1 package DBIx::Class::Schema::Loader::DBI::SQLAnywhere;
7 DBIx::Class::Schema::Loader::DBI::Component::QuotedDefault
8 DBIx::Class::Schema::Loader::DBI
10 use Carp::Clan qw/^DBIx::Class/;
12 our $VERSION = '0.07000';
16 DBIx::Class::Schema::Loader::DBI::SQLAnywhere - DBIx::Class::Schema::Loader::DBI
17 SQL Anywhere Implementation.
21 See L<DBIx::Class::Schema::Loader::Base>.
28 $self->{db_schema} ||=
29 ($self->schema->storage->dbh->selectrow_array('select user'))[0];
33 my ($self, $opts) = @_;
35 my $dbh = $self->schema->storage->dbh;
36 my $sth = $dbh->prepare(<<'EOF');
37 select t.table_name from systab t
38 join sysuser u on u.user_id = t.creator
41 $sth->execute($self->db_schema);
43 my @tables = map @$_, @{ $sth->fetchall_arrayref };
45 return $self->_filter_tables(\@tables, $opts);
48 sub _columns_info_for {
52 my $result = $self->next::method(@_);
54 my $dbh = $self->schema->storage->dbh;
56 while (my ($column, $info) = each %$result) {
57 my $def = $info->{default_value};
58 if (ref $def eq 'SCALAR' && $$def eq 'autoincrement') {
59 delete $info->{default_value};
60 $info->{is_auto_increment} = 1;
63 my ($user_type) = $dbh->selectrow_array(<<'EOF', {}, $table, lc $column);
66 JOIN systab t ON tc.table_id = t.table_id
67 JOIN sysusertype ut on tc.user_type = ut.type_id
68 WHERE t.table_name = ? AND lower(tc.column_name) = ?
70 $info->{data_type} = $user_type if defined $user_type;
72 if ($info->{data_type} eq 'double') {
73 $info->{data_type} = 'double precision';
76 if ($info->{data_type} =~ /^(?:char|varchar|binary|varbinary)\z/ && ref($info->{size}) eq 'ARRAY') {
77 $info->{size} = $info->{size}[0];
79 elsif ($info->{data_type} !~ /^(?:char|varchar|binary|varbinary|numeric|decimal)\z/) {
83 my $sth = $dbh->prepare(<<'EOF');
84 SELECT tc.width, tc.scale
86 JOIN systab t ON t.table_id = tc.table_id
87 WHERE t.table_name = ? AND lower(tc.column_name) = ?
89 $sth->execute($table, lc $column);
90 my ($width, $scale) = $sth->fetchrow_array;
93 if ($info->{data_type} =~ /^(?:numeric|decimal)\z/) {
94 # We do not check for the default precision/scale, because they can be changed as PUBLIC database options.
95 $info->{size} = [$width, $scale];
97 elsif ($info->{data_type} =~ /^(?:n(?:varchar|char) | varbit)\z/x) {
98 $info->{size} = $width;
101 delete $info->{default_value} if ref($info->{default_value}) eq 'SCALAR' && ${ $info->{default_value} } eq 'NULL';
103 if (eval { lc ${ $info->{default_value} } }||'' eq 'current timestamp') {
104 ${ $info->{default_value} } = 'CURRENT_TIMESTAMP';
112 my ($self, $table) = @_;
113 my $dbh = $self->schema->storage->dbh;
114 local $dbh->{FetchHashKeyName} = 'NAME_lc';
115 my $sth = $dbh->prepare(qq{sp_pkeys ?});
116 $sth->execute($table);
120 while (my $row = $sth->fetchrow_hashref) {
121 push @keydata, lc $row->{column_name};
128 my ($self, $table) = @_;
130 my ($local_cols, $remote_cols, $remote_table, @rels);
131 my $dbh = $self->schema->storage->dbh;
132 my $sth = $dbh->prepare(<<'EOF');
133 select fki.index_name fk_name, fktc.column_name local_column, pkt.table_name remote_table, pktc.column_name remote_column
135 join systab pkt on fk.primary_table_id = pkt.table_id
136 join systab fkt on fk.foreign_table_id = fkt.table_id
137 join sysidx pki on fk.primary_table_id = pki.table_id and fk.primary_index_id = pki.index_id
138 join sysidx fki on fk.foreign_table_id = fki.table_id and fk.foreign_index_id = fki.index_id
139 join sysidxcol fkic on fkt.table_id = fkic.table_id and fki.index_id = fkic.index_id
140 join systabcol pktc on pkt.table_id = pktc.table_id and fkic.primary_column_id = pktc.column_id
141 join systabcol fktc on fkt.table_id = fktc.table_id and fkic.column_id = fktc.column_id
142 where fkt.table_name = ?
144 $sth->execute($table);
146 while (my ($fk, $local_col, $remote_tab, $remote_col) = $sth->fetchrow_array) {
147 push @{$local_cols->{$fk}}, lc $local_col;
148 push @{$remote_cols->{$fk}}, lc $remote_col;
149 $remote_table->{$fk} = lc $remote_tab;
152 foreach my $fk (keys %$remote_table) {
154 local_columns => $local_cols->{$fk},
155 remote_columns => $remote_cols->{$fk},
156 remote_table => $remote_table->{$fk},
162 sub _table_uniq_info {
163 my ($self, $table) = @_;
165 my $dbh = $self->schema->storage->dbh;
166 my $sth = $dbh->prepare(<<'EOF');
167 select c.constraint_name, tc.column_name
169 join systab t on c.table_object_id = t.object_id
170 join sysidx i on c.ref_object_id = i.object_id
171 join sysidxcol ic on i.table_id = ic.table_id and i.index_id = ic.index_id
172 join systabcol tc on ic.table_id = tc.table_id and ic.column_id = tc.column_id
173 where c.constraint_type = 'U' and t.table_name = ?
175 $sth->execute($table);
178 while (my ($constraint_name, $column) = $sth->fetchrow_array) {
179 push @{$constraints->{$constraint_name}}, lc $column;
182 my @uniqs = map { [ $_ => $constraints->{$_} ] } keys %$constraints;
188 L<DBIx::Class::Schema::Loader>, L<DBIx::Class::Schema::Loader::Base>,
189 L<DBIx::Class::Schema::Loader::DBI>
193 See L<DBIx::Class::Schema::Loader/AUTHOR> and L<DBIx::Class::Schema::Loader/CONTRIBUTORS>.
197 This library is free software; you can redistribute it and/or modify it under
198 the same terms as Perl itself.
203 # vim:et sw=4 sts=4 tw=0: