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NAME

       Rose::DB::Tutorial - Best practices for using Rose::DB

INTRODUCTION

       This tutorial describes "best practices" for using Rose::DB in the most robust,
       maintainable manner.  It does not replace the actual documentation, however.  The actual
       Rose::DB documentation is still essential, and contains some good examples of its own.

       In particular, you should read the description section of the Rose::DB documentation if
       you have not done so already.  It describes the features and philosophy of Rose::DB.  That
       information that will not be repeated here.

CONVENTIONS

       The examples in this tutorial will use the fictional "My::" namespace prefix.  Your code
       should use whatever namespace you deem appropriate.  Usually, it will be more akin to
       "MyCorp::MyProject::" (i.e., your corporation, organization, and/or project).  I've chosen
       to use "My::" simply because it's shorter, and will help this tutorial stay within an
       80-column width.

       For the sake of brevity, the "use strict" directive and associated "my" declarations have
       been omitted from the example code.  Needless to say, you should always "use strict" in
       your actual code.

       Similarly, the traditional "1;" true value used at the end of each ".pm" file has been
       omitted from the examples.  Don't forget to add this to the end of your actual Perl module
       files.

TUTORIAL

   Creating a subclass
       The first step when using Rose::DB in anything but a throw-away script is to create a
       trivial subclass.  This is important because Rose::DB has a significant amount of class
       data.  Using Rose::DB directly means that you will be reading and writing the same data as
       any other badly-behaved code that also uses Rose::DB directly.

       In particular, the registry that contains all the information for each data source is
       class data, and is inherited from (that is, shared with) the base class by default.
       Creating a subclass allows you to have your own, private data source registry.

       So, here's our initial Rose::DB subclass.

         # File: My/DB.pm
         package My::DB;

         use Rose::DB;
         our @ISA = qw(Rose::DB);

         # Use a private registry for this class
         __PACKAGE__->use_private_registry;

   Designing your namespace
       As described in the Rose::DB documentation, Rose::DB provides a two-level namespace for
       data sources, made up of a "domain" and a "type."  These are both arbitrary strings, so
       there's a lot of freedom to break up the namespace in any way you see fit.  For example,
       sub-domains and sub-types can be created within each string using delimiter characters
       (e.g., "::" as in Perl's package namespace).

       But let's back up.  The simplest case is that you have just one data source, and therefore
       no need for a namespace at all.  If this is the case, you can skip to the next section.

       In the common case, it's usually sufficient to use simple words for both type and domain.
       As the name "domain" implies, this value usually represents the environment or
       surroundings.  For example, a typical server application might use domains named
       "development", "qa", "staging", and "production".

       The "type" portion of the namespace tends to be used to differentiate the applicability or
       contents of the data sources.  Some example type names are "main" for the primary
       database, "archive" for a data warehouse database, and "session" for a database used to
       store transient session data.

       The goal of namespace design is to allow data sources to be referred to symbolically, with
       names that make sense to you in your environment.

   Registering data sources
       Now that you've decided on your namespace design (or lack thereof, if you have only one
       data source), it's time to register some data sources.  To register a data source, call
       the register_db class method.

       This can be done nearly anywhere, but it's most convenient to do it "early" and to link it
       somehow to your "My::DB" subclass.  That is, when someone "use"s "My::DB", they should not
       have to worry about whether or not all the data sources are registered.

       In a server environment, there's usually some sort of start-up file that gets loaded
       before any "end-user" code (e.g., "startup.pl" by convention in a mod_perl Apache web
       server).  That may be a good place to include your data source registration calls, but
       only if you're absolutely sure that "My::DB" will never be used outside the server
       environment.

       A better, safer alternative is to put the data source registration calls directly in your
       Rose::DB subclass.  This is the recommended approach.  Here are some examples.

       Just one data source

       First, consider the case where a namespace is not necessary.  You have a single data
       source and that's all.  You don't care what it's named.  Luckily, there are default values
       for both type and domain.  Simply register your data source using these values and you're
       all set.

           package My::DB;

           use Rose::DB;
           our @ISA = qw(Rose::DB);

           # Use a private registry for this class
           __PACKAGE__->use_private_registry;

           # Register your lone data source using the default type and domain
           __PACKAGE__->register_db(
             domain   => My::DB->default_domain,
             type     => My::DB->default_type,
             driver   => 'pg',
             database => 'my_db',
             host     => 'localhost',
             username => 'joeuser',
             password => 'mysecret',
           );

       The domain and type parameters can actually be omitted entirely and they will still
       default to the values shown above.  In other words, the following call to register_db is
       exactly equivalent to the one above.

           # Register your lone data source using the default type and domain
           __PACKAGE__->register_db(
             driver   => 'pg',
             database => 'my_db',
             host     => 'localhost',
             username => 'joeuser',
             password => 'mysecret',
           );

       To use "My::DB" in this kind of setup, simply omit the domain and type parameters from
       your calls to "My::DB->new".  They will automatically get the default values.

           use My::DB;

           $db = My::DB->new(); # use default type and default domain
           print $db->username; # "joeuser"
           $dbh = $db->dbh;     # connect and get DBI database handle

       Multiple data sources

       Most commonly, you will have more than one data source.  (And if you don't now, you
       probably will in the future.  Better safe than sorry.)  After you've designed your
       namespace, data source registration is straightforward.  The only wrinkle is how to deal
       with the default domain and type.

