NAME
Catalyst::Manual::Tutorial::CatalystBasics - Catalyst Tutorial - Part 2: Catalyst Application Development Basics
OVERVIEW
This is Part 2 of 9 for the Catalyst tutorial.
Catalyst Basics
DESCRIPTION
In this part of the tutorial, we will create a very basic Catalyst web application. Though simple in many respects, this section will already demonstrate a number of powerful capabilities such as:
Helper Scripts
Catalyst helper scripts that can be used to rapidly bootstrap the skeletal structure of an application.
MVC
Model/View/Controller (MVC) provides an architecture that facilitates a clean "separation of control" between the different portions of your application. Given that many other documents cover this subject in detail, MVC will not be discussed in depth here (for an excellent introduction to MVC and general Catalyst concepts, please see Catalyst::Manual::About. In short:
Model
The model usually represents a data store. In most applications, the model equates to the objects that are created from and saved to your SQL database.
View
The view takes model objects and renders them into something for the end user to look at. Normally this involves a template-generation tool that creates HTML for the user's web browser, but it could easily be code that generates other forms such as PDF documents, e-mails, or Excel spreadsheets.
Controller
As suggested by its name, the controller takes user requests and routes them to the necessary model and view.
ORM
The use of Object-Relational Mapping (ORM) technology for database access. Specifically, ORM provides an automated and standardized means to persist and restore objects to/from a relational database.
You can checkout the source code for this example from the catalyst subversion repository as per the instructions in Catalyst::Manual::Tutorial::Intro
CREATE A CATALYST PROJECT
Catalyst provides a number of helper scripts that can be used to quickly flesh out the basic structure of your application. All Catalyst projects begin with the catalyst.pl
helper (see Catalyst::Helper for more information on helpers). Also note that as of Catalyst 5.7000, you will not have the helper scripts unless you install both Catalyst::Runtime and Catalyst::Devel.
In the case of this tutorial, use the Catalyst catalyst.pl
script to initialize the framework for an application called MyApp
:
$ catalyst.pl MyApp
created "MyApp"
created "MyApp/script"
created "MyApp/lib"
created "MyApp/root"
...
created "MyApp/script/myapp_create.pl"
$ cd MyApp
The catalyst.pl
helper script will display the names of the directories and files it creates.
Though it's too early for any significant celebration, we already have a functioning application. Run the following command to run this application with the built-in development web server:
$ script/myapp_server.pl
[debug] Debug messages enabled
[debug] Loaded plugins:
.----------------------------------------------------------------------------.
| Catalyst::Plugin::ConfigLoader 0.13 |
| Catalyst::Plugin::Static::Simple 0.14 |
'----------------------------------------------------------------------------'
[debug] Loaded dispatcher "Catalyst::Dispatcher"
[debug] Loaded engine "Catalyst::Engine::HTTP"
[debug] Found home "/home/me/MyApp"
[debug] Loaded Config "/home/me/myapp.yml"
[debug] Loaded components:
.-----------------------------------------------------------------+----------.
| Class | Type |
+-----------------------------------------------------------------+----------+
| MyApp::Controller::Root | instance |
'-----------------------------------------------------------------+----------'
[debug] Loaded Private actions:
.----------------------+--------------------------------------+--------------.
| Private | Class | Method |
+----------------------+--------------------------------------+--------------+
| /default | MyApp::Controller::Root | default |
| /end | MyApp::Controller::Root | end |
'----------------------+--------------------------------------+--------------'
[info] MyApp powered by Catalyst 5.7002
You can connect to your server at http://localhost:3000
NOTE: Be sure you run the script/myapp_server.pl
command from the 'base' directory of your application, not inside the script
directory itself. It doesn't make a difference at this point, but it will as soon as we get the database going in the next section.
Point your web browser to http://localhost:3000 (substituting a different hostname or IP address as appropriate) and you should be greeted by the Catalyst welcome screen. Information similar to the following should be appended to the logging output of the development server:
[info] *** Request 1 (0.043/s) [6003] [Fri Jul 7 13:32:53 2006] ***
[debug] "GET" request for "/" from "127.0.0.1"
[info] Request took 0.067675s (14.777/s)
.----------------------------------------------------------------+-----------.
| Action | Time |
+----------------------------------------------------------------+-----------+
| /default | 0.002844s |
| /end | 0.000207s |
'----------------------------------------------------------------+-----------'
Press Ctrl-C to break out of the development server.
