use strict;
use warnings;
+use base 'DBIx::Class';
+
use Try::Tiny;
-use List::Util 'first';
+use List::Util qw(first max);
use B 'perlstring';
-use namespace::clean;
+use DBIx::Class::ResultSource::RowParser::Util qw(
+ assemble_simple_parser
+ assemble_collapsing_parser
+);
-use base 'DBIx::Class';
+use namespace::clean;
# Accepts one or more relationships for the current source and returns an
# array of column names for each of those relationships. Column names are
}
}
-# Takes a selection list and generates a collapse-map representing
+# 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) = @_;
+
+ die "HRI without pruning makes zero sense"
+ if ( $args->{hri_style} && ! $args->{prune_null_branches} );
+
+ my %common = (
+ hri_style => $args->{hri_style},
+ prune_null_branches => $args->{prune_null_branches},
+ val_index => { map
+ { $args->{inflate_map}[$_] => $_ }
+ ( 0 .. $#{$args->{inflate_map}} )
+ },
+ );
+
+ my $src = $args->{collapse}
+ ? assemble_collapsing_parser({
+ %common,
+ 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)
+ as => { map
+ { ref $args->{selection}[$common{val_index}{$_}] ? () : ( $_ => $common{val_index}{$_} ) }
+ keys %{$common{val_index}}
+ },
+ premultiplied => $args->{premultiplied},
+ })
+ })
+ : assemble_simple_parser(
+ \%common
+ )
+ ;
+
+ return $args->{eval}
+ ? ( eval "sub $src" || die $@ )
+ : $src
+ ;
+}
+
+
+# Takes an arrayref selection list and generates a collapse-map representing
# row-object fold-points. Every relationship is assigned a set of unique,
# non-nullable columns (which may *not even be* from the same resultset)
# and the collapser will use this information to correctly distinguish
-# data of individual to-be-row-objects.
+# data of individual to-be-row-objects. See t/resultset/rowparser_internals.t
+# for extensive RV examples
sub _resolve_collapse {
- my ($self, $as, $as_fq_idx, $rel_chain, $parent_info, $node_idx_ref) = @_;
+ my ($self, $args, $common_args) = @_;
# for comprehensible error messages put ourselves at the head of the relationship chain
- $rel_chain ||= [ $self->source_name ];
+ $args->{_rel_chain} ||= [ $self->source_name ];
- # record top-level fully-qualified column index
- $as_fq_idx ||= { %$as };
+ # record top-level fully-qualified column index, signify toplevelness
+ unless ($common_args->{_as_fq_idx}) {
+ $common_args->{_as_fq_idx} = { %{$args->{as}} };
+ $args->{_is_top_level} = 1;
+ };
my ($my_cols, $rel_cols);
- for (keys %$as) {
+ for (keys %{$args->{as}}) {
if ($_ =~ /^ ([^\.]+) \. (.+) /x) {
$rel_cols->{$1}{$2} = 1;
}
else {
- $my_cols->{$_} = {}; # important for ||= below
+ $my_cols->{$_} = {}; # important for ||='s below
}
}
my $relinfo;
- # run through relationships, collect metadata, inject non-left fk-bridges from
- # *INNER-JOINED* children (if any)
+ # run through relationships, collect metadata
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;
+ $relinfo->{$rel} = {
+ is_single => ( $inf->{attrs}{accessor} && $inf->{attrs}{accessor} ne 'multi' ),
+ is_inner => ( ( $inf->{attrs}{join_type} || '' ) !~ /^left/i),
+ rsrc => $self->related_source($rel),
+ };
+ # FIME - need to use _resolve_cond here instead
