package DBIx::Class::Schema::Loader::RelBuilder; use strict; use warnings; use base 'Class::Accessor::Grouped'; use mro 'c3'; use Carp::Clan qw/^DBIx::Class/; use Scalar::Util 'weaken'; use DBIx::Class::Schema::Loader::Utils qw/split_name slurp_file array_eq apply uniq/; use Try::Tiny; use List::Util qw/all any first/; use namespace::clean; use Lingua::EN::Inflect::Phrase (); use Lingua::EN::Tagger (); use String::ToIdentifier::EN (); use String::ToIdentifier::EN::Unicode (); use Class::Unload (); use Class::Inspector (); our $VERSION = '0.07053'; # Glossary: # # local_relname -- name of relationship from the local table referring to the remote table # remote_relname -- name of relationship from the remote table referring to the local table # remote_method -- relationship type from remote table to local table, usually has_many =head1 NAME DBIx::Class::Schema::Loader::RelBuilder - Builds relationships for DBIx::Class::Schema::Loader =head1 SYNOPSIS See L and L. =head1 DESCRIPTION This class builds relationships for L. This is module is not (yet) for external use. =head1 METHODS =head2 new Arguments: $loader object =head2 generate_code Arguments: [ [ local_moniker1 (scalar), fk_info1 (arrayref), uniq_info1 (arrayref) ] [ local_moniker2 (scalar), fk_info2 (arrayref), uniq_info2 (arrayref) ] ... ] This generates the code for the relationships of each table. C is the moniker name of the table which had the REFERENCES statements. The fk_info arrayref's contents should take the form: [ { local_table => 'some_table', local_moniker => 'SomeTable', local_columns => [ 'col2', 'col3' ], remote_table => 'another_table_moniker', remote_moniker => 'AnotherTableMoniker', remote_columns => [ 'col5', 'col7' ], }, { local_table => 'some_other_table', local_moniker => 'SomeOtherTable', local_columns => [ 'col1', 'col4' ], remote_table => 'yet_another_table_moniker', remote_moniker => 'YetAnotherTableMoniker', remote_columns => [ 'col1', 'col2' ], }, # ... ], The uniq_info arrayref's contents should take the form: [ [ uniq_constraint_name => [ 'col1', 'col2' ], ], [ another_uniq_constraint_name => [ 'col1', 'col2' ], ], ], This method will return the generated relationships as a hashref keyed on the class names. The values are arrayrefs of hashes containing method name and arguments, like so: { 'Some::Source::Class' => [ { method => 'belongs_to', arguments => [ 'col1', 'Another::Source::Class' ] }, { method => 'has_many', arguments => [ 'anothers', 'Yet::Another::Source::Class', 'col15' ] }, ], 'Another::Source::Class' => [ # ... ], # ... } =cut __PACKAGE__->mk_group_accessors('simple', qw/ loader schema inflect_plural inflect_singular relationship_attrs rel_collision_map rel_name_map allow_extra_m2m_cols _temp_classes __tagger /); sub new { my ($class, $loader) = @_; # from old POD about this constructor: # C<$schema_class> should be a schema class name, where the source # classes have already been set up and registered. Column info, # primary key, and unique constraints will be drawn from this # schema for all of the existing source monikers. # Options inflect_plural and inflect_singular are optional, and # are better documented in L. my $self = { loader => $loader, (map { $_ => $loader->$_ } qw( schema inflect_plural inflect_singular relationship_attrs rel_collision_map rel_name_map allow_extra_m2m_cols )), _temp_classes => [], }; weaken $self->{loader}; #< don't leak bless $self => $class; # validate the relationship_attrs arg if( defined $self->relationship_attrs ) { (ref $self->relationship_attrs eq 'HASH' || ref $self->relationship_attrs eq 'CODE') or croak "relationship_attrs must be a hashref or coderef"; } return $self; } # pluralize a relationship name sub _inflect_plural { my ($self, $relname) = @_; return '' if !defined $relname || $relname eq ''; my $result; my $mapped = 0; if( ref $self->inflect_plural eq 'HASH' ) { if (exists $self->inflect_plural->{$relname}) { $result = $self->inflect_plural->{$relname}; $mapped = 1; } } elsif( ref $self->inflect_plural eq 'CODE' ) { my $inflected = $self->inflect_plural->($relname); if ($inflected) { $result = $inflected; $mapped = 1; } } return ($result, $mapped) if $mapped; return ($self->_to_PL($relname), 0); } # Singularize a relationship name sub _inflect_singular { my ($self, $relname) = @_; return '' if !defined $relname || $relname eq ''; my $result; my $mapped = 0; if( ref $self->inflect_singular eq 'HASH' ) { if (exists $self->inflect_singular->{$relname}) { $result = $self->inflect_singular->{$relname}; $mapped = 1; } } elsif( ref $self->inflect_singular eq 'CODE' ) { my $inflected = $self->inflect_singular->($relname); if ($inflected) { $result = $inflected; $mapped = 1; } } return ($result, $mapped) if $mapped; return ($self->_to_S($relname), 0); } sub _to_PL { my ($self, $name) = @_; $name =~ s/_/ /g; my $plural = Lingua::EN::Inflect::Phrase::to_PL($name); $plural =~ s/ /_/g; return $plural; } sub _to_S { my ($self, $name) = @_; $name =~ s/_/ /g; my $singular = Lingua::EN::Inflect::Phrase::to_S($name); $singular =~ s/ /_/g; return $singular; } sub _default_relationship_attrs { +{ has_many => { cascade_delete => 0, cascade_copy => 0, }, might_have => { cascade_delete => 0, cascade_copy => 0, }, belongs_to => { on_delete => 'CASCADE', on_update => 'CASCADE', is_deferrable => 1, }, } } # Accessor for options to be passed to each generated relationship type. takes # the relationship type name and optionally any attributes from the database # (such as FK ON DELETE/UPDATE and DEFERRABLE clauses), and returns a # hashref or undef if nothing is set. # # The attributes from the database override the default attributes, which in # turn are overridden by user supplied attributes. sub _relationship_attrs { my ( $self, $reltype, $db_attrs, $params ) = @_; my $r = $self->relationship_attrs; my %composite = ( %{ $self->_default_relationship_attrs->{$reltype} || {} }, %{ $db_attrs || {} }, ( ref $r eq 'HASH' ? ( %{ $r->{all} || {} }, %{ $r->{$reltype} || {} }, ) : () ), ); if (ref $r eq 'CODE') { $params->{attrs} = \%composite; my %ret = %{ $r->(%$params) || {} }; %composite = %ret if %ret; } return %composite ? \%composite : undef; } sub _strip_id_postfix { my ($self, $name) = @_; $name =~ s/_?(?:id|ref|cd|code|num)\z//i; return $name; } sub _remote_attrs { my ($self, $local_moniker, $local_cols, $fk_attrs, $params) = @_; # get our set of attrs from _relationship_attrs, which uses the FK attrs if available my $attrs = $self->_relationship_attrs('belongs_to', $fk_attrs, $params) || {}; # If any referring column is nullable, make 'belongs_to' an # outer join, unless explicitly set by relationship_attrs my $nullable = first { $self->schema->source($local_moniker)->column_info($_)->{is_nullable} } @$local_cols; $attrs->{join_type} = 'LEFT' if $nullable && !defined $attrs->{join_type}; return $attrs; } sub _sanitize_name { my ($self, $name) = @_; $name = $self->loader->_to_identifier('relationships', $name, '_'); $name =~ s/\W+/_/g; # if naming >= 8 to_identifier takes care of it return $name; } sub _normalize_name { my ($self, $name) = @_; $name = $self->_sanitize_name($name); my @words = split_name $name, $self->loader->_get_naming_v('relationships'); return join '_', map lc, @words; } sub _local_relname { my ($self, $remote_table, $cond) = @_; my $local_relname; # for single-column case, set the remote relname to the column # name, to make filter accessors work, but strip trailing _id if(scalar keys %{$cond} == 1) { my ($col) = values %{$cond}; $col = $self->_strip_id_postfix($self->_normalize_name($col)); ($local_relname) = $self->_inflect_singular($col); } else { ($local_relname) = $self->_inflect_singular($self->_normalize_name($remote_table)); } return $local_relname; } sub _resolve_relname_collision { my ($self, $moniker, $cols, $relname) = @_; return $relname if $relname eq 'id'; # this shouldn't happen, but just in case my $table = $self->loader->moniker_to_table->{$moniker}; if ($self->loader->_is_result_class_method($relname, $table)) { if (my $map = $self->rel_collision_map) { for my $re (keys %$map) { if (my @matches = $relname =~ /$re/) { return sprintf $map->{$re}, @matches; } } } my $new_relname = $relname; while ($self->loader->_is_result_class_method($new_relname, $table)) { $new_relname .= '_rel' } warn <<"EOF"; Relationship '$relname' in source '$moniker' for columns '@{[ join ',', @$cols ]}' collides with an inherited method. Renaming to '$new_relname'. See "RELATIONSHIP NAME COLLISIONS" in perldoc DBIx::Class::Schema::Loader::Base . EOF return $new_relname; } return $relname; } sub generate_code { my ($self, $tables) = @_; # make a copy to destroy my @tables = @$tables; my $all_code = {}; while (my ($local_moniker, $rels, $uniqs) = @{ shift @tables || [] }) { my $local_class = $self->schema->class($local_moniker); my %counters; foreach my $rel (@$rels) { next if !$rel->{remote_source}; $counters{$rel->{remote_source}}++; } foreach my $rel (@$rels) { my $remote_moniker = $rel->{remote_source} or next; my $remote_class = $self->schema->class($remote_moniker); my $remote_obj = $self->schema->source($remote_moniker); my $remote_cols = $rel->{remote_columns} || [ $remote_obj->primary_columns ]; my $local_cols = $rel->{local_columns}; if($#$local_cols != $#$remote_cols) { croak "Column count mismatch: $local_moniker (@$local_cols) " . "$remote_moniker (@$remote_cols)"; } my %cond; @cond{@$remote_cols} = @$local_cols; my ( $local_relname, $remote_relname, $remote_method ) = $self->_relnames_and_method( $local_moniker, $rel, \%cond, $uniqs, \%counters ); my $local_method = 'belongs_to'; ($local_relname) = $self->_rel_name_map( $local_relname, $local_method, $local_class, $local_moniker, $local_cols, $remote_class, $remote_moniker, $remote_cols, ); ($remote_relname) = $self->_rel_name_map( $remote_relname, $remote_method, $remote_class, $remote_moniker, $remote_cols, $local_class, $local_moniker, $local_cols, ); $local_relname = $self->_resolve_relname_collision( $local_moniker, $local_cols, $local_relname, ); $remote_relname = $self->_resolve_relname_collision( $remote_moniker, $remote_cols, $remote_relname, ); my $rel_attrs_params = { rel_name => $local_relname, rel_type => $local_method, local_source => $self->schema->source($local_moniker), remote_source => $self->schema->source($remote_moniker), local_table => $rel->{local_table}, local_cols => $local_cols, remote_table => $rel->{remote_table}, remote_cols => $remote_cols, }; push @{$all_code->{$local_class}}, { method => $local_method, args => [ $local_relname, $remote_class, \%cond, $self->_remote_attrs($local_moniker, $local_cols, $rel->{attrs}, $rel_attrs_params), ], extra => { local_class => $local_class, local_moniker => $local_moniker, remote_moniker => $remote_moniker, }, }; my %rev_cond = reverse %cond; for (keys %rev_cond) { $rev_cond{"foreign.