Profile of DBIx/Class/ResultSource/RowParser.pm

Filename	/usr/share/perl5/DBIx/Class/ResultSource/RowParser.pm
Statements	Executed 0 statements in 0s

Subroutines
Calls	P	F	Exclusive Time	Inclusive Time	Subroutine
1	1	1	1.87ms	2.07ms	DBIx::Class::ResultSource::RowParser::BEGIN@12
1	1	1	29µs	42µs	DBIx::Class::ResultSource::RowParser::BEGIN@10
1	1	1	20µs	27µs	DBIx::Class::ResultSource::RowParser::BEGIN@4
1	1	1	10µs	156µs	DBIx::Class::ResultSource::RowParser::BEGIN@17
1	1	1	10µs	44µs	DBIx::Class::ResultSource::RowParser::BEGIN@9
1	1	1	8µs	45µs	DBIx::Class::ResultSource::RowParser::BEGIN@7
1	1	1	7µs	11µs	DBIx::Class::ResultSource::RowParser::BEGIN@5
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::__ANON__[:196]
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::__ANON__[:198]
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::__ANON__[:422]
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::__unique_numlist
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::_mk_row_parser
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::_resolve_collapse
0	0	0	0s	0s	DBIx::Class::ResultSource::RowParser::_resolve_prefetch

Call graph for these subroutines as a Graphviz dot language file.

Line	Calls	Time in subs	Code
1			package # hide from the pauses
2			DBIx::Class::ResultSource::RowParser;
3
4	2	33µs	# spent 27µs (20+6) within DBIx::Class::ResultSource::RowParser::BEGIN@4 which was called: # once (20µs+6µs) by base::import at line 4 use strict; # spent 27µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@4 # spent 6µs making 1 call to strict::import
5	2	15µs	# spent 11µs (7+4) within DBIx::Class::ResultSource::RowParser::BEGIN@5 which was called: # once (7µs+4µs) by base::import at line 5 use warnings; # spent 11µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@5 # spent 4µs making 1 call to warnings::import
6
7	2	45µs	# spent 45µs (8+37) within DBIx::Class::ResultSource::RowParser::BEGIN@7 which was called: # once (8µs+37µs) by base::import at line 7 use base 'DBIx::Class'; # spent 45µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@7 # spent 37µs making 1 call to base::import, recursion: max depth 2, sum of overlapping time 37µs
8
9	2	78µs	# spent 44µs (10+34) within DBIx::Class::ResultSource::RowParser::BEGIN@9 which was called: # once (10µs+34µs) by base::import at line 9 use Try::Tiny; # spent 44µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@9 # spent 34µs making 1 call to Exporter::import
10	2	56µs	# spent 42µs (29+14) within DBIx::Class::ResultSource::RowParser::BEGIN@10 which was called: # once (29µs+14µs) by base::import at line 10 use List::Util qw(first max); # spent 42µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@10 # spent 14µs making 1 call to List::Util::import
11
12	1	32µs	# spent 2.07ms (1.87+200µs) within DBIx::Class::ResultSource::RowParser::BEGIN@12 which was called: # once (1.87ms+200µs) by base::import at line 15 use DBIx::Class::ResultSource::RowParser::Util qw( # spent 32µs making 1 call to Exporter::import
13			assemble_simple_parser
14			assemble_collapsing_parser
15	1	2.07ms	); # spent 2.07ms making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@12
16
17	2	302µs	# spent 156µs (10+146) within DBIx::Class::ResultSource::RowParser::BEGIN@17 which was called: # once (10µs+146µs) by base::import at line 17 use namespace::clean; # spent 156µs making 1 call to DBIx::Class::ResultSource::RowParser::BEGIN@17 # spent 146µs making 1 call to namespace::clean::import
18
19			# Accepts one or more relationships for the current source and returns an
20			# array of column names for each of those relationships. Column names are
21			# prefixed relative to the current source, in accordance with where they appear
22			# in the supplied relationships.
