package # hide from the pauses DBIx::Class::ResultSource::RowParser; use strict; use warnings; use Try::Tiny; use List::Util 'first'; use B 'perlstring'; use namespace::clean; use base 'DBIx::Class'; # Accepts one or more relationships for the current source and returns an # array of column names for each of those relationships. Column names are # prefixed relative to the current source, in accordance with where they appear # in the supplied relationships. sub _resolve_prefetch { my ($self, $pre, $alias, $alias_map, $order, $pref_path) = @_; $pref_path ||= []; if (not defined $pre or not length $pre) { return (); } elsif( ref $pre eq 'ARRAY' ) { return map { $self->_resolve_prefetch( $_, $alias, $alias_map, $order, [ @$pref_path ] ) } @$pre; } elsif( ref $pre eq 'HASH' ) { my @ret = map { $self->_resolve_prefetch($_, $alias, $alias_map, $order, [ @$pref_path ] ), $self->related_source($_)->_resolve_prefetch( $pre->{$_}, "${alias}.$_", $alias_map, $order, [ @$pref_path, $_] ) } keys %$pre; return @ret; } elsif( ref $pre ) { $self->throw_exception( "don't know how to resolve prefetch reftype ".ref($pre)); } else { my $p = $alias_map; $p = $p->{$_} for (@$pref_path, $pre); $self->throw_exception ( "Unable to resolve prefetch '$pre' - join alias map does not contain an entry for path: " . join (' -> ', @$pref_path, $pre) ) if (ref $p->{-join_aliases} ne 'ARRAY' or not @{$p->{-join_aliases}} ); my $as = shift @{$p->{-join_aliases}}; my $rel_info = $self->relationship_info( $pre ); $self->throw_exception( $self->source_name . " has no such relationship '$pre'" ) unless $rel_info; my $as_prefix = ($alias =~ /^.*?\.(.+)$/ ? $1.'.' : ''); return map { [ "${as}.$_", "${as_prefix}${pre}.$_", ] } $self->related_source($pre)->columns; } } # Takes an arrayref selection list and generates a collapse-map representing # row-object fold-points. Every relationship is assigned a set of unique, # non-nullable columns (which may *not even be* from the same resultset) # and the collapser will use this information to correctly distinguish # data of individual to-be-row-objects. See t/resultset/rowparser_internals.t # for extensive RV examples sub _resolve_collapse { my ($self, $as, $as_fq_idx, $rel_chain, $parent_info, $node_idx_ref) = @_; # for comprehensible error messages put ourselves at the head of the relationship chain $rel_chain ||= [ $self->source_name ]; # record top-level fully-qualified column index $as_fq_idx ||= { %$as }; my ($my_cols, $rel_cols); for (keys %$as) { if ($_ =~ /^ ([^\.]+) \. (.+) /x) { $rel_cols->{$1}{$2} = 1; } else { $my_cols->{$_} = {}; # important for ||= below } } my $relinfo; # run through relationships, collect metadata, inject non-left fk-bridges from # *INNER-JOINED* children (if any) for my $rel (keys %$rel_cols) { my $rel_src = __get_related_source($self, $rel, $rel_cols->{$rel}); my $inf = $self->relationship_info ($rel); $relinfo->{$rel}{is_single} = $inf->{attrs}{accessor} && $inf->{attrs}{accessor} ne 'multi'; $relinfo->{$rel}{is_inner} = ( $inf->{attrs}{join_type} || '' ) !~ /^left/i; $relinfo->{$rel}{rsrc} = $rel_src; my $cond = $inf->{cond}; if ( ref $cond eq 'HASH' and keys %$cond and ! first { $_ !~ /^foreign\./ } (keys %$cond) and ! first { $_ !~ /^self\./ } (values %$cond) ) { for my $f (keys %$cond) { my $s = $cond->{$f}; $_ =~ s/^ (?: foreign | self ) \.