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structure of a Maypole application

Maypole::Manual::Inheritance - structure of a Maypole application


Discusses the inheritance structure of a basic and a more advanced Maypole application.


=over 4



     +-   -+




=item notes

    target *-------- note about the target

    source ------> target

Structure of a standard Maypole application

A minimal Maypole application (such as the Beer database example from the Maypole synopsis) consists of a custom driver (or controller) class (, a set of auto-generated model classes, and a view class:

           THE DRIVER

                                          +------- init() is a factory method,

                   1      Maypole         |           it sets up the view

   Maypole::Config <----- config();       |              classes

   model();               init(); *-------+                           THE VIEW

    |                     view_object(); -------+

    |    +--------------* setup();              |      Maypole::View::Base

    |    |                   +                  |              +

    |    |                   |                  |     1        |

    |    |    PLUGINS    Apache::MVC *-----+    +-----> Maypole::View::TT

    |    |       +           +             |             (or another view class)

    |    |       |           |             |

    |    |       +-----+-----+             |

    |    |             |                   |

    |    |           BeerDB                +----- or CGI::Maypole

    |    |                                         or MasonX:::Maypole

    |    |

    |   setup() is a factory method,

    |     it sets up the model

    |         classes


    |                                             THE MODEL


    |  Maypole::Model::Base    Class::DBI

    |             +             +      +

    |             |             |      |

    +-------> Maypole::Model::CDBI   Class::DBI::<db_driver>

                      +                     +

                      |                     |


           |            |        |       |         |

       BeerDB::Pub      |   BeerDB::Beer | BeerDB::Brewery

       beers();         |   pubs();      | beers();

                        |   brewery();   |

                        |   style();     |

          BeerDB::Handpump               |

          pub();                      BeerDB::Style

          beer();                     beers();

Ouch, that's a lot of inheritence!

Yes, that's a lot of inheritence, at some point in the future - probably Maypole 3.x we will move to Class::C3

What about Maypole::Application - loading plugins

The main job of the Maypole::Application manpage is to insert the plugins into the hierarchy. It is also the responsibility of the Maypole::Application manpage to decide which frontend to use. It builds the list of plugins, then pushes them onto the driver's @ISA, then pushes the frontend onto the end of the driver's @ISA. So method lookup first searches all the plugins, before searching the frontend and finally Maypole itself.

From Maypole 2.11, the Maypole::Application manpage makes no appearance in the inheritance structure of a Maypole application. (In prior versions, the Maypole::Application manpage would make itself inherit the plugins, and then insert itself in the hierarchy, but this was unnecessary).

Who builds the model?

First, remember we are talking about the standard, unmodified Maypole here. It is possible, and common, to override some or all of this stage and build a customised model. See below - An advanced Maypole application - for one approach. Also, see Maypole's setup_model() method.

The standard model is built in 3 stages.

First, Maypole::setup_model calls setup_database on the Maypole model class, in this case the Maypole::Model::CDBI manpage. setup_database then uses the Class::DBI::Loader manpage to autogenerate individual the Class::DBI manpage classes for each of the tables in the database (BeerDB::Beer, BeerDB::Pub etc). the Class::DBI::Loader manpage identifies the appropriate the Class::DBI manpage subclass and inserts it into each of these table classes' @ISA ( < Class::DBI::<db_driver >> in the diagrams)..

Next, Maypole::setup pushes the Maypole::Model::CDBI manpage onto the @ISA array of each of these classes.

Finally, the relationships among these tables are set up. Either do this manually, using the standard the Class::DBI manpage syntax for configuring table relationships, or try the Class::DBI::Relationship manpage (which you can use via the Maypole::Plugin::Relationship manpage). If you use the plugin, you need to set up the relationships configuration before calling setup(). Be aware that some people like the convenience of the Class::DBI::Relationship manpage, others dislike the abstraction. YMMV.

An advanced Maypole application

We'll call it BeerDB2.

Maypole is a framework, and you can replace different bits as you wish. So what follows is one example of good practice, other people may do things differently.

We assume this application is being built from the ground up, but it will often be straightforward to adapt an existing the Class::DBI manpage application to this general model.

The main idea is that the autogenerated Maypole model is used as a layer on top of a separate the Class::DBI manpage model. I am going to refer to this model as the 'Offline' model, and the Maypole classes as the 'Maypole' model. The idea is that the Offline model can (potentially or in actuality) be used as part of another application, perhaps a command line program or a cron script, whatever. The Offline model does not know about the Maypole model, whereas the Maypole model does know about the Offline model.

Let's call the offline model OfflineBeer. As a traditional the Class::DBI manpage application, individual table classes in this model will inherit from a common base (OfflineBeer), which inherits from the Class::DBI manpage).

One advantage of this approach is that you can still use Maypole's autogenerated model. Another is that you do not mix online and offline code in the same packages.

