| DBIx-Class-Schema-Loader documentation | Contained in the DBIx-Class-Schema-Loader distribution. |
DBIx::Class::Schema::Loader::DBI::mysql - DBIx::Class::Schema::Loader::DBI mysql Implementation.
package My::Schema; use base qw/DBIx::Class::Schema::Loader/; __PACKAGE__->loader_options( debug => 1 ); 1;
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
| DBIx-Class-Schema-Loader documentation | Contained in the DBIx-Class-Schema-Loader distribution. |
package DBIx::Class::Schema::Loader::DBI::mysql; use strict; use warnings; use base 'DBIx::Class::Schema::Loader::DBI'; use Carp::Clan qw/^DBIx::Class/; use mro 'c3'; our $VERSION = '0.07010';
sub _setup { my $self = shift; $self->next::method(@_); if (not defined $self->preserve_case) { $self->preserve_case(0); } } sub _tables_list { my ($self, $opts) = @_; return $self->next::method($opts, undef, undef); } sub _table_fk_info { my ($self, $table) = @_; my $dbh = $self->schema->storage->dbh; my $table_def_ref = eval { $dbh->selectrow_arrayref("SHOW CREATE TABLE `$table`") }; my $table_def = $table_def_ref->[1]; return [] if not $table_def; my $qt = qr/["`]/; my (@reldata) = ($table_def =~ /CONSTRAINT $qt.*$qt FOREIGN KEY \($qt(.*)$qt\) REFERENCES $qt(.*)$qt \($qt(.*)$qt\)/ig ); my @rels; while (scalar @reldata > 0) { my $cols = shift @reldata; my $f_table = shift @reldata; my $f_cols = shift @reldata; my @cols = map { s/(?: \Q$self->{_quoter}\E | $qt )//x; $self->_lc($_) } split(/$qt?\s*$qt?,$qt?\s*$qt?/, $cols); my @f_cols = map { s/(?: \Q$self->{_quoter}\E | $qt )//x; $self->_lc($_) } split(/$qt?\s*$qt?,$qt?\s*$qt?/, $f_cols); push(@rels, { local_columns => \@cols, remote_columns => \@f_cols, remote_table => $f_table }); } return \@rels; } # primary and unique info comes from the same sql statement, # so cache it here for both routines to use sub _mysql_table_get_keys { my ($self, $table) = @_; if(!exists($self->{_cache}->{_mysql_keys}->{$table})) { my %keydata; my $dbh = $self->schema->storage->dbh; my $sth = $dbh->prepare('SHOW INDEX FROM '.$self->_table_as_sql($table)); $sth->execute; while(my $row = $sth->fetchrow_hashref) { next if $row->{Non_unique}; push(@{$keydata{$row->{Key_name}}}, [ $row->{Seq_in_index}, $self->_lc($row->{Column_name}) ] ); } foreach my $keyname (keys %keydata) { my @ordered_cols = map { $_->[1] } sort { $a->[0] <=> $b->[0] } @{$keydata{$keyname}}; $keydata{$keyname} = \@ordered_cols; } $self->{_cache}->{_mysql_keys}->{$table} = \%keydata; } return $self->{_cache}->{_mysql_keys}->{$table}; } sub _table_pk_info { my ( $self, $table ) = @_; return $self->_mysql_table_get_keys($table)->{PRIMARY}; } sub _table_uniq_info { my ( $self, $table ) = @_; my @uniqs; my $keydata = $self->_mysql_table_get_keys($table); foreach my $keyname (keys %$keydata) { next if $keyname eq 'PRIMARY'; push(@uniqs, [ $keyname => $keydata->{$keyname} ]); } return \@uniqs; } sub _columns_info_for { my $self = shift; my ($table) = @_; my $result = $self->next::method(@_); my $dbh = $self->schema->storage->dbh; while (my ($col, $info) = each %$result) { delete $info->{size} if $info->{data_type} !~ /^(?: (?:var)?(?:char(?:acter)?|binary) | bit | year)\z/ix; if ($info->{data_type} eq 'int') { $info->{data_type} = 'integer'; } elsif ($info->{data_type} eq 'double') { $info->{data_type} = 'double precision'; } # information_schema is available in 5.0+ my ($precision, $scale, $column_type, $default) = eval { $dbh->selectrow_array(<<'EOF', {}, $table, $col) }; SELECT numeric_precision, numeric_scale, column_type, column_default FROM information_schema.columns WHERE table_name = ? AND column_name = ? EOF my $has_information_schema = not defined $@; $column_type = '' if not defined $column_type; if ($info->{data_type} eq 'bit' && (not exists $info->{size})) { $info->{size} = $precision if defined $precision; } elsif ($info->{data_type} =~ /^(?:float|double precision|decimal)\z/i) { if (defined $precision && defined $scale) { if ($precision == 10 && $scale == 0) { delete $info->{size}; } else { $info->{size} = [$precision,$scale]; } } } elsif ($info->{data_type} eq 'year') { if ($column_type =~ /\(2\)/) { $info->{size} = 2; } elsif ($column_type =~ /\(4\)/ || $info->{size} == 4) { delete $info->{size}; } } elsif ($info->{data_type} =~ /^(?:date(?:time)?|timestamp)\z/) { if (not (defined $self->datetime_undef_if_invalid && $self->datetime_undef_if_invalid == 0)) { $info->{datetime_undef_if_invalid} = 1; } } # Sometimes apparently there's a bug where default_value gets set to '' # for things that don't actually have or support that default (like ints.) if (exists $info->{default_value} && $info->{default_value} eq '') { if ($has_information_schema) { if (not defined $default) { delete $info->{default_value}; } } else { # just check if it's a char/text type, otherwise remove delete $info->{default_value} unless $info->{data_type} =~ /char|text/i; } } } return $result; } sub _extra_column_info { no warnings 'uninitialized'; my ($self, $table, $col, $info, $dbi_info) = @_; my %extra_info; if ($dbi_info->{mysql_is_auto_increment}) { $extra_info{is_auto_increment} = 1 } if ($dbi_info->{mysql_type_name} =~ /\bunsigned\b/i) { $extra_info{extra}{unsigned} = 1; } if ($dbi_info->{mysql_values}) { $extra_info{extra}{list} = $dbi_info->{mysql_values}; } if ( lc($dbi_info->{COLUMN_DEF}) eq 'current_timestamp' && lc($dbi_info->{mysql_type_name}) eq 'timestamp') { my $current_timestamp = 'current_timestamp'; $extra_info{default_value} = \$current_timestamp; } return \%extra_info; } sub _dbh_column_info { my $self = shift; local $SIG{__WARN__} = sub { warn @_ unless $_[0] =~ /^column_info: unrecognized column type/ }; $self->next::method(@_); }
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