$_"} = "self.".$rev_cond{$_}; delete $rev_cond{$_}; } $rel_attrs_params = { rel_name => $remote_relname, rel_type => $remote_method, local_source => $self->schema->source($remote_moniker), remote_source => $self->schema->source($local_moniker), local_table => $rel->{remote_table}, local_cols => $remote_cols, remote_table => $rel->{local_table}, remote_cols => $local_cols, }; push @{$all_code->{$remote_class}}, { method => $remote_method, args => [ $remote_relname, $local_class, \%rev_cond, $self->_relationship_attrs($remote_method, {}, $rel_attrs_params), ], extra => { local_class => $remote_class, local_moniker => $remote_moniker, remote_moniker => $local_moniker, }, }; } } $self->_generate_m2ms($all_code); # disambiguate rels with the same name foreach my $class (keys %$all_code) { my $dups = $self->_duplicates($all_code->{$class}); $self->_disambiguate($all_code, $class, $dups) if $dups; } $self->_cleanup; return $all_code; } # Find classes with only 2 FKs which are the PK and make many_to_many bridges for them. sub _generate_m2ms { my ($self, $all_code) = @_; LINK_CLASS: foreach my $link_class (sort keys %$all_code) { my @rels = grep $_->{method} eq 'belongs_to', @{$all_code->{$link_class}}; next unless @rels == 2; my @class; foreach my $this (0, 1) { my $that = $this ? 0 : 1; my %class; $class[$this] = \%class; $class{local_moniker} = $rels[$this]{extra}{remote_moniker}; $class{remote_moniker} = $rels[$that]{extra}{remote_moniker}; $class{class} = $rels[$this]{args}[1]; my %link_cols = map { $_ => 1 } apply { s/^self\.//i } values %{ $rels[$this]{args}[2] }; $class{link_table_rel} = first { $_->{method} eq 'has_many' and $_->{args}[1] eq $link_class and all { $link_cols{$_} } apply { s/^foreign\.//i } keys %{$_->{args}[2]} } @{ $all_code->{$class{class}} }; next LINK_CLASS unless $class{link_table_rel}; $class{link_table_rel_name} = $class{link_table_rel}{args}[0]; $class{link_rel} = $rels[$that]{args}[0]; $class{from_cols} = [ apply { s/^self\.//i } values %{ $class{link_table_rel}->{args}[2] } ]; $class{to_cols} = [ apply { s/^foreign\.//i } keys %{ $rels[$that]{args}[2] } ]; $class{from_link_cols} = [ apply { s/^self\.//i } values %{ $rels[$this]{args}[2] } ]; } my $link_moniker = $rels[0]{extra}{local_moniker}; my @link_table_cols = @{[ $self->schema->source($link_moniker)->columns ]}; my @link_table_primary_cols = @{[ $self->schema->source($link_moniker)->primary_columns ]}; next unless array_eq( [ sort +uniq @{$class[0]{from_link_cols}}, @{$class[1]{from_link_cols}} ], [ sort @link_table_primary_cols ], ) && ($self->allow_extra_m2m_cols || @link_table_cols == @link_table_primary_cols); foreach my $this (0, 1) { my $that = $this ? 0 : 1; ($class[$this]{m2m_relname}) = $self->_rel_name_map( ($self->_inflect_plural($class[$this]{link_rel}))[0], 'many_to_many', @{$class[$this]}{qw(class local_moniker from_cols)}, $class[$that]{class}, @{$class[$this]}{qw(remote_moniker to_cols)}, { link_class => $link_class, link_moniker => $link_moniker, link_rel_name => $class[$this]{link_table_rel_name}, }, ); $class[$this]{m2m_relname} = $self->_resolve_relname_collision( @{$class[$this]}{qw(local_moniker from_cols m2m_relname)}, ); } for my $this (0, 1) { my $that = $this ? 0 : 1; push @{$all_code->{$class[$this]{class}}}, { method => 'many_to_many', args => [ @{$class[$this]}{qw(m2m_relname link_table_rel_name link_rel)}, $self->_relationship_attrs('many_to_many', {}, { rel_type => 'many_to_many', rel_name => $class[$this]{class2_relname}, local_source => $self->schema->source($class[$this]{local_moniker}), remote_source => $self->schema->source($class[$this]{remote_moniker}), local_table => $self->loader->class_to_table->{$class[$this]{class}}, local_cols => $class[$this]{from_cols}, remote_table => $self->loader->class_to_table->{$class[$that]{class}}, remote_cols => $class[$that]{from_cols}, }) || (), ], extra => { local_class => $class[$this]{class}, link_class => $link_class, local_moniker => $class[$this]{local_moniker}, remote_moniker => $class[$this]{remote_moniker}, }, }; } } } sub _duplicates { my ($self, $rels) = @_; my @rels = map [ $_->{args}[0] => $_ ], @$rels; my %rel_names; $rel_names{$_}++ foreach map $_->[0], @rels; my @dups = grep $rel_names{$_} > 1, keys %rel_names; my %dups; foreach my $dup (@dups) { $dups{$dup} = [ map $_->[1], grep { $_->[0] eq $dup } @rels ]; } return if not %dups; return \%dups; } sub _tagger { my $self = shift; $self->__tagger(Lingua::EN::Tagger->new) unless $self->__tagger; return $self->__tagger; } sub _adjectives { my ($self, @cols) = @_; my @adjectives; foreach my $col (@cols) { my @words = split_name $col; my $tagged = $self->_tagger->get_readable(join ' ', @words); push @adjectives, $tagged =~ m{\G(\w+)/JJ\s+}g; } return @adjectives; } sub _name_to_identifier { my ($self, $name) = @_; my $to_identifier = $self->loader->naming->{force_ascii} ? \&String::ToIdentifier::EN::to_identifier : \&String::ToIdentifier::EN::Unicode::to_identifier; return join '_', map lc, split_name $to_identifier->($name, '_'); } sub _disambiguate { my ($self, $all_code, $in_class, $dups) = @_; DUP: foreach my $dup (keys %$dups) { my @rels = @{ $dups->{$dup} }; # Check if there are rels to the same table name in different # schemas/databases, if so qualify them. my @tables = map $self->loader->moniker_to_table->{$_->{extra}{remote_moniker}}, @rels; # databases are different, prepend database if ($tables[0]->can('database') && (uniq map $_->database||'', @tables) > 1) { # If any rels are in the same database, we have to distinguish by # both schema and database. my %db_counts; $db_counts{$_}++ for map $_->database, @tables; my $use_schema = any { $_ > 1 } values %db_counts; foreach my $i (0..$#rels) { my $rel = $rels[$i]; my $table = $tables[$i]; $rel->{args}[0] = $self->_name_to_identifier($table->database) . ($use_schema ? ('_' . $self->name_to_identifier($table->schema)) : '') . '_' . $rel->{args}[0]; } next DUP; } # schemas are different, prepend schema elsif ((uniq map $_->schema||'', @tables) > 1) { foreach my $i (0..$#rels) { my $rel = $rels[$i]; my $table = $tables[$i]; $rel->{args}[0] = $self->_name_to_identifier($table->schema) . '_' . $rel->{args}[0]; } next DUP; } foreach my $rel (@rels) { next if $rel->{method} =~ /^(?:belongs_to|many_to_many)\z/; my @to_cols = apply { s/^foreign\.