X-Git-Url: http://git.shadowcat.co.uk/gitweb/gitweb.cgi?a=blobdiff_plain;f=lib%2FDBIx%2FClass%2FManual%2FIntro.pod;h=5c7f7e5809c9d76dd87d012f510472681b614198;hb=5f550837848772810f7ebe6067e1e50150560d39;hp=d4ee303fd07ab19168d9bf56353d429d5a4b7a7d;hpb=d53178fd413748460fe7ab2747602b42454eddad;p=dbsrgits%2FDBIx-Class.git

diff --git a/lib/DBIx/Class/Manual/Intro.pod b/lib/DBIx/Class/Manual/Intro.pod
index d4ee303..5c7f7e5 100644
--- a/lib/DBIx/Class/Manual/Intro.pod
+++ b/lib/DBIx/Class/Manual/Intro.pod
@@ -11,23 +11,25 @@ better way?  You've come to the right place.
 =head1 THE DBIx::Class WAY
 
 Here are a few simple tips that will help you get your bearings with
-DBIx::Class.  
+DBIx::Class.
 
-=head2 Tables become ResultSources
+=head2 Tables become Result classes
 
-DBIx::Class needs to know what your Table structure looks like.  You do that by
-defining L<DBIx::Class::ResultSource>s.  Each table gets a ResultSource, which
-defines the Columns it has, along with any Relationships it has to other tables.
-(And oh, so much more besides)  The important thing to understand:
+DBIx::Class needs to know what your Table structure looks like.  You
+do that by defining Result classes. Result classes are defined by
+calling methods proxied to L<DBIx::Class::ResultSource>.  Each Result
+class defines one Table, which defines the Columns it has, along with
+any Relationships it has to other tables.  (And oh, so much more
+besides) The important thing to understand:
 
-  A ResultSource == Table
+  A Result class == Table
 
 (most of the time, but just bear with my simplification)
 
 =head2 It's all about the ResultSet
 
 So, we've got some ResultSources defined.  Now, we want to actually use those
-definitions to help us translate the queries we need into handy perl objects!  
+definitions to help us translate the queries we need into handy perl objects!
 
 Let's say we defined a ResultSource for an "album" table with three columns:
 "albumid", "artist", and "title".  Any time we want to query this table, we'll
@@ -37,18 +39,18 @@ results of:
   SELECT albumid, artist, title FROM album;
 
 Would be retrieved by creating a ResultSet object from the album table's
-ResultSource, likely by using the "search" method.  
+ResultSource, likely by using the "search" method.
 
 DBIx::Class doesn't limit you to creating only simple ResultSets -- if you
 wanted to do something like:
 
   SELECT title FROM album GROUP BY title;
 
-You could easily achieve it. 
+You could easily achieve it.
 
-The important thing to understand: 
+The important thing to understand:
 
-  Any time you would reach for a SQL query in DBI, you are 
+  Any time you would reach for a SQL query in DBI, you are
   creating a DBIx::Class::ResultSet.
 
 =head2 Search is like "prepare"
@@ -62,12 +64,18 @@ The important thing to understand:
   Setting up a ResultSet does not execute the query; retrieving
   the data does.
 
+=head2 Search results are returned as Rows
+
+Rows of the search from the database are blessed into
+L<DBIx::Class::Row> objects.
+
 =head1 SETTING UP DBIx::Class
 
 Let's look at how you can set and use your first native L<DBIx::Class> tree.
 
 First we'll see how you can set up your classes yourself.  If you want them to
-be auto-discovered, just skip to the next section, which shows you how to use
+be auto-discovered, just skip to the L<next section|/Using
+DBIx::Class::Schema::Loader>, which shows you how to use
 L<DBIx::Class::Schema::Loader>.
 