Building it

Build a driver in a similar way as for the basic app, calling setup() after setting up all the configuration.

It is a good habit to use a custom Maypole model class for each application, as it's a likely first target for customisation. Start it like this:

    package BeerDB2::Maypole::Model;

    use strict;

    use warnings;

    use base 'Maypole::Model::CDBI';



You can add methods which should be shared by all table classes to this package 

as and when required.


Configure it like this, before the C<setup()> call in the driver class:

    # in package BeerDB2



The setup() call will ensure your custom model is loaded via require.

Note: by default, this will create Maypole/CDBI classes for all the tables in the database. You can control this by passing options for the Class::DBI::Loader manpage in the call to setup().

For each class in the model, you need to create a separate file. So for BeerDB2::Beer, you would write:

    package BeerDB2::Beer;

    use strict;

    use warnings;

    use base 'OfflineBeer::Beer';



From Maypole 2.11, this package will be loaded automatically during C<setup()>,

and C<BeerDB2::Maypole::Model> is B<pushed> onto it's C<@ISA>.

Configure relationships either in the individual OfflineBeer::* classes, or else all together in OfflineBeer itself i.e. not in the Maypole model. This way, you only define the relationships in one place.

The resulting model looks like this:


    MAYPOLE 'MODEL'                       |


   Maypole::Model::Base                   |

           +                              |

           |       +-----------------+----+-----------------+

           |       |                 |                      |

           |       |                 |                      |

     Maypole::Model::CDBI            |                      |     OFFLINE

             +                       |                      |        MODEL

             |                       |                      |

     BeerDB2::Maypole::Model  Class::DBI::<db_driver>  OfflineBeer

       +                             +                      +

       |                             |                      |

       +-----------------------------+                      |

       |                                                    |

       +--- BeerDB2::Pub --------+ OfflineBeer::Pub --------+

       |                           beers();                 |

       |                                                    |

       |                           OfflineBeer::Handpump ---+

       |                           beer();                  |

       |                           pub();                   |

       |                                                    |

       +--- BeerDB2::Beer -------+ OfflineBeer::Beer -------+

       |                           pubs();                  |

       |                           brewery();               |

       |                           style();                 |

       |                                                    |

       +--- BeerDB2::Style ------+ OfflineBeer::Style ------+

       |                           beers();                 |

       |                                                    |

       +--- BeerDB2::Brewery ----+ OfflineBeer::Brewery ----+



1. Non-Maypole applications using the Offline model are completely isolated from the Maypole application, and need not know it exists at all.

2. Methods defined in the Maypole table classes, override methods defined in the Offline table classes, because BeerDB2::Maypole::Model was pushed onto the end of each Maypole table class's @ISA. Perl's depth first, left-to-right method lookup from e.g. BeerDB2::Beer starts in BeerDB2::Beer, then BeerDB2::Maypole::Model, Maypole::Model::CDBI, Maypole::Model::Base, and Class::DBI, before moving on to OfflineBeer::Beer and finally OfflineBeer.

CAVEAT - if your Offline model overrides the Class::DBI manpage methods, these methods will not be overridden when called from the Maypole application, because the Maypole model provides an alternative path to the Class::DBI manpage which is searched first. The solution is to place such methods in a separate package, e.g. OfflineBeer::CDBI. Place this first in the @ISA of both BeerDB2::Maypole::Model and OfflineBeer. Note that OfflineBeer::CDBI does not itself need to inherit from the Class::DBI manpage.

3. Methods defined in the Maypole model base class (BeerDB2::Maypole::Model), override methods in the individual Offline table classes, and in the Offline model base class (Offline).

4. Relationships defined in the Offline classes are inherited by the Maypole model.

5. The Maypole model has full access to the underlying Offline model.


This layout illustrates more clearly why the Maypole model may be thought of as part of the controller, rather than part of the model of MVC. Its function is to mediate web requests, translating them into method calls on the Offline model, munging the results, and returning them via the Maypole request object.

Another way of thinking about it is that Maypole implements a two-layer controller. The first layer translates a raw request into a single method call on the Maypole model layer, which then translates that call into one or more calls on the underlying model.

Whatever label you prefer to use, this approach provides for clear separation of concerns between the underlying model and the web/user interface, and that's what it's all about.

Advanced applications - building the model by hand ** TODO

- using Maypole::Model::CDBI::Plain or Maypole::FormBuilder::Model::Plain - setup_model() and load_model_subclass() - cutting out all those separate paths to CDBI - they're confusing

=head1 Method inheritance ** TODO

More description of Perl's left-to-right, depth-first method lookup, and where it's particularly important in Maypole.


=head1 AUTHOR

David Baird, <>


Copyright 2005 David Baird, All Rights Reserved.

This text is free documentation; you can redistribute it and/or modify it under the same terms as the Perl documentation itself.