//i } keys %{ $rel->{args}[2] }; my @adjectives = $self->_adjectives(@to_cols); # If there are no adjectives, and there is only one might_have # rel to that class, we hardcode 'active'. my $to_class = $rel->{args}[1]; if ((not @adjectives) && (grep { $_->{method} eq 'might_have' && $_->{args}[1] eq $to_class } @{ $all_code->{$in_class} }) == 1) { @adjectives = 'active'; } if (@adjectives) { my $rel_name = join '_', sort(@adjectives), $rel->{args}[0]; ($rel_name) = $rel->{method} eq 'might_have' ? $self->_inflect_singular($rel_name) : $self->_inflect_plural($rel_name); my ($local_class, $local_moniker, $remote_moniker) = @{ $rel->{extra} } {qw/local_class local_moniker remote_moniker/}; my @from_cols = apply { s/^self\.//i } values %{ $rel->{args}[2] }; ($rel_name) = $self->_rel_name_map($rel_name, $rel->{method}, $local_class, $local_moniker, \@from_cols, $to_class, $remote_moniker, \@to_cols); $rel_name = $self->_resolve_relname_collision($local_moniker, \@from_cols, $rel_name); $rel->{args}[0] = $rel_name; } } } # Check again for duplicates, since the heuristics above may not have resolved them all. if ($dups = $self->_duplicates($all_code->{$in_class})) { foreach my $dup (keys %$dups) { # sort by method my @rels = map $_->[1], sort { $a->[0] <=> $b->[0] } map [ { belongs_to => 3, has_many => 2, might_have => 1, many_to_many => 0, }->{$_->{method}}, $_ ], @{ $dups->{$dup} }; my $rel_num = 2; foreach my $rel (@rels[1 .. $#rels]) { my $inflect_type = $rel->{method} =~ /^(?:many_to_many|has_many)\z/ ? 'inflect_plural' : 'inflect_singular'; my $inflect_method = "_$inflect_type"; my $relname_new_uninflected = $rel->{args}[0] . "_$rel_num"; $rel_num++; my ($local_class, $local_moniker, $remote_moniker) = @{ $rel->{extra} } {qw/local_class local_moniker remote_moniker/}; my (@from_cols, @to_cols, $to_class); if ($rel->{method} eq 'many_to_many') { @from_cols = apply { s/^self\.//i } values %{ (first { $_->{args}[0] eq $rel->{args}[1] } @{ $all_code->{$local_class} }) ->{args}[2] }; @to_cols = apply { s/^foreign\.//i } keys %{ (first { $_->{args}[0] eq $rel->{args}[2] } @{ $all_code->{ $rel->{extra}{link_class} } }) ->{args}[2] }; $to_class = $self->schema->source($remote_moniker)->result_class; } else { @from_cols = apply { s/^self\.//i } values %{ $rel->{args}[2] }; @to_cols = apply { s/^foreign\.//i } keys %{ $rel->{args}[2] }; $to_class = $rel->{args}[1]; } my ($relname_new, $inflect_mapped) = $self->$inflect_method($relname_new_uninflected); my $rel_name_mapped; ($relname_new, $rel_name_mapped) = $self->_rel_name_map($relname_new, $rel->{method}, $local_class, $local_moniker, \@from_cols, $to_class, $remote_moniker, \@to_cols); my $mapped = $inflect_mapped || $rel_name_mapped; warn <<"EOF" unless $mapped; Could not find a proper name for relationship '$relname_new' in source '$local_moniker' for columns '@{[ join ',', @from_cols ]}'. Supply a value in '$inflect_type' for '$relname_new_uninflected' or 'rel_name_map' for '$relname_new' to name this relationship. EOF $relname_new = $self->_resolve_relname_collision($local_moniker, \@from_cols, $relname_new); $rel->{args}[0] = $relname_new; } } } } sub _relnames_and_method { my ( $self, $local_moniker, $rel, $cond, $uniqs, $counters ) = @_; my $remote_moniker = $rel->{remote_source}; my $remote_obj = $self->schema->source( $remote_moniker ); my $remote_class = $self->schema->class( $remote_moniker ); my $local_relname = $self->_local_relname( $rel->{remote_table}, $cond); my $local_cols = $rel->{local_columns}; my $local_table = $rel->{local_table}; my $local_class = $self->schema->class($local_moniker); my $local_source = $self->schema->source($local_moniker); my $remote_relname_uninflected = $self->_normalize_name($local_table); my ($remote_relname) = $self->_inflect_plural($self->_normalize_name($local_table)); my $remote_method = 'has_many'; # If the local columns have a UNIQUE constraint, this is a one-to-one rel if (array_eq([ $local_source->primary_columns ], $local_cols) || first { array_eq($_->[1], $local_cols) } @$uniqs) { $remote_method = 'might_have'; ($remote_relname) = $self->_inflect_singular($remote_relname_uninflected); } # If more than one rel between this pair of tables, use the local # col names to distinguish, unless the rel was created previously. if ($counters->{$remote_moniker} > 1) { my $relationship_exists = 0; if (-f (my $existing_remote_file = $self->loader->get_dump_filename($remote_class))) { my $class = "${remote_class}Temporary"; if (not Class::Inspector->loaded($class)) { my $code = slurp_file $existing_remote_file; $code =~ s/(?<=package $remote_class)/Temporary/g; $code =~ s/__PACKAGE__->meta->make_immutable[^;]*;//g; eval $code; die $@ if $@; push @{ $self->_temp_classes }, $class; } if ($class->has_relationship($remote_relname)) { my $rel_cols = [ sort { $a cmp $b } apply { s/^foreign\.//i } (keys %{ $class->relationship_info($remote_relname)->{cond} }) ]; $relationship_exists = 1 if array_eq([ sort @$local_cols ], $rel_cols); } } if (not $relationship_exists) { my $colnames = q{_} . $self->_normalize_name(join '_', @$local_cols); $local_relname .= $colnames if keys %$cond > 1; $remote_relname = $self->_strip_id_postfix($self->_normalize_name($local_table . $colnames)); $remote_relname_uninflected = $remote_relname; ($remote_relname) = $self->_inflect_plural($remote_relname); # if colnames were added and this is a might_have, re-inflect if ($remote_method eq 'might_have') { ($remote_relname) = $self->_inflect_singular($remote_relname_uninflected); } } } return ($local_relname, $remote_relname, $remote_method); } sub _rel_name_map { my ($self, $relname, $method, $local_class, $local_moniker, $local_cols, $remote_class, $remote_moniker, $remote_cols, $extra) = @_; my $info = { %{$extra || {}}, name => $relname, type => $method, local_class => $local_class, local_moniker => $local_moniker, local_columns => $local_cols, remote_class => $remote_class, remote_moniker => $remote_moniker, remote_columns => $remote_cols, }; $self->_run_user_map($self->rel_name_map, $info); } sub _run_user_map { my ($self, $map, $info) = @_; my $new_name = $info->{name}; my $mapped = 0; if ('HASH' eq ref($map)) { my $name = $info->{name}; my $moniker = $info->{local_moniker}; if ($map->{$moniker} and 'HASH' eq ref($map->{$moniker}) and $map->{$moniker}{$name} ) { $new_name = $map->{$moniker}{$name}; $mapped = 1; } elsif ($map->{$name} and not 'HASH' eq ref($map->{$name})) { $new_name = $map->{$name}; $mapped = 1; } } elsif ('CODE' eq ref($map)) { my $cb = sub { my ($cb_map) = @_; croak "reentered rel_name_map must be a hashref" unless 'HASH' eq ref($cb_map); my ($cb_name, $cb_mapped) = $self->_run_user_map($cb_map, $info); return $cb_mapped && $cb_name; }; my $name = $map->($info, $cb); if ($name) { $new_name = $name; $mapped = 1; } } return ($new_name, $mapped); } sub _cleanup { my $self = shift; for my $class (@{ $self->_temp_classes }) { Class::Unload->unload($class); } $self->_temp_classes([]); } =head1 AUTHORS See L. =head1 LICENSE This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut 1; # vim:et sts=4 sw=4 tw=0: