File Coverage

blib/lib/DBIx/Class/Storage/DBIHacks.pm

Criterion	Covered	Total	%
statement	523	539	97.0
branch	300	340	88.2
condition	217	292	74.3
subroutine	28	28	100.0
pod			n/a
total	1068	1199	89.0

line	stmt	bran	cond	sub	time	code
1						package #hide from PAUSE
2						DBIx::Class::Storage::DBIHacks;
3
4						#
5						# This module contains code that should never have seen the light of day,
6						# does not belong in the Storage, or is otherwise unfit for public
7						# display. The arrival of SQLA2 should immediately obsolete 90% of this
8						#
9
10	266			266	1405	use strict;
	266				566
	266				7041
11	266			266	1026	use warnings;
	266				508
	266				6634
12
13	266			266	1030	use base 'DBIx::Class::Storage';
	266				492
	266				119739
14	266			266	1637	use mro 'c3';
	266				551
	266				1842
15
16	266			266	9113	use List::Util 'first';
	266				581
	266				17378
17	266			266	1237	use Scalar::Util 'blessed';
	266				576
	266				10957
18	266			266	1160	use DBIx::Class::_Util qw(UNRESOLVABLE_CONDITION serialize);
	266				528
	266				12238
19	266			266	2169	use SQL::Abstract qw(is_plain_value is_literal_value);
	266				13906
	266				12210
20	266			266	1173	use DBIx::Class::Carp;
	266				547
	266				1264
21	266			266	1240	use namespace::clean;
	266				628
	266				1190
22
23						#
24						# This code will remove non-selecting/non-restricting joins from
25						# {from} specs, aiding the RDBMS query optimizer
26						#
27						sub _prune_unused_joins {
28	950			950	1640	my ($self, $attrs) = @_;
29
30						# only standard {from} specs are supported, and we could be disabled in general
31						return ($attrs->{from}, {}) unless (
32						ref $attrs->{from} eq 'ARRAY'
33						and
34	950				32008	@{$attrs->{from}} > 1
35						and
36						ref $attrs->{from}[0] eq 'HASH'
37						and
38	950	100	33		4091	ref $attrs->{from}[1] eq 'ARRAY'
			33
			33
			66
39						and
40						$self->_use_join_optimizer
41						);
42
43	893				4033	my $orig_aliastypes = $self->_resolve_aliastypes_from_select_args($attrs);
44
45	893				3337	my $new_aliastypes = { %$orig_aliastypes };
46
47						# we will be recreating this entirely
48	893				2553	my @reclassify = 'joining';
49
50						# a grouped set will not be affected by amount of rows. Thus any
51						# purely multiplicator classifications can go
52						# (will be reintroduced below if needed by something else)
53						push @reclassify, qw(multiplying premultiplied)
54	893	100	66		5099	if $attrs->{_force_prune_multiplying_joins} or $attrs->{group_by};
55
56						# nuke what will be recalculated
57	893				1364	delete @{$new_aliastypes}{@reclassify};
	893				1896
58
59	893				2331	my @newfrom = $attrs->{from}[0]; # FROM head is always present
60
61						# recalculate what we need once the multipliers are potentially gone
62						# ignore premultiplies, since they do not add any value to anything
63	893				1269	my %need_joins;
64	893				2803	for ( @{$new_aliastypes}{grep { $_ ne 'premultiplied' } keys %$new_aliastypes }) {
	893				2161
	2540				4190
65						# add all requested aliases
66	2379				5974	$need_joins{$_} = 1 for keys %$_;
67
68						# add all their parents (as per joinpath which is an AoH { table => alias })
69	2379				3587	$need_joins{$_} = 1 for map { values %$_ } map { @{$_->{-parents}} } values %$_;
	3368				7111
	4082				2943
	4082				7479
70						}
71
72	893				1685	for my $j (@{$attrs->{from}}[1..$#{$attrs->{from}}]) {
	893				2046
	893				1777
73						push @newfrom, $j if (
74						(! defined $j->[0]{-alias}) # legacy crap
75						\|\|
76						$need_joins{$j->[0]{-alias}}
77	1524	100	100		9142	);
78						}
79
80						# we have a new set of joiners - for everything we nuked pull the classification
81						# off the original stack
82	893				1851	for my $ctype (@reclassify) {
83						$new_aliastypes->{$ctype} = { map
84	2687	100			7835	{ $need_joins{$_} ? ( $_ => $orig_aliastypes->{$ctype}{$_} ) : () }
85	1337				1552	keys %{$orig_aliastypes->{$ctype}}
	1337				2997
86						}
87						}
88
89	893				6480	return ( \@newfrom, $new_aliastypes );
90						}
91
92						#
93						# This is the code producing joined subqueries like:
94						# SELECT me., other. FROM ( SELECT me.* FROM ... ) JOIN other ON ...
95						#
96						sub _adjust_select_args_for_complex_prefetch {
97	87			87	161	my ($self, $attrs) = @_;
98
99						$self->throw_exception ('Complex prefetches are not supported on resultsets with a custom from attribute') unless (
100						ref $attrs->{from} eq 'ARRAY'
101						and
102	87				1008	@{$attrs->{from}} > 1
103						and
104						ref $attrs->{from}[0] eq 'HASH'
105						and
106	87	50	33		430	ref $attrs->{from}[1] eq 'ARRAY'
			33
			33
107						);
108
109	87				183	my $root_alias = $attrs->{alias};
110
111						# generate inner/outer attribute lists, remove stuff that doesn't apply
112	87				736	my $outer_attrs = { %$attrs };
113	87				234	delete @{$outer_attrs}{qw(from bind rows offset group_by _grouped_by_distinct having)};
	87				564
114
115	87				623	my $inner_attrs = { %$attrs, _simple_passthrough_construction => 1 };
116	87				195	delete @{$inner_attrs}{qw(for collapse select as)};
	87				209
117
118						# there is no point of ordering the insides if there is no limit
119						delete $inner_attrs->{order_by} if (
120						delete $inner_attrs->{_order_is_artificial}
121						or
122						! $inner_attrs->{rows}
123	87	100	100		541	);
124
125						# generate the inner/outer select lists
126						# for inside we consider only stuff not brought in by the prefetch
127						# on the outside we substitute any function for its alias
128	87				113	$outer_attrs->{select} = [ @{$attrs->{select}} ];
	87				354
129
130	87				143	my ($root_node, $root_node_offset);
131
132	87				149	for my $i (0 .. $#{$inner_attrs->{from}}) {
	87				330
133	107				167	my $node = $inner_attrs->{from}[$i];
134	107	50	33		395	my $h = (ref $node eq 'HASH') ? $node
		100
135						: (ref $node eq 'ARRAY' and ref $node->[0] eq 'HASH') ? $node->[0]
136						: next
137						;
138
139	107	100	50		876	if ( ($h->{-alias}\|\|'') eq $root_alias and $h->{-rsrc} ) {
			66
140	87				128	$root_node = $h;
141	87				125	$root_node_offset = $i;
142	87				161	last;
143						}
144						}
145
146	87	50			238	$self->throw_exception ('Complex prefetches are not supported on resultsets with a custom from attribute')
147						unless $root_node;
148
149						# use the heavy duty resolver to take care of aliased/nonaliased naming
150	87				374	my $colinfo = $self->_resolve_column_info($inner_attrs->{from});
151	87				147	my $selected_root_columns;
152
153	87				137	for my $i (0 .. $#{$outer_attrs->{select}}) {
	87				337
154	754				727	my $sel = $outer_attrs->{select}->[$i];
155
156						next if (
157	754	100	100		2953	$colinfo->{$sel} and $colinfo->{$sel}{-source_alias} ne $root_alias
158						);
159
160	322	100	66		1547	if (ref $sel eq 'HASH' ) {
		100
161	17		66		79	$sel->{-as} \|\|= $attrs->{as}[$i];
162	17		33		109	$outer_attrs->{select}->[$i] = join ('.', $root_alias, ($sel->{-as} \|\| "inner_column_$i") );
163						}
164						elsif (! ref $sel and my $ci = $colinfo->{$sel}) {
165	295				520	$selected_root_columns->{$ci->{-colname}} = 1;
166						}
167
168	322				275	push @{$inner_attrs->{select}}, $sel;
	322				485
169
170	322				281	push @{$inner_attrs->{as}}, $attrs->{as}[$i];
	322				626
171						}
172
173						# We will need to fetch all native columns in the inner subquery, which may
174						# be a part of an outer join condition, or an order_by (which needs to be
175						# preserved outside), or wheres. In other words everything but the inner
176						# selector
177						# We can not just fetch everything because a potential has_many restricting
178						# join collapse will not work on heavy data types.
179	87				987	my $connecting_aliastypes = $self->_resolve_aliastypes_from_select_args({
180						%$inner_attrs,
181						select => [],
182						});
183
184	87	100			551	for (sort map { keys %{$_->{-seen_columns}\|\|{}} } map { values %$_ } values %$connecting_aliastypes) {
	629				498
	629				2402
	351				564
185	554	50			1000	my $ci = $colinfo->{$_} or next;
186	554	100	100		2128	if (
187						$ci->{-source_alias} eq $root_alias
188						and
189						! $selected_root_columns->{$ci->{-colname}}++
190						) {
191						# adding it to both to keep limits not supporting dark selectors happy
192	37				48	push @{$inner_attrs->{select}}, $ci->{-fq_colname};
	37				139
193	37				48	push @{$inner_attrs->{as}}, $ci->{-fq_colname};
	37				122
194						}
195						}
196
197						# construct the inner {from} and lock it in a subquery
198						# we need to prune first, because this will determine if we need a group_by below
199						# throw away all non-selecting, non-restricting multijoins
200						# (since we def. do not care about multiplication of the contents of the subquery)
201	87				179	my $inner_subq = do {
202
203						# must use it here regardless of user requests (vastly gentler on optimizer)
204	87				304	local $self->{_use_join_optimizer} = 1;
205
206						# throw away multijoins since we def. do not care about those inside the subquery
207	87				1143	($inner_attrs->{from}, my $inner_aliastypes) = $self->_prune_unused_joins ({
208						%$inner_attrs, _force_prune_multiplying_joins => 1
209						});
210
211						# uh-oh a multiplier (which is not us) left in, this is a problem for limits
212						# we will need to add a group_by to collapse the resultset for proper counts
213	87	100	66		451	if (
			66
214	64	50			418	grep { $_ ne $root_alias } keys %{ $inner_aliastypes->{multiplying} \|\| {} }
	87				526
215						and
216						# if there are user-supplied groups - assume user knows wtf they are up to
217						( ! $inner_aliastypes->{grouping} or $inner_attrs->{_grouped_by_distinct} )
218						) {
219
220	39				66	my $cur_sel = { map { $_ => 1 } @{$inner_attrs->{select}} };
	195				295
	39				85
221
222						# possibly supplement the main selection with pks if not already
223						# there, as they will have to be a part of the group_by to collapse
224						# things properly
225	39				79	my $inner_select_with_extras;
226	39				208	my @pks = map { "$root_alias.$_" } $root_node->{-rsrc}->primary_columns
227						or $self->throw_exception( sprintf
228						'Unable to perform complex limited prefetch off %s without declared primary key',
229						$root_node->{-rsrc}->source_name,
230	39	50			373	);
231	39				104	for my $col (@pks) {
232	0		0		0	push @{ $inner_select_with_extras \|\|= [ @{$inner_attrs->{select}} ] }, $col
	0				0
233	39	50			160	unless $cur_sel->{$col}++;
234						}
235
236	39	50			564	($inner_attrs->{group_by}, $inner_attrs->{order_by}) = $self->_group_over_selection({
237						%$inner_attrs,
238						$inner_select_with_extras ? ( select => $inner_select_with_extras ) : (),
239						_aliastypes => $inner_aliastypes,
240						});
241						}
242
243						# we already optimized $inner_attrs->{from} above
244						# and already local()ized
245	86				298	$self->{_use_join_optimizer} = 0;
246
247						# generate the subquery
248						$self->_select_args_to_query (
249	86				174	@{$inner_attrs}{qw(from select where)},
	86				531
250						$inner_attrs,
251						);
252						};
253
254						# Generate the outer from - this is relatively easy (really just replace
255						# the join slot with the subquery), with a major caveat - we can not
256						# join anything that is non-selecting (not part of the prefetch), but at
257						# the same time is a multi-type relationship, as it will explode the result.
258						#
259						# There are two possibilities here
260						# - either the join is non-restricting, in which case we simply throw it away
261						# - it is part of the restrictions, in which case we need to collapse the outer
262						# result by tackling yet another group_by to the outside of the query
263
264						# work on a shallow copy
265	86				161	my @orig_from = @{$attrs->{from}};
	86				320
266
267
268	86				233	$outer_attrs->{from} = \ my @outer_from;
269
270						# we may not be the head
271	86	100			260	if ($root_node_offset) {
272						# first generate the outer_from, up to the substitution point
273	17				48	@outer_from = splice @orig_from, 0, $root_node_offset;
274
275						# substitute the subq at the right spot
276						push @outer_from, [
277						{
278						-alias => $root_alias,
279						-rsrc => $root_node->{-rsrc},
280						$root_alias => $inner_subq,
281						},
282						# preserve attrs from what is now the head of the from after the splice
283	17				118	@{$orig_from[0]}[1 .. $#{$orig_from[0]}],
	17				47
	17				43
284						];
285						}
286						else {
287						@outer_from = {
288						-alias => $root_alias,
289						-rsrc => $root_node->{-rsrc},
290	69				438	$root_alias => $inner_subq,
291						};
292						}
293
294	86				151	shift @orig_from; # what we just replaced above
295
296						# scan the remaining from spec against different attributes, and see which joins are needed
297						# in what role
298						my $outer_aliastypes = $outer_attrs->{_aliastypes} =
299	86				947	$self->_resolve_aliastypes_from_select_args({ %$outer_attrs, from => \@orig_from });
300
301						# unroll parents
302	86				451	my ($outer_select_chain, @outer_nonselecting_chains) = map { +{
303	344	100			337	map { $_ => 1 } map { values %$_} map { @{$_->{-parents}} } values %{ $outer_aliastypes->{$_} \|\| {} }
	269				697
	269				2479
	182				195
	182				479
	344				1436
304						} } qw/selecting restricting grouping ordering/;
305
306						# see what's left - throw away if not selecting/restricting
307	86				153	my $may_need_outer_group_by;
308	86				362	while (my $j = shift @orig_from) {
309	119				338	my $alias = $j->[0]{-alias};
310
311	119	100			363	if (
		100
312						$outer_select_chain->{$alias}
313						) {
314	109				374	push @outer_from, $j
315						}
316	14			14	53	elsif (first { $_->{$alias} } @outer_nonselecting_chains ) {
317	8				13	push @outer_from, $j;
318	8	100	66		83	$may_need_outer_group_by \|\|= $outer_aliastypes->{multiplying}{$alias} ? 1 : 0;
319						}
320						}
321
322						# also throw in a synthetic group_by if a non-selecting multiplier,
323						# to guard against cross-join explosions
324						# the logic is somewhat fragile, but relies on the idea that if a user supplied
325						# a group by on their own - they know what they were doing
326	86	100	66		274	if ( $may_need_outer_group_by and $attrs->{_grouped_by_distinct} ) {
327	2				35	($outer_attrs->{group_by}, $outer_attrs->{order_by}) = $self->_group_over_selection ({
328						%$outer_attrs,
329						from => \@outer_from,
330						});
331						}
332
333						# This is totally horrific - the {where} ends up in both the inner and outer query
334						# Unfortunately not much can be done until SQLA2 introspection arrives, and even
335						# then if where conditions apply to the right side of the prefetch, you may have
336						# to both filter the inner select (e.g. to apply a limit) and then have to re-filter
337						# the outer select to exclude joins you didn't want in the first place
338						#
339						# OTOH it can be seen as a plus: (notes that this query would make a DBA cry ;)
340	86				3660	return $outer_attrs;
341						}
342
343						#
344						# I KNOW THIS SUCKS! GET SQLA2 OUT THE DOOR SO THIS CAN DIE!