my $cond = $inf->{cond};
if (
and
keys %$cond
and
- ! first { $_ !~ /^foreign\./ } (keys %$cond)
+ ! defined first { $_ !~ /^foreign\./ } (keys %$cond)
and
- ! first { $_ !~ /^self\./ } (values %$cond)
+ ! defined 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
+ # inject non-left fk-bridges from *INNER-JOINED* children (if any)
+ for my $rel (grep { $relinfo->{$_}{is_inner} } keys %$relinfo) {
+ my $ri = $relinfo->{$rel};
+ for (keys %{$ri->{fk_map}} ) {
+ # need to know source from *our* pov, hence $rel.col
+ $my_cols->{$_} ||= { via_fk => "$rel.$ri->{fk_map}{$_}" }
+ if defined $rel_cols->{$rel}{$ri->{fk_map}{$_}} # in fact selected
+ }
+ }
+
+ # if the parent is already defined *AND* we have an inner reverse relationship
+ # (i.e. do not exist without it) , 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}};
+ if ( ! $args->{_parent_info}{underdefined} and ! $args->{_parent_info}{rev_rel_is_optional} ) {
+ for my $col ( values %{$args->{_parent_info}{rel_condition} || {}} ) {
+ next if exists $my_cols->{$col};
+ $my_cols->{$col} = { via_collapse => $args->{_parent_info}{collapse_on_idcols} };
+ $assumed_from_parent->{columns}{$col}++;
+ }
}
# get colinfo for everything
my $collapse_map;
- # try to resolve based on our columns (plus already inserted FK bridges)
+ # first try to reuse the parent's collapser (i.e. reuse collapser over 1:1)
+ # (makes for a leaner coderef later)
+ unless ($collapse_map->{-identifying_columns}) {
+ $collapse_map->{-identifying_columns} = $args->{_parent_info}{collapse_on_idcols}
+ if $args->{_parent_info}{collapser_reusable};
+ }
+
+ # Still dont know how to collapse - try to resolve based on our columns (plus already inserted FK bridges)
if (
+ ! $collapse_map->{-identifying_columns}
+ and
$my_cols
and
my $idset = $self->_identifying_column_set ({map { $_ => $my_cols->{$_}{colinfo} } keys %$my_cols})
# 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}} : (),
+ $collapse_map->{-identifying_columns} = [ __unique_numlist(
+ @{ $args->{_parent_info}{collapse_on_idcols}||[] },
+
(map
{
my $fqc = join ('.',
- @{$rel_chain}[1 .. $#$rel_chain],
+ @{$args->{_rel_chain}}[1 .. $#{$args->{_rel_chain}}],
( $my_cols->{$_}{via_fk} || $_ ),
);
- $as_fq_idx->{$fqc};
+ $common_args->{_as_fq_idx}->{$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 ($collapse_map->{-node_id}) {
+ unless ($collapse_map->{-identifying_columns}) {
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};
+ if ( my $rel_collapse = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
+ as => $rel_cols->{$rel},
+ _rel_chain => [ @{$args->{_rel_chain}}, $rel ],
+ _parent_info => { underdefined => 1 },
+ }, $common_args)) {
+ push @candidates, $rel_collapse->{-identifying_columns};
}
}
# FIXME - maybe need to implement a data type order as well (i.e. prefer several ints
# to a single varchar)
if (@candidates) {
- ($collapse_map->{-node_id}) = sort { scalar @$a <=> scalar @$b } (@candidates);
+ ($collapse_map->{-identifying_columns}) = sort { scalar @$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};
+ # Stil don't know how to collapse, and we are the root node. Last ditch
+ # effort in case we are *NOT* premultiplied.
+ # Run through *each multi* all the way down, left or not, and all
+ # *left* singles (a single may become a multi underneath) . When everything
+ # gets back see if all the rels link to us definitively. If this is the
+ # case we are good - either one of them will define us, or if all are NULLs
+ # we know we are "unique" due to the "non-premultiplied" check
+ if (
+ ! $collapse_map->{-identifying_columns}
+ and
+ ! $args->{premultiplied}
+ and
+ $args->{_is_top_level}
+ ) {
+ my (@collapse_sets, $uncollapsible_chain);
+
+ for my $rel (keys %$relinfo) {
+
+ # we already looked at these higher up
+ next if ($relinfo->{$rel}{is_single} && $relinfo->{$rel}{is_inner});
+
+ if (my $clps = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
+ as => $rel_cols->{$rel},
+ _rel_chain => [ @{$args->{_rel_chain}}, $rel ],
+ _parent_info => { underdefined => 1 },
+ }, $common_args) ) {
+
+ # for singles use the idcols wholesale (either there or not)
+ if ($relinfo->{$rel}{is_single}) {
+ push @collapse_sets, $clps->{-identifying_columns};
+ }
+ elsif (! $relinfo->{$rel}{fk_map}) {
+ $uncollapsible_chain = 1;
+ last;
+ }
+ else {
+ my $defined_cols_parent_side;
+
+ for my $fq_col ( grep { /^$rel\.[^\.]+$/ } keys %{$args->{as}} ) {
+ my ($col) = $fq_col =~ /([^\.]+)$/;
+
+ $defined_cols_parent_side->{$_} = $args->{as}{$fq_col} for grep
+ { $relinfo->{$rel}{fk_map}{$_} eq $col }
+ keys %{$relinfo->{$rel}{fk_map}}
+ ;
+ }
+
+ if (my $set = $self->_identifying_column_set([ keys %$defined_cols_parent_side ]) ) {
+ push @collapse_sets, [ sort map { $defined_cols_parent_side->{$_} } @$set ];
+ }
+ else {
+ $uncollapsible_chain = 1;
+ last;
+ }
+ }
+ }
+ else {
+ $uncollapsible_chain = 1;
+ last;
+ }
+ }
+
+ unless ($uncollapsible_chain) {
+ # if we got here - we are good to go, but the construction is tricky
+ # since our children will want to include our collapse criteria - we
+ # don't give them anything (safe, since they are all collapsible on their own)
+ # in addition we record the individual collapse posibilities
+ # of all left children node collapsers, and merge them in the rowparser
+ # coderef later
+ $collapse_map->{-identifying_columns} = [];
+ $collapse_map->{-identifying_columns_variants} = [ sort {
+ (scalar @$a) <=> (scalar @$b) or max(@$a) <=> max(@$b)
+ } @collapse_sets ];
+ }
}
# stop descending into children if we were called by a parent for first-pass
# and don't despair if nothing was found (there may be other parallel branches
# to dive into)
- if ($parent_info->{underdefined}) {
- return $collapse_map->{-node_id} ? $collapse_map : undef
+ if ($args->{_parent_info}{underdefined}) {
+ return $collapse_map->{-identifying_columns} ? $collapse_map : undef
}
# nothing down the chain resolved - can't calculate a collapse-map
- elsif (! $collapse_map->{-node_id}) {
+ elsif (! $collapse_map->{-identifying_columns}) {
$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 ' -> ', @$rel_chain )
+ @{$args->{_rel_chain}} > 1
+ ? sprintf (' (last member of the %s chain)', join ' -> ', @{$args->{_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
+ $collapse_map->{-identifying_columns} = [ __unique_numlist(
+ @{ $args->{_parent_info}{collapse_on_idcols}||[] },
+ @{ $collapse_map->{-identifying_columns} },
+ )];
- my (@id_sets, $multis_in_chain);
+ my @id_sets;
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}} ],
+ $collapse_map->{$rel} = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
+ as => { map { $_ => 1 } ( keys %{$rel_cols->{$rel}} ) },
+ _rel_chain => [ @{$args->{_rel_chain}}, $rel],
+ _parent_info => {
+ # shallow copy
+ collapse_on_idcols => [ @{$collapse_map->{-identifying_columns}} ],
rel_condition => $relinfo->{$rel}{fk_map},
- is_optional => $collapse_map->{-is_optional},
+ is_optional => ! $relinfo->{$rel}{is_inner},
+
+ # if there is at least one *inner* reverse relationship which is HASH-based (equality only)
+ # we can safely assume that the child can not exist without us
+ rev_rel_is_optional => ( first
+ { ref $_->{cond} eq 'HASH' and ($_->{attrs}{join_type}||'') !~ /^left/i }
+ values %{ $self->reverse_relationship_info($rel) },
+ ) ? 0 : 1,
# 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},
+ collapser_reusable => (
+ $relinfo->{$rel}{is_single}
+ &&
+ $relinfo->{$rel}{is_inner}
+ &&
+ @{$collapse_map->{-identifying_columns}}
+ ) ? 1 : 0,
},
-
- $node_idx_ref,
- );
+ }, $common_args );
$collapse_map->{$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 slector requirement is a temporary
-# workaround), and returns a coderef capable of:
-# my $me_pref_clps = $coderef->([$rs->cursor->next])
-# Where the $me_pref_clps arrayref is the future argument to
-# ::ResultSet::_collapse_result.