//x for ($f, $s); $relinfo->{$rel}{fk_map}{$s} = $f; # need to know source from *our* pov, hence $rel. $my_cols->{$s} ||= { via_fk => "$rel.$f" } if ( defined $rel_cols->{$rel}{$f} # in fact selected and $relinfo->{$rel}{is_inner} ); } } } # if the parent is already defined, assume all of its related FKs are selected # (even if they in fact are NOT in the select list). Keep a record of what we # assumed, and if any such phantom-column becomes part of our own collapser, # throw everything assumed-from-parent away and replace with the collapser of # the parent (whatever it may be) my $assumed_from_parent; unless ($parent_info->{underdefined}) { $assumed_from_parent->{columns} = { map # only add to the list if we do not already select said columns { ! exists $my_cols->{$_} ? ( $_ => 1 ) : () } values %{$parent_info->{rel_condition} || {}} }; $my_cols->{$_} = { via_collapse => $parent_info->{collapse_on} } for keys %{$assumed_from_parent->{columns}}; } # get colinfo for everything if ($my_cols) { my $ci = $self->columns_info; $my_cols->{$_}{colinfo} = $ci->{$_} for keys %$my_cols; } my $collapse_map; # try to resolve based on our columns (plus already inserted FK bridges) if ( $my_cols and my $idset = $self->_identifying_column_set ({map { $_ => $my_cols->{$_}{colinfo} } keys %$my_cols}) ) { # see if the resulting collapser relies on any implied columns, # and fix stuff up if this is the case my @reduced_set = grep { ! $assumed_from_parent->{columns}{$_} } @$idset; $collapse_map->{-node_id} = __unique_numlist( (@reduced_set != @$idset) ? @{$parent_info->{collapse_on}} : (), (map { my $fqc = join ('.', @{$rel_chain}[1 .. $#$rel_chain], ( $my_cols->{$_}{via_fk} || $_ ), ); $as_fq_idx->{$fqc}; } @reduced_set ), ); } # Stil don't know how to collapse - keep descending down 1:1 chains - if # a related non-LEFT 1:1 is resolvable - its condition will collapse us # too unless ($collapse_map->{-node_id}) { my @candidates; for my $rel (keys %$relinfo) { next unless ($relinfo->{$rel}{is_single} && $relinfo->{$rel}{is_inner}); if ( my $rel_collapse = $relinfo->{$rel}{rsrc}->_resolve_collapse ( $rel_cols->{$rel}, $as_fq_idx, [ @$rel_chain, $rel ], { underdefined => 1 } )) { push @candidates, $rel_collapse->{-node_id}; } } # get the set with least amount of columns # FIXME - maybe need to implement a data type order as well (i.e. prefer several ints # to a single varchar) if (@candidates) { ($collapse_map->{-node_id}) = sort { scalar @$a <=> scalar @$b } (@candidates); } } # Still dont know how to collapse - see if the parent passed us anything # (i.e. reuse collapser over 1:1) unless ($collapse_map->{-node_id}) { $collapse_map->{-node_id} = $parent_info->{collapse_on} if $parent_info->{collapser_reusable}; } # stop descending into children if we were called by a parent for first-pass # and don't despair if nothing was found (there may be other parallel branches # to dive into) if ($parent_info->{underdefined}) { return $collapse_map->{-node_id} ? $collapse_map : undef } # nothing down the chain resolved - can't calculate a collapse-map elsif (! $collapse_map->{-node_id}) { $self->throw_exception ( sprintf "Unable to calculate a definitive collapse column set for %s%s: fetch more unique non-nullable columns", $self->source_name, @$rel_chain > 1 ? sprintf (' (last member of the %s chain)', join ' -> ', @$rel_chain ) : '' , ); } # If we got that far - we are collapsable - GREAT! Now go down all