use warnings;
use Class::C3;
use Carp::Clan qw/^DBIx::Class/;
-use Lingua::EN::Inflect::Number ();
+use Scalar::Util ();
-our $VERSION = '0.05003';
+use Lingua::EN::Inflect::Phrase ();
+use DBIx::Class::Schema::Loader::Utils 'split_name';
+
+our $VERSION = '0.07001';
=head1 NAME
=head1 SYNOPSIS
-See L<DBIx::Class::Schema::Loader>
+See L<DBIx::Class::Schema::Loader> and L<DBIx::Class::Schema::Loader::Base>.
=head1 DESCRIPTION
=head2 new
-Arguments: schema_class (scalar), inflect_plural, inflect_singular
-
-C<$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<DBIx::Class::Schema::Loader::Base>.
+Arguments: $base object
=head2 generate_code
=cut
+
sub new {
+ my ( $class, $base ) = @_;
- my ( $class, $schema, $inflect_pl, $inflect_singular, $rel_attrs ) = @_;
+ # from old POD about this constructor:
+ # C<$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<DBIx::Class::Schema::Loader::Base>.
my $self = {
- schema => $schema,
- inflect_plural => $inflect_pl,
- inflect_singular => $inflect_singular,
- relationship_attrs => $rel_attrs,
+ base => $base,
+ schema => $base->schema,
+ inflect_plural => $base->inflect_plural,
+ inflect_singular => $base->inflect_singular,
+ relationship_attrs => $base->relationship_attrs,
};
+ Scalar::Util::weaken $self->{base}; #< don't leak
+
# validate the relationship_attrs arg
if( defined $self->{relationship_attrs} ) {
- ref($self->{relationship_attrs}) eq 'HASH'
+ ref $self->{relationship_attrs} eq 'HASH'
or croak "relationship_attrs must be a hashref";
}
return $inflected if $inflected;
}
- return Lingua::EN::Inflect::Number::to_PL($relname);
+ return $self->_to_PL($relname);
}
# Singularize a relationship name
return $inflected if $inflected;
}
- return Lingua::EN::Inflect::Number::to_S($relname);
+ return $self->_to_S($relname);
}
+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. take single argument, the relationship type name, and returns
# either a hashref (if some options are set), or nothing
sub _relationship_attrs {
my ( $self, $reltype ) = @_;
my $r = $self->{relationship_attrs};
- return unless $r && ( $r->{all} || $r->{$reltype} );
- my %composite = %{ $r->{all} || {} };
+ my %composite = (
+ %{ $self->_default_relationship_attrs->{$reltype} || {} },
+ %{ $r->{all} || {} }
+ );
+
if( my $specific = $r->{$reltype} ) {
while( my ($k,$v) = each %$specific ) {
$composite{$k} = $v;
}
sub _array_eq {
- my ($a, $b) = @_;
+ my ($self, $a, $b) = @_;
return unless @$a == @$b;
}
sub _remote_attrs {
- my ($self, $local_moniker, $local_cols) = @_;
+ my ($self, $local_moniker, $local_cols) = @_;
+
+ # get our base set of attrs from _relationship_attrs, if present
+ my $attrs = $self->_relationship_attrs('belongs_to') || {};
+
+ # If the referring column is nullable, make 'belongs_to' an
+ # outer join, unless explicitly set by relationship_attrs
+ my $nullable = grep { $self->{schema}->source($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) = @_;
+
+ if (ref $name) {
+ # scalar ref for weird table name (like one containing a '.')
+ ($name = $$name) =~ s/\W+/_/g;
+ }
+ else {
+ # remove 'schema.' prefix if any
+ $name =~ s/^[^.]+\.//;
+ }
- # get our base set of attrs from _relationship_attrs, if present
- my $attrs = $self->_relationship_attrs('belongs_to') || {};
+ return $name;
+}
- # If the referring column is nullable, make 'belongs_to' an
- # outer join, unless explicitly set by relationship_attrs
- my $nullable = grep { $self->{schema}->source($local_moniker)->column_info($_)->{is_nullable} }
- @$local_cols;
- $attrs->{join_type} = 'LEFT'
- if $nullable && !defined $attrs->{join_type};
+sub _normalize_name {
+ my ($self, $name) = @_;
- return $attrs;
+ $name = $self->_sanitize_name($name);
+
+ my @words = split_name $name;
+
+ return join '_', map lc, @words;
}
sub _remote_relname {
# name, to make filter accessors work, but strip trailing _id
if(scalar keys %{$cond} == 1) {
my ($col) = values %{$cond};
- $col = lc $col;
+ $col = $self->_normalize_name($col);
$col =~ s/_id$//;
$remote_relname = $self->_inflect_singular($col);
}
else {
- $remote_relname = $self->_inflect_singular(lc $remote_table);
+ $remote_relname = $self->_inflect_singular($self->_normalize_name($remote_table));
}
return $remote_relname;
my $remote_moniker = $rel->{remote_source};
my $remote_obj = $self->{schema}->source( $remote_moniker );
my $remote_class = $self->{schema}->class( $remote_moniker );
- my $remote_relname = lc $self->_remote_relname( $remote_obj->from, $cond);
+ my $remote_relname = $self->_remote_relname( $remote_obj->from, $cond);
my $local_cols = $rel->{local_columns};
my $local_table = $self->{schema}->source($local_moniker)->from;
# If more than one rel between this pair of tables, use the local
# col names to distinguish
- my $local_relname;
- my $old_multirel_name; #< TODO: remove me
+ my ($local_relname, $local_relname_uninflected);
if ( $counters->{$remote_moniker} > 1) {
- my $colnames = lc(q{_} . join(q{_}, @$local_cols));
+ my $colnames = q{_} . $self->_normalize_name(join '_', @$local_cols);
$remote_relname .= $colnames if keys %$cond > 1;
- $local_relname = lc($local_table) . $colnames;
- $local_relname =~ s/_id$//
- #< TODO: remove me
- and $old_multirel_name = $self->_inflect_plural( lc($local_table) . $colnames );
- $local_relname = $self->_inflect_plural( $local_relname );
+ $local_relname = $self->_normalize_name($local_table . $colnames);
+ $local_relname =~ s/_id$//;
+ $local_relname_uninflected = $local_relname;
+ $local_relname = $self->_inflect_plural($local_relname);
} else {
- $local_relname = $self->_inflect_plural(lc $local_table);
+ $local_relname_uninflected = $self->_normalize_name($local_table);
+ $local_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
my $local_source = $self->{schema}->source($local_moniker);
- if (_array_eq([ $local_source->primary_columns ], $local_cols) ||
- grep { _array_eq($_->[1], $local_cols) } @$uniqs) {
+ if ($self->_array_eq([ $local_source->primary_columns ], $local_cols) ||
+ grep { $self->_array_eq($_->[1], $local_cols) } @$uniqs) {
$remote_method = 'might_have';
- $local_relname = $self->_inflect_singular($local_relname);
- #< TODO: remove me
- $old_multirel_name = $self->_inflect_singular($old_multirel_name);
+ $local_relname = $self->_inflect_singular($local_relname_uninflected);
}
- # TODO: remove me after 0.05003 release
- $old_multirel_name
- and warn __PACKAGE__." $VERSION: warning, stripping trailing _id from ${remote_class} relation '$old_multirel_name', renaming to '$local_relname'. This behavior is new as of 0.05003.\n";
-
return ( $local_relname, $remote_relname, $remote_method );
}
=cut
1;
+# vim:et sts=4 sw=4 tw=0: