use strict; use warnings; package DBIx::Class::ResultSet::RecursiveUpdate; # ABSTRACT: like update_or_create - but recursive use base qw(DBIx::Class::ResultSet); sub recursive_update { my ( $self, $updates, $attrs ) = @_; my $fixed_fields; my $unknown_params_ok; # 0.21+ api if ( defined $attrs && ref $attrs eq 'HASH' ) { $fixed_fields = $attrs->{fixed_fields}; $unknown_params_ok = $attrs->{unknown_params_ok}; } # pre 0.21 api elsif ( defined $attrs && ref $attrs eq 'ARRAY' ) { $fixed_fields = $attrs; } return DBIx::Class::ResultSet::RecursiveUpdate::Functions::recursive_update( resultset => $self, updates => $updates, fixed_fields => $fixed_fields, unknown_params_ok => $unknown_params_ok, ); } package DBIx::Class::ResultSet::RecursiveUpdate::Functions; use Carp::Clan; use Scalar::Util qw( blessed ); use List::MoreUtils qw/ any /; sub recursive_update { my %params = @_; my ( $self, $updates, $fixed_fields, $object, $resolved, $if_not_submitted, $unknown_params_ok ) = @params{ qw/resultset updates fixed_fields object resolved if_not_submitted unknown_params_ok/ }; $resolved ||= {}; # warn 'entering: ' . $self->result_source->from(); carp 'fixed fields needs to be an array ref' if defined $fixed_fields && ref $fixed_fields ne 'ARRAY'; if ( blessed($updates) && $updates->isa('DBIx::Class::Row') ) { return $updates; } if ( $updates->{id} ) { $object = $self->find( $updates->{id}, { key => 'primary' } ); } my %fixed_fields = map { $_ => 1 } @$fixed_fields if $fixed_fields; my @missing = grep { !exists $updates->{$_} && !exists $fixed_fields{$_} } $self->result_source->primary_columns; if ( !$object && !scalar @missing ) { # warn 'finding by: ' . Dumper( $updates ); use Data::Dumper; $object = $self->find( $updates, { key => 'primary' } ); } $updates = { %$updates, %$resolved }; @missing = grep { !exists $resolved->{$_} } @missing; if ( !$object && !scalar @missing ) { # warn 'finding by +resolved: ' . Dumper( $updates ); use Data::Dumper; $object = $self->find( $updates, { key => 'primary' } ); } $object ||= $self->new( {} ); # warn Dumper( $updates ); use Data::Dumper; # direct column accessors my %columns; # relations that that should be done before the row is inserted into the # database like belongs_to my %pre_updates; # relations that that should be done after the row is inserted into the # database like has_many, might_have and has_one my %post_updates; my %other_methods; my %columns_by_accessor = _get_columns_by_accessor($self); # warn 'resolved: ' . Dumper( $resolved ); # warn 'updates: ' . Dumper( $updates ); use Data::Dumper; # warn 'columns: ' . Dumper( \%columns_by_accessor ); for my $name ( keys %$updates ) { my $source = $self->result_source; # columns if ( exists $columns_by_accessor{$name} && !( $source->has_relationship($name) && ref( $updates->{$name} ) ) ) { #warn "$name is a column\n"; $columns{$name} = $updates->{$name}; next; } # relationships if ( $source->has_relationship($name) ) { if ( _master_relation_cond( $self, $name ) ) { #warn "$name is a pre-update rel\n"; $pre_updates{$name} = $updates->{$name}; next; } else { #warn "$name is a post-update rel\n"; $post_updates{$name} = $updates->{$name}; next; } } # many-to-many helper accessors if ( is_m2m( $self, $name ) ) { #warn "$name is a many-to-many helper accessor\n"; $other_methods{$name} = $updates->{$name}; next; } # accessors if ( $object->can($name) && not $source->has_relationship($name) ) { #warn "$name is an accessor"; $other_methods{$name} = $updates->{$name}; next; } # unknown # don't throw a warning instead of an exception to give users # time to adapt to the new API carp( "No such column, relationship, many-to-many helper accessor or generic accessor '$name'" ) unless $unknown_params_ok; #$self->throw_exception( # "No such column, relationship, many-to-many helper accessor or generic accessor '$name'" #); } # warn 'other: ' . Dumper( \%other_methods ); use Data::Dumper; # first update columns and other accessors # so that later related records can be found for my $name ( keys %columns ) { #warn "update col $name\n"; $object->$name( $columns{$name} ); } for my $name ( keys %other_methods ) { #warn "update other $name\n"; $object->$name( $updates->{$name} ); } for my $name ( keys %pre_updates ) { #warn "pre_update $name\n"; _update_relation( $self, $name, $pre_updates{$name}, $object, $if_not_submitted ); } # $self->_delete_empty_auto_increment($object); # don't allow insert to recurse to related objects # do the recursion ourselves # $object->{_rel_in_storage} = 1; #warn "CHANGED: " . $object->is_changed . "\n": #warn "IN STOR: " . $object->in_storage . "\n"; $object->update_or_insert if $object->is_changed; $object->discard_changes; # updating many_to_many for my $name ( keys %$updates ) { next if exists $columns{$name}; my $value = $updates->{$name}; if ( is_m2m( $self, $name ) ) { #warn "update m2m $name\n"; my ($pk) = _get_pk_for_related( $self, $name ); my @rows; my $result_source = $object->$name->result_source; my @updates; if ( !defined $value ) { next; } elsif ( ref $value ) { @updates = @{$value}; } else { @updates = ($value); } for my $elem (@updates) { if ( ref $elem ) { push @rows, recursive_update( resultset => $result_source->resultset, updates => $elem ); } else { push @rows, $result_source->resultset->find( { $pk => $elem } ); } } my $set_meth = 'set_' . $name; $object->$set_meth( \@rows ); } } for my $name ( keys %post_updates ) { #warn "post_update $name\n"; _update_relation( $self, $name, $post_updates{$name}, $object, $if_not_submitted ); } return $object; } # returns DBIx::Class::ResultSource::column_info as a hash indexed by column accessor || name sub _get_columns_by_accessor { my $self = shift; my $source = $self->result_source; my %columns; for my $name ( $source->columns ) { my $info = $source->column_info($name); $info->{name} = $name; $columns{ $info->{accessor} || $name } = $info; } return %columns; } # Arguments: $rs, $name, $updates, $row, $if_not_submitted sub _update_relation { my ( $self, $name, $updates, $object, $if_not_submitted ) = @_; # this should never happen because we're checking the paramters passed to # recursive_update, but just to be sure... $object->throw_exception("No such relationship '$name'") unless $object->has_relationship($name); #warn "_update_relation $name: OBJ: " . ref($object) . "\n"; my $info = $object->result_source->relationship_info($name); # get a related resultset without a condition my $related_resultset = $self->related_resultset($name)->result_source->resultset; my $resolved; if ( $self->result_source->can('_resolve_condition') ) { $resolved = $self->result_source->_resolve_condition( $info->{cond}, $name, $object ); } else { $self->throw_exception( "result_source must support _resolve_condition"); } # warn "$name resolved: " . Dumper( $resolved ); use Data::Dumper; $resolved = {} if defined $DBIx::Class::ResultSource::UNRESOLVABLE_CONDITION && $DBIx::Class::ResultSource::UNRESOLVABLE_CONDITION == $resolved; my @rel_cols = keys %{ $info->{cond} }; map {s/^foreign\.//} @rel_cols; #warn "REL_COLS: " . Dumper(@rel_cols); use Data::Dumper; #my $rel_col_cnt = scalar @rel_cols; # find out if all related columns are nullable my $all_fks_nullable = 1; for my $rel_col (@rel_cols) { $all_fks_nullable = 0 unless $related_resultset->result_source->column_info($rel_col) ->{is_nullable}; } $if_not_submitted = $all_fks_nullable ? 