children # a second time, and fill in the rest $collapse_map->{-is_optional} = 1 if $parent_info->{is_optional}; $collapse_map->{-node_index} = ${ $node_idx_ref ||= \do { my $x = 1 } }++; # this is *deliberately* not 0-based my (@id_sets, $multis_in_chain); for my $rel (sort keys %$relinfo) { $collapse_map->{$rel} = $relinfo->{$rel}{rsrc}->_resolve_collapse ( { map { $_ => 1 } ( keys %{$rel_cols->{$rel}} ) }, $as_fq_idx, [ @$rel_chain, $rel], { collapse_on => [ @{$collapse_map->{-node_id}} ], rel_condition => $relinfo->{$rel}{fk_map}, is_optional => $collapse_map->{-is_optional}, # if this is a 1:1 our own collapser can be used as a collapse-map # (regardless of left or not) collapser_reusable => $relinfo->{$rel}{is_single}, }, $node_idx_ref, ); $collapse_map->{$rel}{-is_single} = 1 if $relinfo->{$rel}{is_single}; $collapse_map->{$rel}{-is_optional} ||= 1 unless $relinfo->{$rel}{is_inner}; push @id_sets, @{ $collapse_map->{$rel}{-branch_id} }; } $collapse_map->{-branch_id} = __unique_numlist( @id_sets, @{$collapse_map->{-node_id}} ); return $collapse_map; } # Takes an arrayref of {as} dbic column aliases and the collapse and select # attributes from the same $rs (the selector requirement is a temporary # workaround... I hope), and returns a coderef capable of: # my $me_pref_clps = $coderef->([$rs->cursor->next/all]) # Where the $me_pref_clps arrayref is the future argument to inflate_result() # # For an example of this coderef in action (and to see its guts) look at # t/resultset/rowparser_internals.t # # This is a huge performance win, as we call the same code for # every row # returned from the db, thus avoiding repeated method lookups when traversing # relationships # # Also since the coderef is completely stateless (the returned structure is # always fresh on every new invocation) this is a very good opportunity for # memoization if further speed improvements are needed # # The way we construct this coderef is somewhat fugly, although the result is # really worth it. The final coderef does not perform any kind of recursion - # the entire nested structure constructor is rolled out into a single scope. # # In any case - the output of this thing is meticulously micro-tested, so # any sort of adjustment/rewrite should be relatively easy (fsvo relatively) # sub _mk_row_parser { my ($self, $args) = @_; my $inflate_index = { map { $args->{inflate_map}[$_] => $_ } ( 0 .. $#{$args->{inflate_map}} ) }; my $parser_src; # the non-collapsing assembler is easy # FIXME SUBOPTIMAL there could be a yet faster way to do things here, but # need to try an actual implementation and benchmark it: # # First setup the nested data structure you want for each row # Then call bind_col() to alias the row fields into the right place in # the data structure, then to fetch the data do: # push @rows, dclone($row_data_struct) while ($sth->fetchrow); # if (!$args->{collapse}) { $parser_src = sprintf('$_ = %s for @{$_[0]}', __visit_infmap_simple( $inflate_index, { rsrc => $self }, # need the $rsrc to sanity-check inflation map once )); # change the quoted placeholders to unquoted alias-references $parser_src =~ s/ \' \xFF__VALPOS__(\d+)__\xFF \' /"\$_->[$1]"/gex; } # the collapsing parser is more complicated - it needs to keep a lot of state # else { my $collapse_map = $self->_resolve_collapse ( # FIXME # only consider real columns (not functions) during collapse