package Alzabo::Runtime::Table; use strict; use vars qw($VERSION); use Alzabo::Exceptions ( abbr => [ qw( logic_exception not_nullable_exception params_exception ) ] ); use Alzabo::Runtime; use Alzabo::Utils; use Params::Validate qw( :all ); Params::Validate::validation_options( on_fail => sub { params_exception join '', @_ } ); use Scalar::Util (); use Tie::IxHash; use base qw(Alzabo::Table); $VERSION = 2.0; sub insert { my $self = shift; logic_exception "Can't make rows for tables without a primary key" unless $self->primary_key; my %p = @_; %p = validate( @_, { ( map { $_ => { optional => 1 } } keys %p ), values => { type => HASHREF, optional => 1 }, quote_identifiers => { type => BOOLEAN, optional => 1 }, }, ); my $vals = delete $p{values} || {}; my $schema = $self->schema; my @pk = $self->primary_key; foreach my $pk (@pk) { unless ( exists $vals->{ $pk->name } ) { if ($pk->sequenced) { $vals->{ $pk->name } = $schema->driver->next_sequence_number($pk); } else { params_exception ( "No value provided for primary key (" . $pk->name . ") and no sequence is available." ); } } } foreach my $c ($self->columns) { next if $c->is_primary_key; unless ( defined $vals->{ $c->name } || $c->nullable || defined $c->default ) { not_nullable_exception ( error => $c->name . " column in " . $self->name . " table cannot be null.", column_name => $c->name, table_name => $c->table->name, schema_name => $c->table->schema->name, ); } delete $vals->{ $c->name } if ! defined $vals->{ $c->name } && defined $c->default; } my @fk; @fk = $self->all_foreign_keys if $schema->referential_integrity; my $sql = ( Alzabo::Runtime::sqlmaker( $self->schema, \%p )-> insert-> into($self, $self->columns( sort keys %$vals ) )-> values( map { $self->column($_) => $vals->{$_} } sort keys %$vals ) ); my %id; $schema->begin_work if @fk; eval { foreach my $fk (@fk) { $fk->register_insert( map { $_->name => $vals->{ $_->name } } $fk->columns_from ); } $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; $self->schema->driver->do( sql => $sql->sql, bind => $sql->bind ); foreach my $pk (@pk) { $id{ $pk->name } = ( defined $vals->{ $pk->name } ? $vals->{ $pk->name } : $schema->driver->get_last_id($self) ); } # must come after call to ->get_last_id for MySQL because the # id will no longer be available after the transaction ends. $schema->commit if @fk; }; if (my $e = $@) { eval { $schema->rollback }; rethrow_exception $e; } return unless defined wantarray || $p{potential_row}; return $self->row_by_pk( pk => \%id, %p ); } sub insert_handle { my $self = shift; logic_exception "Can't make rows for tables without a primary key" unless $self->primary_key; my %p = @_; %p = validate( @_, { ( map { $_ => { optional => 1 } } keys %p ), columns => { type => ARRAYREF, default => [] }, values => { type => HASHREF, default => {} }, quote_identifiers => { type => BOOLEAN, optional => 1 }, }, ); my %func_vals; my %static_vals; if ( $p{values} ) { my $v = delete $p{values}; while ( my ( $name, $val ) = each %$v ) { if ( Alzabo::Utils::safe_isa( $val, 'Alzabo::SQLMaker::Function' ) ) { $func_vals{$name} = $val; } else { $static_vals{$name} = $val } } } my $placeholder = $self->schema->sqlmaker->placeholder; my %cols; my %vals; # Get the unique set of columns and associated values foreach my $col ( @{ $p{columns} }, $self->primary_key ) { $vals{ $col->name } = $placeholder; $cols{ $col->name } = 1; } foreach my $name ( keys %static_vals ) { $vals{$name} = $placeholder; $cols{$name} = 1; } %vals = ( %vals, %func_vals ); # At this point, %vals has each column's name and associated # value. The value may be a placeholder or SQL function. $cols{$_} = 1 foreach keys %func_vals; foreach my $c ( $self->columns ) { next if $c->is_primary_key || $c->nullable || defined $c->default; unless ( $cols{ $c->name } ) { not_nullable_exception ( error => $c->name . " column in " . $self->name . " table cannot be null.", column_name => $c->name, table_name => $c->table->name, schema_name => $c->table->schema->name, ); } } my @columns = $self->columns( keys %vals ); my $sql = ( Alzabo::Runtime::sqlmaker( $self->schema, \%p )-> insert-> into( $self, @columns )-> values( map { $_ => $vals{ $_->name } } @columns ), ); return Alzabo::Runtime::InsertHandle->new( table => $self, sql => $sql, values => \%static_vals, columns => \@columns, %p, ); } sub row_by_pk { my $self = shift; logic_exception "Can't make rows for tables without a primary key" unless $self->primary_key; my %p = @_; my $pk_val = $p{pk}; my @pk = $self->primary_key; params_exception 'Incorrect number of pk values provided. ' . scalar @pk . ' are needed.' if ref $pk_val && @pk != scalar keys %$pk_val; if (@pk > 1) { params_exception ( 'Primary key for ' . $self->name . ' is more than one column.' . ' Please provide multiple key values as a hashref.' ) unless ref $pk_val; foreach my $pk (@pk) { params_exception 'No value provided for primary key ' . $pk->name . '.' unless defined $pk_val->{ $pk->name }; } } return $self->_make_row( %p, table => $self, ); } sub _make_row { my $self = shift; my %p = @_; my $class = $p{row_class} ? delete $p{row_class} : $self->_row_class; return $class->new(%p); } sub _row_class { 'Alzabo::Runtime::Row' } sub row_by_id { my $self = shift; my %p = @_; validate( @_, { row_id => { type => SCALAR }, ( map { $_ => { optional => 1 } } keys %p ) } ); my (undef, undef, %pk) = split ';:;_;:;', delete $p{row_id}; return $self->row_by_pk( %p, pk => \%pk ); } sub rows_where { my $self = shift; my %p = @_; my $sql = $self->_make_sql(%p); Alzabo::Runtime::process_where_clause( $sql, $p{where} ) if exists $p{where}; $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; return $self->_cursor_by_sql( %p, sql => $sql ); } sub one_row { my $self = shift; my %p = @_; my $sql = $self->_make_sql(%p); Alzabo::Runtime::process_where_clause( $sql, $p{where} ) if exists $p{where}; Alzabo::Runtime::process_order_by_clause( $sql, $p{order_by} ) if exists $p{order_by}; if ( exists $p{limit} ) { $sql->limit( ref $p{limit} ? @{ $p{limit} } : $p{limit} ); } $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; my @return = $self->schema->driver->one_row( sql => $sql->sql, bind => $sql->bind ) or return; my @pk = $self->primary_key; my (%pk, %prefetch); @pk{ map { $_->name } @pk } = splice @return, 0, scalar @pk; # Must be some prefetch pieces if (@return) { @prefetch{ $self->prefetch } = @return; } return $self->row_by_pk( pk => \%pk, prefetch => \%prefetch, ); } sub all_rows { my $self = shift; my $sql = $self->_make_sql; $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; return $self->_cursor_by_sql( @_, sql => $sql ); } sub _make_sql { my $self = shift; my %p = @_; logic_exception "Can't make rows for tables without a primary key" unless $self->primary_key; my $sql = ( Alzabo::Runtime::sqlmaker( $self->schema, \%p )-> select( $self->primary_key, $self->prefetch ? $self->columns( $self->prefetch ) : () )-> from( $self ) ); return $sql; } sub _cursor_by_sql { my $self = shift; my %p = @_; validate( @_, { sql => { isa => 'Alzabo::SQLMaker' }, order_by => { type => ARRAYREF | HASHREF | OBJECT, optional => 1 }, limit => { type => SCALAR | ARRAYREF, optional => 1 }, ( map { $_ => { optional => 1 } } keys %p ) } ); Alzabo::Runtime::process_order_by_clause( $p{sql}, $p{order_by} ) if exists $p{order_by}; if ( exists $p{limit} ) { $p{sql}->limit( ref $p{limit} ? @{ $p{limit} } : $p{limit} ); } my $statement = $self->schema->driver->statement( sql => $p{sql}->sql, bind => $p{sql}->bind, limit => $p{sql}->get_limit ); return Alzabo::Runtime::RowCursor->new( statement => $statement, table => $self, ); } sub potential_row { my $self = shift; my %p = @_; logic_exception "Can't make rows for tables without a primary key" unless $self->primary_key; my $class = $p{row_class} ? delete $p{row_class} : $self->_row_class; return $class->new( %p, state => 'Alzabo::Runtime::RowState::Potential', table => $self, ); } sub row_count { my $self = shift; my %p = @_; my $count = Alzabo::Runtime::sqlmaker( $self->schema, \%p )->COUNT('*'); return $self->function( select => $count, %p ); } sub function { my $self = shift; my %p = @_; my $sql = $self->_select_sql(%p); my $method = Alzabo::Utils::is_arrayref( $p{select} ) && @{ $p{select} } > 1 ? 'rows' : 'column'; $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; return $self->schema->driver->$method( sql => $sql->sql, bind => $sql->bind ); } sub select { my $self = shift; my $sql = $self->_select_sql(@_); $sql->debug(\*STDERR) if Alzabo::Debug::SQL; print STDERR Devel::StackTrace->new if Alzabo::Debug::TRACE; return $self->schema->driver->statement( sql => $sql->sql, bind => $sql->bind ); } use constant _SELECT_SQL_SPEC => { select => { type => SCALAR | ARRAYREF | OBJECT }, where => { type => ARRAYREF | OBJECT, optional => 1 }, order_by => { type => ARRAYREF | HASHREF | OBJECT, optional => 1 }, group_by => { type => ARRAYREF | HASHREF | OBJECT, optional => 1 }, having => { type => ARRAYREF, optional => 1 }, limit => { type => SCALAR | ARRAYREF, optional => 1 }, quote_identifiers => { type => BOOLEAN, optional => 1 }, }; sub _select_sql { my $self = shift; my %p = validate( @_, _SELECT_SQL_SPEC ); my @funcs = Alzabo::Utils::is_arrayref( $p{select} ) ? @{ $p{select} } : $p{select}; my $sql = Alzabo::Runtime::sqlmaker( $self->schema, \%p )->select(@funcs)->from($self); Alzabo::Runtime::process_where_clause( $sql, $p{where} ) if exists $p{where}; Alzabo::Runtime::process_group_by_clause( $sql, $p{group_by} ) if exists $p{group_by}; Alzabo::Runtime::process_having_clause( $sql, $p{having} ) if exists $p{having}; Alzabo::Runtime::process_order_by_clause( $sql, $p{order_by} ) if exists $p{order_by}; $sql->limit( ref $p{limit} ? @{ $p{limit} } : $p{limit} ) if $p{limit}; return $sql; } sub set_prefetch { my $self = shift; $self->{prefetch} = $self->_canonize_prefetch(@_); } sub _canonize_prefetch { my $self = shift; validate_pos( @_, ( { isa => 'Alzabo::Column' } ) x @_ ); foreach my $c (@_) { params_exception "Column " . $c->name . " doesn't exist in $self->{name}" unless $self->has_column( $c->name ); } return [ map { $_->name } grep { ! $_->is_primary_key } @_ ]; } sub prefetch { my $self = shift; return ref $self->{prefetch} ? @{ $self->{prefetch} } : (); } sub add_group { my $self = shift; validate_pos( @_, ( { isa => 'Alzabo::Column' } ) x @_ ); my @names = map { $_->name } @_; foreach my $col (@_) { params_exception "Column " . $col->name . " doesn't exist in $self->{name}" unless $self->has_column( $col->name ); next if $col->is_primary_key; $self->{groups}{ $col->name } = \@names; } } sub group_by_column { my $self = shift; my $col = shift; return exists $self->{groups}{$col} ? @{ $self->{groups}{$col} } : $col; } my $alias_num = '000000000'; sub alias { my $self = shift; my $clone; %$clone = %$self; bless $clone, ref $self; $clone->{alias_name} = $self->name . ++$alias_num; $clone->{real_table} = $self; $clone->{columns} = Tie::IxHash->new( map { $_->name => $_ } $self->columns ); # Force clone of primary key columns right away. $clone->column($_) foreach map { $_->name } $self->primary_key; return $clone; } # # Since its unlikely that a user will end up needing clones of more # than 1-2 columns each time an alias is used, we only make copies as # needed. # sub column { my $self = shift; # I'm an alias, make an alias column if ( $self->{alias_name} ) { my $name = shift; my $col = $self->SUPER::column($name); # not previously cloned unless ( $col->table eq $self ) { # replace our copy of this column with a clone $col = $col->alias_clone( table => $self ); my $index = $self->{columns}->Indices($name); $self->{columns}->Replace( $index, $col, $name ); Scalar::Util::weaken( $col->{table} ); delete $self->{pk_array} if $col->is_primary_key; } return $col; } else { return $self->SUPER::column(@_); } } sub alias_name { # intentionally don't call $_[0]->name for a noticeable # performance boost return $_[0]->{alias_name} || $_[0]->{name}; } sub real_table { return $_[0]->{real_table} || $_[0]; } # This gets called a _lot_ so doing this sort of 'memoization' helps sub primary_key { my $self = shift; $self->{pk_array} ||= [ $self->SUPER::primary_key ]; return ( wantarray ? @{ $self->{pk_array} } : $self->{pk_array}->[0] ); } 1; __END__ =head1 NAME Alzabo::Runtime::Table - Table objects =head1 SYNOPSIS my $table = $schema->table('foo'); my $row = $table->row_by_pk( pk => 1 ); my $row_cursor = $table->rows_where ( where => [ Alzabo::Column object, '=', 5 ] ); =head1 DESCRIPTION This object is able to create rows, either by making objects based on existing data or inserting new data to make new rows. This object also implements a method of lazy column evaluation that can be used to save memory and database wear and tear. Please see the L section for details. =head1 INHERITS FROM C =for pod_merge merged =head1 METHODS =head2 Methods that return an C object All of these methods accept the "no_cache" parameter, which will be passed on to C<< Alzabo::Runtime::Row->new >>. =head2 insert Inserts the given values into the table. If no value is given for a primary key column and the column is L<"sequenced"|Alzabo::Column/sequenced> then the primary key will be auto-generated. It takes the following parameters: =over 4 =item * values => $hashref The hashref contains column names and values for the new row. This parameter is optional. If no values are specified, then the default values will be used. =back This methods return a new L|Alzabo::Runtime::Row> object. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 row_by_pk The primary key can be either a simple scalar, as when the table has a single primary key, or a hash reference of column names to primary key values, for multi-column primary keys. It takes the following parameters: =over 4 =item * pk => $pk_val or \%pk_val =back It returns a new L|Alzabo::Runtime::Row> object. If no rows in the database match the value(s) given then an empty list or undef will be returned (for list or scalar context). Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 row_by_id This method is useful for regenerating a row that has been saved by reference to its id (returned by the Lid>|Alzabo::Runtime::Row/id> method). This may be more convenient than saving a multi-column primary key when trying to maintain state in a web app, for example. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> This method takes a single parameter, "row_id", which is the string representation of a row's id, as returned by the Lid_as_string() >>|Alzabo::Runtime::Row/id_as_string> method. It returns a new L|Alzabo::Runtime::Row> object. If no rows in the database match the value(s) given then an empty list or undef will be returned (for list or scalar context). =head2 Insert Handles If you are going to be inserting many rows at once, it is more efficient to create an insert handle and re-use that. This is similar to how DBI allows you to create statement handles and execute them multiple times. =head2 insert_handle This method takes the following parameters: =over 4 =item * columns => $arrayref This should be an array reference containing zero or more C objects. If it is empty, or not provided, then defaults will be used for all columns. =item * values => $hashref This is used to specify values that will be the same for each row. These can be actual values or SQL functions. =back The return value of this method is an C object. This object has a single method, C. See the L|Alzabo::Runtime::InsertHandle> docs for details. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 Common Parameters A number of methods in this clas take the same parameters. These are documented below. =over 4 =item * where => This parameter can take a variety of values. The most basic "where" parameter is a single array reference of this form: [ Alzabo::Column object or SQL function, $comparison, $value or Alzabo::Column object ] The C<$comparison> should be a string containing a SQL operator such as C<< > >>, C<=>, or C. The parameter can also be an array reference containing many such arrays: [ [ Alzabo::Column object or SQL function, $comparison, $value or Alzabo::Column object ], [ Alzabo::Column object or SQL function, $comparison, $value or Alzabo::Column object ], ... ] If the comparison is "BETWEEN", then it should be followed by two values. If it is "IN" or "NOT IN", then it should be followed by a list of one or more values. By default, each clause represented by an array reference is joined together with an 'AND'. However, you can put the string 'or' between two array references to cause them to be joined with an 'OR', such as: [ [ $foo_col, '=', 5 ], 'or', [ $foo_col, '>', 10 ] ] which would generate SQL something like: WHERE foo = 5 OR foo > 10 If you want to be explicit, you can also use the string 'and'. If you need to group conditionals you can use '(' and ')' strings in between array references representing a conditional. For example: [ [ $foo_col, '=', 5 ], '(', [ $foo_col, '>', 10 ] 'or', [ $bar_col, '<', 50, ')' ], ')' ] which would generate SQL something like: WHERE foo = 5 AND ( foo > 10 OR bar < 50 ) Make sure that your parentheses balance out or an exception will be thrown. You can also use the SQL functions (L) exported from the SQLMaker subclass you are using. For example: [ LENGTH($foo_col), '<', 10 ] would generate something like: WHERE LENGTH(foo) < 10 =item * order_by => see below This parameter can take one of two different values. The simplest form is to just give it a single column object or SQL function. Alternatively, you can give it an array reference to a list of column objects, SQL functions and strings like this: order_by => [ $col1, COUNT('*'), $col2, 'DESC', $col3, 'ASC' ] It is important to note that you cannot simply use any arbitrary SQL function as part of your order by clause. You need to use a function that is exactly the same as one that was given as part of the "select" parameter. =item * group_by => see below This parameter can take either a single column object or an array of column objects. =item * having => same as "where" This parameter is specified in the same way as the "where" parameter. =item * limit => $limit or [ $limit, $offset ] For databases that support LIMIT clauses, this incorporates such a clause into the SQL. For databases that don't, the limit will be implemented programatically as rows are being requested. If an offset is given, this will be the number of rows skipped in the result set before the first one is returned. =back =head2 Methods that return an C object The C and C methods both return an L|Alzabo::Runtime::RowCursor> object representing the results of the query. This is the case even for queries that end up returning one or zero rows, because Alzabo cannot know in advance how many rows these queries will return. =head2 rows_where This method provides a simple way to retrieve a row cursor based on one or more colum values. It takes the following parameters, all of which were described in the L section. =over 4 =item * where =item * order_by =item * limit =back It returns n L|Alzabo::Runtime::RowCursor> object representing the query. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 all_rows This method simply returns all the rows in the table. It takes the following parameters: =over 4 =item * order_by =item * limit =back It returns an L|Alzabo::Runtime::RowCursor> object representing the query. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 one_row This method takes the exact same parameters as the L|Alzabo::Runtime::table/rows_where> method but instead of returning a cursor, it returns a single row. This row represents the first row returned by the database. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 potential_row This method is used to create a new L|Alzabo::Runtime::Row> object, in the "potential" state. It takes the following parameters. =over 4 =item * values => \%values This should be a hash reference containing column names, just as is given to L. It is ok to omit columns that are normally not nullable, but they cannot be B set to null. Any values given will be set in the new potential row object. If a column has a default, and a value for that column is not given, then the default will be used. Unlike the L method, you cannot use SQL functions as values here. =back Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 Other Methods This method returns a count of the rows in the table. It takes the following parameters: =head2 row_count =over 4 =item * where =back Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head2 function and select These two methods differ only in their return values. They both take the following parameters: =over 4 =item * select => $function or [ scalars, SQL functions and/or C objects ] If you pass an array reference for this parameter, it may contain scalars, SQL functions, or column objects. For example: $table->function( select => [ 1, $foo->column('name'), LENGTH( $foo->column('name') ) ] ); This is equivalent to the following SQL: SELECT 1, foo.name, LENGTH( foo.name ) FROM foo =item * where =item * order_by =item * group_by =item * limit =back This method is used to call arbitrary SQL functions such as 'AVG' or 'MAX', or to select arbitrary column data. The function (or functions) should be the return values from the functions exported by the SQLMaker subclass that you are using. Please see L for more details. Throws: L|Alzabo::Exceptions>, L|Alzabo::Exceptions> =head3 function() return values The return value of this method is highly context sensitive. If you only requested a single element in your "select" parameter, such as "DISTINCT(foo)", then it returns the first value in scalar context and all the values as an array in list context. If you requested multiple functions such as "AVG(foo), MAX(foo)", then it returns a single array reference, the first row of values, in scalar context and a list of array references in list context. =head3 select() return values This method always returns a new L|Alzabo::Driver/Alzabo::DriverStatement> object containing the results of the query. This object has an interface very similar to the Alzabo cursor interface, and has methods such as C, C, etc. =head2 alias This returns an object which can be used in joins to allow a particular table to be involved in the join under multiple aliases. This allows for self-joins as well as more complex joins involving multiple aliases to a given table. The object returned by this method is more or less identical to a table object in terms of the methods it supports. This includes methods that were generated by C. However, B because the results will be unpredictable. In addition, B. =for pod_merge schema =for pod_merge name =for pod_merge column =for pod_merge columns =for pod_merge has_column =for pod_merge primary_key =for pod_merge primary_key_size =for pod_merge column_is_primary_key =for pod_merge foreign_keys =for pod_merge foreign_keys_by_table =for pod_merge foreign_keys_by_column =for pod_merge all_foreign_keys =for pod_merge index =for pod_merge has_index =for pod_merge indexes =for pod_merge attributes =for pod_merge has_attribute =for pod_merge comment =head1 LAZY COLUMN LOADING This concept was taken directly from Michael Schwern's Class::DBI module (credit where it is due). By default, L|Alzabo::Runtime::Row> objects load all data from the database except blob type columns (columns with an unbounded length). This data is stored internally in the object after being fetched. If you want to change what data is prefetched, there are two methods you can use. The first method, L|Alzabo::Runtime::Table/set_prefetch (Alzabo::Column objects)>, allows you to specify a list of columns to be fetched immediately after object creation. These should be columns that you expect to use extremely frequently. The second method, L|Alzabo::Runtime::Table/add_group (Alzabo::Column objects)>, allows you to group columns together. If you attempt to fetch one of these columns, then all the columns in the group will be fetched. This is useful in cases where you don't often want certain data, but when you do you need several related pieces. =head2 Lazy column loading related methods =head3 set_prefetch (C objects) Given a list of column objects, this makes sure that all L|Alzabo::Runtime::Row> objects fetch this data as soon as they are created. NOTE: It is pointless (though not an error) to give primary key column here as these are always prefetched (in a sense). Throws: L|Alzabo::Exceptions> =head3 add_group (C objects) Given a list of L|Alzabo::Column> objects, this method creates a group containing these columns. This means that if any column in the group is fetched from the database, then they will all be fetched. Otherwise column are always fetched singly. Currently, a column cannot be part of more than one group. NOTE: It is pointless to include a column that was given to the L|Alzabo::Runtime::Table/set_prefetch (Alzabo::Column objects)> method in a group here, as it always fetched as soon as possible. Throws: L|Alzabo::Exceptions> =head2 prefetch This method primarily exists for use by the L|Alzabo::Runtime::Row> class. It returns a list of column names (not objects) that should be prefetched. =head2 group_by_column ($column_name) This method primarily exists for use by the L|Alzabo::Runtime::Row> class. It returns a list of column names representing the group that the given column is part of. If the column is not part of a group, only the name passed in is returned. =head1 AUTHOR Dave Rolsky, =cut