'nullify' : 'delete' unless defined $if_not_submitted; #warn "\tNULLABLE: $all_fks_nullable ACTION: $if_not_submitted\n"; #warn "RELINFO for $name: " . Dumper($info); use Data::Dumper; # the only valid datatype for a has_many rels is an arrayref if ( $info->{attrs}{accessor} eq 'multi' ) { # handle undef like empty arrayref $updates = [] unless defined $updates; $self->throw_exception( "data for has_many relationship '$name' must be an arrayref") unless ref $updates eq 'ARRAY'; my @updated_objs; #warn "\tupdating has_many rel '$name' ($rel_col_cnt columns cols)\n"; for my $sub_updates ( @{$updates} ) { my $sub_object = recursive_update( resultset => $related_resultset, updates => $sub_updates, resolved => $resolved ); push @updated_objs, $sub_object; } #warn "\tcreated and updated related rows\n"; my @related_pks = $related_resultset->result_source->primary_columns; my $rs_rel_delist = $object->$name; # foreign table has a single pk column if ( scalar @related_pks == 1 ) { $rs_rel_delist = $rs_rel_delist->search_rs( { $related_pks[0] => { -not_in => [ map ( $_->id, @updated_objs ) ] } } ); } # foreign table has multiple pk columns else { my @cond; for my $obj (@updated_objs) { my %cond_for_obj; for my $col (@related_pks) { $cond_for_obj{$col} = $obj->get_column($col); } push @cond, \%cond_for_obj; } # only limit resultset if there are related rows left if ( scalar @cond ) { $rs_rel_delist = $rs_rel_delist->search_rs( { -not => [@cond] } ); } } #warn "\tCOND: " . Dumper(\%cond); #my $rel_delist_cnt = $rs_rel_delist->count; if ( $if_not_submitted eq 'delete' ) { #warn "\tdeleting related rows: $rel_delist_cnt\n"; $rs_rel_delist->delete; } elsif ( $if_not_submitted eq 'set_to_null' ) { #warn "\tnullifying related rows: $rel_delist_cnt\n"; my %update = map { $_ => undef } @rel_cols; $rs_rel_delist->update( \%update ); } } elsif ($info->{attrs}{accessor} eq 'single' || $info->{attrs}{accessor} eq 'filter' ) { #warn "\tupdating rel '$name': $if_not_submitted\n"; my $sub_object; if ( ref $updates ) { # for might_have relationship if ( $info->{attrs}{accessor} eq 'single' && defined $object->$name ) { $sub_object = recursive_update( resultset => $related_resultset, updates => $updates, object => $object->$name ); } else { $sub_object = recursive_update( resultset => $related_resultset, updates => $updates, resolved => $resolved ); } } else { $sub_object = $related_resultset->find($updates) unless ( !$updates && ( exists $info->{attrs}{join_type} && $info->{attrs}{join_type} eq 'LEFT' ) ); } $object->set_from_related( $name, $sub_object ) unless ( !$sub_object && !$updates && ( exists $info->{attrs}{join_type} && $info->{attrs}{join_type} eq 'LEFT' ) ); } else { $self->throw_exception( "recursive_update doesn't now how to handle relationship '$name' with accessor " . $info->{attrs}{accessor} ); } } sub is_m2m { my ( $self, $relation ) = @_; my $rclass = $self->result_class; # DBIx::Class::IntrospectableM2M if ( $rclass->can('_m2m_metadata') ) { return $rclass->_m2m_metadata->{$relation}; } my $object = $self->new( {} ); if ( $object->can($relation) and !$self->result_source->has_relationship($relation) and $object->can( 'set_' . $relation ) ) { return 1; } return; } sub get_m2m_source { my ( $self, $relation ) = @_; my $rclass = $self->result_class; # DBIx::Class::IntrospectableM2M if ( $rclass->can('_m2m_metadata') ) { return $self->result_source->related_source( $rclass->_m2m_metadata->{$relation}{relation} ) ->related_source( $rclass->_m2m_metadata->{$relation}{foreign_relation} ); } my $object = $self->new( {} ); my $r = $object->$relation; return $r->result_source; } sub _delete_empty_auto_increment { my ( $self, $object ) = @_; for my $col ( keys %{ $object->{_column_data} } ) { if ($object->result_source->column_info($col)->{is_auto_increment} and ( !defined $object->{_column_data}{$col} or $object->{_column_data}{$col} eq '' ) ) { delete $object->{_column_data}{$col}; } } } sub _get_pk_for_related { my ( $self, $relation ) = @_; my $result_source; if ( $self->result_source->has_relationship($relation) ) { $result_source = $self->result_source->related_source($relation); } # many to many case if ( is_m2m( $self, $relation ) ) { $result_source = get_m2m_source( $self, $relation ); } return $result_source->primary_columns; } # This function determines wheter a relationship should be done before or # after the row is inserted into the database # relationships before: belongs_to # relationships after: has_many, might_have and has_one # true means before, false after sub _master_relation_cond { my ( $self, $name ) = @_; my $source = $self->result_source; my $info = $source->relationship_info($name); #warn "INFO: " . Dumper($info) . "\n"; # has_many rels are always after return 0 if $info->{attrs}->{accessor} eq 'multi'; my @foreign_ids = _get_pk_for_related( $self, $name ); #warn "IDS: " . join(', ', @foreign_ids) . "\n"; my $cond = $info->{cond}; sub _inner { my ( $source, $cond, @foreign_ids ) = @_; while ( my ( $f_key, $col ) = each %{$cond} ) { # might_have is not master $col =~ s/^self\.//; $f_key =~ s/^foreign\.//; if ( $source->column_info($col)->{is_auto_increment} ) { return 0; } if ( any { $_ eq $f_key } @foreign_ids ) { return 1; } } return 0; } if ( ref $cond eq 'HASH' ) { return _inner( $source, $cond, @foreign_ids ); } # arrayref of hashrefs elsif ( ref $cond eq 'ARRAY' ) { for my $new_cond (@$cond) { return _inner( $source, $new_cond, @foreign_ids ); } } else { $source->throw_exception( "unhandled relation condition " . ref($cond) ); } return; } 1; # Magic true value required at end of module __END__ =head1 SYNOPSIS # The functional interface: my $schema = MyDB::Schema->connect(); my $new_item = DBIx::Class::ResultSet::RecursiveUpdate::Functions::recursive_update( resultset => $schema->resultset('User'), updates => { id => 1, owned_dvds => [ { title => "One Flew Over the Cuckoo's Nest" } ] }, unknown_params_ok => 1, ); # As ResultSet subclass: __PACKAGE__->load_namespaces( default_resultset_class => '+DBIx::Class::ResultSet::RecursiveUpdate' ); # in the Schema file (see t/lib/DBSchema.pm). Or appropriate 'use base' in the ResultSet classes. my $user = $schema->resultset('User')->recursive_update({ id => 1, owned_dvds => [ { title => "One Flew Over the Cuckoo's Nest" } ] }, { unknown_params_ok => 1, }); =head1 DESCRIPTION This is still experimental. You can feed the ->create method of DBIx::Class with a recursive datastructure and have the related records created. Unfortunately you cannot do a similar thing with update_or_create. This module tries to fill that void until L has an api itself. The functional interface can be used without modifications of the model, for example by form processors like L. It is a base class for Ls providing the method recursive_update which works just like update_or_create but can recursively update or create data objects composed of multiple rows. All rows need to be identified by primary keys - so you need to provide them in the update structure (unless they can be deduced from the parent row - for example when you have a belongs_to relationship). If not all columns comprising the primary key are specified a new row will be created, with the expectation that the missing columns will be filled by it (as in the case of auto_increment primary keys). If the resultset itself stores an assignement for the primary key, like in the case of: my $restricted_rs = $user_rs->search( { id => 1 } ); then you need to inform recursive_update about the additional predicate with the fixed_fields attribute: my $user = $restricted_rs->recursive_update( { owned_dvds => [ { title => 'One Flew Over the Cuckoo's Nest' } ] }, { fixed_fields => [ 'id' ], } ); For a many_to_many (pseudo) relation you can supply a list of primary keys from the other table and it will link the record at hand to those