CREATE A SQLITE DATABASE
In this step, we make a text file with the required SQL commands to create a database table and load some sample data. Open myapp01.sql
in your editor and enter:
--
-- Create a very simple database to hold book and author information
--
CREATE TABLE books (
id INTEGER PRIMARY KEY,
title TEXT ,
rating INTEGER
);
-- 'book_authors' is a many-to-many join table between books & authors
CREATE TABLE book_authors (
book_id INTEGER,
author_id INTEGER,
PRIMARY KEY (book_id, author_id)
);
CREATE TABLE authors (
id INTEGER PRIMARY KEY,
first_name TEXT,
last_name TEXT
);
---
--- Load some sample data
---
INSERT INTO books VALUES (1, 'CCSP SNRS Exam Certification Guide', 5);
INSERT INTO books VALUES (2, 'TCP/IP Illustrated, Volume 1', 5);
INSERT INTO books VALUES (3, 'Internetworking with TCP/IP Vol.1', 4);
INSERT INTO books VALUES (4, 'Perl Cookbook', 5);
INSERT INTO books VALUES (5, 'Designing with Web Standards', 5);
INSERT INTO authors VALUES (1, 'Greg', 'Bastien');
INSERT INTO authors VALUES (2, 'Sara', 'Nasseh');
INSERT INTO authors VALUES (3, 'Christian', 'Degu');
INSERT INTO authors VALUES (4, 'Richard', 'Stevens');
INSERT INTO authors VALUES (5, 'Douglas', 'Comer');
INSERT INTO authors VALUES (6, 'Tom', 'Christiansen');
INSERT INTO authors VALUES (7, 'Nathan', 'Torkington');
INSERT INTO authors VALUES (8, 'Jeffrey', 'Zeldman');
INSERT INTO book_authors VALUES (1, 1);
INSERT INTO book_authors VALUES (1, 2);
INSERT INTO book_authors VALUES (1, 3);
INSERT INTO book_authors VALUES (2, 4);
INSERT INTO book_authors VALUES (3, 5);
INSERT INTO book_authors VALUES (4, 6);
INSERT INTO book_authors VALUES (4, 7);
INSERT INTO book_authors VALUES (5, 8);
TIP: See Appendix 1 for tips on removing the leading spaces when cutting and pasting example code from POD-based documents.
Then use the following command to build a myapp.db
SQLite database:
$ sqlite3 myapp.db < myapp01.sql
If you need to create the database more than once, you probably want to issue the rm myapp.db
command to delete the database before you use the sqlite3 myapp.db < myapp01.sql
command.
Once the myapp.db
database file has been created and initialized, you can use the SQLite command line environment to do a quick dump of the database contents:
$ sqlite3 myapp.db
SQLite version 3.2.2
Enter ".help" for instructions
sqlite> select * from books;
1|CCSP SNRS Exam Certification Guide|5
2|TCP/IP Illustrated, Volume 1|5
3|Internetworking with TCP/IP Vol.1|4
4|Perl Cookbook|5
5|Designing with Web Standards|5
sqlite> .q
$
Or:
$ sqlite3 myapp.db "select * from books"
1|CCSP SNRS Exam Certification Guide|5
2|TCP/IP Illustrated, Volume 1|5
3|Internetworking with TCP/IP Vol.1|4
4|Perl Cookbook|5
5|Designing with Web Standards|5
As with most other SQL tools, if you are using the full "interactive" environment you need to terminate your SQL commands with a ";" (it's not required if you do a single SQL statement on the command line). Use ".q" to exit from SQLite from the SQLite interactive mode and return to your OS command prompt.
EDIT THE LIST OF CATALYST PLUGINS
One of the greatest benefits of Catalyst is that it has such a large library of plugins available. Plugins are used to seamlessly integrate existing Perl modules into the overall Catalyst framework. In general, they do this by adding additional methods to the context
object (generally written as $c
) that Catalyst passes to every component throughout the framework.
By default, Catalyst enables three plugins/flags:
-Debug
FlagEnables the Catalyst debug output you saw when we started the
script/myapp_server.pl
development server earlier. You can remove this plugin when you place your application into production.As you may have noticed,
-Debug
is not a plugin, but a flag. Although most of the items specified on theuse Catalyst
line of your application class will be plugins, Catalyst supports a limited number of flag options (of these,-Debug
is the most common). See the documentation forCatalyst.pm
to get details on other flags (currently-Engine
,-Home
, and-Log
).If you prefer, you can use the
$c->debug
method to enable debug messages.Catalyst::Plugin::ConfigLoader
ConfigLoader
provides an automatic way to load configurable parameters for your application from a central YAML file (versus having the values hard-coded inside your Perl modules). If you have not been exposed to YAML before, it is a human-readable data serialization format that can be used to read (and write) values to/from text files. We will see how to use this feature of Catalyst during the authentication and authorization sections (Part 4 and Part 5).Catalyst::Plugin::Static::Simple
Static::Simple
provides an easy method of serving static content such as images and CSS files under the development server.