23			sub _resolve_prefetch {
24			my ($self, $pre, $alias, $alias_map, $order, $pref_path) = @_;
25			$pref_path \|\|= [];
26
27			if (not defined $pre or not length $pre) {
28			return ();
29			}
30			elsif( ref $pre eq 'ARRAY' ) {
31			return
32			map { $self->_resolve_prefetch( $_, $alias, $alias_map, $order, [ @$pref_path ] ) }
33			@$pre;
34			}
35			elsif( ref $pre eq 'HASH' ) {
36			my @ret =
37			map {
38			$self->_resolve_prefetch($_, $alias, $alias_map, $order, [ @$pref_path ] ),
39			$self->related_source($_)->_resolve_prefetch(
40			$pre->{$_}, "${alias}.$_", $alias_map, $order, [ @$pref_path, $_] )
41			} keys %$pre;
42			return @ret;
43			}
44			elsif( ref $pre ) {
45			$self->throw_exception(
46			"don't know how to resolve prefetch reftype ".ref($pre));
47			}
48			else {
49			my $p = $alias_map;
50			$p = $p->{$_} for (@$pref_path, $pre);
51
52			$self->throw_exception (
53			"Unable to resolve prefetch '$pre' - join alias map does not contain an entry for path: "
54			. join (' -> ', @$pref_path, $pre)
55			) if (ref $p->{-join_aliases} ne 'ARRAY' or not @{$p->{-join_aliases}} );
56
57			my $as = shift @{$p->{-join_aliases}};
58
59			my $rel_info = $self->relationship_info( $pre );
60			$self->throw_exception( $self->source_name . " has no such relationship '$pre'" )
61			unless $rel_info;
62
63			my $as_prefix = ($alias =~ /^.*?\.(.+)$/ ? $1.'.' : '');
64
65			return map { [ "${as}.$_", "${as_prefix}${pre}.$_", ] }
66			$self->related_source($pre)->columns;
67			}
68			}
69
70			# Takes an arrayref of {as} dbic column aliases and the collapse and select
71			# attributes from the same $rs (the selector requirement is a temporary
72			# workaround... I hope), and returns a coderef capable of:
73			# my $me_pref_clps = $coderef->([$rs->cursor->next/all])
74			# Where the $me_pref_clps arrayref is the future argument to inflate_result()
75			#
76			# For an example of this coderef in action (and to see its guts) look at
77			# t/resultset/rowparser_internals.t
78			#
79			# This is a huge performance win, as we call the same code for every row
80			# returned from the db, thus avoiding repeated method lookups when traversing
81			# relationships
82			#
83			# Also since the coderef is completely stateless (the returned structure is
84			# always fresh on every new invocation) this is a very good opportunity for
85			# memoization if further speed improvements are needed
86			#
87			# The way we construct this coderef is somewhat fugly, although the result is
88			# really worth it. The final coderef does not perform any kind of recursion -
89			# the entire nested structure constructor is rolled out into a single scope.
90			#
91			# In any case - the output of this thing is meticulously micro-tested, so
92			# any sort of adjustment/rewrite should be relatively easy (fsvo relatively)
93			#
94			sub _mk_row_parser {
95			# $args and $attrs are separated to delineate what is core collapser stuff and
96			# what is dbic $rs specific
97			my ($self, $args, $attrs) = @_;
98
99			die "HRI without pruning makes zero sense"
100			if ( $args->{hri_style} && ! $args->{prune_null_branches} );
101
102			my %common = (
103			hri_style => $args->{hri_style},
104			prune_null_branches => $args->{prune_null_branches},
105			val_index => { map
106			{ $args->{inflate_map}[$_] => $_ }
107			( 0 .. $#{$args->{inflate_map}} )
108			},
109			);
110
111			my $check_null_columns;
112
113			my $src = (! $args->{collapse} ) ? assemble_simple_parser(\%common) : do {
114			my $collapse_map = $self->_resolve_collapse ({
115			# FIXME
116			# only consider real columns (not functions) during collapse resolution
117			# this check shouldn't really be here, as fucktards are not supposed to
118			# alias random crap to existing column names anyway, but still - just in
119			# case
120			# FIXME !!!! - this does not yet deal with unbalanced selectors correctly
121			# (it is now trivial as the attrs specify where things go out of sync
122			# needs MOAR tests)
123			as => { map
124			{ ref $attrs->{select}[$common{val_index}{$_}] ? () : ( $_ => $common{val_index}{$_} ) }
125			keys %{$common{val_index}}
126			},
127			premultiplied => $args->{premultiplied},
128			});
129
130			$check_null_columns = $collapse_map->{-identifying_columns}
131			if @{$collapse_map->{-identifying_columns}};
132
133			assemble_collapsing_parser({
134			%common,
135			collapse_map => $collapse_map,
136			});
137			};
138
139			utf8::upgrade($src)
140			if DBIx::Class::_ENV_::STRESSTEST_UTF8_UPGRADE_GENERATED_COLLAPSER_SOURCE;
141
142			return (
143			$args->{eval} ? ( eval "sub $src" \|\| die $@ ) : $src,
144			$check_null_columns,
145			);
146			}
147
148
149			# Takes an arrayref selection list and generates a collapse-map representing
150			# row-object fold-points. Every relationship is assigned a set of unique,
151			# non-nullable columns (which may not even be from the same resultset)
152			# and the collapser will use this information to correctly distinguish
153			# data of individual to-be-row-objects. See t/resultset/rowparser_internals.t
154			# for extensive RV examples
155			sub _resolve_collapse {
156			my ($self, $args, $common_args) = @_;
157
158			# for comprehensible error messages put ourselves at the head of the relationship chain
159			$args->{_rel_chain} \|\|= [ $self->source_name ];
160
161			# record top-level fully-qualified column index, signify toplevelness
162			unless ($common_args->{_as_fq_idx}) {
163			$common_args->{_as_fq_idx} = { %{$args->{as}} };
164			$args->{_is_top_level} = 1;
165			};
166
167			my ($my_cols, $rel_cols);
168			for (keys %{$args->{as}}) {
169			if ($_ =~ /^ ([^\.]+) \. (.+) /x) {
170			$rel_cols->{$1}{$2} = 1;
171			}
172			else {
173			$my_cols->{$_} = {}; # important for \|\|='s below
174			}
175			}
176
177			my $relinfo;
178			# run through relationships, collect metadata
179			for my $rel (keys %$rel_cols) {
180			my $inf = $self->relationship_info ($rel);
181
182			$relinfo->{$rel} = {
183			is_single => ( $inf->{attrs}{accessor} && $inf->{attrs}{accessor} ne 'multi' ),
184			is_inner => ( ( $inf->{attrs}{join_type} \|\| '' ) !~ /^left/i),
185			rsrc => $self->related_source($rel),
186			};
187
188			# FIME - need to use _resolve_cond here instead
189			my $cond = $inf->{cond};
190
191			if (
192			ref $cond eq 'HASH'
193			and
194			keys %$cond
195			and
196			! defined first { $_ !~ /^foreign\./ } (keys %$cond)
197			and
198			! defined first { $_ !~ /^self\./ } (values %$cond)
199			) {
200			for my $f (keys %$cond) {
201			my $s = $cond->{$f};
202			$_ =~ s/^ (?: foreign \| self ) \.//x for ($f, $s);
203			$relinfo->{$rel}{fk_map}{$s} = $f;
204			}
205			}
206			}
207
208			# inject non-left fk-bridges from INNER-JOINED children (if any)
209			for my $rel (grep { $relinfo->{$_}{is_inner} } keys %$relinfo) {
210			my $ri = $relinfo->{$rel};
211			for (keys %{$ri->{fk_map}} ) {
212			# need to know source from our pov, hence $rel.col
213			$my_cols->{$_} \|\|= { via_fk => "$rel.$ri->{fk_map}{$_}" }
214			if defined $rel_cols->{$rel}{$ri->{fk_map}{$_}} # in fact selected
215			}
216			}
217
218			# if the parent is already defined AND we have an inner reverse relationship
219			# (i.e. do not exist without it) , assume all of its related FKs are selected
220			# (even if they in fact are NOT in the select list). Keep a record of what we
221			# assumed, and if any such phantom-column becomes part of our own collapser,
222			# throw everything assumed-from-parent away and replace with the collapser of
223			# the parent (whatever it may be)
224			my $assumed_from_parent;
225			if ( ! $args->{_parent_info}{underdefined} and ! $args->{_parent_info}{rev_rel_is_optional} ) {
226			for my $col ( values %{$args->{_parent_info}{rel_condition} \|\| {}} ) {
227			next if exists $my_cols->{$col};
228			$my_cols->{$col} = { via_collapse => $args->{_parent_info}{collapse_on_idcols} };
229			$assumed_from_parent->{columns}{$col}++;
230			}
231			}
232
233			# get colinfo for everything
234			if ($my_cols) {
235			my $ci = $self->columns_info;
236			$my_cols->{$_}{colinfo} = $ci->{$_} for keys %$my_cols;
237			}
238
239			my $collapse_map;
240
241			# first try to reuse the parent's collapser (i.e. reuse collapser over 1:1)
242			# (makes for a leaner coderef later)
243			unless ($collapse_map->{-identifying_columns}) {
244			$collapse_map->{-identifying_columns} = $args->{_parent_info}{collapse_on_idcols}
245			if $args->{_parent_info}{collapser_reusable};
246			}
247
248			# Still don't know how to collapse - try to resolve based on our columns (plus already inserted FK bridges)
249			if (
250			! $collapse_map->{-identifying_columns}
251			and
252			$my_cols
253			and
254			my $idset = $self->_identifying_column_set ({map { $_ => $my_cols->{$_}{colinfo} } keys %$my_cols})
255			) {
256			# see if the resulting collapser relies on any implied columns,
257			# and fix stuff up if this is the case
258			my @reduced_set = grep { ! $assumed_from_parent->{columns}{$_} } @$idset;
259
260			$collapse_map->{-identifying_columns} = [ __unique_numlist(
261			@{ $args->{_parent_info}{collapse_on_idcols}\|\|[] },
262
263			(map
264			{
265			my $fqc = join ('.',
266			@{$args->{_rel_chain}}[1 .. $#{$args->{_rel_chain}}],
267			( $my_cols->{$_}{via_fk} \|\| $_ ),
268			);
269
270			$common_args->{_as_fq_idx}->{$fqc};
271			}
272			@reduced_set
273			),
274			)];
275			}
276
277			# Stil don't know how to collapse - keep descending down 1:1 chains - if
278			# a related non-LEFT 1:1 is resolvable - its condition will collapse us
279			# too
280			unless ($collapse_map->{-identifying_columns}) {
281			my @candidates;
282
283			for my $rel (keys %$relinfo) {
284			next unless ($relinfo->{$rel}{is_single} && $relinfo->{$rel}{is_inner});
285
286			if ( my $rel_collapse = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
287			as => $rel_cols->{$rel},
288			_rel_chain => [ @{$args->{_rel_chain}}, $rel ],
289			_parent_info => { underdefined => 1 },
290			}, $common_args)) {
291			push @candidates, $rel_collapse->{-identifying_columns};
292			}
293			}
294
295			# get the set with least amount of columns
296			# FIXME - maybe need to implement a data type order as well (i.e. prefer several ints
297			# to a single varchar)
298			if (@candidates) {
299			($collapse_map->{-identifying_columns}) = sort { scalar @$a <=> scalar @$b } (@candidates);
300			}
301			}
302
303			# Stil don't know how to collapse, and we are the root node. Last ditch
304			# effort in case we are NOT premultiplied.
305			# Run through each multi all the way down, left or not, and all
306			# left singles (a single may become a multi underneath) . When everything
307			# gets back see if all the rels link to us definitively. If this is the
308			# case we are good - either one of them will define us, or if all are NULLs
309			# we know we are "unique" due to the "non-premultiplied" check
310			if (
311			! $collapse_map->{-identifying_columns}
312			and
313			! $args->{premultiplied}
314			and
315			$args->{_is_top_level}
316			) {
317			my (@collapse_sets, $uncollapsible_chain);
318
319			for my $rel (keys %$relinfo) {
320
321			# we already looked at these higher up
322			next if ($relinfo->{$rel}{is_single} && $relinfo->{$rel}{is_inner});
323
324			if (my $clps = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
325			as => $rel_cols->{$rel},
326			_rel_chain => [ @{$args->{_rel_chain}}, $rel ],
327			_parent_info => { underdefined => 1 },
328			}, $common_args) ) {
329
330			# for singles use the idcols wholesale (either there or not)
331			if ($relinfo->{$rel}{is_single}) {
332			push @collapse_sets, $clps->{-identifying_columns};
333			}
334			elsif (! $relinfo->{$rel}{fk_map}) {
335			$uncollapsible_chain = 1;
336			last;
337			}
338			else {
339			my $defined_cols_parent_side;
340
341			for my $fq_col ( grep { /^$rel\.[^\.]+$/ } keys %{$args->{as}} ) {
342			my ($col) = $fq_col =~ /([^\.]+)$/;
343
344			$defined_cols_parent_side->{$_} = $args->{as}{$fq_col} for grep
345			{ $relinfo->{$rel}{fk_map}{$_} eq $col }
346			keys %{$relinfo->{$rel}{fk_map}}
347			;
348			}
349
350			if (my $set = $self->_identifying_column_set([ keys %$defined_cols_parent_side ]) ) {
351			push @collapse_sets, [ sort map { $defined_cols_parent_side->{$_} } @$set ];
352			}
353			else {
354			$uncollapsible_chain = 1;
355			last;
356			}
357			}
358			}
359			else {
360			$uncollapsible_chain = 1;
361			last;
362			}
363			}
364
365			unless ($uncollapsible_chain) {
366			# if we got here - we are good to go, but the construction is tricky
367			# since our children will want to include our collapse criteria - we
368			# don't give them anything (safe, since they are all collapsible on their own)
369			# in addition we record the individual collapse possibilities
370			# of all left children node collapsers, and merge them in the rowparser
371			# coderef later
372			$collapse_map->{-identifying_columns} = [];
373			$collapse_map->{-identifying_columns_variants} = [ sort {
374			(scalar @$a) <=> (scalar @$b) or max(@$a) <=> max(@$b)
375			} @collapse_sets ];
376			}
377			}
378
379			# stop descending into children if we were called by a parent for first-pass
380			# and don't despair if nothing was found (there may be other parallel branches
381			# to dive into)
382			if ($args->{_parent_info}{underdefined}) {
383			return $collapse_map->{-identifying_columns} ? $collapse_map : undef
384			}
385			# nothing down the chain resolved - can't calculate a collapse-map
386			elsif (! $collapse_map->{-identifying_columns}) {
387			$self->throw_exception ( sprintf
388			"Unable to calculate a definitive collapse column set for %s%s: fetch more unique non-nullable columns",
389			$self->source_name,
390			@{$args->{_rel_chain}} > 1
391			? sprintf (' (last member of the %s chain)', join ' -> ', @{$args->{_rel_chain}} )
392			: ''
393			,
394			);
395			}
396
397			# If we got that far - we are collapsable - GREAT! Now go down all children
398			# a second time, and fill in the rest
399
400			$collapse_map->{-identifying_columns} = [ __unique_numlist(
401			@{ $args->{_parent_info}{collapse_on_idcols}\|\|[] },
402			@{ $collapse_map->{-identifying_columns} },
403			)];
404
405			my @id_sets;
406			for my $rel (sort keys %$relinfo) {
407
408			$collapse_map->{$rel} = $relinfo->{$rel}{rsrc}->_resolve_collapse ({
409			as => { map { $_ => 1 } ( keys %{$rel_cols->{$rel}} ) },
410			_rel_chain => [ @{$args->{_rel_chain}}, $rel],
411			_parent_info => {
412			# shallow copy
413			collapse_on_idcols => [ @{$collapse_map->{-identifying_columns}} ],
414
415			rel_condition => $relinfo->{$rel}{fk_map},
416
417			is_optional => ! $relinfo->{$rel}{is_inner},
418
419			# if there is at least one inner reverse relationship which is HASH-based (equality only)
420			# we can safely assume that the child can not exist without us
421			rev_rel_is_optional => ( first
422			{ ref $_->{cond} eq 'HASH' and ($_->{attrs}{join_type}\|\|'') !~ /^left/i }
423			values %{ $self->reverse_relationship_info($rel) },
424			) ? 0 : 1,
425
426			# if this is a 1:1 our own collapser can be used as a collapse-map
427			# (regardless of left or not)
428			collapser_reusable => (
429			$relinfo->{$rel}{is_single}
430			&&
431			$relinfo->{$rel}{is_inner}
432			&&
433			@{$collapse_map->{-identifying_columns}}
434			) ? 1 : 0,
435			},
436			}, $common_args );
437
438			$collapse_map->{$rel}{-is_single} = 1 if $relinfo->{$rel}{is_single};
439			$collapse_map->{$rel}{-is_optional} \|\|= 1 unless $relinfo->{$rel}{is_inner};
440			}
441
442			return $collapse_map;
443			}
444
445			# adding a dep on MoreUtils just for this is retarded
446			sub __unique_numlist {
447			sort { $a <=> $b } keys %{ {map { $_ => 1 } @_ }}
448			}
449
450	1	174µs	1; # spent 174µs making 1 call to B::Hooks::EndOfScope::XS::__ANON__