use Try::Tiny;
use DBIx::Class ();
use Encode qw/encode/;
+use List::MoreUtils 'all';
use namespace::clean;
our $VERSION = '0.07010';
qualify_objects
tables
class_to_table
+ uniq_to_primary
/);
preserve_case
col_collision_map
rel_collision_map
+ rel_name_map
real_dump_directory
result_components_map
result_roles_map
column_info => hashref of column info (data_type, is_nullable, etc),
}
+=head2 rel_name_map
+
+Similar in idea to moniker_map, but different in the details. It can be
+a hashref or a code ref.
+
+If it is a hashref, keys can be either the default relationship name, or the
+moniker. The keys that are the default relationship name should map to the
+name you want to change the relationship to. Keys that are monikers should map
+to hashes mapping relationship names to their translation. You can do both at
+once, and the more specific moniker version will be picked up first. So, for
+instance, you could have
+
+ {
+ bar => "baz",
+ Foo => {
+ bar => "blat",
+ },
+ }
+
+and relationships that would have been named C<bar> will now be named C<baz>
+except that in the table whose moniker is C<Foo> it will be named C<blat>.
+
+If it is a coderef, the argument passed will be a hashref of this form:
+
+ {
+ name => default relationship name,
+ type => the relationship type eg: C<has_many>,
+ local_class => name of the DBIC class we are building,
+ local_moniker => moniker of the DBIC class we are building,
+ local_columns => columns in this table in the relationship,
+ remote_class => name of the DBIC class we are related to,
+ remote_moniker => moniker of the DBIC class we are related to,
+ remote_columns => columns in the other table in the relationship,
+ }
+
+DBICSL will try to use the value returned as the relationship name.
+
=head2 inflect_plural
Just like L</moniker_map> above (can be hash/code-ref, falls back to default
The default is to just append C<_rel> to the relationship name, see
L</RELATIONSHIP NAME COLLISIONS>.
+=head2 uniq_to_primary
+
+Automatically promotes the largest unique constraints with non-nullable columns
+on tables to primary keys, assuming there is only one largest unique
+constraint.
+
=head1 METHODS
None of these methods are intended for direct invocation by regular
}
}
+ if (defined(my $rel_name_map = $self->rel_name_map)) {
+ my $reftype = ref $rel_name_map;
+ if ($reftype ne 'HASH' && $reftype ne 'CODE') {
+ croak "Invalid type $reftype for option 'rel_name_map', must be HASH or CODE";
+ }
+ }
+
$self;
}
}
}
- delete $self->{_dump_storage};
- delete $self->{_relations_started};
+ delete @$self{qw/_dump_storage _relations_started _uniqs_started/};
my $loaded = $self->_load_tables(@current);
}
}
-# use the same logic to run moniker_map, col_accessor_map, and
-# relationship_name_map
+# use the same logic to run moniker_map, col_accessor_map
sub _run_user_map {
my ( $self, $map, $default_code, $ident, @extra ) = @_;
# be careful to not create refs Data::Dump can "optimize"
$full_table_name = \do {"".$full_table_name} if ref $table_name;
- $self->_raw_stmt($table_class, ''); # add a blank line
-
$self->_dbic_stmt($table_class, 'table', $full_table_name);
my $cols = $self->_table_columns($table);
my $pks = $self->_table_pk_info($table) || [];
+ my %uniq_tag; # used to eliminate duplicate uniqs
+
+ $uniq_tag{ join("\0", @$pks) }++ if @$pks; # pk is a uniq
+
+ my $uniqs = $self->_table_uniq_info($table) || [];
+ my @uniqs;
+
+ foreach my $uniq (@$uniqs) {
+ my ($name, $cols) = @$uniq;
+ next if $uniq_tag{ join("\0", @$cols) }++; # skip duplicates
+ push @uniqs, [$name, $cols];
+ }
+
+ my @non_nullable_uniqs = grep {
+ all { $col_info->{$_}{is_nullable} == 0 } @{ $_->[1] }
+ } @uniqs;
+
+ if ($self->uniq_to_primary && (not @$pks) && @non_nullable_uniqs) {
+ my @by_colnum = sort { $b->[0] <=> $a->[0] }
+ map [ scalar @{ $_->[1] }, $_ ], @non_nullable_uniqs;
+
+ if (not (@by_colnum > 1 && $by_colnum[0][0] == $by_colnum[1][0])) {
+ my @keys = map $_->[1], @by_colnum;
+
+ my $pk = $keys[0];
+
+ # remove the uniq from list
+ @uniqs = grep { $_->[0] ne $pk->[0] } @uniqs;
+
+ $pks = $pk->[1];
+ }
+ }
+
foreach my $pkcol (@$pks) {
$col_info->{$pkcol}{is_nullable} = 0;
}
map { $_, ($col_info->{$_}||{}) } @$cols
);
- my %uniq_tag; # used to eliminate duplicate uniqs
-
- @$pks ? $self->_dbic_stmt($table_class,'set_primary_key',@$pks)
- : carp("$table has no primary key");
- $uniq_tag{ join("\0", @$pks) }++ if @$pks; # pk is a uniq
+ $self->_dbic_stmt($table_class, 'set_primary_key', @$pks)
+ if @$pks;
- my $uniqs = $self->_table_uniq_info($table) || [];
- for (@$uniqs) {
- my ($name, $cols) = @$_;
- next if $uniq_tag{ join("\0", @$cols) }++; # skip duplicates
+ foreach my $uniq (@uniqs) {
+ my ($name, $cols) = @$uniq;
$self->_dbic_stmt($table_class,'add_unique_constraint', $name, $cols);
}
-
}
sub __columns_info_for {
if ($method eq 'table') {
my $table = $_[0];
+ $table = $$table if ref $table eq 'SCALAR';
$self->_pod($class, "=head1 TABLE: C<$table>");
$self->_pod_cut($class);
}