To modify the list of plugins, edit lib/MyApp.pm
(this file is generally referred to as your application class) and delete the line with:
use Catalyst qw/-Debug ConfigLoader Static::Simple/;
Replace it with:
use Catalyst qw/
-Debug
ConfigLoader
Static::Simple
StackTrace
/;
This tells Catalyst to start using one new plugin:
-
Adds a stack trace to the standard Catalyst "debug screen" (this is the screen Catalyst sends to your browser when an error occurs).
Note: StackTrace output appears in your browser, not in the console window from which you're running your application, which is where logging output usually goes.
Note that when specifying plugins on the use Catalyst
line, you can omit Catalyst::Plugin::
from the name. Additionally, you can spread the plugin names across multiple lines as shown here, or place them all on one (or more) lines as with the default configuration.
TIP: You may see examples that include the Catalyst::Plugin::DefaultEnd plugins. As of Catalyst 5.7000, DefaultEnd
has been deprecated in favor of Catalyst::Action::RenderView (as the name of the package suggests, RenderView
is not a plugin, but an action). The purpose of both is essentially the same: forward processing to the view to be rendered. Applications generated under 5.7000 should automatically use RenderView
and "just work" for most applications. For more information on RenderView
and the various options for forwarding to your view logic, please refer to the "Using RenderView for the Default View" section under "CATALYST VIEWS" below.
DATABASE ACCESS WITH DBIx::Class
Catalyst can be used with virtually any form of persistent datastore available via Perl. For example, Catalyst::Model::DBI can be used to easily access databases through the traditional Perl DBI
interface. However, most Catalyst applications use some form of ORM technology to automatically create and save model objects as they are used. Although Tony Bowden's Class::DBI has been the traditional Perl ORM engine, Matt Trout's DBIx::Class (abbreviated as "DBIC") has rapidly emerged as the Perl-based ORM technology of choice. Most new Catalyst applications rely on DBIC, as will this tutorial.
Note: See Catalyst::Model::CDBI for more information on using Catalyst with Class::DBI.
Create a DBIC Schema File
DBIx::Class uses a schema file to load other classes that represent the tables in your database (DBIC refers to these "table objects" as "result sources"; see DBIx::Class::ResultSource). In this case, we want to load the model object for the books
, book_authors
, and authors
tables created in the previous step.
Create lib/MyAppDB.pm
in your editor and insert:
package MyAppDB;
=head1 NAME
MyAppDB - DBIC Schema Class
=cut
# Our schema needs to inherit from 'DBIx::Class::Schema'
use base qw/DBIx::Class::Schema/;
# Need to load the DB Model classes here.
# You can use this syntax if you want:
# __PACKAGE__->load_classes(qw/Book BookAuthor Author/);
# Also, if you simply want to load all of the classes in a directory
# of the same name as your schema class (as we do here) you can use:
# __PACKAGE__->load_classes(qw//);
# But the variation below is more flexible in that it can be used to
# load from multiple namespaces.
__PACKAGE__->load_classes({
MyAppDB => [qw/Book BookAuthor Author/]
});
1;
Note: __PACKAGE__
is just a shorthand way of referencing the name of the package where it is used. Therefore, in MyAppDB.pm
, __PACKAGE__
is equivalent to MyAppDB
.
Note: As with any Perl package, we need to end the last line with a statement that evaluates to true
. This is customarily done with 1
on a line by itself as shown above.
Create the DBIC "Result Source" Files
In this step, we create "table classes" (again, these are called a "result source" classes in DBIC) that act as model objects for the books
, book_authors
, and authors
tables in our database.
First, create a directory to hold the class:
$ mkdir lib/MyAppDB
Then create lib/MyAppDB/Book.pm
in your editor and enter:
package MyAppDB::Book;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('books');
# Set columns in table
__PACKAGE__->add_columns(qw/id title rating/);
# Set the primary key for the table
__PACKAGE__->set_primary_key(qw/id/);
#
# Set relationships:
#
# has_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *foreign* table
__PACKAGE__->has_many(book_authors => 'MyAppDB::BookAuthor', 'book_id');
# many_to_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of has_many() relationship this many_to_many() is shortcut for
# 3) Name of belongs_to() relationship in model class of has_many() above
# You must already have the has_many() defined to use a many_to_many().
__PACKAGE__->many_to_many(authors => 'book_authors', 'author');
=head1 NAME
MyAppDB::Book - A model object representing a book.
=head1 DESCRIPTION
This is an object that represents a row in the 'books' table of your application
database. It uses DBIx::Class (aka, DBIC) to do ORM.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
Offline utilities may wish to use this class directly.
=cut
1;
This defines both a has_many
and a many_to_many
relationship. The many_to_many
relationship is optional, but it makes it easier to map a book to its collection of authors. Without it, we would have to "walk" though the book_authors
table as in $book->book_authors->first->author->last_name
(we will see examples on how to use DBIC objects in your code soon, but note that because $book->book_authors
can return multiple authors, we have to use first
to display a single author). many_to_many
allows us to use the shorter $book->authors->first->last_name
. Note that you cannot define a many_to_many
relationship without also having the has_many
relationship in place.
Next, create lib/MyAppDB/Author.pm
in your editor and enter:
package MyAppDB::Author;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('authors');
# Set columns in table
__PACKAGE__->add_columns(qw/id first_name last_name/);
# Set the primary key for the table
__PACKAGE__->set_primary_key(qw/id/);
#
# Set relationships:
#
# has_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *foreign* table
__PACKAGE__->has_many(book_author => 'MyAppDB::BookAuthor', 'author_id');
# many_to_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of has_many() relationship this many_to_many() is shortcut for
# 3) Name of belongs_to() relationship in model class of has_many() above
# You must already have the has_many() defined to use a many_to_many().
__PACKAGE__->many_to_many(books => 'book_author', 'book');
=head1 NAME
MyAppDB::Author - A model object representing an author of a book (if a book has
multiple authors, each will be represented be separate Author object).
=head1 DESCRIPTION
This is an object that represents a row in the 'authors' table of your application
database. It uses DBIx::Class (aka, DBIC) to do ORM.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
Offline utilities may wish to use this class directly.
=cut
1;
Finally, create lib/MyAppDB/BookAuthor.pm
in your editor and enter:
package MyAppDB::BookAuthor;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('book_authors');
# Set columns in table
__PACKAGE__->add_columns(qw/book_id author_id/);
# Set the primary key for the table
__PACKAGE__->set_primary_key(qw/book_id author_id/);
#
# Set relationships:
#
# belongs_to():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *this* table
__PACKAGE__->belongs_to(book => 'MyAppDB::Book', 'book_id');
# belongs_to():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *this* table
__PACKAGE__->belongs_to(author => 'MyAppDB::Author', 'author_id');
=head1 NAME
MyAppDB::BookAuthor - A model object representing the JOIN between an author and
a book.
=head1 DESCRIPTION
This is an object that represents a row in the 'book_authors' table of your
application database. It uses DBIx::Class (aka, DBIC) to do ORM.
You probably won't need to use this class directly -- it will be automatically
used by DBIC where joins are needed.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
Offline utilities may wish to use this class directly.
=cut
1;
Note: This sample application uses a plural form for the database tables (e.g., books
and authors
) and a singular form for the model objects (e.g., Book
and Author
); however, Catalyst places no restrictions on the naming conventions you wish to use.
Use Catalyst::Model::DBIC::Schema
To Load The Model Class
When Catalyst::Model::DBIC::Schema is in use, Catalyst essentially reads an existing copy of your database model and creates a new set of objects under MyApp::Model
for use inside of Catalyst.
Note: With Catalyst::Model::DBIC::Schema you essentially end up with two sets of model classes (only one of which you write... the other set is created automatically in memory when your Catalyst application initializes). For this tutorial application, the important points to remember are: you write the result source files in MyAppDB
, but within Catalyst you use the automatically created model classes in MyApp::Model
.
Use the Catalyst::Helper::Model::DBIC::Schema helper script to create the model class that loads up the model we created in the previous step:
$ script/myapp_create.pl model MyAppDB DBIC::Schema MyAppDB dbi:SQLite:myapp.db '' '' '{ AutoCommit => 1 }'
exists "/root/dev/MyApp/script/../lib/MyApp/Model"
exists "/root/dev/MyApp/script/../t"
created "/root/dev/MyApp/script/../lib/MyApp/Model/MyAppDB.pm"
created "/root/dev/MyApp/script/../t/model_MyAppDB.t"
Where the first MyAppDB
is the name of the class to be created by the helper in lib/MyApp/Model
and the second MyAppDB
is the name of existing schema file we created (in lib/MyAppDB.pm
). You can see that the helper creates a model file under lib/MyApp/Model
(Catalyst has a separate directory under lib/MyApp
for each of the three parts of MVC: Model
, View
, and Controller
[although older Catalyst applications often use the directories M
, V
, and C
]).
CREATE A CATALYST CONTROLLER
Controllers are where you write methods that interact with user input--typically, controller methods respond to GET
and POST
messages from the user's web browser.