and only those records identified by them. This is convenient for handling web forms with check boxes (or a select field with multiple choice) that lets you update such (pseudo) relations. For a description how to set up base classes for ResultSets see L. =head1 DESIGN CHOICES Columns and relationships which are excluded from the updates hashref aren't touched at all. =head2 Treatment of belongs_to relations In case the relationship is included but undefined in the updates hashref, all columns forming the relationship will be set to null. If not all of them are nullable, DBIx::Class will throw an error. Updating the relationship: my $dvd = $dvd_rs->recursive_update( { id => 1, owner => $user->id, }); Clearing the relationship (only works if cols are nullable!): my $dvd = $dvd_rs->recursive_update( { id => 1, owner => undef, }); =head2 Treatment of might_have relationships In case the relationship is included but undefined in the updates hashref, all columns forming the relationship will be set to null. Updating the relationship: my $user = $user_rs->recursive_update( { id => 1, address => { street => "101 Main Street", city => "Podunk", state => "New York", } }); Clearing the relationship: my $user = $user_rs->recursive_update( { id => 1, address => undef, }); =head2 Treatment of has_many relations If a relationship key is included in the data structure with a value of undef or an empty array, all existing related rows will be deleted, or their foreign key columns will be set to null. The exact behaviour depends on the nullability of the foreign key columns and the value of the "if_not_submitted" parameter. The parameter defaults to undefined which neither nullifies nor deletes. When the array contains elements they are updated if they exist, created when not and deleted if not included. =head3 All foreign table columns are nullable In this case recursive_update defaults to nullifying the foreign columns. =head3 Not all foreign table columns are nullable In this case recursive_update deletes the foreign rows. Updating the relationship: Passing ids: my $dvd = $dvd_rs->recursive_update( { id => 1, tags => [1, 2], }); Passing hashrefs: my $dvd = $dvd_rs->recursive_update( { id => 1, tags => [ { id => 1, file => 'file0' }, { id => 2, file => 'file1', }, ], }); Passing objects: TODO You can even mix them: my $dvd = $dvd_rs->recursive_update( { id => 1, tags => [ '2', { id => '3' } ], }); Clearing the relationship: my $dvd = $dvd_rs->recursive_update( { id => 1, tags => undef, }); This is the same as passing an empty array: my $dvd = $dvd_rs->recursive_update( { id => 1, tags => [], }); =head2 Treatment of many-to-many pseudo relations The function gets the information about m2m relations from L. If it isn't loaded in the ResultSource classes the code relies on the fact that: if($object->can($name) and !$object->result_source->has_relationship($name) and $object->can( 'set_' . $name ) ) Then $name must be a many to many pseudo relation. And that in a similarly ugly was I find out what is the ResultSource of objects from that many to many pseudo relation. =head1 INTERFACE =head1 METHODS =head2 recursive_update The method that does the work here. =head2 is_m2m $self->is_m2m( 'name ' ) - answers the question if 'name' is a many to many (pseudo) relation on $self. =head2 get_m2m_source $self->get_m2m_source( 'name' ) - returns the ResultSource linked to by the many to many (pseudo) relation 'name' from $self. =head1 DIAGNOSTICS =head1 CONFIGURATION AND ENVIRONMENT DBIx::Class::RecursiveUpdate requires no configuration files or environment variables. =head1 DEPENDENCIES DBIx::Class =head1 INCOMPATIBILITIES None reported. =head1 BUGS AND LIMITATIONS No bugs have been reported. Please report any bugs or feature requests to C, or through the web interface at L.