 =head2 Setting it up manually
@@ -79,40 +87,37 @@ L<DBIx::Class::Schema>:
   use base qw/DBIx::Class::Schema/;
 
 In this class you load your result_source ("table", "model") classes, which we
-will define later, using the load_classes() method. You can specify which
-classes to load manually: 
+will define later, using the load_namespaces() method:
 
-  # load My::Schema::Album and My::Schema::Artist
-  __PACKAGE__->load_classes(qw/ Album Artist /);
-
-Or load classes by namespace:
-
-  # load My::Schema::Album, My::Schema::Artist and My::OtherSchema::LinerNotes
-  __PACKAGE__->load_classes(
-    {
-      'My::Schema' => [qw/ Album Artist /],
-      'My::OtherSchema' => [qw/ LinerNotes /]
-    }
-  );
+  # load My::Schema::Result::* and their resultset classes
+  __PACKAGE__->load_namespaces();
 
-Or let your schema class load all classes in its namespace automatically:
+By default this loads all the Result (Row) classes in the
+My::Schema::Result:: namespace, and also any resultset classes in the
+My::Schema::ResultSet:: namespace (if missing, the resultsets are
+defaulted to be DBIx::Class::ResultSet objects). You can change the
+result and resultset namespaces by using options to the
+L<DBIx::Class::Schema/load_namespaces> call.
 
-   # load My::Schema::*
-  __PACKAGE__->load_classes();
+It is also possible to do the same things manually by calling
+C<load_classes> for the Row classes and defining in those classes any
+required resultset classes.
 
 Next, create each of the classes you want to load as specified above:
 
-  package My::Schema::Album;
-  use base qw/DBIx::Class/;
+  package My::Schema::Result::Album;
+  use base qw/DBIx::Class::Core/;
 
-Load any components required by each class with the load_components() method.
-This should consist of "Core" plus any additional components you want to use.
-For example, if you want serial/auto-incrementing primary keys:
+Load any additional components you may need with the load_components() method,
+and provide component configuration if required. For example, if you want
+automatic row ordering:
 
-  __PACKAGE__->load_components(qw/ PK::Auto Core /);
+  __PACKAGE__->load_components(qw/ Ordered /);
+  __PACKAGE__->position_column('rank');
 
-C<PK::Auto> is supported for many databases; see L<DBIx::Class::Storage::DBI>
-for more information.
+Ordered will refer to a field called 'position' unless otherwise directed.  Here you are defining
+the ordering field to be named 'rank'.  (NOTE: Insert errors may occur if you use the Ordered
+component, but have not defined a position column or have a 'position' field in your row.)
 
 Set the table for your class:
 
@@ -120,7 +125,7 @@ Set the table for your class:
 
 Add columns to your class:
 
-  __PACKAGE__->add_columns(qw/ albumid artist title /);
+  __PACKAGE__->add_columns(qw/ albumid artist title rank /);
 
 Each column can also be set up with its own accessor, data_type and other pieces
 of information that it may be useful to have -- just pass C<add_columns> a hash:
@@ -131,33 +136,35 @@ of information that it may be useful to have -- just pass C<add_columns> a hash:
                               size      => 16,
                               is_nullable => 0,
                               is_auto_increment => 1,
-                              default_value => '',
                             },
                           artist =>
                             { data_type => 'integer',
                               size      => 16,
                               is_nullable => 0,
-                              is_auto_increment => 0,
-                              default_value => '',
                             },
-                          title  => 
+                          title  =>
                             { data_type => 'varchar',
                               size      => 256,
                               is_nullable => 0,
-                              is_auto_increment => 0,
-                              default_value => '',
+                            },
+                          rank =>
+                            { data_type => 'integer',
+                              size      => 16,
+                              is_nullable => 0,
+                              default_value => 0,
                             }
                          );
 
 DBIx::Class doesn't directly use most of this data yet, but various related
-modules such as L<DBIx::Class::WebForm> make use of it. Also it allows you to
-create your database tables from your Schema, instead of the other way around.
-See L<SQL::Translator> for details.
+modules such as L<HTML::FormHandler::Model::DBIC> make use of it.
+Also it allows you to create your database tables from your Schema,
+instead of the other way around.
+See L<DBIx::Class::Schema/deploy> for details.
 
 See L<DBIx::Class::ResultSource> for more details of the possible column
 attributes.
 
-Accessors are created for each column automatically, so My::Schema::Album will
+Accessors are created for each column automatically, so My::Schema::Result::Album will
 have albumid() (or album(), when using the accessor), artist() and title()
 methods.
 
