package DBIx::Class::Schema::Loader::DBI::Pg; use strict; use warnings; use base 'DBIx::Class::Schema::Loader::DBI::Component::QuotedDefault'; use mro 'c3'; our $VERSION = '0.07034_02'; =head1 NAME DBIx::Class::Schema::Loader::DBI::Pg - DBIx::Class::Schema::Loader::DBI PostgreSQL Implementation. =head1 DESCRIPTION See L and L. =cut sub _setup { my $self = shift; $self->next::method(@_); $self->{db_schema} ||= ['public']; if (not defined $self->preserve_case) { $self->preserve_case(0); } elsif ($self->preserve_case) { $self->schema->storage->sql_maker->quote_char('"'); $self->schema->storage->sql_maker->name_sep('.'); } } sub _system_schemas { my $self = shift; return ($self->next::method(@_), 'pg_catalog'); } my %pg_rules = ( a => 'NO ACTION', r => 'RESTRICT', c => 'CASCADE,', n => 'SET NULL', d => 'SET DEFAULT', ); sub _table_fk_info { my ($self, $table) = @_; my $sth = $self->dbh->prepare_cached(<<"EOF"); select q.constr_name, q.to_schema, q.to_table, from_cols.attname from_col, to_cols.attname to_col, q.on_delete, q.on_update, q.is_deferrable from (select constr.conname constr_name, to_ns.nspname to_schema, to_class.relname to_table, unnest(constr.conkey) from_colnum, unnest(constr.confkey) to_colnum, constr.confdeltype on_delete, constr.confupdtype on_update, constr.condeferrable is_deferrable, constr.conrelid conrelid, constr.confrelid confrelid from pg_constraint constr join pg_namespace from_ns on constr.connamespace = from_ns.oid join pg_class from_class on constr.conrelid = from_class.oid and from_class.relnamespace = from_ns.oid join pg_class to_class on constr.confrelid = to_class.oid join pg_namespace to_ns on to_class.relnamespace = to_ns.oid where from_ns.nspname = ? and from_class.relname = ? and from_class.relkind = 'r' and constr.contype = 'f' ) q join pg_attribute from_cols on from_cols.attrelid = q.conrelid and from_cols.attnum = q.from_colnum join pg_attribute to_cols on to_cols.attrelid = q.confrelid and to_cols.attnum = q.to_colnum; EOF $sth->execute($table->schema, $table->name); my %rels; while (my ($fk, $remote_schema, $remote_table, $col, $remote_col, $delete_rule, $update_rule, $is_deferrable) = $sth->fetchrow_array) { push @{ $rels{$fk}{local_columns} }, $self->_lc($col); push @{ $rels{$fk}{remote_columns} }, $self->_lc($remote_col); $rels{$fk}{remote_table} = DBIx::Class::Schema::Loader::Table->new( loader => $self, name => $remote_table, schema => $remote_schema, ) unless exists $rels{$fk}{remote_table}; $rels{$fk}{attrs} ||= { on_delete => $pg_rules{$delete_rule}, on_update => $pg_rules{$update_rule}, is_deferrable => $is_deferrable, }; } return [ values %rels ]; } sub _table_uniq_info { my ($self, $table) = @_; # Use the default support if available return $self->next::method($table) if $DBD::Pg::VERSION >= 1.50; my @uniqs; # Most of the SQL here is mostly based on # Rose::DB::Object::Metadata::Auto::Pg, after some prodding from # John Siracusa to use his superior SQL code :) my $attr_sth = $self->{_cache}->{pg_attr_sth} ||= $self->dbh->prepare( q{SELECT attname FROM pg_catalog.pg_attribute WHERE attrelid = ? AND attnum = ?} ); my $uniq_sth = $self->{_cache}->{pg_uniq_sth} ||= $self->dbh->prepare( q{SELECT x.indrelid, i.relname, x.indkey FROM pg_catalog.pg_index x JOIN pg_catalog.pg_class c ON c.oid = x.indrelid JOIN pg_catalog.pg_class i ON i.oid = x.indexrelid JOIN pg_catalog.pg_constraint con ON con.conname = i.relname LEFT JOIN pg_catalog.pg_namespace n ON n.oid = c.relnamespace WHERE x.indisunique = 't' AND c.relkind = 'r' AND i.relkind = 'i' AND con.contype = 'u' AND n.nspname = ? AND c.relname = ?} ); $uniq_sth->execute($table->schema, $table->name); while(my $row = $uniq_sth->fetchrow_arrayref) { my ($tableid, $indexname, $col_nums) = @$row; $col_nums =~ s/^\s+//; my @col_nums = split(/\s+/, $col_nums); my @col_names; foreach (@col_nums) { $attr_sth->execute($tableid, $_); my $name_aref = $attr_sth->fetchrow_arrayref; push(@col_names, $self->_lc($name_aref->[0])) if $name_aref; } if(!