resolution # this check shouldn't really be here, as fucktards are not supposed to # alias random crap to existing column names anyway, but still - just in # case # FIXME !!!! - this does not yet deal with unbalanced selectors correctly # (it is now trivial as the attrs specify where things go out of sync # needs MOAR tests) { map { ref $args->{selection}[$inflate_index->{$_}] ? () : ( $_ => $inflate_index->{$_} ) } keys %$inflate_index } ); my $top_branch_idx_list = join (', ', @{$collapse_map->{-branch_id}}); my $top_node_id_path = join ('', map { "{'\xFF__IDVALPOS__${_}__\xFF'}" } @{$collapse_map->{-node_id}} ); my $rel_assemblers = __visit_infmap_collapse ( $inflate_index, $collapse_map ); $parser_src = sprintf (<<'EOS', $top_branch_idx_list, $top_node_id_path, $rel_assemblers); ### BEGIN STRING EVAL my ($rows_pos, $result_pos, $cur_row, @cur_row_ids, @collapse_idx, $is_new_res) = (0,0); # this loop is a bit arcane - the rationale is that the passed in # $_[0] will either have only one row (->next) or will have all # rows already pulled in (->all and/or unordered). Given that the # result can be rather large - we reuse the same already allocated # array, since the collapsed prefetch is smaller by definition. # At the end we cut the leftovers away and move on. while ($cur_row = ( ( $rows_pos >= 0 and $_[0][$rows_pos++] ) or do { $rows_pos = -1; undef } ) || ($_[1] and $_[1]->()) ) { $cur_row_ids[$_] = defined $cur_row->[$_] ? $cur_row->[$_] : "\xFF\xFFN\xFFU\xFFL\xFFL\xFF\xFF" for (%1$s); # the top branch_id includes all id values $is_new_res = ! $collapse_idx[1]%2$s and ( $_[1] and $result_pos and (unshift @{$_[2]}, $cur_row) and last ); %3$s $_[0][$result_pos++] = $collapse_idx[1]%2$s if $is_new_res; } splice @{$_[0]}, $result_pos; # truncate the passed in array for cases of collapsing ->all() ### END STRING EVAL EOS # !!! note - different var than the one above # change the quoted placeholders to unquoted alias-references $parser_src =~ s/ \' \xFF__VALPOS__(\d+)__\xFF \' /"\$cur_row->[$1]"/gex; $parser_src =~ s/ \' \xFF__IDVALPOS__(\d+)__\xFF \' /"\$cur_row_ids[$1]"/gex; } $parser_src; } # the simple non-collapsing nested structure recursor sub __visit_infmap_simple { my ($val_idx, $args) = @_; my $my_cols = {}; my $rel_cols; for (keys %$val_idx) { if ($_ =~ /^ ([^\.]+) \. (.+) /x) { $rel_cols->{$1}{$2} = $val_idx->{$_}; } else { $my_cols->{$_} = $val_idx->{$_}; } } my @relperl; for my $rel (sort keys %$rel_cols) { # DISABLEPRUNE #my $optional = $args->{is_optional}; #$optional ||= ($args->{rsrc}->relationship_info($rel)->{attrs}{join_type} || '') =~ /^left/i; push @relperl, join ' => ', perlstring($rel), __visit_infmap_simple($rel_cols->{$rel}, { rsrc => __get_related_source($args->{rsrc}, $rel, $rel_cols->{$rel}), # DISABLEPRUNE #non_top => 1, #is_optional => $optional, }); # FIXME SUBOPTIMAL DISABLEPRUNE - disabled to satisfy t/resultset/inflate_result_api.t #if ($optional and my @branch_null_checks = map # { "(! defined '\xFF__VALPOS__${_}__\xFF')" } # sort { $a <=> $b } values %{$rel_cols->{$rel}} #) { # $relperl[-1] = sprintf ( '(%s) ? ( %s => [] ) : ( %s )', # join (' && ', @branch_null_checks ), # perlstring($rel), # $relperl[-1], # ); #} } my $me_struct = keys %$my_cols ? __visit_dump({ map { $_ => "\xFF__VALPOS__$my_cols->{$_}__\xFF" } (keys %$my_cols) }) : 'undef' ; return sprintf '[%s]', join (',', $me_struct, @relperl ? sprintf ('{ %s }', join (',', @relperl)) : (), ); } # the collapsing nested structure recursor sub __visit_infmap_collapse { my ($val_idx, $collapse_map, $parent_info) = @_; my $my_cols = {}; my $rel_cols; for (keys %$val_idx) { if ($_ =~ /^ ([^\.]