package DBIx::Class::SQLMaker::LimitDialects; use warnings; use strict; use List::Util 'first'; use namespace::clean; # constants are used not only here, but also in comparison tests sub __rows_bindtype () { +{ sqlt_datatype => 'integer' } } sub __offset_bindtype () { +{ sqlt_datatype => 'integer' } } sub __total_bindtype () { +{ sqlt_datatype => 'integer' } } =head1 NAME DBIx::Class::SQLMaker::LimitDialects - SQL::Abstract::Limit-like functionality for DBIx::Class::SQLMaker =head1 DESCRIPTION This module replicates a lot of the functionality originally found in L. While simple limits would work as-is, the more complex dialects that require e.g. subqueries could not be reliably implemented without taking full advantage of the metadata locked within L classes. After reimplementation of close to 80% of the L functionality it was deemed more practical to simply make an independent DBIx::Class-specific limit-dialect provider. =head1 SQL LIMIT DIALECTS Note that the actual implementations listed below never use C<*> literally. Instead proper re-aliasing of selectors and order criteria is done, so that the limit dialect are safe to use on joined resultsets with clashing column names. Currently the provided dialects are: =head2 LimitOffset SELECT ... LIMIT $limit OFFSET $offset Supported by B and B =cut sub _LimitOffset { my ( $self, $sql, $rs_attrs, $rows, $offset ) = @_; $sql .= $self->_parse_rs_attrs( $rs_attrs ) . " LIMIT ?"; push @{$self->{limit_bind}}, [ $self->__rows_bindtype => $rows ]; if ($offset) { $sql .= " OFFSET ?"; push @{$self->{limit_bind}}, [ $self->__offset_bindtype => $offset ]; } return $sql; } =head2 LimitXY SELECT ... LIMIT $offset, $limit Supported by B and any L based DBD =cut sub _LimitXY { my ( $self, $sql, $rs_attrs, $rows, $offset ) = @_; $sql .= $self->_parse_rs_attrs( $rs_attrs ) . " LIMIT "; if ($offset) { $sql .= '?, '; push @{$self->{limit_bind}}, [ $self->__offset_bindtype => $offset ]; } $sql .= '?'; push @{$self->{limit_bind}}, [ $self->__rows_bindtype => $rows ]; return $sql; } =head2 RowNumberOver SELECT * FROM ( SELECT *, ROW_NUMBER() OVER( ORDER BY ... ) AS RNO__ROW__INDEX FROM ( SELECT ... ) ) WHERE RNO__ROW__INDEX BETWEEN ($offset+1) AND ($limit+$offset) ANSI standard Limit/Offset implementation. Supported by B and B<< MSSQL >= 2005 >>. =cut sub _RowNumberOver { my ($self, $sql, $rs_attrs, $rows, $offset ) = @_; # get selectors, and scan the order_by (if any) my $sq_attrs = $self->_subqueried_limit_attrs ( $sql, $rs_attrs ); # make up an order if none exists my $requested_order = (delete $rs_attrs->{order_by}) || $self->_rno_default_order; # the order binds (if any) will need to go at the end of the entire inner select local $self->{order_bind}; my $rno_ord = $self->_order_by ($requested_order); push @{$self->{select_bind}}, @{$self->{order_bind}}; # this is the order supplement magic my $mid_sel = $sq_attrs->{selection_outer}; if (my $extra_order_sel = $sq_attrs->{order_supplement}) { for my $extra_col (sort { $extra_order_sel->{$a} cmp $extra_order_sel->{$b} } keys %$extra_order_sel ) { $sq_attrs->{selection_inner} .= sprintf (', %s AS %s', $extra_col, $extra_order_sel->{$extra_col}, ); } } # and this is order re-alias magic for my $map ($sq_attrs->{order_supplement}, $sq_attrs->{outer_renames}) { for my $col (sort { (length $b) <=> (length $a) } keys %{$map||{}} ) { my $re_col = quotemeta ($col); $rno_ord =~ s/$re_col/$map->{$col}/; } } # whatever is left of the order_by (only where is processed at this point) my $group_having = $self->_parse_rs_attrs($rs_attrs); my $qalias = $self->_quote ($rs_attrs->{alias}); my $idx_name = $self->_quote ('rno__row__index'); push @{$self->{limit_bind}}, [ $self->__offset_bindtype => $offset + 1], [ $self->__total_bindtype => $offset + $rows ]; return <{selection_outer} FROM ( SELECT $mid_sel, ROW_NUMBER() OVER( $rno_ord ) AS $idx_name FROM ( SELECT $sq_attrs->{selection_inner} $sq_attrs->{query_leftover}${group_having} ) $qalias ) $qalias WHERE $idx_name >= ? AND $idx_name <= ? EOS } # some databases are happy with OVER (), some need OVER (ORDER BY (SELECT (1)) ) sub _rno_default_order { return undef; } =head2 SkipFirst SELECT SKIP $offset FIRST $limit * FROM ... Supported by B, almost like LimitOffset. According to L C<... SKIP $offset LIMIT $limit ...> is also supported. =cut sub _SkipFirst { my ($self, $sql, $rs_attrs, $rows, $offset) = @_; $sql =~ s/^ \s* SELECT \s+ //ix or $self->throw_exception("Unrecognizable SELECT: $sql"); return sprintf ('SELECT %s%s%s%s', $offset ? do { push @{$self->{pre_select_bind}}, [ $self->__offset_bindtype => $offset]; 'SKIP ? ' } : '' , do { push @{$self->{pre_select_bind}}, [ $self->__rows_bindtype => $rows ]; 'FIRST ? ' }, $sql, $self->_parse_rs_attrs ($rs_attrs), ); } =head2 FirstSkip SELECT FIRST $limit SKIP $offset * FROM ... Supported by B, reverse of SkipFirst. According to L C<... ROWS $limit TO $offset ...> is also supported. =cut sub _FirstSkip { my ($self, $sql, $rs_attrs, $rows, $offset) = @_; $sql =~ s/^ \s* SELECT \s+ //ix or $self->throw_exception("Unrecognizable SELECT: $sql"); return sprintf ('SELECT %s%s%s%s', do { push @{$self->{pre_select_bind}}, [ $self->__rows_bindtype => $rows ]; 'FIRST ? ' }, $offset ? do { push @{$self->{pre_select_bind}}, [ $self->__offset_bindtype => $offset]; 'SKIP ? ' } : '' , $sql, $self->_parse_rs_attrs ($rs_attrs), ); } =head2 RowNum Depending on the resultset attributes one of: SELECT * FROM ( SELECT *, ROWNUM AS rownum__index FROM ( SELECT ... ) WHERE ROWNUM <= ($limit+$offset) ) WHERE rownum__index >= ($offset+1) or SELECT * FROM ( SELECT *, ROWNUM AS rownum__index FROM ( SELECT ... ) ) WHERE rownum__index BETWEEN ($offset+1) AND ($limit+$offset) or SELECT * FROM ( SELECT ... ) WHERE ROWNUM <= ($limit+1) Supported by B. =cut sub _RowNum { my ( $self, $sql, $rs_attrs, $rows, $offset ) = @_; my $sq_attrs = $self->_subqueried_limit_attrs ($sql, $rs_attrs); my $qalias = $self->_quote ($rs_attrs->{alias}); my $idx_name = $self->_quote ('rownum__index'); my $order_group_having = $self->_parse_rs_attrs($rs_attrs); # if no offset (e.g. first page) - we can skip one of the subqueries if (! $offset) { push @{$self->{limit_bind}}, [ $self->__rows_bindtype => $rows ]; return <{selection_outer} FROM ( SELECT $sq_attrs->{selection_inner} $sq_attrs->{query_leftover}${order_group_having} ) $qalias WHERE ROWNUM <= ? EOS } # # There are two ways to limit in Oracle, one vastly faster than the other # on large resultsets: https://decipherinfosys.wordpress.com/2007/08/09/paging-and-countstopkey-optimization/ # However Oracle is retarded and does not preserve stable ROWNUM() values # when called twice in the same scope. Therefore unless the resultset is # ordered by a unique set of columns, it is not safe to use the faster # method, and the slower BETWEEN query is used instead # # FIXME - this is quite expensive, and does not perform caching of any sort # as soon as some of the DQ work becomes viable consider switching this # over if ( $rs_attrs->{order_by} and $rs_attrs->{result_source}->storage->_order_by_is_stable( @{$rs_attrs}{qw/from order_by where/} ) ) { push @{$self->{limit_bind}}, [ $self->__total_bindtype => $offset + $rows ], [ $self->__offset_bindtype => $offset + 1 ]; return <{selection_outer} FROM ( SELECT $sq_attrs->{selection_outer}, ROWNUM AS $idx_name FROM ( SELECT $sq_attrs->{selection_inner} $sq_attrs->{query_leftover}${order_group_having} ) $qalias WHERE ROWNUM <= ? ) $qalias WHERE $idx_name >= ? EOS } else { push @{$self->{limit_bind}}, [ $self->__offset_bindtype => $offset + 1 ], [ $self->__total_bindtype => $offset + $rows ]; return <{selection_outer} FROM ( SELECT $sq_attrs->{selection_outer}, ROWNUM AS $idx_name FROM ( SELECT $sq_attrs->{selection_inner} $sq_attrs->{query_leftover}${order_group_having} ) $qalias ) $qalias WHERE $idx_name BETWEEN ? AND ? EOS } } # used by _Top and _FetchFirst below sub _prep_for_skimming_limit { my ( $self, $sql, $rs_attrs ) = @_; # get selectors my $sq_attrs = $self->_subqueried_limit_attrs ($sql, $rs_attrs); my $requested_order = delete $rs_attrs->{order_by}; $sq_attrs->{order_by_requested} = $self->_order_by ($requested_order); $sq_attrs->{grpby_having} = $self->_parse_rs_attrs ($rs_attrs); # without an offset things are easy if (! $rs_attrs->{offset}) { $sq_attrs->{order_by_inner} = $sq_attrs->{order_by_requested}; } else { $sq_attrs->{quoted_rs_alias} = $self->_quote ($rs_attrs->{alias}); # localise as we already have all the bind values we need local $self->{order_bind}; # make up an order unless supplied or sanity check what we are given my $inner_order; if ($sq_attrs->{order_by_requested}) { $self->throw_exception ( 'Unable to safely perform "skimming type" limit with supplied unstable order criteria' ) unless ($rs_attrs->{result_source}->schema->storage->_order_by_is_stable( $rs_attrs->{from}, $requested_order, $rs_attrs->{where}, )); $inner_order = $requested_order; } else { $inner_order = [ map { "$rs_attrs->{alias}.$_" } ( @{ $rs_attrs->{result_source}->_identifying_column_set || $self->throw_exception(sprintf( 'Unable to auto-construct stable order criteria for "skimming type" limit ' . "dialect based on source '%s'", $rs_attrs->{result_source}->name) ); } ) ]; } $sq_attrs->{order_by_inner} = $self->_order_by ($inner_order); my @out_chunks; for my $ch ($self->_order_by_chunks ($inner_order)) { $ch = $ch->[0] if ref $ch eq 'ARRAY'; ($ch, my $is_desc) = $self->_split_order_chunk($ch); # !NOTE! outside chunks come in reverse order ( !$is_desc ) push @out_chunks, { ($is_desc ? '-asc' : '-desc') => \$ch }; } $sq_attrs->{order_by_middle} = $self->_order_by (\@out_chunks); # this is the order supplement magic $sq_attrs->{selection_middle} = $sq_attrs->{selection_outer}; if (my $extra_order_sel = $sq_attrs->{order_supplement}) { for my $extra_col (sort { $extra_order_sel->{$a} cmp $extra_order_sel->{$b} } keys %$extra_order_sel ) { $sq_attrs->{selection_inner} .= sprintf (', %s AS %s', $extra_col, $extra_order_sel->{$extra_col}, ); $sq_attrs->{selection_middle} .= ', ' . $extra_order_sel->{$extra_col}; } # Whatever order bindvals there are, they will be realiased and # reselected, and need to show up at end of the initial inner select push @{$self->{select_bind}}, @{$self->{order_bind}}; } # and this is order re-alias magic for my $map ($sq_attrs->{order_supplement}, $sq_attrs->{outer_renames}) { for my $col (sort { (length $b) <=> (length $a) } keys %{$map||{}}) { my $re_col = quotemeta ($col); $_ =~ s/$re_col/$map->{$col}/ for ($sq_attrs->{order_by_middle}, $sq_attrs->{order_by_requested}); } } } $sq_attrs; } =head2 Top SELECT * FROM SELECT TOP $limit FROM ( SELECT TOP $limit FROM ( SELECT TOP ($limit+$offset) ... ) ORDER BY $reversed_original_order ) ORDER BY $original_order Unreliable Top-based implementation, supported by B<< MSSQL < 2005 >>. =head3 CAVEAT Due to its implementation, this limit dialect returns B when $limit+$offset > total amount of rows in the resultset. =cut sub _Top { my ( $self, $sql, $rs_attrs, $rows, $offset ) = @_; my $lim = $self->_prep_for_skimming_limit($sql, $rs_attrs); $sql = sprintf ('SELECT TOP %u %s %s %s %s', $rows + ($offset||0), $offset ? $lim->{selection_inner} : $lim->{selection_original}, $lim->{query_leftover}, $lim->{grpby_having}, $lim->{order_by_inner}, ); $sql = sprintf ('SELECT TOP %u %s FROM ( %s ) %s %s', $rows, $lim->{selection_middle}, $sql, $lim->{quoted_rs_alias}, $lim->{order_by_middle}, ) if $offset; $sql = sprintf ('SELECT %s FROM ( %s ) %s %s', $lim->{selection_outer}, $sql, $lim->{quoted_rs_alias}, $lim->{order_by_requested}, ) if $offset and ( $lim->{order_by_requested} or $lim->{selection_middle} ne $lim->{selection_outer} ); return $sql; } =head2 FetchFirst SELECT * FROM ( SELECT * FROM ( SELECT * FROM ( SELECT * FROM ... ) ORDER BY $reversed_original_order FETCH FIRST $limit ROWS ONLY ) ORDER BY $original_order FETCH FIRST $limit ROWS ONLY ) Unreliable FetchFirst-based implementation, supported by B<< IBM DB2 <= V5R3 >>. =head3 CAVEAT Due to its implementation, this limit dialect returns B when $limit+$offset > total amount of rows in the resultset. =cut sub _FetchFirst { my ( $self, $sql, $rs_attrs, $rows, $offset ) = @_; my $lim = $self->_prep_for_skimming_limit($sql, $rs_attrs); $sql = sprintf ('SELECT %s %s %s %s FETCH FIRST %u ROWS ONLY', $offset ? $lim->{selection_inner} : $lim->{selection_original}, $lim->{query_leftover}, $lim->{grpby_having}, $lim->{order_by_inner}, $rows + ($offset||0), ); $sql = sprintf ('SELECT %s FROM ( %s ) %s %s FETCH FIRST %u ROWS ONLY', $lim->{selection_middle}, $sql, $lim->{quoted_rs_alias}, $lim->{order_by_middle}, $rows, ) if $offset; $sql = sprintf ('SELECT %s FROM ( %s ) %s %s', $lim->{selection_outer}, $sql, $lim->{quoted_rs_alias}, $lim->{order_by_requested}, ) if $offset and ( $lim->{order_by_requested} or $lim->{selection_middle} ne $lim->{selection_outer} ); return $sql; } =head2 GenericSubQ SELECT * FROM ( SELECT ... ) WHERE ( SELECT COUNT(*) FROM $original_table cnt WHERE cnt.id < $original_table.id ) BETWEEN $offset AND ($offset+$rows-1) This is the most evil limit "dialect" (more of a hack) for I stupid databases. It works by ordering the set by some unique column, and calculating the amount of rows that have a less-er value (thus emulating a L-like index). Of course this implies the set can only be ordered by a single unique column. Also note that this technique can be and often is B. You may have much better luck using L instead. Currently used by B, due to lack of any other option. =cut sub _GenericSubQ { my ($self, $sql, $rs_attrs, $rows, $offset) = @_; my $main_rsrc = $rs_attrs->{result_source}; # Explicitly require an order_by # GenSubQ is slow enough as it is, just emulating things # like in other cases is not wise - make the user work # to shoot their DBA in the foot $self->throw_exception ( 'Generic Subquery Limit does not work on resultsets without an order. Provide a stable, ' . 'main-table-based order criteria.' ) unless $rs_attrs->{order_by}; my $usable_order_colinfo = $main_rsrc->storage->_extract_colinfo_of_stable_main_source_order_by_portion( $rs_attrs ); $self->throw_exception( 'Generic Subquery Limit can not work with order criteria based on sources other than the main one' ) if ( ! keys %{$usable_order_colinfo||{}} or grep { $_->{-source_alias} ne $rs_attrs->{alias} } (values %$usable_order_colinfo) ); ### ### ### we need to know the directions after we figured out the above - reextract *again* ### this is eyebleed - trying to get it to work at first my $supplied_order = delete $rs_attrs->{order_by}; my @order_bits = do { local $self->{quote_char}; local $self->{order_bind}; map { ref $_ ? $_->[0] : $_ } $self->_order_by_chunks ($supplied_order) }; # truncate to what we'll use $#order_bits = ( (keys %$usable_order_colinfo) - 1 ); # @order_bits likely will come back quoted (due to how the prefetch # rewriter operates # Hence supplement the column_info lookup table with quoted versions if ($self->quote_char) { $usable_order_colinfo->{$self->_quote($_)} = $usable_order_colinfo->{$_} for keys %$usable_order_colinfo; } # calculate the condition my $count_tbl_alias = 'rownum__emulation'; my $main_alias = $rs_attrs->{alias}; my $main_tbl_name = $main_rsrc->name; my (@unqualified_names, @qualified_names, @is_desc, @new_order_by); for my $bit (@order_bits) { ($bit, my $is_desc) = $self->_split_order_chunk($bit); push @is_desc, $is_desc; push @unqualified_names, $usable_order_colinfo->{$bit}{-colname}; push @qualified_names, $usable_order_colinfo->{$bit}{-fq_colname}; push @new_order_by, { ($is_desc ? '-desc' : '-asc') => $usable_order_colinfo->{$bit}{-fq_colname} }; }; my (@where_cond, @skip_colpair_stack); for my $i (0 .. $#order_bits) { my $ci = $usable_order_colinfo->{$order_bits[$i]}; my ($subq_col, $main_col) = map { "$_.$ci->{-colname}" } ($count_tbl_alias, $main_alias); my $cur_cond = { $subq_col => { ($is_desc[$i] ? '>' : '<') => { -ident => $main_col } } }; push @skip_colpair_stack, [ { $main_col => { -ident => $subq_col } }, ]; # we can trust the nullability flag because # we already used it during _id_col_set resolution # if ($ci->{is_nullable}) { push @{$skip_colpair_stack[-1]}, { $main_col => undef, $subq_col=> undef }; $cur_cond = [ { ($is_desc[$i] ? $subq_col : $main_col) => { '!=', undef }, ($is_desc[$i] ? $main_col : $subq_col) => undef, }, { $subq_col => { '!=', undef }, $main_col => { '!=', undef }, -and => $cur_cond, }, ]; } push @where_cond, { '-and', => [ @skip_colpair_stack[0..$i-1], $cur_cond ] }; } # reuse the sqlmaker WHERE, this will not be returning binds my $counted_where = do { local $self->{where_bind}; $self->where(\@where_cond); }; # construct the rownum condition by hand my $rownum_cond; if ($offset) { $rownum_cond = 'BETWEEN ? AND ?'; push @{$self->{limit_bind}}, [ $self->__offset_bindtype => $offset ], [ $self->__total_bindtype => $offset + $rows - 1] ; } else { $rownum_cond = '< ?'; push @{$self->{limit_bind}}, [ $self->__rows_bindtype => $rows ] ; } # and what we will order by inside my $inner_order_sql = do { local $self->{order_bind}; my $s = $self->_order_by (\@new_order_by); $self->throw_exception('Inner gensubq order may not contain binds... something went wrong') if @{$self->{order_bind}}; $s; }; ### resume originally scheduled programming ### ### # we need to supply the order for the supplements to be properly calculated my $sq_attrs = $self->_subqueried_limit_attrs ( $sql, { %$rs_attrs, order_by => \@new_order_by } ); my $in_sel = $sq_attrs->{selection_inner}; # add the order supplement (if any) as this is what will be used for the outer WHERE $in_sel .= ", $_" for sort keys %{$sq_attrs->{order_supplement}}; my $group_having_sql = $self->_parse_rs_attrs($rs_attrs); return sprintf (" SELECT $sq_attrs->{selection_outer} FROM ( SELECT $in_sel $sq_attrs->{query_leftover}${group_having_sql} ) %s WHERE ( SELECT COUNT(*) FROM %s %s $counted_where ) $rownum_cond $inner_order_sql ", map { $self->_quote ($_) } ( $rs_attrs->{alias}, $main_tbl_name, $count_tbl_alias, )); } # !!! THIS IS ALSO HORRIFIC !!! /me ashamed # # Generates inner/outer select lists for various limit dialects # which result in one or more subqueries (e.g. RNO, Top, RowNum) # Any non-main-table columns need to have their table qualifier # turned into a column alias (otherwise names in subqueries clash # and/or lose their source table) # # Returns mangled proto-sql, inner/outer strings of SQL QUOTED selectors # with aliases (to be used in whatever select statement), and an alias # index hashref of QUOTED SEL => QUOTED ALIAS pairs (to maybe be used # for string-subst higher up). # If an order_by is supplied, the inner select needs to bring out columns # used in implicit (non-selected) orders, and the order condition itself # needs to be realiased to the proper names in the outer query. Thus we # also return a hashref (order doesn't matter) of QUOTED EXTRA-SEL => # QUOTED ALIAS pairs, which is a list of extra selectors that do *not* # exist in the original select list sub _subqueried_limit_attrs { my ($self, $proto_sql, $rs_attrs) = @_; $self->throw_exception( 'Limit dialect implementation usable only in the context of DBIC (missing $rs_attrs)' ) unless ref ($rs_attrs) eq 'HASH'; # mangle the input sql as we will be replacing the selector entirely unless ( $rs_attrs->{_selector_sql} and $proto_sql =~ s/^ \s* SELECT \s* \Q$rs_attrs->{_selector_sql}//ix ) { $self->throw_exception("Unrecognizable SELECT: $proto_sql"); } my ($re_sep, $re_alias) = map { quotemeta $_ } ( $self->{name_sep}, $rs_attrs->{alias} ); # correlate select and as, build selection index my (@sel, $in_sel_index); for my $i (0 .. $#{$rs_attrs->{select}}) { my $s = $rs_attrs->{select}[$i]; my $sql_alias = (ref $s) eq 'HASH' ? $s->{-as} : undef; # we throw away the @bind here deliberately my ($sql_sel) = $self->_recurse_fields ($s); push @sel, { arg => $s, sql => $sql_sel, unquoted_sql => do { local $self->{quote_char}; ($self->_recurse_fields ($s))[0]; # ignore binds again }, as => $sql_alias || $rs_attrs->{as}[$i] || $self->throw_exception("Select argument $i ($s) without corresponding 'as'") , }; # anything with a placeholder in it needs re-selection $in_sel_index->{$sql_sel}++ unless $sql_sel =~ / (?: ^ | \W ) \? (?: \W | $ ) /x; $in_sel_index->{$self->_quote ($sql_alias)}++ if $sql_alias; # record unqualified versions too, so we do not have # to reselect the same column twice (in qualified and # unqualified form) if (! ref $s && $sql_sel =~ / $re_sep (.+) $/x) { $in_sel_index->{$1}++; } } # re-alias and remove any name separators from aliases, # unless we are dealing with the current source alias # (which will transcend the subqueries as it is necessary # for possible further chaining) # same for anything we do not recognize my ($sel, $renamed); for my $node (@sel) { push @{$sel->{original}}, $node->{sql}; if ( ! $in_sel_index->{$node->{sql}} or $node->{as} =~ / (?{unquoted_sql} =~ / (?{as} = $self->_unqualify_colname($node->{as}); my $quoted_as = $self->_quote($node->{as}); push @{$sel->{inner}}, sprintf '%s AS %s', $node->{sql}, $quoted_as; push @{$sel->{outer}}, $quoted_as; $renamed->{$node->{sql}} = $quoted_as; } else { push @{$sel->{inner}}, $node->{sql}; push @{$sel->{outer}}, $self->_quote (ref $node->{arg} ? $node->{as} : $node->{arg}); } } # see if the order gives us anything my $extra_order_sel; for my $chunk ($self->_order_by_chunks ($rs_attrs->{order_by})) { # order with bind $chunk = $chunk->[0] if (ref $chunk) eq 'ARRAY'; ($chunk) = $self->_split_order_chunk($chunk); next if $in_sel_index->{$chunk}; $extra_order_sel->{$chunk} ||= $self->_quote ( 'ORDER__BY__' . sprintf '%03d', scalar keys %{$extra_order_sel||{}} ); } return { query_leftover => $proto_sql, (map {( "selection_$_" => join (', ', @{$sel->{$_}} ) )} keys %$sel ), outer_renames => $renamed, order_supplement => $extra_order_sel, }; } sub _unqualify_colname { my ($self, $fqcn) = @_; $fqcn =~ s/ \. /__/xg; return $fqcn; } =head1 FURTHER QUESTIONS? Check the list of L. =head1 COPYRIGHT AND LICENSE This module is free software L by the L. You can redistribute it and/or modify it under the same terms as the L. =cut 1;