Use the Catalyst create
script to add a controller for book-related actions:
$ script/myapp_create.pl controller Books
exists "/root/dev/MyApp/script/../lib/MyApp/Controller"
exists "/root/dev/MyApp/script/../t"
created "/root/dev/MyApp/script/../lib/MyApp/Controller/Books.pm"
created "/root/dev/MyApp/script/../t/controller_Books.t"
Then edit lib/MyApp/Controller/Books.pm
and add the following method to the controller:
=head2 list
Fetch all book objects and pass to books/list.tt2 in stash to be displayed
=cut
sub list : Local {
# Retrieve the usual perl OO '$self' for this object. $c is the Catalyst
# 'Context' that's used to 'glue together' the various components
# that make up the application
my ($self, $c) = @_;
# Retrieve all of the book records as book model objects and store in the
# stash where they can be accessed by the TT template
$c->stash->{books} = [$c->model('MyAppDB::Book')->all];
# Set the TT template to use. You will almost always want to do this
# in your action methods (action methods respond to user input in
# your controllers).
$c->stash->{template} = 'books/list.tt2';
}
Note: Programmers experienced with object-oriented Perl should recognize $self
as a reference to the object where this method was called. On the other hand, $c
will be new to many Perl programmers who have not used Catalyst before (it's sometimes written as $context
). The Context object is automatically passed to all Catalyst components. It is used to pass information between components and provide access to Catalyst and plugin functionality.
TIP: You may see the $c->model('MyAppDB::Book')
used above written as $c->model('MyAppDB')->resultset('Book)
. The two are equivalent.
Note: Catalyst actions are regular Perl methods, but they make use of Nicholas Clark's attributes
module (that's the : Local
next to the sub list
in the code above) to provide additional information to the Catalyst dispatcher logic.
CATALYST VIEWS
Views are where you render output, typically for display in the user's web browser, but also possibly using other display output-generation systems. As with virtually every aspect of Catalyst, options abound when it comes to the specific view technology you adopt inside your application. However, most Catalyst applications use the Template Toolkit, known as TT (for more information on TT, see http://www.template-toolkit.org). Other popular view technologies include Mason (http://www.masonhq.com and http://www.masonbook.com) and HTML::Template (http://html-template.sourceforge.net).
Create a Catalyst View Using TTSite
When using TT for the Catalyst view, there are two main helper scripts:
Both are similar, but TT
merely creates the lib/MyApp/View/TT.pm
file and leaves the creation of any hierarchical template organization entirely up to you. (It also creates a t/view_TT.t
file for testing; test cases will be discussed in Part 7). The TTSite
helper creates a modular and hierarchical view layout with separate Template Toolkit (TT) files for common header and footer information, configuration values, a CSS stylesheet, and more.
While TTSite is useful to bootstrap a project, we recommend that unless you know what your're doing or want to pretty much use the supplied templates as is, that you use the plain Template Toolkit view when starting a project from scratch. This is because TTSite can be tricky to customize. Additionally TT contains constructs that you need to learn yourself if you're going to be a serious user of TT. Our experience suggests that you're better off learning these from scratch. We use TTSite here precisely because it is useful for bootstrap/prototype purposes.
Enter the following command to enable the TTSite
style of view rendering for this tutorial:
$ script/myapp_create.pl view TT TTSite
exists "/root/dev/MyApp/script/../lib/MyApp/View"
exists "/root/dev/MyApp/script/../t"
created "/root/dev/MyApp/script/../lib/MyApp/View/TT.pm"
created "/root/dev/MyApp/script/../root/lib"
...
created "/root/dev/MyApp/script/../root/src/ttsite.css"
This puts a number of files in the root/lib
and root/src
directories that can be used to customize the look and feel of your application. Also take a look at lib/MyApp/View/TT.pm
for config values set by the TTSite
helper.
TIP: Note that TTSite does one thing that could confuse people who are used to the normal TT
Catalyst view: it redefines the Catalyst context object in templates from its usual c
to Catalyst
. When looking at other Catalyst examples, remember that they almost always use c
. Note that Catalyst and TT do not complain when you use the wrong name to access the context object...TT simply outputs blanks for that bogus logic (see next tip to change this behavior with TT DEBUG
options). Finally, be aware that this change in name only applies to how the context object is accessed inside your TT templates; your controllers will continue to use $c
(or whatever name you use when fetching the reference from @_
inside your methods). (You can change back to the "default" behavior be removing the CATALYST_VAR
line from lib/MyApp/View/TT.pm
, but you will also have to edit root/lib/config/main
and root/lib/config/url
. If you do this, be careful not to have a collision between your own c
variable and the Catalyst c
variable.)
TIP: When troubleshooting TT it can be helpful to enable variable DEBUG
options. You can do this in a Catalyst environment by adding a DEBUG
line to the __PACKAGE__-
config> declaration in lib/MyApp/View/TT.pm
:
__PACKAGE__->config({
CATALYST_VAR => 'Catalyst',
...
DEBUG => 'undef',
...
});
There are a variety of options you can use, such as 'undef', 'all', 'service', 'context', 'parser', 'provider', and 'service'. See Template::Constants for more information (remove the DEBUG_
portion of the name shown in the TT docs and convert to lower case for use inside Catalyst).
NOTE: Please be sure to disable TT debug options before continuing the tutorial (especially the 'undef' option -- leaving this enabled will conflict with several of the conventions used by this tutorial and TTSite to leave some variables undefined on purpose).
Using RenderView
for the Default View
Once your controller logic has processed the request from a user, it forwards processing to your view in order to generate the appropriate response output. Catalyst v5.7000 ships with a new mechanism, Catalyst::Action::RenderView, that automatically performs this operation. If you look in lib/MyApp/Controller/Root.pm
, you should see the empty definition for the sub end
method:
sub end : ActionClass('RenderView') {}
The following bullet points provide a quick overview of the RenderView
process:
Root.pm
is designed to hold application-wide logic.At the end of a given user request, Catalyst will call the most specific
end
method that's appropriate. For example, if the controller for a request has anend
method defined, it will be called. However, if the controller does not define a controller-specificend
method, the "global"end
method inRoot.pm
will be called.Because the definition includes an
ActionClass
attribute, the Catalyst::Action::RenderView logic will be executed after any code inside the definition ofsub end
is run. See Catalyst::Manual::Actions for more information onActionClass
.Because
sub end
is empty, this effectively just runs the default logic inRenderView
. However, you can easily extend theRenderView
logic by adding your own code inside the empty method body ({}
) created by the Catalyst Helpers when we first ran thecatalyst.pl
to initialize our application. See Catalyst::Action::RenderView for more detailed information on how to extendedRenderView
insub end
.
The History Leading Up To RenderView
Although RenderView
strikes a nice balance between default behavior and easy extensibility, it is a new feature that won't appear in most existing Catalyst examples. This section provides some brief background on the evolution of default view rendering logic with an eye to how they can be migrated to RenderView
:
Private
end
Action in Application ClassOlder Catalyst-related documents often suggest that you add a "private end action" to your application class (
MyApp.pm
) or Root.pm (MyApp/Controller/Root.pm
). These examples should be easily converted to RenderView by simply adding the attribute:ActionClass('RenderView')
to thesub end
definition. If end sub is defined in your application class (MyApp.pm
), you should also migrate it toMyApp/Controller/Root.pm
.-
DefaultEnd
represented the "next step" in passing processing from your controller to your view. It has the advantage of only requiring thatDefaultEnd
be added to the list of plugins inlib/MyApp.pm
. It also allowed you to add "dump_info=1" (precede with "?" or "&" depending on where it is in the URL) to force the debug screen at the end of the Catalyst request processing cycle. However, it was more difficult to extend than theRenderView
mechanism, and is now deprecated. -
As discussed above, the current recommended approach to handling your view logic relies on Catalyst::Action::RenderView. Although similar in first appearance to the "private end action" approach, it utilizes Catalyst's "ActionClass" mechanism to provide both automatic default behavior (you don't have to include a plugin as with
DefaultEnd
) and easy extensibility. As withDefaultEnd
, it allows you to add "dump_info=1" (precede with "?" or "&" depending on where it is in the URL) to force the debug screen at the end of the Catalyst request processing cycle.
It is recommended that all Catalyst applications use or migrate to the RenderView
approach.
Globally Customize Every View
When using TTSite, files in the subdirectories of root/lib
can be used to make changes that will appear in every view. For example, to display optional status and error messages in every view, edit root/lib/site/layout
, updating it to match the following (the two HTML span
elements are new):
<div id="header">[% PROCESS site/header %]</div>
<div id="content">
<span class="message">[% status_msg %]</span>
<span class="error">[% error_msg %]</span>
[% content %]
</div>
<div id="footer">[% PROCESS site/footer %]</div>
If we set either message in the Catalyst stash (e.g., $c->stash->{status_msg} = 'Request was successful!'
) it will be displayed whenever any view used by that request is rendered. The message
and error
CSS styles are automatically defined in root/src/ttsite.css
and can be customized to suit your needs.
Note: The Catalyst stash only lasts for a single HTTP request. If you need to retain information across requests you can use Catalyst::Plugin::Session (we will use Catalyst sessions in the Authentication part of the tutorial).
Create a TT Template Page
To add a new page of content to the TTSite view hierarchy, just create a new .tt2
file in root/src
. Only include HTML markup that goes inside the HTML <body> and </body> tags, TTSite will use the contents of root/lib/site
to add the top and bottom.
First create a directory for book-related TT templates:
$ mkdir root/src/books
Then create root/src/books/list.tt2
in your editor and enter:
[% # This is a TT comment. The '-' at the end "chomps" the newline. You won't -%]
[% # see this "chomping" in your browser because HTML ignores blank lines, but -%]
[% # it WILL eliminate a blank line if you view the HTML source. It's purely -%]
[%- # optional, but both the beginning and the ending TT tags support chomping. -%]
[% # Provide a title to root/lib/site/header -%]
[% META title = 'Book List' -%]
<table>
<tr><th>Title</th><th>Rating</th><th>Author(s)</th></tr>
[% # Display each book in a table row %]
[% FOREACH book IN books -%]
<tr>
<td>[% book.title %]</td>
<td>[% book.rating %]</td>
<td>
[% # First initialize a TT variable to hold a list. Then use a TT FOREACH -%]
[% # loop in 'side effect notation' to load just the last names of the -%]
[% # authors into the list. Note that the 'push' TT vmethod does not -%]
[% # a value, so nothing will be printed here. But, if you have something -%]
[% # in TT that does return a method and you don't want it printed, you -%]
[% # can: 1) assign it to a bogus value, or 2) use the CALL keyword to -%]
[% # call it and discard the return value. -%]
[% tt_authors = [ ];
tt_authors.push(author.last_name) FOREACH author = book.authors %]
[% # Now use a TT 'virtual method' to display the author count in parens -%]
([% tt_authors.size %])
[% # Use another TT vmethod to join & print the names & comma separators -%]
[% tt_authors.join(', ') %]
</td>
</tr>
[% END -%]
</table>
As indicated by the inline comments above, the META title
line uses TT's META feature to provide a title to root/lib/site/header
. Meanwhile, the outer FOREACH
loop iterates through each book
model object and prints the title
and rating
fields. An inner FOREACH
loop prints the last name of each author in a comma-separated list within a single table cell.
If you are new to TT, the [%
and %]
tags are used to delimit TT code. TT supports a wide variety of directives for "calling" other files, looping, conditional logic, etc. In general, TT simplifies the usual range of Perl operators down to the single dot (.
) operator. This applies to operations as diverse as method calls, hash lookups, and list index values (see http://www.template-toolkit.org/docs/default/Manual/Variables.html for details and examples). In addition to the usual Template
module Pod documentation, you can access the TT manual at http://www.template-toolkit.org/docs/default/.
NOTE: The TTSite
helper creates several TT files using an extension of .tt2
. Most other Catalyst and TT examples use an extension of .tt
. You can use either extension (or no extension at all) with TTSite and TT, just be sure to use the appropriate extension for both the file itself and the $c->stash->{template} = ...
line in your controller. This document will use .tt2
for consistency with the files already created by the TTSite
helper.
RUN THE APPLICATION
First, let's enable an environment variable option that causes DBIx::Class to dump the SQL statements it's using to access the database (this option can provide extremely helpful troubleshooting information):
$ export DBIC_TRACE=1
NOTE: You can also use the older export DBIX_CLASS_STORAGE_DBI_DEBUG=1
, but that's a lot more to type.
This assumes you are using BASH as your shell -- adjust accordingly if you are using a different shell (for example, under tcsh, use setenv DBIX_CLASS_STORAGE_DBI_DEBUG 1
).
NOTE: You can also set this in your code using $class->storage->debug(1);
. See DBIx::Class::Manual::Troubleshooting for details (including options to log to file instead of displaying to the Catalyst development server log).
Then run the Catalyst "demo server" script:
$ script/myapp_server.pl
Your development server log output should display something like:
$ script/myapp_server.pl
[debug] Debug messages enabled
[debug] Loaded plugins:
.----------------------------------------------------------------------------.
| Catalyst::Plugin::ConfigLoader 0.13 |
| Catalyst::Plugin::StackTrace 0.06 |
| Catalyst::Plugin::Static::Simple 0.14 |
'----------------------------------------------------------------------------'
[debug] Loaded dispatcher "Catalyst::Dispatcher"
[debug] Loaded engine "Catalyst::Engine::HTTP"
[debug] Found home "/home/me/MyApp"
[debug] Loaded Config "/home/me/myapp.yml"
[debug] Loaded components:
.-----------------------------------------------------------------+----------.
| Class | Type |
+-----------------------------------------------------------------+----------+
| MyApp::Controller::Books | instance |
| MyApp::Controller::Root | instance |
| MyApp::Model::MyAppDB | instance |
| MyApp::Model::MyAppDB::Author | class |
| MyApp::Model::MyAppDB::Book | class |
| MyApp::Model::MyAppDB::BookAuthor | class |
| MyApp::View::TT | instance |
'-----------------------------------------------------------------+----------'
[debug] Loaded Private actions:
.----------------------+--------------------------------------+--------------.
