package DBIx::Class::Relationship; use strict; use warnings; use base qw/DBIx::Class/; __PACKAGE__->load_own_components(qw/ Helpers Accessor CascadeActions ProxyMethods Base /); 1; __END__ =head1 NAME DBIx::Class::Relationship - Inter-table relationships =head1 SYNOPSIS ## Creating relationships MyApp::Schema::Actor->has_many('actorroles' => 'MyApp::Schema::ActorRole', 'actor'); MyApp::Schema::Role->has_many('actorroles' => 'MyApp::Schema::ActorRole', 'role'); MyApp::Schema::ActorRole->belongs_to('role' => 'MyApp::Schema::Role'); MyApp::Schema::ActorRole->belongs_to('actor' => 'MyApp::Schema::Actor'); MyApp::Schema::Role->many_to_many('actors' => 'actorroles', 'actor'); MyApp::Schema::Actor->many_to_many('roles' => 'actorroles', 'role'); ## Using relationships $schema->resultset('Actor')->find({ id => 1})->roles(); $schema->resultset('Role')->find({ id => 1 })->actorroles->search_related('actor', { Name => 'Fred' }); $schema->resultset('Actor')->add_to_roles({ Name => 'Sherlock Holmes'}); See L for more. =head1 DESCRIPTION The word I has a specific meaning in DBIx::Class, see the definition in the L. This class provides methods to set up relationships between the tables in your database model. Relationships are the most useful and powerful technique that L provides. To create efficient database queries, create relationships between any and all tables that have something in common, for example if you have a table Authors: ID | Name | Age ------------------ 1 | Fred | 30 2 | Joe | 32 and a table Books: ID | Author | Name -------------------- 1 | 1 | Rulers of the universe 2 | 1 | Rulers of the galaxy Then without relationships, the method of getting all books by Fred goes like this: my $fred = $schema->resultset('Author')->find({ Name => 'Fred' }); my $fredsbooks = $schema->resultset('Book')->search({ Author => $fred->ID }); With a has_many relationship called "books" on Author (see below for details), we can do this instead: my $fredsbooks = $schema->resultset('Author')->find({ Name => 'Fred' })->books; Each relationship sets up an accessor method on the L objects that represent the items of your table. From L objects, the relationships can be searched using the "search_related" method. In list context, each returns a list of Result objects for the related class, in scalar context, a new ResultSet representing the joined tables is returned. Thus, the calls can be chained to produce complex queries. Since the database is not actually queried until you attempt to retrieve the data for an actual item, no time is wasted producing them. my $cheapfredbooks = $schema->resultset('Author')->find({ Name => 'Fred', })->books->search_related('prices', { Price => { '<=' => '5.00' }, }); will produce a query something like: SELECT * FROM Author me LEFT JOIN Books books ON books.author = me.id LEFT JOIN Prices prices ON prices.book = books.id WHERE prices.Price <= 5.00 all without needing multiple fetches. Only the helper methods for setting up standard relationship types are documented here. For the basic, lower-level methods, and a description of all the useful *_related methods that you get for free, see L. =head1 METHODS All helper methods are called similar to the following template: __PACKAGE__->$method_name('rel_name', 'Foreign::Class', \%cond|\@cond|\&cond?, \%attrs?); Both C and C are optional. Pass C for C if you want to use the default value for it, but still want to set C. See L for full documentation on definition of the C argument. See L for documentation on the attributes that are allowed in the C argument. =head2 belongs_to =over 4 =item Arguments: $accessor_name, $related_class, $our_fk_column|\%cond|\@cond|\$cond?, \%attrs? =back Creates a relationship where the calling class stores the foreign class's primary key in one (or more) of the calling class columns. This relationship defaults to using C<$accessor_name> as the column name in this class to resolve the join against the primary key from C<$related_class>, unless C<$our_fk_column> specifies the foreign key column in this class or C specifies a reference to a join condition. =over =item accessor_name This argument is the name of the method you can call on a L object to retrieve the instance of the foreign class matching this relationship. This is often called the C. Use this accessor_name in L or L to join to the foreign table indicated by this relationship. =item related_class This is the class name of the table referenced by the foreign key in this class. =item our_fk_column The column name on this class that contains the foreign key. OR =item cond A hashref, arrayref or coderef specifying a custom join expression. For more info see L. =back # in a Book class (where Author has many Books) My::DBIC::Schema::Book->belongs_to( author => 'My::DBIC::Schema::Author', 'author_id' ); # OR (same result) My::DBIC::Schema::Book->belongs_to( author => 'My::DBIC::Schema::Author', { 'foreign.author_id' => 'self.author_id' } ); # OR (similar result but uglier accessor name) My::DBIC::Schema::Book->belongs_to( author_id => 'My::DBIC::Schema::Author' ); # Usage my $author_obj = $book->author; # get author object $book->author( $new_author_obj ); # set author object $book->author_id(); # get the plain id # To retrieve the plain id if you used the ugly version: $book->get_column('author_id'); If some of the foreign key columns are L you probably want to set the L attribute to C explicitly so that SQL expressing this relation is composed with a C (as opposed to C which is default for L relationships). This ensures that relationship traversal works consistently in all situations. (i.e. resultsets involving L or L). The modified declaration is shown below: # in a Book class (where Author has_many Books) __PACKAGE__->belongs_to( author => 'My::DBIC::Schema::Author', 'author', { join_type => 'left' } ); Cascading deletes are off by default on a C relationship. To turn them on, pass C<< cascade_delete => 1 >> in the $attr hashref. By default, DBIC will return undef and avoid querying the database if a C accessor is called when any part of the foreign key IS NULL. To disable this behavior, pass C<< undef_on_null_fk => 0 >> in the C<\%attrs> hashref. NOTE: If you are used to L relationships, this is the equivalent of C. See L for documentation on relationship methods and valid relationship attributes. Also see L for a L which can be assigned to relationships as well. =head2 has_many =over 4 =item Arguments: $accessor_name, $related_class, $their_fk_column|\%cond|\@cond|\&cond?, L<\%attrs?|DBIx::Class::ResultSet/ATTRIBUTES> =back Creates a one-to-many relationship where the foreign class refers to this class's primary key. This relationship refers to zero or more records in the foreign table (e.g. a C). This relationship defaults to using the end of this classes namespace as the foreign key in C<$related_class> to resolve the join, unless C<$their_fk_column> specifies the foreign key column in C<$related_class> or C specifies a reference to a join condition. =over =item accessor_name This argument is the name of the method you can call on a L object to retrieve a resultset of the related class restricted to the ones related to the result object. In list context it returns the result objects. This is often called the C. Use this accessor_name in L or L to join to the foreign table indicated by this relationship. =item related_class This is the class name of the table which contains a foreign key column containing PK values of this class. =item their_fk_column The column name on the related class that contains the foreign key. OR =item cond A hashref, arrayref or coderef specifying a custom join expression. For more info see L. =back # in an Author class (where Author has_many Books) # assuming related class is storing our PK in "author_id" My::DBIC::Schema::Author->has_many( books => 'My::DBIC::Schema::Book', 'author_id' ); # OR (same result) My::DBIC::Schema::Author->has_many( books => 'My::DBIC::Schema::Book', { 'foreign.author_id' => 'self.id' }, ); # OR (similar result, assuming related_class is storing our PK, in "author") # (the "author" is guessed at from "Author" in the class namespace) My::DBIC::Schema::Author->has_many( books => 'My::DBIC::Schema::Book', ); # Usage # resultset of Books belonging to author my $booklist = $author->books; # resultset of Books belonging to author, restricted by author name my $booklist = $author->books({ name => { LIKE => '%macaroni%' }, { prefetch => [qw/book/], }); # array of Book objects belonging to author my @book_objs = $author->books; # force resultset even in list context my $books_rs = $author->books; ( $books_rs ) = $obj->books_rs; # create a new book for this author, the relation fields are auto-filled $author->create_related('books', \%col_data); # alternative method for the above $author->add_to_books(\%col_data); Three methods are created when you create a has_many relationship. The first method is the expected accessor method, C<$accessor_name()>. The second is almost exactly the same as the accessor method but "_rs" is added to the end of the method name, eg C<$accessor_name_rs()>. This method works just like