345						#
346						# Due to a lack of SQLA2 we fall back to crude scans of all the
347						# select/where/order/group attributes, in order to determine what
348						# aliases are needed to fulfill the query. This information is used
349						# throughout the code to prune unnecessary JOINs from the queries
350						# in an attempt to reduce the execution time.
351						# Although the method is pretty horrific, the worst thing that can
352						# happen is for it to fail due to some scalar SQL, which in turn will
353						# result in a vocal exception.
354						sub _resolve_aliastypes_from_select_args {
355	1121			1121	1837	my ( $self, $attrs ) = @_;
356
357						$self->throw_exception ('Unable to analyze custom {from}')
358	1121	50			4090	if ref $attrs->{from} ne 'ARRAY';
359
360						# what we will return
361	1121				1559	my $aliases_by_type;
362
363						# see what aliases are there to work with
364						# and record who is a multiplier and who is premultiplied
365						my $alias_list;
366	1121				1455	for my $node (@{$attrs->{from}}) {
	1121				2762
367
368	2883				2776	my $j = $node;
369	2883	100			6342	$j = $j->[0] if ref $j eq 'ARRAY';
370						my $al = $j->{-alias}
371	2883	100			7104	or next;
372
373	2875				4652	$alias_list->{$al} = $j;
374
375						$aliases_by_type->{multiplying}{$al} \|\|= { -parents => $j->{-join_path}\|\|[] }
376						# not array == {from} head == can't be multiplying
377	2875	100	50		17073	if ref($node) eq 'ARRAY' and ! $j->{-is_single};
			50
			100
378
379						$aliases_by_type->{premultiplied}{$al} \|\|= { -parents => $j->{-join_path}\|\|[] }
380						# parts of the path that are not us but are multiplying
381	834				4968	if grep { $aliases_by_type->{multiplying}{$_} }
382	2678				6644	grep { $_ ne $al }
383	2678				6238	map { values %$_ }
384	2875	100	50		2810	@{ $j->{-join_path}\|\|[] }
	2875	100	50		11665
385						}
386
387						# get a column to source/alias map (including unambiguous unqualified ones)
388	1121				4316	my $colinfo = $self->_resolve_column_info ($attrs->{from});
389
390						# set up a botched SQLA
391	1121				26751	my $sql_maker = $self->sql_maker;
392
393						# these are throw away results, do not pollute the bind stack
394	1121				2774	local $sql_maker->{where_bind};
395	1121				2116	local $sql_maker->{group_bind};
396	1121				1981	local $sql_maker->{having_bind};
397	1121				1786	local $sql_maker->{from_bind};
398
399						# we can't scan properly without any quoting (\b doesn't cut it
400						# everywhere), so unless there is proper quoting set - use our
401						# own weird impossible character.
402						# Also in the case of no quoting, we need to explicitly disable
403						# name_sep, otherwise sorry nasty legacy syntax like
404						# { 'count(foo.id)' => { '>' => 3 } } will stop working >:(
405	1121				2585	local $sql_maker->{quote_char} = $sql_maker->{quote_char};
406	1121				2492	local $sql_maker->{name_sep} = $sql_maker->{name_sep};
407
408	1121	100	66		4509	unless (defined $sql_maker->{quote_char} and length $sql_maker->{quote_char}) {
409	996				2568	$sql_maker->{quote_char} = ["\x00", "\xFF"];
410						# if we don't unset it we screw up retarded but unfortunately working
411						# 'MAX(foo.bar)' => { '>', 3 }
412	996				1759	$sql_maker->{name_sep} = '';
413						}
414
415	1121				5002	my ($lquote, $rquote, $sep) = map { quotemeta $_ } ($sql_maker->_quote_chars, $sql_maker->name_sep);
	3363				15153
416
417						# generate sql chunks
418						my $to_scan = {
419						restricting => [
420						($sql_maker->_recurse_where ($attrs->{where}))[0],
421						$sql_maker->_parse_rs_attrs ({ having => $attrs->{having} }),
422						],
423						grouping => [
424						$sql_maker->_parse_rs_attrs ({ group_by => $attrs->{group_by} }),
425						],
426						joining => [
427						$sql_maker->_recurse_from (
428						ref $attrs->{from}[0] eq 'ARRAY' ? $attrs->{from}[0][0] : $attrs->{from}[0],
429	1121				4423	@{$attrs->{from}}[1 .. $#{$attrs->{from}}],
	1121				2516
430						),
431						],
432						selecting => [
433	5309				87145	map { ($sql_maker->_recurse_fields($_))[0] } @{$attrs->{select}},
	1121				3375
434						],
435						ordering => [
436	1121	100			6104	map { $_->[0] } $self->_extract_order_criteria ($attrs->{order_by}, $sql_maker),
	882				3175
437						],
438						};
439
440						# throw away empty chunks and all 2-value arrayrefs: the thinking is that these are
441						# bind value specs left in by the sloppy renderer above. It is ok to do this
442						# at this point, since we are going to end up rewriting this crap anyway
443	1121				6766	for my $v (values %$to_scan) {
444	5605				4273	my @nv;
445	5605				5963	for (@$v) {
446						next if (
447	10675	50	0		25626	! defined $_
			33
			66
448						or
449						(
450						ref $_ eq 'ARRAY'
451						and
452						( @$_ == 0 or @$_ == 2 )
453						)
454						);
455
456	10216	50			13108	if (ref $_) {
457	0				0	require Data::Dumper::Concise;
458	0				0	$self->throw_exception("Unexpected ref in scan-plan: " . Data::Dumper::Concise::Dumper($v) );
459						}
460
461	10216				11722	push @nv, $_;
462						}
463
464	5605				8034	$v = \@nv;
465						}
466
467						# kill all selectors which look like a proper subquery
468						# this is a sucky heuristic BUT - if we get it wrong the query will simply
469						# fail to run, so we are relatively safe
470						$to_scan->{selecting} = [ grep {
471	5309				8649	$_ !~ / \A \s* $ \s* SELECT \s+ .+? \s+ FROM \s+ .+? $ \s* \z /xsi
472	1121	50			1636	} @{ $to_scan->{selecting} \|\| [] } ];
	1121				3959
473
474						# first see if we have any exact matches (qualified or unqualified)
475	1121				3545	for my $type (keys %$to_scan) {
476	5605				4285	for my $piece (@{$to_scan->{$type}}) {
	5605				6827
477	10186	100	66		22064	if ($colinfo->{$piece} and my $alias = $colinfo->{$piece}{-source_alias}) {
478	660		100		4374	$aliases_by_type->{$type}{$alias} \|\|= { -parents => $alias_list->{$alias}{-join_path}\|\|[] };
			100
479	660				2626	$aliases_by_type->{$type}{$alias}{-seen_columns}{$colinfo->{$piece}{-fq_colname}} = $piece;
480						}
481						}
482						}
483
484						# now loop through all fully qualified columns and get the corresponding
485						# alias (should work even if they are in scalarrefs)
486	1121				3672	for my $alias (keys %$alias_list) {
487	2875				88949	my $al_re = qr/
488						$lquote $alias $rquote $sep (?: $lquote ([^$rquote]+) $rquote )?
489						\|
490						\b $alias \. ([^\s\)\($rquote]+)?
491						/x;
492
493	2875				8108	for my $type (keys %$to_scan) {
494	14375				10519	for my $piece (@{$to_scan->{$type}}) {
	14375				17437
495	27934	100			172087	if (my @matches = $piece =~ /$al_re/g) {
496	8985		100		40405	$aliases_by_type->{$type}{$alias} \|\|= { -parents => $alias_list->{$alias}{-join_path}\|\|[] };
			100
497						$aliases_by_type->{$type}{$alias}{-seen_columns}{"$alias.$_"} = "$alias.$_"
498	8985				10290	for grep { defined $_ } @matches;
	27036				63730
499						}
500						}
501						}
502						}
503
504						# now loop through unqualified column names, and try to locate them within
505						# the chunks
506	1121				6469	for my $col (keys %$colinfo) {
507	22034	100			38908	next if $col =~ / \. /x; # if column is qualified it was caught by the above
508
509	9414				84005	my $col_re = qr/ $lquote ($col) $rquote /x;
510
511	9414				18151	for my $type (keys %$to_scan) {
512	47070				29834	for my $piece (@{$to_scan->{$type}}) {
	47070				50282
513	87505	100			236315	if ( my @matches = $piece =~ /$col_re/g) {
514	1543				7442	my $alias = $colinfo->{$col}{-source_alias};
515	1543		100		4591	$aliases_by_type->{$type}{$alias} \|\|= { -parents => $alias_list->{$alias}{-join_path}\|\|[] };
			100
516						$aliases_by_type->{$type}{$alias}{-seen_columns}{"$alias.$_"} = $_
517	1543				2197	for grep { defined $_ } @matches;
	2003				9044
518						}
519						}
520						}
521						}
522
523						# Add any non-left joins to the restriction list (such joins are indeed restrictions)
524	1121				3553	for my $j (values %$alias_list) {
525	2875	50			7303	my $alias = $j->{-alias} or next;
526						$aliases_by_type->{restricting}{$alias} \|\|= { -parents => $j->{-join_path}\|\|[] } if (
527						(not $j->{-join_type})
528						or
529	2875	100	100		21626	($j->{-join_type} !~ /^left (?: \s+ outer)? $/xi)
			100
			66
530						);
531						}
532
533	1121				3574	for (keys %$aliases_by_type) {
534	4507	100			3345	delete $aliases_by_type->{$_} unless keys %{$aliases_by_type->{$_}};
	4507				9977
535						}
536
537	1121				23163	return $aliases_by_type;
538						}
539
540						# This is the engine behind { distinct => 1 } and the general
541						# complex prefetch grouper
542						sub _group_over_selection {
543	110			110	1070	my ($self, $attrs) = @_;
544
545	110				421	my $colinfos = $self->_resolve_column_info ($attrs->{from});
546
547	110				197	my (@group_by, %group_index);
548
549						# the logic is: if it is a { func => val } we assume an aggregate,
550						# otherwise if \'...' or \[...] we assume the user knows what is
551						# going on thus group over it
552	110				171	for (@{$attrs->{select}}) {
	110				311
553	413	100	100		940	if (! ref($_) or ref ($_) ne 'HASH' ) {
554	399				501	push @group_by, $_;
555	399				487	$group_index{$_}++;
556	399	50	66		1813	if ($colinfos->{$_} and $_ !~ /\./ ) {
557						# add a fully qualified version as well
558	0				0	$group_index{"$colinfos->{$_}{-source_alias}.$_"}++;
559						}
560						}
561						}
562
563						my @order_by = $self->_extract_order_criteria($attrs->{order_by})
564	110	100			492	or return (\@group_by, $attrs->{order_by});
565
566						# add any order_by parts that are not already present in the group_by
567						# to maintain SQL cross-compatibility and general sanity
568						#
569						# also in case the original selection is not unique, or in case part
570						# of the ORDER BY refers to a multiplier - we will need to replace the
571						# skipped order_by elements with their MIN/MAX equivalents as to maintain
572						# the proper overall order without polluting the group criteria (and
573						# possibly changing the outcome entirely)
574
575	65				110	my ($leftovers, $sql_maker, @new_order_by, $order_chunks, $aliastypes);
576
577	65				369	my $group_already_unique = $self->_columns_comprise_identifying_set($colinfos, \@group_by);
578
579	65				214	for my $o_idx (0 .. $#order_by) {
580
581						# if the chunk is already a min/max function - there is nothing left to touch
582	165	50			422	next if $order_by[$o_idx][0] =~ /^ (?: min \| max ) \s* $ .+ $ $/ix;
583
584						# only consider real columns (for functions the user got to do an explicit group_by)
585	165				188	my $chunk_ci;
586	165	100	66		161	if (
			33
587	165				717	@{$order_by[$o_idx]} != 1
588						or
589						# only declare an unknown plain identifier as "leftover" if we are called with
590						# aliastypes to examine. If there are none - we are still in _resolve_attrs, and
591						# can just assume the user knows what they want
592						( ! ( $chunk_ci = $colinfos->{$order_by[$o_idx][0]} ) and $attrs->{_aliastypes} )
593						) {
594	1				3	push @$leftovers, $order_by[$o_idx][0];
595						}
596
597	165	100			302	next unless $chunk_ci;
598
599						# no duplication of group criteria
600	162	100			454	next if $group_index{$chunk_ci->{-fq_colname}};
601
602						$aliastypes \|\|= (
603						$attrs->{_aliastypes}
604						or
605						$self->_resolve_aliastypes_from_select_args({
606						from => $attrs->{from},
607						order_by => $attrs->{order_by},
608						})
609	75	100	66		393	) if $group_already_unique;
			66
610
611						# check that we are not ordering by a multiplier (if a check is requested at all)
612	75	100	100		522	if (
			100
613						$group_already_unique
614						and
615						! $aliastypes->{multiplying}{$chunk_ci->{-source_alias}}
616						and
617						! $aliastypes->{premultiplied}{$chunk_ci->{-source_alias}}
618						) {
619	16				50	push @group_by, $chunk_ci->{-fq_colname};
620	16				44	$group_index{$chunk_ci->{-fq_colname}}++
621						}
622						else {
623						# We need to order by external columns without adding them to the group
624						# (eiehter a non-unique selection, or a multi-external)
625						#
626						# This doesn't really make sense in SQL, however from DBICs point
627						# of view is rather valid (e.g. order the leftmost objects by whatever
628						# criteria and get the offset/rows many). There is a way around
629						# this however in SQL - we simply tae the direction of each piece
630						# of the external order and convert them to MIN(X) for ASC or MAX(X)
631						# for DESC, and group_by the root columns. The end result should be
632						# exactly what we expect
633						#
634
635						# both populated on the first loop over $o_idx
636	59		66		1221	$sql_maker \|\|= $self->sql_maker;
637						$order_chunks \|\|= [
638	145	100			3089	map { ref $_ eq 'ARRAY' ? $_ : [ $_ ] } $sql_maker->_order_by_chunks($attrs->{order_by})
639	59		100		285	];
640
641	59				442	my ($chunk, $is_desc) = $sql_maker->_split_order_chunk($order_chunks->[$o_idx][0]);
642
643						$new_order_by[$o_idx] = \[
644						sprintf( '%s( %s )%s',
645						$self->_minmax_operator_for_datatype($chunk_ci->{data_type}, $is_desc),
646						$chunk,
647						($is_desc ? ' DESC' : ''),
648						),
649	59	100			305	@ {$order_chunks->[$o_idx]} [ 1 .. $#{$order_chunks->[$o_idx]} ]
	59				235
	59				124
650						];
651						}
652						}
653
654						$self->throw_exception ( sprintf
655						'Unable to programatically derive a required group_by from the supplied '
656						. 'order_by criteria. To proceed either add an explicit group_by, or '
657						. 'simplify your order_by to only include plain columns '
658						. '(supplied order_by: %s)',
659	65	100			171	join ', ', map { "'$_'" } @$leftovers,
	1				18
660						) if $leftovers;
661
662						# recreate the untouched order parts
663	64	100			172	if (@new_order_by) {
664	46		100		400	$new_order_by[$_] \|\|= \ $order_chunks->[$_] for ( 0 .. $#$order_chunks );
665						}
666
667						return (
668						\@group_by,
669	64	100			1386	(@new_order_by ? \@new_order_by : $attrs->{order_by} ), # same ref as original == unchanged
670						);
671						}
672
673						sub _minmax_operator_for_datatype {
674						#my ($self, $datatype, $want_max) = @_;
675
676	57	100		57	409	$_[2] ? 'MAX' : 'MIN';
677						}
678
679						sub _resolve_ident_sources {
680	8096			8096	9044	my ($self, $ident) = @_;
681
682	8096				10462	my $alias2source = {};
683
684						# the reason this is so contrived is that $ident may be a {from}
685						# structure, specifying multiple tables to join
686	8096	50	33		41698	if ( blessed $ident && $ident->isa("DBIx::Class::ResultSource") ) {
		100
687						# this is compat mode for insert/update/delete which do not deal with aliases
688	0				0	$alias2source->{me} = $ident;
689						}
690						elsif (ref $ident eq 'ARRAY') {
691
692	8095				14085	for (@$ident) {
693	11368				9980	my $tabinfo;
694	11368	100			21419	if (ref $_ eq 'HASH') {
695	8229				8485	$tabinfo = $_;
696						}
697	11368	100	66		31615	if (ref $_ eq 'ARRAY' and ref $_->[0] eq 'HASH') {
698	3139				3102	$tabinfo = $_->[0];
699						}
700
701						$alias2source->{$tabinfo->{-alias}} = $tabinfo->{-rsrc}
702	11368	100			52566	if ($tabinfo->{-rsrc});
703						}
704						}
705
706	8096				11293	return $alias2source;
707						}
708
709						# Takes $ident, \@column_names
710						#
711						# returns { $column_name => \%column_info, ... }
712						# also note: this adds -result_source => $rsrc to the column info
713						#
714						# If no columns_names are supplied returns info about all columns
715						# for all sources
716						sub _resolve_column_info {
717	8096			8096	11906	my ($self, $ident, $colnames) = @_;
718
719	8096	50	66		19155	return {} if $colnames and ! @$colnames;
720
721	8096				18699	my $alias2src = $self->_resolve_ident_sources($ident);
722
723	8096				8614	my (%seen_cols, @auto_colnames);
724
725						# compile a global list of column names, to be able to properly
726						# disambiguate unqualified column names (if at all possible)
727	8096				19835	for my $alias (keys %$alias2src) {
728	11353				14094	my $rsrc = $alias2src->{$alias};
729	11353				33560	for my $colname ($rsrc->columns) {
730	57760				40002	push @{$seen_cols{$colname}}, $alias;
	57760				86214
731	57760	100			122744	push @auto_colnames, "$alias.$colname" unless $colnames;
732						}
733						}
734
735						$colnames \|\|= [
736						@auto_colnames,
737	8096		100		30324	grep { @{$seen_cols{$_}} == 1 } (keys %seen_cols),
	54295				34920
	54295				91596
738						];
739
740	8096				11897	my (%return, $colinfos);
741	8096				12987	foreach my $col (@$colnames) {
742	109300				376113	my ($source_alias, $colname) = $col =~ m/^ (?: ([^\.]+) \. )? (.+) $/x;
743
744						# if the column was seen exactly once - we know which rsrc it came from
745						$source_alias \|\|= $seen_cols{$colname}[0]
746	109300	100	66		198499	if ($seen_cols{$colname} and @{$seen_cols{$colname}} == 1);
	109282		100		400769
747
748	109300	100			147234	next unless $source_alias;
749
750	109282	50			163576	my $rsrc = $alias2src->{$source_alias}
751						or next;
752
753						$return{$col} = {
754						%{
755	109282	50	66		73413	( $colinfos->{$source_alias} \|\|= $rsrc->columns_info )->{$colname}
	109282	100			684119
756						\|\|
757						$self->throw_exception(
758						"No such column '$colname' on source " . $rsrc->source_name
759						);
760						},
761						-result_source => $rsrc,
762						-source_alias => $source_alias,
763						-fq_colname => $col eq $colname ? "$source_alias.$col" : $col,
764						-colname => $colname,
765						};
766
767	109282	100			304836	$return{"$source_alias.$colname"} = $return{$col} if $col eq $colname;
768						}
769
770	8096				95502	return \%return;
771						}
772
773						# The DBIC relationship chaining implementation is pretty simple - every
774						# new related_relationship is pushed onto the {from} stack, and the {select}
775						# window simply slides further in. This means that when we count somewhere
776						# in the middle, we got to make sure that everything in the join chain is an
777						# actual inner join, otherwise the count will come back with unpredictable
778						# results (a resultset may be generated with _some_ rows regardless of if
779						# the relation which the $rs currently selects has rows or not). E.g.
780						# $artist_rs->cds->count - normally generates:
781						# SELECT COUNT( * ) FROM artist me LEFT JOIN cd cds ON cds.artist = me.artistid
782						# which actually returns the number of artists * (number of cds \|\| 1)
783						#
784						# So what we do here is crawl {from}, determine if the current alias is at
785						# the top of the stack, and if not - make sure the chain is inner-joined down
786						# to the root.
787						#
788						sub _inner_join_to_node {
789	216			216	2580	my ($self, $from, $alias) = @_;
790
791	216				832	my $switch_branch = $self->_find_join_path_to_node($from, $alias);
792
793	216	50			296	return $from unless @{$switch_branch\|\|[]};
	216	50			764
794
795						# So it looks like we will have to switch some stuff around.
796						# local() is useless here as we will be leaving the scope
797						# anyway, and deep cloning is just too fucking expensive
798						# So replace the first hashref in the node arrayref manually
799	216				511	my @new_from = ($from->[0]);
800	216				373	my $sw_idx = { map { (values %$_), 1 } @$switch_branch }; #there's one k/v per join-path
	247				1021
801
802	216				527	for my $j (@{$from}[1 .. $#$from]) {
	216				477
803	277				528	my $jalias = $j->[0]{-alias};
804
805	277	100			577	if ($sw_idx->{$jalias}) {
806	247				307	my %attrs = %{$j->[0]};
	247				1188
807	247				605	delete $attrs{-join_type};
808						push @new_from, [
809						\%attrs,
810	247				580	@{$j}[ 1 .. $#$j ],
	247				724
811						];
812						}
813						else {
814	30				55	push @new_from, $j;
815						}
816						}
817
818	216				747	return \@new_from;
819						}
820
821						sub _find_join_path_to_node {
822	258			258	414	my ($self, $from, $target_alias) = @_;
823
824						# subqueries and other oddness are naturally not supported
825						return undef if (
826						ref $from ne 'ARRAY'
827						\|\|
828						ref $from->[0] ne 'HASH'
829						\|\|
830						! defined $from->[0]{-alias}
831	258	50	33		2596	);
			33
832
833						# no path - the head is the alias
834	258	100			985	return [] if $from->[0]{-alias} eq $target_alias;
835
836	218				626	for my $i (1 .. $#$from) {
837	270	100	50		1453	return $from->[$i][0]{-join_path} if ( ($from->[$i][0]{-alias}\|\|'') eq $target_alias );
838						}
839
840						# something else went quite wrong
841	0				0	return undef;
842						}
843
844						sub _extract_order_criteria {
845	2036			2036	32794	my ($self, $order_by, $sql_maker) = @_;
846
847						my $parser = sub {
848	2036			2036	3485	my ($sql_maker, $order_by, $orig_quote_chars) = @_;
849
850	2036	100			5084	return scalar $sql_maker->_order_by_chunks ($order_by)
851						unless wantarray;
852
853	2014	100			8063	my ($lq, $rq, $sep) = map { quotemeta($_) } (
	6042				30653
854						($orig_quote_chars ? @$orig_quote_chars : $sql_maker->_quote_chars),
855						$sql_maker->name_sep
856						);
857
858	2014				2907	my @chunks;
859	2014				7611	for ($sql_maker->_order_by_chunks ($order_by) ) {
860	1241	100			35729	my $chunk = ref $_ ? [ @$_ ] : [ $_ ];
861	1241				3870	($chunk->[0]) = $sql_maker->_split_order_chunk($chunk->[0]);
862
863						# order criteria may have come back pre-quoted (literals and whatnot)
864						# this is fragile, but the best we can currently do
865	1241	100			14952	$chunk->[0] =~ s/^ $lq (.+?) $rq $sep $lq (.+?) $rq $/"$1.$2"/xe
	395				1544
866						or $chunk->[0] =~ s/^ $lq (.+) $rq $/$1/x;
867
868	1241				2621	push @chunks, $chunk;
869						}
870
871	2014				95460	return @chunks;
872	2036				11598	};
873
874	2036	100			4695	if ($sql_maker) {
875	1121				2558	return $parser->($sql_maker, $order_by);
876						}
877						else {
878	915				18361	$sql_maker = $self->sql_maker;
879
880						# pass these in to deal with literals coming from
881						# the user or the deep guts of prefetch
882	915				4245	my $orig_quote_chars = [$sql_maker->_quote_chars];
883
884	915				2252	local $sql_maker->{quote_char};
885	915				2306	return $parser->($sql_maker, $order_by, $orig_quote_chars);
886						}
887						}
888
889						sub _order_by_is_stable {
890	30			30	520	my ($self, $ident, $order_by, $where) = @_;
891
892						my @cols = (
893	50				172	( map { $_->[0] } $self->_extract_order_criteria($order_by) ),
894	30	100			112	( $where ? keys %{ $self->_extract_fixed_condition_columns($where) } : () ),
	27	50			148
895						) or return 0;
896
897	30				172	my $colinfo = $self->_resolve_column_info($ident, \@cols);
898
899	30	50			300	return keys %$colinfo
900						? $self->_columns_comprise_identifying_set( $colinfo, \@cols )
901						: 0
902						;
903						}
904
905						sub _columns_comprise_identifying_set {
906	95			95	472	my ($self, $colinfo, $columns) = @_;
907
908	95				134	my $cols_per_src;
909						$cols_per_src -> {$_->{-source_alias}} -> {$_->{-colname}} = $_
910	95				187	for grep { defined $_ } @{$colinfo}{@$columns};
	310				1141
	95				300
911
912	95				312	for (values %$cols_per_src) {
913	86				280	my $src = (values %$_)[0]->{-result_source};
914	86	100			548	return 1 if $src->_identifying_column_set($_);
915						}
916
917	19				65	return 0;
918						}
919
920						# this is almost similar to _order_by_is_stable, except it takes
921						# a single rsrc, and will succeed only if the first portion of the order
922						# by is stable.
923						# returns that portion as a colinfo hashref on success
924						sub _extract_colinfo_of_stable_main_source_order_by_portion {
925	42			42	798	my ($self, $attrs) = @_;
926
927	42				264	my $nodes = $self->_find_join_path_to_node($attrs->{from}, $attrs->{alias});
928
929	42	50			153	return unless defined $nodes;
930
931						my @ord_cols = map
932	123				277	{ $_->[0] }
933	42				188	( $self->_extract_order_criteria($attrs->{order_by}) )
934						;
935	42	50			162	return unless @ord_cols;
936
937	44				152	my $valid_aliases = { map { $_ => 1 } (
938						$attrs->{from}[0]{-alias},
939	42				213	map { values %$_ } @$nodes,
	2				8
940						) };
941
942	42				213	my $colinfos = $self->_resolve_column_info($attrs->{from});
943
944	42				75	my ($colinfos_to_return, $seen_main_src_cols);
945
946	42				97	for my $col (@ord_cols) {
947						# if order criteria is unresolvable - there is nothing we can do
948	110	100			269	my $colinfo = $colinfos->{$col} or last;
949
950						# if we reached the end of the allowed aliases - also nothing we can do
951	93	100			260	last unless $valid_aliases->{$colinfo->{-source_alias}};
952
953	85				116	$colinfos_to_return->{$col} = $colinfo;
954
955						$seen_main_src_cols->{$colinfo->{-colname}} = 1
956	85	100			469	if $colinfo->{-source_alias} eq $attrs->{alias};
957						}
958
959						# FIXME the condition may be singling out things on its own, so we
960						# conceivable could come back wi "stable-ordered by nothing"
961						# not confient enough in the parser yet, so punt for the time being
962	42	100			308	return unless $seen_main_src_cols;
963
964						my $main_src_fixed_cols_from_cond = [ $attrs->{where}
965						? (
966						map
967						{
968						( $colinfos->{$_} and $colinfos->{$_}{-source_alias} eq $attrs->{alias} )
969						? $colinfos->{$_}{-colname}
970						: ()
971	26	100	66		235	}
972	34	100			131	keys %{ $self->_extract_fixed_condition_columns($attrs->{where}) }
	18				102
973						)
974						: ()
975						];
976
977						return $attrs->{result_source}->_identifying_column_set([
978	34	50			309	keys %$seen_main_src_cols,
979						@$main_src_fixed_cols_from_cond,
980						]) ? $colinfos_to_return : ();
981						}
982
983						# Attempts to flatten a passed in SQLA condition as much as possible towards
984						# a plain hashref, without altering its semantics. Required by
985						# create/populate being able to extract definitive conditions from preexisting
986						# resultset {where} stacks
987						#
988						# FIXME - while relatively robust, this is still imperfect, one of the first
989						# things to tackle with DQ
990						sub _collapse_cond {
991	30028			30028	1239052	my ($self, $where, $where_is_anded_array) = @_;
992
993	30028				26767	my $fin;
994
995	30028	100	100		134307	if (! $where) {
		100
		100
996	142				247	return;
997						}
998						elsif ($where_is_anded_array or ref $where eq 'HASH') {
999
1000	26125				23467	my @pairs;
1001
1002	26125	100			51470	my @pieces = $where_is_anded_array ? @$where : $where;
1003	26125				47605	while (@pieces) {
1004	30614				35037	my $chunk = shift @pieces;
1005
1006	30614	100			51963	if (ref $chunk eq 'HASH') {
		100
		100
1007	29491				77858	for (sort keys %$chunk) {
1008
1009						# Match SQLA 1.79 behavior
1010	33668	100			54209	if ($_ eq '') {
1011	128	100			527	is_literal_value($chunk->{$_})
1012						? carp 'Hash-pairs consisting of an empty string with a literal are deprecated, use -and => [ $literal ] instead'
1013						: $self->throw_exception("Supplying an empty left hand side argument is not supported in hash-pairs")
1014						;
1015						}
1016
1017	33600				100208	push @pairs, $_ => $chunk->{$_};
1018						}
1019						}
1020						elsif (ref $chunk eq 'ARRAY') {
1021	500	100			2402	push @pairs, -or => $chunk
1022						if @$chunk;
1023						}
1024						elsif ( ! length ref $chunk) {
1025
1026						# Match SQLA 1.79 behavior
1027	442	100	100		2509	$self->throw_exception("Supplying an empty left hand side argument is not supported in array-pairs")
			33
1028						if $where_is_anded_array and (! defined $chunk or $chunk eq '');
1029
1030	432				1156	push @pairs, $chunk, shift @pieces;
1031						}
1032						else {
1033	181				522	push @pairs, '', $chunk;
1034						}
1035						}
1036
1037	26047	100			45460	return unless @pairs;
1038
1039	25740	100			53803	my @conds = $self->_collapse_cond_unroll_pairs(\@pairs)
1040						or return;
1041
1042						# Consolidate various @conds back into something more compact
1043	25190				33610	for my $c (@conds) {
1044	34171	50			53055	if (ref $c ne 'HASH') {
1045	0				0	push @{$fin->{-and}}, $c;
	0				0
1046						}
1047						else {
1048	34171				72838	for my $col (sort keys %$c) {
1049
1050						# consolidate all -and nodes
1051	40066	100			119328	if ($col =~ /^\-and$/i) {
		100
		100
1052	620				2257	push @{$fin->{-and}},
1053	620				1981	ref $c->{$col} eq 'ARRAY' ? @{$c->{$col}}
1054	0				0	: ref $c->{$col} eq 'HASH' ? %{$c->{$col}}
1055	620	0			640	: { $col => $c->{$col} }
		50
1056						;
1057						}
1058						elsif ($col =~ /^\-/) {
1059	1643				2784	push @{$fin->{-and}}, { $col => $c->{$col} };
	1643				7965
1060						}
1061						elsif (exists $fin->{$col}) {
1062						$fin->{$col} = [ -and => map {
1063						(ref $_ eq 'ARRAY' and ($_->[0]\|\|'') =~ /^\-and$/i )
1064	3232	100	100		15678	? @{$_}[1..$#$_]
	90				223
1065						: $_
1066						;
1067	1616				3989	} ($fin->{$col}, $c->{$col}) ];
1068						}
1069						else {
1070	36187				93182	$fin->{$col} = $c->{$col};
1071						}
1072						}
1073						}
1074						}
1075						}
1076						elsif (ref $where eq 'ARRAY') {
1077						# we are always at top-level here, it is safe to dump empty standalone pieces
1078	3402				3276	my $fin_idx;
1079
1080	3402				9348	for (my $i = 0; $i <= $#$where; $i++ ) {
1081
1082						# Match SQLA 1.79 behavior
1083	5668	100	66		36821	$self->throw_exception(
1084						"Supplying an empty left hand side argument is not supported in array-pairs"
1085						) if (! defined $where->[$i] or ! length $where->[$i]);
1086
1087	5512		100		29963	my $logic_mod = lc ( ($where->[$i] =~ /^(\-(?:and\|or))$/i)[0] \|\| '' );
1088
1089	5512	100			13524	if ($logic_mod) {
		100
1090	1153				1375	$i++;
1091	1153	50	66		4541	$self->throw_exception("Unsupported top-level op/arg pair: [ $logic_mod => $where->[$i] ]")
1092						unless ref $where->[$i] eq 'HASH' or ref $where->[$i] eq 'ARRAY';
1093
1094	1153	100			4255	my $sub_elt = $self->_collapse_cond({ $logic_mod => $where->[$i] })
1095						or next;
1096
1097	918				2706	my @keys = keys %$sub_elt;
1098	918	100	100		4841	if ( @keys == 1 and $keys[0] !~ /^\-/ ) {
1099	369				1914	$fin_idx->{ "COL_$keys[0]_" . serialize $sub_elt } = $sub_elt;
1100						}
1101						else {
1102	549				2091	$fin_idx->{ "SER_" . serialize $sub_elt } = $sub_elt;
1103						}
1104						}
1105						elsif (! length ref $where->[$i] ) {
1106	2994	100			3759	my $sub_elt = $self->_collapse_cond({ @{$where}[$i, $i+1] })
	2994				10335
1107						or next;
1108
1109	2993				12925	$fin_idx->{ "COL_$where->[$i]_" . serialize $sub_elt } = $sub_elt;
1110	2993				99960	$i++;
1111						}
1112						else {
1113	1365		100		4006	$fin_idx->{ "SER_" . serialize $where->[$i] } = $self->_collapse_cond( $where->[$i] ) \|\| next;
1114						}
1115						}
1116
1117	3068	100			65983	if (! $fin_idx) {
		100
1118	553				1981	return;
1119						}
1120						elsif ( keys %$fin_idx == 1 ) {
1121	1363				4250	$fin = (values %$fin_idx)[0];
1122						}
1123						else {
1124	1152				1272	my @or;
1125
1126						# at this point everything is at most one level deep - unroll if needed
1127	1152				4308	for (sort keys %$fin_idx) {
1128	3254	100	66		6777	if ( ref $fin_idx->{$_} eq 'HASH' and keys %{$fin_idx->{$_}} == 1 ) {
	3254				8378
1129	3238				2491	my ($l, $r) = %{$fin_idx->{$_}};
	3238				5256
1130
1131	3238	100	66		15035	if (
		50	66
			66
			66
1132						ref $r eq 'ARRAY'
1133						and
1134						(
1135						( @$r == 1 and $l =~ /^\-and$/i )
1136						or
1137						$l =~ /^\-or$/i
1138						)
1139						) {
1140	122				325	push @or, @$r
1141						}
1142
1143						elsif (
1144						ref $r eq 'HASH'
1145						and
1146						keys %$r == 1
1147						and
1148						$l =~ /^\-(?:and\|or)$/i
1149						) {
1150	0				0	push @or, %$r;
1151						}
1152
1153						else {
1154	3116				6245	push @or, $l, $r;
1155						}
1156						}
1157						else {
1158	16				22	push @or, $fin_idx->{$_};
1159						}
1160						}
1161
1162	1152				5139	$fin->{-or} = \@or;
1163						}
1164						}
1165						else {
1166						# not a hash not an array
1167	359				1677	$fin = { -and => [ $where ] };
1168						}
1169
1170						# unroll single-element -and's
1171	28064		100		80474	while (
1172						$fin->{-and}
1173						and
1174	2496				8379	@{$fin->{-and}} < 2
1175						) {
1176	2127				4297	my $and = delete $fin->{-and};
1177	2127	50			4010	last if @$and == 0;
1178
1179						# at this point we have @$and == 1
1180	2127	100	66		5688	if (
1181						ref $and->[0] eq 'HASH'
1182						and
1183	1369				5137	! grep { exists $fin->{$_} } keys %{$and->[0]}
	1369				2806
1184						) {
1185						$fin = {
1186	1369				2239	%$fin, %{$and->[0]}
	1369				6418
1187						};
1188						}
1189						else {
1190	758				1197	$fin->{-and} = $and;
1191	758				1021	last;
1192						}
1193						}
1194
1195						# compress same-column conds found in $fin
1196	28064				52416	for my $col ( grep { $_ !~ /^\-/ } keys %$fin ) {
	41481				91809
1197	37511	100	100		102206	next unless ref $fin->{$col} eq 'ARRAY' and ($fin->{$col}[0]\|\|'') =~ /^\-and$/i;
			100
1198						my $val_bag = { map {
1199	5496	100	66		91997	(! defined $_ ) ? ( UNDEF => undef )
		100
1200						: ( ! length ref $_ or is_plain_value $_ ) ? ( "VAL_$_" => $_ )
1201						: ( ( 'SER_' . serialize $_ ) => $_ )
1202	2680				3372	} @{$fin->{$col}}[1 .. $#{$fin->{$col}}] };
	2680				4258
	2680				5235
1203
1204	2680	100			49903	if (keys %$val_bag == 1 ) {
1205	346				1463	($fin->{$col}) = values %$val_bag;
1206						}
1207						else {
1208	2334				7525	$fin->{$col} = [ -and => map { $val_bag->{$_} } sort keys %$val_bag ];
	4750				12876
1209						}
1210						}
1211
1212	28064	50			92181	return keys %$fin ? $fin : ();
1213						}
1214
1215						sub _collapse_cond_unroll_pairs {
1216	26501			26501	28386	my ($self, $pairs) = @_;
1217
1218	26501				23052	my @conds;
1219
1220	26501				44933	while (@$pairs) {
1221	35726				55318	my ($lhs, $rhs) = splice @$pairs, 0, 2;
1222
1223	35726	100			132744	if ($lhs eq '') {
		100
		100
1224	241				967	push @conds, $self->_collapse_cond($rhs);
1225						}
1226						elsif ( $lhs =~ /^\-and$/i ) {
1227	5297				14928	push @conds, $self->_collapse_cond($rhs, (ref $rhs eq 'ARRAY'));
1228						}
1229						elsif ( $lhs =~ /^\-or$/i ) {
1230						push @conds, $self->_collapse_cond(
1231	2275	100			9050	(ref $rhs eq 'HASH') ? [ map { $_ => $rhs->{$_} } sort keys %$rhs ] : $rhs
	595				1703
1232						);
1233						}
1234						else {
1235	27913	100	100		330988	if (ref $rhs eq 'HASH' and ! keys %$rhs) {
		100	100
		100	100
		100	100
		100	100
		100	100
			100
			66
			100
			100
			100
1236						# FIXME - SQLA seems to be doing... nothing...?