@@ -174,34 +181,52 @@ to describe a column which contains an ID of another Table, or C<has_many> to
 make a predefined accessor for fetching objects that contain this Table's
 foreign key:
 
-  __PACKAGE__->has_many('albums', 'My::Schema::Artist', 'album_id');
+  # in My::Schema::Result::Artist
+  __PACKAGE__->has_many('albums', 'My::Schema::Result::Album', 'artist');
 
 See L<DBIx::Class::Relationship> for more information about the various types of
 available relationships and how you can design your own.
 
-=head2 Using L<DBIx::Class::Schema::Loader>
+=head2 Using DBIx::Class::Schema::Loader
 
-This is an external module, and not part of the L<DBIx::Class> distribution.
-Like L<Class::DBI::Loader>, it inspects your database, and automatically creates
-classes for all the tables in your database.  Here's a simple setup:
+This module (L<DBIx::Class::Schema::Loader>) is an external module, and not part
+of the L<DBIx::Class> distribution. It inspects your database, and automatically
+creates classes for all the tables in your schema.
 
-  package My::Schema;
-  use base qw/DBIx::Class::Schema::Loader/;
+The simplest way to use it is via the L<dbicdump> script from the
+L<DBIx::Class::Schema::Loader> distribution. For example:
 
-  __PACKAGE__->loader_options( relationships => 1 );
+    $ dbicdump -o dump_directory=./lib \
+        -o components='["InflateColumn::DateTime"]' \
+        MyApp::Schema dbi:mysql:mydb user pass
 
-  1;
+If you have a mixed-case database, use the C<preserve_case> option, e.g.:
 
-The actual autoloading process will occur when you create a connected instance
-of your schema below.
+    $ dbicdump -o dump_directory=./lib -o preserve_case=1 \
+        -o components='["InflateColumn::DateTime"]' \
+        MyApp::Schema dbi:mysql:mydb user pass
 
-See the L<DBIx::Class::Schema::Loader> documentation for more information on its
-many options.
+If you are using L<Catalyst>, then you can use the helper that comes with
+L<Catalyst::Model::DBIC::Schema>:
+
+    $ script/myapp_create.pl model MyDB DBIC::Schema MyDB::Schema \
+        create=static moniker_map='{ foo => "FOO" }' dbi:SQLite:./myapp.db \
+        on_connect_do='PRAGMA foreign_keys=ON' quote_char='"'
+
+See L<Catalyst::Helper::Model::DBIC::Schema> for more information on this
+helper.
+
+See the L<DBIx::Class::Schema::Loader> and L<DBIx::Class::Schema::Loader::Base>
+documentation for more information on the many loader options.
 
 =head2 Connecting
 
-To connect to your Schema, you need to provide the connection details.  The
-arguments are the same as for L<DBI/connect>:
+To connect to your Schema, you need to provide the connection details or a
+database handle.
+
+=head3 Via connection details
+
+The arguments are the same as for L<DBI/connect>:
 
   my $schema = My::Schema->connect('dbi:SQLite:/home/me/myapp/my.db');
 
@@ -213,7 +238,7 @@ second database you want to access:
 Note that L<DBIx::Class::Schema> does not cache connections for you. If you use
 multiple connections, you need to do this manually.
 
-To execute some sql statements on every connect you can add them as an option in
+To execute some SQL statements on every connect you can add them as an option in
 a special fifth argument to connect:
 
   my $another_schema = My::Schema->connect(
@@ -224,9 +249,19 @@ a special fifth argument to connect:
       { on_connect_do => \@on_connect_sql_statments }
   );
 
-See L<DBIx::Class::Schema::Storage::DBI/connect_info> for more information about
+See L<DBIx::Class::Storage::DBI/connect_info> for more information about
 this and other special C<connect>-time options.
 