@col_names) { warn "Failed to parse UNIQUE constraint $indexname on $table"; } else { push(@uniqs, [ $indexname => \@col_names ]); } } return \@uniqs; } sub _table_comment { my $self = shift; my ($table) = @_; my $table_comment = $self->next::method(@_); return $table_comment if $table_comment; ($table_comment) = $self->dbh->selectrow_array(<<'EOF', {}, $table->name, $table->schema); SELECT obj_description(oid) FROM pg_class WHERE relname=? AND relnamespace=(SELECT oid FROM pg_namespace WHERE nspname=?) EOF return $table_comment } sub _column_comment { my $self = shift; my ($table, $column_number, $column_name) = @_; my $column_comment = $self->next::method(@_); return $column_comment if $column_comment; my ($table_oid) = $self->dbh->selectrow_array(<<'EOF', {}, $table->name, $table->schema); SELECT oid FROM pg_class WHERE relname=? AND relnamespace=(SELECT oid FROM pg_namespace WHERE nspname=?) EOF return $self->dbh->selectrow_array('SELECT col_description(?,?)', {}, $table_oid, $column_number); } # Make sure data_type's that don't need it don't have a 'size' column_info, and # set the correct precision for datetime and varbit types. sub _columns_info_for { my $self = shift; my ($table) = @_; my $result = $self->next::method(@_); while (my ($col, $info) = each %$result) { my $data_type = $info->{data_type}; # these types are fixed size # XXX should this be a negative match? if ($data_type =~ /^(?:bigint|int8|bigserial|serial8|bool(?:ean)?|box|bytea|cidr|circle|date|double precision|float8|inet|integer|int|int4|line|lseg|macaddr|money|path|point|polygon|real|float4|smallint|int2|serial|serial4|text)\z/i) { delete $info->{size}; } # for datetime types, check if it has a precision or not elsif ($data_type =~ /^(?:interval|time|timestamp)\b/i) { if (lc($data_type) eq 'timestamp without time zone') { $info->{data_type} = 'timestamp'; } elsif (lc($data_type) eq 'time without time zone') { $info->{data_type} = 'time'; } my ($precision) = $self->schema->storage->dbh ->selectrow_array(<name, $col); SELECT datetime_precision FROM information_schema.columns WHERE table_name = ? and column_name = ? EOF if ($data_type =~ /^time\b/i) { if ((not $precision) || $precision !~ /^\d/) { delete $info->{size}; } else { my ($integer_datetimes) = $self->dbh ->selectrow_array('show integer_datetimes'); my $max_precision = $integer_datetimes =~ /^on\z/i ? 6 : 10; if ($precision == $max_precision) { delete $info->{size}; } else { $info->{size} = $precision; } } } elsif ((not $precision) || $precision !~ /^\d/ || $precision == 6) { delete $info->{size}; } else { $info->{size} = $precision; } } elsif ($data_type =~ /^(?:bit(?: varying)?|varbit)\z/i) { $info->{data_type} = 'varbit' if $data_type =~ /var/i; my ($precision) = $self->dbh->selectrow_array(<name, $col); SELECT character_maximum_length FROM information_schema.columns WHERE table_name = ? and column_name = ? EOF $info->{size} = $precision if $precision; $info->{size} = 1 if (not $precision) && lc($data_type) eq 'bit'; } elsif ($data_type =~ /^(?:numeric|decimal)\z/i && (my $size = $info->{size})) { $size =~ s/\s*//g; my ($scale, $precision) = split /,/, $size; $info->{size} = [ $precision, $scale ]; } elsif (lc($data_type) eq 'character varying') { $info->{data_type} = 'varchar'; if (not $info->{size}) { $info->{data_type} = 'text'; $info->{original}{data_type} = 'varchar'; } } elsif (lc($data_type) eq 'character') { $info->{data_type} = 'char'; } else { my ($typetype) = $self->schema->storage->dbh ->selectrow_array(<dbh ->selectall_arrayref(<{data_type}); SELECT e.enumlabel FROM pg_catalog.pg_enum e JOIN pg_catalog.pg_type t ON t.oid = e.enumtypid WHERE t.typname = ? EOF $info->{extra}{list} = [ map { $_->[0] } @$typevalues ]; # Store its original name in extra for SQLT to pick up. $info->{extra}{custom_type_name} = $info->{data_type}; $info->{data_type} = 'enum'; delete $info->{size}; } } # process SERIAL columns if (ref($info->{default_value}) eq 'SCALAR' && ${ $info->{default_value} } =~ /\bnextval\('([^:]+)'/i) { $info->{is_auto_increment} = 1; $info->{sequence} = $1; delete $info->{default_value}; } # alias now() to current_timestamp for deploying to other DBs if ((eval { lc ${ $info->{default_value} } }||'') eq 'now()') { # do not use a ref to a constant, that breaks Data::Dump output ${$info->{default_value}} = 'current_timestamp'; my $now = 'now()'; $info->{original}{default_value} = \$now; } # detect 0/1 for booleans and rewrite if ($data_type =~ /^bool/i && exists $info->{default_value}) { if ($info->{default_value} eq '0') { my $false = 'false'; $info->{default_value} = \$false; } elsif ($info->{default_value} eq '1') { my $true = 'true'; $info->{default_value} = \$true; } } } return $result; } =head1 SEE ALSO L, L, L =head1 AUTHOR See L and 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;