+) \. (.+) /x) { $rel_cols->{$1}{$2} = $val_idx->{$_}; } else { $my_cols->{$_} = $val_idx->{$_}; } } my $sequenced_node_id = join ('', map { "{'\xFF__IDVALPOS__${_}__\xFF'}" } @{$collapse_map->{-node_id}} ); my $me_struct = keys %$my_cols ? __visit_dump([{ map { $_ => "\xFF__VALPOS__$my_cols->{$_}__\xFF" } (keys %$my_cols) }]) : undef ; my $node_idx_ref = sprintf '$collapse_idx[%d]%s', $collapse_map->{-node_index}, $sequenced_node_id; my $parent_idx_ref = sprintf( '$collapse_idx[%d]%s[1]{%s}', @{$parent_info}{qw/node_idx sequenced_node_id/}, perlstring($parent_info->{relname}), ) if $parent_info; my @src; if ($collapse_map->{-node_index} == 1) { push @src, sprintf( '%s ||= %s;', $node_idx_ref, $me_struct, ) if $me_struct; } elsif ($collapse_map->{-is_single}) { push @src, sprintf ( '%s ||= %s%s;', $parent_idx_ref, $node_idx_ref, $me_struct ? " ||= $me_struct" : '', ); } else { push @src, sprintf('push @{%s}, %s%s unless %s;', $parent_idx_ref, $node_idx_ref, $me_struct ? " ||= $me_struct" : '', $node_idx_ref, ); } # DISABLEPRUNE #my $known_defined = { %{ $parent_info->{known_defined} || {} } }; #$known_defined->{$_}++ for @{$collapse_map->{-node_id}}; for my $rel (sort keys %$rel_cols) { push @src, sprintf( '%s[1]{%s} ||= [];', $node_idx_ref, perlstring($rel) ) unless $collapse_map->{$rel}{-is_single}; push @src, __visit_infmap_collapse($rel_cols->{$rel}, $collapse_map->{$rel}, { node_idx => $collapse_map->{-node_index}, sequenced_node_id => $sequenced_node_id, relname => $rel, # DISABLEPRUNE #known_defined => $known_defined, }); # FIXME SUBOPTIMAL DISABLEPRUNE - disabled to satisfy t/resultset/inflate_result_api.t #if ($collapse_map->{$rel}{-is_optional} and my @null_checks = map # { "(! defined '\xFF__IDVALPOS__${_}__\xFF')" } # sort { $a <=> $b } grep # { ! $known_defined->{$_} } # @{$collapse_map->{$rel}{-node_id}} #) { # $src[-1] = sprintf( '(%s) or %s', # join (' || ', @null_checks ), # $src[-1], # ); #} } join "\n", @src; } # adding a dep on MoreUtils *just* for this is retarded sub __unique_numlist { [ sort { $a <=> $b } keys %{ {map { $_ => 1 } @_ }} ] } # This error must be thrown from two distinct codepaths, joining them is # rather hard. Go for this hack instead. sub __get_related_source { my ($rsrc, $rel, $relcols) = @_; try { $rsrc->related_source ($rel) } catch { $rsrc->throw_exception(sprintf( "Can't inflate prefetch into non-existent relationship '%s' from '%s', " . "check the inflation specification (columns/as) ending in '...%s.%s'.", $rel, $rsrc->source_name, $rel, (sort { length($a) <=> length ($b) } keys %$relcols)[0], ))}; } # keep our own DD object around so we don't have to fitz with quoting my $dumper_obj; sub __visit_dump { # we actually will be producing functional perl code here, # thus no second-guessing of what these globals might have # been set to. DO NOT CHANGE! ($dumper_obj ||= do { require Data::Dumper; Data::Dumper->new([]) ->Useperl (0) ->Purity (1) ->Pad ('') ->Useqq (0) ->Terse (1) ->Quotekeys (1) ->Deepcopy (0) ->Deparse (0) ->Maxdepth (0) ->Indent (0) # faster but harder to read, perhaps leave at 1 ? })->Values ([$_[0]])->Dump; } 1;