the normal accessor, except that it always returns a resultset, even in list context. The third method, named C<< add_to_$rel_name >>, will also be added to your Row items; this allows you to insert new related items, using the same mechanism as in L. If you delete an object in a class with a C relationship, all the related objects will be deleted as well. To turn this behaviour off, pass C<< cascade_delete => 0 >> in the C<$attr> hashref. The cascaded operations are performed after the requested delete or update, so if your database has a constraint on the relationship, it will have deleted/updated the related records or raised an exception before DBIx::Class gets to perform the cascaded operation. If you copy an object in a class with a C relationship, all the related objects will be copied as well. To turn this behaviour off, pass C<< cascade_copy => 0 >> in the C<$attr> hashref. The behaviour defaults to C<< cascade_copy => 1 >>. See L for documentation on relationship methods and valid relationship attributes. Also see L for a L which can be assigned to relationships as well. =head2 might_have =over 4 =item Arguments: $accessor_name, $related_class, $their_fk_column|\%cond|\@cond|\&cond?, L<\%attrs?|DBIx::Class::ResultSet/ATTRIBUTES> =back Creates an optional one-to-one relationship with a class. This relationship defaults to using C<$accessor_name> as the foreign key in C<$related_class> to resolve the join, unless C<$their_fk_column> specifies the foreign key column in C<$related_class> or C specifies a reference to a join condition. =over =item accessor_name This argument is the name of the method you can call on a L object to retrieve the instance of the foreign class matching this relationship. This is often called the C. Use this accessor_name in L or L to join to the foreign table indicated by this relationship. =item related_class This is the class name of the table which contains a foreign key column containing PK values of this class. =item their_fk_column The column name on the related class that contains the foreign key. OR =item cond A hashref, arrayref or coderef specifying a custom join expression. For more info see L. =back # Author may have an entry in the pseudonym table My::DBIC::Schema::Author->might_have( pseudonym => 'My::DBIC::Schema::Pseudonym', 'author_id', ); # OR (same result, assuming the related_class stores our PK) My::DBIC::Schema::Author->might_have( pseudonym => 'My::DBIC::Schema::Pseudonym', ); # OR (same result) My::DBIC::Schema::Author->might_have( pseudonym => 'My::DBIC::Schema::Pseudonym', { 'foreign.author_id' => 'self.id' }, ); # Usage my $pname = $author->pseudonym; # to get the Pseudonym object If you update or delete an object in a class with a C relationship, the related object will be updated or deleted as well. To turn off this behavior, add C<< cascade_delete => 0 >> to the C<$attr> hashref. The cascaded operations are performed after the requested delete or update, so if your database has a constraint on the relationship, it will have deleted/updated the related records or raised an exception before DBIx::Class gets to perform the cascaded operation. See L for documentation on relationship methods and valid relationship attributes. Also see L for a L which can be assigned to relationships as well. Note that if you supply a condition on which to join, and the column in the current table allows nulls (i.e., has the C attribute set to a true value), than C will warn about this because it's naughty and you shouldn't do that. The warning will look something like: "might_have/has_one" must not be on columns with is_nullable set to true (MySchema::SomeClass/key) If you must be naughty, you can suppress the warning by setting C environment variable to a true value. Otherwise, you probably just meant to use C. =head2 has_one =over 4 =item Arguments: $accessor_name, $related_class, $their_fk_column|\%cond|\@cond|\&cond?, L<\%attrs?|DBIx::Class::ResultSet/ATTRIBUTES> =back Creates a one-to-one relationship with a class. This relationship defaults to using C<$accessor_name> as the foreign key in C<$related_class> to resolve the join, unless C<$their_fk_column> specifies the foreign key column in C<$related_class> or C specifies a reference to a join condition. =over =item accessor_name This argument is the name of the method you can call on a L object to retrieve the instance of the foreign class matching this relationship. This is often called the C. Use this accessor_name in L or L to join to the foreign table indicated by this relationship. =item related_class This is the class name of the table which contains a foreign key column containing PK values of this class. =item their_fk_column The column name on the related class that contains the foreign key. OR =item cond A hashref, arrayref or coderef specifying a custom join expression. For more info see L. =back # Every book has exactly one ISBN My::DBIC::Schema::Book->has_one( isbn => 'My::DBIC::Schema::ISBN', 'book_id', ); # OR (same result, assuming related_class stores our PK) My::DBIC::Schema::Book->has_one( isbn => 'My::DBIC::Schema::ISBN', ); # OR (same result) My::DBIC::Schema::Book->has_one( isbn => 'My::DBIC::Schema::ISBN', { 'foreign.book_id' => 'self.id' }, ); # Usage my $isbn_obj = $book->isbn; # to get the ISBN object Creates a one-to-one relationship with another class. This is just like C, except the implication is that the other object is always present. The only difference between C and C is that C uses an (ordinary) inner join, whereas C defaults to a left join. The has_one relationship should be used when a row in the table must have exactly one related row in another table. If the related row might not exist in the foreign table, use the L relationship. In the above example, each Book in the database is associated with exactly one ISBN object. See L for documentation on relationship methods and valid relationship attributes. Also see L for a L which can be assigned to relationships as well. Note that if you supply a condition on which to join, if the column in the current table allows nulls (i.e., has the C attribute set to a true value), than warnings might apply just as with L. =head2 many_to_many =over 4 =item Arguments: $accessor_name, $link_rel_name, $foreign_rel_name, L<\%attrs?|DBIx::Class::ResultSet/ATTRIBUTES> =back C is a I which has a specific meaning in DBIx::Class, see the definition in the L. C is not strictly a relationship in its own right. Instead, it is a bridge between two resultsets which provide the same kind of convenience accessors as true relationships provide. Although the accessor will return a resultset or collection of objects just like has_many does, you cannot call C and similar methods which operate on true relationships. =over =item accessor_name This argument is the name of the method you can call on a L object to retrieve the rows matching this relationship. On a many_to_many, unlike other relationships, this cannot be used in L to join tables. Use the relations bridged across instead. =item link_rel_name This is the accessor_name from the has_many relationship we are bridging from. =item foreign_rel_name This is the accessor_name of the belongs_to relationship in the link table that we are bridging across (which gives us the table we are bridging to). =back To create a many_to_many relationship from Actor to Role: My::DBIC::Schema::Actor->has_many( actor_roles => 'My::DBIC::Schema::ActorRoles', 'actor' ); My::DBIC::Schema::ActorRoles->belongs_to( role => 'My::DBIC::Schema::Role' ); My::DBIC::Schema::ActorRoles->belongs_to( actor => 'My::DBIC::Schema::Actor' ); My::DBIC::Schema::Actor->many_to_many( roles => 'actor_roles', 'role' ); And, for the reverse relationship, from Role to Actor: My::DBIC::Schema::Role->has_many( actor_roles => 'My::DBIC::Schema::ActorRoles', 'role' ); My::DBIC::Schema::Role->many_to_many( actors => 'actor_roles', 'actor' ); To add a role for your actor, and fill in the year of the role in the actor_roles table: $actor->add_to_roles($role, { year => 1995 }); In the above example, ActorRoles is the link table class, and Role is the foreign class. The C<$link_rel_name> parameter is the name of the accessor for the has_many relationship from this table to the link table, and the C<$foreign_rel_name> parameter is the accessor for the belongs_to relationship from the link table to the foreign table. To use many_to_many, existing relationships from the original table to the link table, and from the link table to the end table must already exist, these relation names are then used in the many_to_many call. In the above example, the Actor class will have 3 many_to_many accessor methods set: C, C, C, and similarly named accessors will be created for the Role class for the C many_to_many relationship. See L for documentation on relationship methods and valid relationship attributes. Also see L for a L which can be assigned to relationships as well. =head1 FURTHER QUESTIONS? Check the list of L. =head1 COPYRIGHT AND LICENSE This module is free software L by the L. You can redistribute it and/or modify it under the same terms as the L.