instead you use the C<ACCEPT_CONTEXT> subroutine
to grab the bits of the context object that you need, and provide
accessors to them in the model. This ensures that C<$c> is only in
-scope where it is neaded which reduces maintenance and debugging
+scope where it is needed which reduces maintenance and debugging
headaches. So, if for example you needed two
L<Catalyst::Model::DBIC::Schema> models in the same Catalyst model
code, you might do something like this:
found, and automatically call the actions it finds that match the
circumstances of the request.
-The URL (for example http://localhost.3000/foo/bar) consists of two
+The URL (for example http://localhost:3000/foo/bar) consists of two
parts, the base, describing how to connect to the server
(http://localhost:3000/ in this example) and the path, which the
server uses to decide what to return (foo/bar). Please note that the
=item * B<Overriding the namespace>
-Note that __PACKAGE__->config->{namespace} can be used to override the
+Note that C<< __PACKAGE__->config->(namespace => ... ) >> can be used to override the
current namespace when matching. So:
package MyApp::Controller::Example;
would normally use 'example' as its namespace for matching, but if
this is specially overridden with
- __PACKAGE__->config->{namespace}='thing';
+ __PACKAGE__->config( namespace => 'thing' );
it matches using the namespace 'thing' instead.
package MyApp::Controller::Root;
use base 'Catalyst::Controller';
+
# Sets the actions in this controller to be registered with no prefix
# so they function identically to actions created in MyApp.pm
- __PACKAGE__->config->{namespace} = '';
+
+ __PACKAGE__->config( namespace => '');
+
sub default : Path {
my ( $self, $context ) = @_;
$context->response->status(404);
$context->response->body('404 not found');
}
+
1;
The code
- __PACKAGE__->config->{namespace} = '';
+ __PACKAGE__->config( namespace => '' );
makes the controller act as if its namespace is empty. As you'll see
-below, an empty namespace makes many of the URL-matching attributes,
-such as :Path, :Local and :Global matches, match at the start of the
-URL path.
+below, an empty namespace makes many of the URL-matching attributes, such
+as :Path and :Local match at the start of the URL path (i.e. the
+application root).
=back
Matches any URL beginning with> http://localhost:3000/my/controller/foo. The namespace and
subroutine name together determine the path.
-=item * Namespace-level (C<:Global>)
+=item * Root-level (C<:Global>)
package MyApp::Controller::Foo;
- sub foo : Global { }
-Matches http://localhost:3000/foo - that is, the action is mapped
-directly to the controller namespace, ignoring the function name.
+ sub bar : Global {
+ my ($self, $c) = @_;
+ $c->res->body(
+ $c->res->body('sub bar in Controller::Foo triggered on a request for '
+ . $c->req->uri));
+ }
-C<:Global> is equivalent C<:Local> one level higher in
-the namespace.
+1;
- package MyApp::Controller::Root;
- __PACKAGE__->config->{namespace}='';
- sub foo : Local { }
+Matches http://localhost:3000/bar - that is, the action is mapped
+directly to the method name, ignoring the controller namespace.
+
+C<:Global> always matches from the application root: it is simply
+shorthand for C<:Path('/methodname')>. C<:Local> is shorthand for
+C<:Path('methodname')>, which takes the controller namespace as described
+above.
-Use whichever makes the most sense for your application.
+Usage of the C<Global> handler is rare in all but very old Catalyst
+applications (e.g. before Catalyst 5.7). The use cases where C<Global>
+used to make sense are now largely replaced by the C<Chained> dispatch
+type, or by empty C<Path> declarations on an controller action. C<Global>
+is still included in Catalyst for backwards compatibility, although
+legitimate use-cases for it may still exist.
=item * Changing handler behaviour: eating arguments (C<:Args>)
match precisely.
No :Args at all means that B<any number> of arguments are taken. Thus, any
-URL that B<starts with> the controller's path will match.
+URL that B<starts with> the controller's path will match. Obviously, this means
+you cannot chain from an action that does not specify args, as the next action
+in the chain will be swallowed as an arg to the first!
=item * Literal match (C<:Path>)
sub auto : Private { }
C<auto>, however, doesn't override like this: providing they exist,
-C<MyApp::auto>, C<MyApp::Controller::Catalog::auto> and
+C<MyApp::Controller::Root::auto>, C<MyApp::Controller::Catalog::auto> and
C<MyApp::Catalog::Order::auto> would be called in turn.
Here are some examples of the order in which the various built-ins
# now $c->req->args is back to what it was before
}
- sub check_message : Private {
- my ( $self, $c ) = @_;
- my $first_argument = $c->req->args->[0]; # now = 'test1'
+ sub check_message : Action {
+ my ( $self, $c, $first_argument ) = @_;
+ my $also_first_argument = $c->req->args->[0]; # now = 'test1'
# do something...
}
$c->forward('/my/controller/action');
$c->forward('/default'); # calls default in main application
-Here are some examples of how to forward to classes and methods.
-
- # FIXME - Forwarding to a model is unusual, a better example would show
- # forwarding to render in TT which is useful for drawing sub-parts of pages..
+You can also forward to classes and methods.
sub hello : Global {
my ( $self, $c ) = @_;
- $c->forward(qw/MyApp::Model::Hello say_hello/);
+ $c->forward(qw/MyApp::View:Hello say_hello/);
}
sub bye : Global {
$c->forward('MyApp::Model::Hello'); # no method: will try 'process'
}
- package MyApp::Model::Hello;
+ package MyApp::View::Hello;
sub say_hello {
my ( $self, $c ) = @_;
$c->res->body('Goodbye World!');
}
+This mechanism is used by L<Catalyst::Action::RenderView> to forward
+to the C<process> method in a view class.
+
+It should be noted that whilst forward is useful, it is not the only way
+of calling other code in Catalyst. Forward just gives you stats in the debug
+screen, wraps the code you're calling in an exception handler and localises
+C<< $c->request->args >>.
+
+If you don't want or need these features then it's perfectly acceptable
+(and faster) to do something like this:
+
+ sub hello : Global {
+ my ( $self, $c ) = @_;
+ $c->stash->{message} = 'Hello World!';
+ $self->check_message( $c, 'test1' );
+ }
+
+ sub check_message {
+ my ( $self, $c, $first_argument ) = @_;
+ # do something...
+ }
+
Note that C<forward> returns to the calling action and continues
processing after the action finishes. If you want all further processing
in the calling action to stop, use C<detach> instead, which will execute
Catalyst will automatically try to call process() if you omit the
method.
-
=head3 Testing
Catalyst has a built-in http server for testing or local
comprehensive test scripts, L<Test::WWW::Mechanize::Catalyst> is an
invaluable tool.
-For more testing ideas, see L<Catalyst::Manual::Tutorial::Testing>.
+For more testing ideas, see L<Catalyst::Manual::Tutorial::08_Testing>.
Have fun!