| Private | Class | Method |
+----------------------+--------------------------------------+--------------+
| /default | MyApp::Controller::Root | default |
| /end | MyApp::Controller::Root | end |
| /books/index | MyApp::Controller::Books | index |
| /books/list | MyApp::Controller::Books | list |
'----------------------+--------------------------------------+--------------'
[debug] Loaded Path actions:
.-------------------------------------+--------------------------------------.
| Path | Private |
+-------------------------------------+--------------------------------------+
| /books/list | /books/list |
'-------------------------------------+--------------------------------------'
[info] MyApp powered by Catalyst 5.7002
You can connect to your server at http://localhost:3000
Some things you should note in the output above:
Catalyst::Model::DBIC::Schema took our
MyAppDB::Book
and made itMyApp::Model::MyAppDB::Book
(and similar actions were performed onMyAppDB::Author
andMyAppDB::BookAuthor
).The "list" action in our Books controller showed up with a path of
/books/list
.
Point your browser to http://localhost:3000 and you should still get the Catalyst welcome page.
Next, to view the book list, change the URL in your browser to http://localhost:3000/books/list. You should get a list of the five books loaded by the myapp01.sql
script above, with TTSite providing the formatting for the very simple output we generated in our template. The count and space-separated list of author last names appear on the end of each row.
Also notice in the output of the script/myapp_server.pl
that DBIC used the following SQL to retrieve the data:
SELECT me.id, me.title, me.rating FROM books me
Along with a list of the following commands to retrieve the authors for each book (the lines have been "word wrapped" here to improve legibility):
SELECT author.id, author.first_name, author.last_name
FROM book_authors me
JOIN authors author ON ( author.id = me.author_id )
WHERE ( me.book_id = ? ): `1'
You should see 5 such lines of debug output as DBIC fetches the author information for each book.
USING THE DEFAULT TEMPLATE NAME
By default, Catalyst::View::TT
will look for a template that uses the same name as your controller action, allowing you to save the step of manually specifying the template name in each action. For example, this would allow us to remove the $c->stash->{template} = 'books/list.tt2';
line of our list
action in the Books controller. Open lib/MyApp/Controller/Books.pm
in your editor and comment out this line to match the following (only the $c->stash->{template}
line has changed):
=head2 list
Fetch all book objects and pass to books/list.tt2 in stash to be displayed
=cut
sub list : Local {
# Retrieve the usual perl OO '$self' for this object. $c is the Catalyst
# 'Context' that's used to 'glue together' the various components
# that make up the application
my ($self, $c) = @_;
# Retrieve all of the book records as book model objects and store in the
# stash where they can be accessed by the TT template
$c->stash->{books} = [$c->model('MyAppDB::Book')->all];
# Set the TT template to use. You will almost always want to do this
# in your action methods (actions methods respond to user input in
# your controllers).
#$c->stash->{template} = 'books/list.tt2';
}
Catalyst::View::TT
defaults to looking for a template with no extension. In our case, we need to override this to look for an extension of .tt2
. Open lib/MyApp/View/TT.pm
and add the TEMPLATE_EXTENSION
definition as follows:
__PACKAGE__->config({
CATALYST_VAR => 'Catalyst',
INCLUDE_PATH => [
MyApp->path_to( 'root', 'src' ),
MyApp->path_to( 'root', 'lib' )
],
PRE_PROCESS => 'config/main',
WRAPPER => 'site/wrapper',
ERROR => 'error.tt2',
TIMER => 0,
TEMPLATE_EXTENSION => '.tt2',
});
You should now be able to restart the development server as per the previous section and access the http://localhost:3000/books/list as before.
NOTE: Please note that if you use the default template technique, you will not be able to use either the $c->forward
or the $c->detach
mechanisms (these are discussed in Part 2 and Part 8 of the Tutorial).
RETURN TO A MANUALLY-SPECIFIED TEMPLATE
In order to be able to use $c->forward
and $c->detach
later in the tutorial, you should remove the comment from the statement in sub list
:
$c->stash->{template} = 'books/list.tt2';
Then delete the TEMPLATE_EXTENSION
line in lib/MyApp/View/TT.pm
.
You should then be able to restart the development server and access http://localhost:3000/books/list in the same manner as with earlier sections.
AUTHOR
Kennedy Clark, hkclark@gmail.com
Please report any errors, issues or suggestions to the author. The most recent version of the Catalyst Tutorial can be found at http://dev.catalyst.perl.org/repos/Catalyst/trunk/Catalyst-Manual/lib/Catalyst/Manual/Tutorial/.
Copyright 2006, Kennedy Clark, under Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/2.5/).