-#
-# $me_pref_clps->[0] is always returned (even if as an empty hash with no
-# rowdata), however branches of related data in $me_pref_clps->[1] may be
-# pruned short of what was originally requested based on {as}, depending
-# on:
-#
-# * If collapse is requested, a definitive collapse map is calculated for
-# every relationship "fold-point", consisting of a set of values (which
-# may not even be contained in the future 'me' of said relationship
-# (for example a cd.artist_id defines the related inner-joined artist)).
-# Thus a definedness check is carried on all collapse-condition values
-# and if at least one is undef it is assumed that we are dealing with a
-# NULLed right-side of a left-join, so we don't return a related data
-# container at all, which implies no related objects
-#
-# * If we are not collapsing, there is no constraint on having a selector
-# uniquely identifying all possible objects, and the user might have very
-# well requested a column that just *happens* to be all NULLs. What we do
-# in this case is fallback to the old behavior (which is a potential FIXME)
-# by always returning a data container, but only filling it with columns
-# IFF at least one of them is defined. This way we do not get an object
-# with a bunch of has_column_loaded to undef, but at the same time do not
-# further relationships based off this "null" object (e.g. in case the user
-# deliberately skipped link-table values). I am pretty sure there are some
-# tests that codify this behavior, need to find the exact testname.
-#
-# For an example of this coderef in action (and to see its guts) look at
-# t/prefetch/_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 I am not
-# sure if the string eval is *that* bad of an idea. The alternative is to
-# have a *very* large number of anon coderefs calling each other in a twisty
-# maze, whereas the current result is a nice, smooth, single-pass function.
-# In any case - the output of this thing is meticulously micro-tested, so
-# any sort of rewrite should be relatively easy
-#
-sub _mk_row_parser {
- my ($self, $args) = @_;
-
- my $inflate_index = { map
- { $args->{inflate_map}[$_] => $_ }
- ( 0 .. $#{$args->{inflate_map}} )
- };
-
- my ($parser_src);
- if ($args->{collapse}) {
-
- 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)
- { 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
-
- # 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;
- }
-
- else {
- $parser_src = sprintf('$_ = %s for @{$_[0]}', __visit_infmap_simple(
- $inflate_index, { rsrc => $self }), # need the $rsrc to determine left-ness
- );
-
- # change the quoted placeholders to unquoted alias-references
- # !!! note - different var than the one above
- $parser_src =~ s/ \' \xFF__VALPOS__(\d+)__\xFF \' /"\$_->[$1]"/gex;
- }
-
- $parser_src;
-}
-
-sub __visit_infmap_simple {
- my ($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) {
-
- my $rel_rsrc = __get_related_source($args->{rsrc}, $rel, $rel_cols->{$rel});
-
- #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}, {
- non_top => 1,
- #is_optional => $optional,
- rsrc => $rel_rsrc,
- });
-
- # FIXME SUBOPTIMAL - disabled to satisfy t/resultset/inflate_result_api.t
- #if ($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 (',',
- $me_struct,
- @relperl ? sprintf ('{ %s }', join (',', @relperl)) : (),
- );
-}
-
-sub __visit_infmap_collapse {
-
- my ($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,
- );
- }
-
- #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,
- #known_defined => $known_defined,
- });
-
- # FIXME SUBOPTIMAL - disabled to satisfy t/resultset/inflate_result_api.t
- #if ($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 (1)
- ->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;
+ sort { $a <=> $b } keys %{ {map { $_ => 1 } @_ }}
}
1;