       I recommend setting the default domain and type to the "safest" values in your
       environment.  For example, a domain of "development" and a type of "main" are reasonable
       choices.  This allows you to use "bare" calls to "My::DB->new()" in your code (as shown in
       the simple, single data source example above).

       Here's an example that includes two domains "development" and "production", and two types,
       "main" and "session."  The default data source is the domain "development" and the type
       "main".

           package My::DB;

           use Rose::DB;
           our @ISA = qw(Rose::DB);

           # Use a private registry for this class
           __PACKAGE__->use_private_registry;

           # Set the default domain and type
           __PACKAGE__->default_domain('development');
           __PACKAGE__->default_type('main');

           # Register the data sources

           # Development:

           __PACKAGE__->register_db(
             domain   => 'development',
             type     => 'main',
             driver   => 'pg',
             database => 'dev_db',
             host     => 'localhost',
             username => 'devuser',
             password => 'mysecret',
           );

           __PACKAGE__->register_db(
             domain   => 'development',
             type     => 'session',
             driver   => 'mysql',
             database => 'session_db',
             host     => 'localhost',
             username => 'devmysql',
             password => 'mysqlpw',
           );

           # Production:

           __PACKAGE__->register_db(
             domain   => 'production',
             type     => 'main',
             driver   => 'pg',
             database => 'big_db',
             host     => 'dbserver.mycorp.com',
             username => 'dbadmin',
             password => 'prodsecret',
           );

           __PACKAGE__->register_db(
             domain   => 'production',
             type     => 'session',
             driver   => 'mysql',
             database => 'session_db',
             host     => 'sessions.mycorp.com',
             username => 'session_user',
             password => 'prodsesspw',
           );

       Ideally, and as shown in the example above, all data source types are available in each
       domain.  Combined with the consistent practice of never specifying an explicit domain when
       constructing your "My::DB" objects, this allows the domain to be switched as needed,
       without modifying any code in the actual application.

       For example, imagine a mod_perl Apache web server environment running application code
       that constructs its "My::DB" objects like this:

           $main_db    = My::DB->new('main');
           $session_db = My::DB->new('session');

       Now imagine a "startup.pl" file that contains the following:

           # File: startup.pl
           use My::DB;

           if($ENV{'MYCORP_PRODUCTION_SERVER'})
           {
             My::DB->default_domain('production');
           }
           else
           {
             My::DB->default_domain('development');
           }

       This deliberate use of defaults combined with a healthy dose of convention in your
       constructor calls can make it simple to move your code from one environment to another
       without any changes beyond the usual configuration management that must be done (e.g., for
       apache configuration files).

       The determination of the current environment can be done in many different ways, of
       course.  Checking an environment variable as shown above is probably not the best way to
       do it, but it makes for a simple example.

       Another alternative is to use some sort of configuration/build management system to
       generate the Apache configuration files from templates.  In that case, the templates could
       contain something like this:

           [% IF in_production %]
               My::DB->default_domain('production');
           [% ELSE %]
               My::DB->default_domain('development');
           [% END %]

       This would leave only the single, appropriate call in the completed "startup.pl" file.

   Using your database objects
       Before trying to use Rose::DB objects, it's important to understand the primary goals of
       Rose::DB.  The features are described in the Rose::DB documentation, but there is one
       thing that is left unsaid.  Although Rose::DB is useful in isolation and provides many
       convenient methods and abstractions, its primary purpose is to encapsulate database-
       specific behaviors on behalf of Rose::DB::Object.

       Of course, it could fill the same role for any Rose::DB::Object-like module, and for any
       code that does the same kinds of things.  If you need to parse or format vendor-specific
       column values or want to use a simple form of reference counting to keep track of shared
       database handles, you may find Rose::DB useful.

       The most common non-Rose::DB::Object-related use for Rose::DB is as a way to get a DBI
       database handle without sweating the details of how it's created or where it's connected.
       The previous sections of this tutorial cover everything you need to know to set up
       Rose::DB to be used in this capacity.  Please be sure to read the Rose::DB documentation
       as well, particularly the database handle life-cycle management section.

DEVELOPMENT POLICY

       The Rose development policy applies to this, and all "Rose::*" modules.  Please install
       Rose from CPAN and then run "perldoc Rose" for more information.

SUPPORT

       Any Rose::DB questions or problems can be posted to the Rose::DB::Object mailing list.
       (If the volume ever gets high enough, I'll create a separate list for Rose::DB.  But it
       isn't an issue right now.)  To subscribe to the list or view the archives, go here:

       <http://groups.google.com/group/rose-db-object>

       Although the mailing list is the preferred support mechanism, you can also email the
       author (see below) or file bugs using the CPAN bug tracking system:

       <http://rt.cpan.org/NoAuth/Bugs.html?Dist=Rose-DB>

       There's also a wiki and other resources linked from the Rose project home page:

       <http://rosecode.org>

AUTHOR

       John C. Siracusa (siracusa@gmail.com)

COPYRIGHT

       Copyright (c) 2007 by John C. Siracusa.  All rights reserved.  This program is free
       software; you can redistribute it and/or modify it under the same terms as Perl itself.