+=head3 Via a database handle
+
+The supplied coderef is expected to return a single connected database handle
+(e.g. a L<DBI> C<$dbh>)
+
+  my $schema = My::Schema->connect (
+    sub { Some::DBH::Factory->connect },
+    \%extra_attrs,
+  );
+
 =head2 Basic usage
 
 Once you've defined the basic classes, either manually or using
@@ -241,7 +276,7 @@ The simplest way to get a record is by primary key:
   my $album = $schema->resultset('Album')->find(14);
 
 This will run a C<SELECT> with C<albumid = 14> in the C<WHERE> clause, and
-return an instance of C<My::Schema::Album> that represents this row.  Once you
+return an instance of C<My::Schema::Result::Album> that represents this row.  Once you
 have that row, you can access and update columns:
 
   $album->title('Physical Graffiti');
@@ -253,8 +288,8 @@ instead:
   $album->set_column('title', 'Presence');
   $title = $album->get_column('title');
 
-Just like with L<Class::DBI>, you call C<update> to commit your changes to the
-database:
+Just like with L<Class::DBI>, you call C<update> to save your changes to the
+database (by executing the actual C<UPDATE> statement):
 
   $album->update;
 
@@ -268,10 +303,10 @@ your object.
 =head2 Adding and removing rows
 
 To create a new record in the database, you can use the C<create> method.  It
-returns an instance of C<My::Schema::Album> that can be used to access the data
+returns an instance of C<My::Schema::Result::Album> that can be used to access the data
 in the new record:
 
-  my $new_album = $schema->resultset('Album')->create({ 
+  my $new_album = $schema->resultset('Album')->create({
     title  => 'Wish You Were Here',
     artist => 'Pink Floyd'
   });
@@ -373,6 +408,61 @@ L<DBIx::Class::ResultSet/METHODS>.
 For a complete overview of the available attributes, see
 L<DBIx::Class::ResultSet/ATTRIBUTES>.
 
+=head1 NOTES
+
+=head2 The Significance and Importance of Primary Keys
+
+The concept of a L<primary key|DBIx::Class::ResultSource/set_primary_key> in
+DBIx::Class warrants special discussion. The formal definition (which somewhat
+resembles that of a classic RDBMS) is I<a unique constraint that is least
+likely to change after initial row creation>. However this is where the
+similarity ends. Any time you call a CRUD operation on a row (e.g.
+L<delete|DBIx::Class::Row/delete>,
+L<update|DBIx::Class::Row/update>,
+L<discard_changes|DBIx::Class::Row/discard_changes>,
+etc.) DBIx::Class will use the values of of the
+L<primary key|DBIx::Class::ResultSource/set_primary_key> columns to populate
+the C<WHERE> clause necessary to accomplish the operation. This is why it is
+important to declare a L<primary key|DBIx::Class::ResultSource/set_primary_key>
+on all your result sources B<even if the underlying RDBMS does not have one>.
+In a pinch one can always declare each row identifiable by all its columns:
+
+ __PACKAGE__->set_primary_keys (__PACKAGE__->columns);
+
+Note that DBIx::Class is smart enough to store a copy of the PK values before
+any row-object changes take place, so even if you change the values of PK
+columns the C<WHERE> clause will remain correct.
+
+If you elect not to declare a C<primary key>, DBIx::Class will behave correctly
+by throwing exceptions on any row operation that relies on unique identifiable
+rows. If you inherited datasets with multiple identical rows in them, you can
+still operate with such sets provided you only utilize
+L<DBIx::Class::ResultSet> CRUD methods:
+L<search|DBIx::Class::ResultSet/search>,
+L<update|DBIx::Class::ResultSet/update>,
+L<delete|DBIx::Class::ResultSet/delete>
+
+For example, the following would not work (assuming C<People> does not have
+a declared PK):
+
+ my $row = $schema->resultset('People')
+                   ->search({ last_name => 'Dantes' })
+                    ->next;
+ $row->update({ children => 2 }); # <-- exception thrown because $row isn't
+                                  # necessarily unique
+
+So instead the following should be done:
+
+ $schema->resultset('People')
+         ->search({ last_name => 'Dantes' })
+          ->update({ children => 2 }); # <-- update's ALL Dantes to have children of 2
+
+=head2 Problems on RHEL5/CentOS5
+
+There used to be an issue with the system perl on Red Hat Enterprise
+Linux 5, some versions of Fedora and derived systems. Further
+information on this can be found in L<DBIx::Class::Manual::Troubleshooting>
+
 =head1 SEE ALSO
 
 =over 4