1237						}
1238						# normalize top level -ident, for saner extract_fixed_condition_columns code
1239						elsif (ref $rhs eq 'HASH' and keys %$rhs == 1 and exists $rhs->{-ident}) {
1240	322				1272	push @conds, { $lhs => { '=', $rhs } };
1241						}
1242						elsif (ref $rhs eq 'HASH' and keys %$rhs == 1 and exists $rhs->{-value} and is_plain_value $rhs->{-value}) {
1243	33				222	push @conds, { $lhs => $rhs->{-value} };
1244						}
1245						elsif (ref $rhs eq 'HASH' and keys %$rhs == 1 and exists $rhs->{'='}) {
1246	1458	100	100		6085	if ( length ref $rhs->{'='} and is_literal_value $rhs->{'='} ) {
1247	697				7066	push @conds, { $lhs => $rhs };
1248						}
1249						else {
1250	761				4529	for my $p ($self->_collapse_cond_unroll_pairs([ $lhs => $rhs->{'='} ])) {
1251
1252						# extra sanity check
1253	766	50			2330	if (keys %$p > 1) {
1254	0				0	require Data::Dumper::Concise;
1255	0				0	local $Data::Dumper::Deepcopy = 1;
1256						$self->throw_exception(
1257						"Internal error: unexpected collapse unroll:"
1258	0				0	. Data::Dumper::Concise::Dumper { in => { $lhs => $rhs }, out => $p }
	766				1550
1259						);
1260						}
1261
1262	766				6847	my ($l, $r) = %$p;
1263
1264						push @conds, (
1265						! length ref $r
1266						or
1267						# the unroller recursion may return a '=' prepended value already
1268	285	100	100		1314	ref $r eq 'HASH' and keys %$rhs == 1 and exists $rhs->{'='}
1269						or
1270						is_plain_value($r)
1271						)
1272						? { $l => $r }
1273						: { $l => { '=' => $r } }
1274						;
1275						}
1276						}
1277						}
1278						elsif (ref $rhs eq 'ARRAY') {
1279						# some of these conditionals encounter multi-values - roll them out using
1280						# an unshift, which will cause extra looping in the while{} above
1281	60	100	100		231	if (! @$rhs ) {
		100
		100
1282	174				354	push @conds, { $lhs => [] };
1283						}
1284						elsif ( ($rhs->[0]\|\|'') =~ /^\-(?:and\|or)$/i ) {
1285	174	50			429	$self->throw_exception("Value modifier not followed by any values: $lhs => [ $rhs->[0] ] ")
1286						if @$rhs == 1;
1287
1288	164	100			278	if( $rhs->[0] =~ /^\-and$/i ) {
		100
1289	357				986	unshift @$pairs, map { $lhs => $_ } @{$rhs}[1..$#$rhs];
	164				285
	5				25
1290						}
1291						# if not an AND then it's an OR
1292						elsif(@$rhs == 2) {
1293	5				18	unshift @$pairs, $lhs => $rhs->[1];
1294						}
1295						else {
1296	5				32	push @conds, { $lhs => [ @{$rhs}[1..$#$rhs] ] };
	15				113
1297						}
1298						}
1299						elsif (@$rhs == 1) {
1300	36				180	unshift @$pairs, $lhs => $rhs->[0];
1301						}
1302						else {
1303	7				81	push @conds, { $lhs => $rhs };
1304						}
1305						}
1306						# unroll func + { -value => ... }
1307						elsif (
1308						ref $rhs eq 'HASH'
1309						and
1310						( my ($subop) = keys %$rhs ) == 1
1311						and
1312						length ref ((values %$rhs)[0])
1313						and
1314						my $vref = is_plain_value( (values %$rhs)[0] )
1315						) {
1316	25802				88885	push @conds, { $lhs => { $subop => $$vref } }
1317						}
1318						else {
1319	26163				72578	push @conds, { $lhs => $rhs };
1320						}
1321						}
1322						}
1323
1324	0				0	return @conds;
1325						}
1326
1327						# Analyzes a given condition and attempts to extract all columns
1328						# with a definitive fixed-condition criteria. Returns a hashref
1329						# of k/v pairs suitable to be passed to set_columns(), with a
1330						# MAJOR CAVEAT - multi-value (contradictory) equalities are still
1331						# represented as a reference to the UNRESOVABLE_CONDITION constant
1332						# The reason we do this is that some codepaths only care about the
1333						# codition being stable, as opposed to actually making sense
1334						#
1335						# The normal mode is used to figure out if a resultset is constrained
1336						# to a column which is part of a unique constraint, which in turn
1337						# allows us to better predict how ordering will behave etc.
1338						#
1339						# With the optional "consider_nulls" boolean argument, the function
1340						# is instead used to infer inambiguous values from conditions
1341						# (e.g. the inheritance of resultset conditions on new_result)
1342						#
1343						sub _extract_fixed_condition_columns {
1344	11403			11403	3777947	my ($self, $where, $consider_nulls) = @_;
1345	11403				27992	my $where_hash = $self->_collapse_cond($_[1]);
1346
1347	11403				14416	my $res = {};
1348	11403				11147	my ($c, $v);
1349	11403				17968	for $c (keys %$where_hash) {
1350	12614				10832	my $vals;
1351
1352	12614	100	100		63061	if (!defined ($v = $where_hash->{$c}) ) {
		100	100
		100	100
		100	100
1353	242	100			675	$vals->{UNDEF} = $v if $consider_nulls
1354						}
1355						elsif (
1356						ref $v eq 'HASH'
1357						and
1358						keys %$v == 1
1359						) {
1360	475	100	100		3236	if (exists $v->{-value}) {
		100	66
1361	12	50			23	if (defined $v->{-value}) {
		0
1362						$vals->{"VAL_$v->{-value}"} = $v->{-value}
1363	12				38	}
1364						elsif( $consider_nulls ) {
1365	0				0	$vals->{UNDEF} = $v->{-value};
1366						}
1367						}
1368						# do not need to check for plain values - _collapse_cond did it for us
1369						elsif(
1370						length ref $v->{'='}
1371						and
1372						(
1373						( ref $v->{'='} eq 'HASH' and keys %{$v->{'='}} == 1 and exists $v->{'='}{-ident} )
1374						or
1375						is_literal_value($v->{'='})
1376						)
1377						) {
1378	374				2913	$vals->{ 'SER_' . serialize $v->{'='} } = $v->{'='};
1379						}
1380						}
1381						elsif (
1382						! length ref $v
1383						or
1384						is_plain_value ($v)
1385						) {
1386	11135				33731	$vals->{"VAL_$v"} = $v;
1387						}
1388						elsif (ref $v eq 'ARRAY' and ($v->[0]\|\|'') eq '-and') {
1389	81				1138	for ( @{$v}[1..$#$v] ) {
	81				177
1390	186				1044	my $subval = $self->_extract_fixed_condition_columns({ $c => $_ }, 'consider nulls'); # always fish nulls out on recursion
1391	186	100			475	next unless exists $subval->{$c}; # didn't find anything
1392						$vals->{
1393						! defined $subval->{$c} ? 'UNDEF'
1394						: ( ! length ref $subval->{$c} or is_plain_value $subval->{$c} ) ? "VAL_$subval->{$c}"
1395						: ( 'SER_' . serialize $subval->{$c} )
1396	135	100	66		718	} = $subval->{$c};
		100
1397						}
1398						}
1399
1400	12614	100			52774	if (keys %$vals == 1) {
		100
1401						($res->{$c}) = (values %$vals)
1402	11656	100	66		56866	unless !$consider_nulls and exists $vals->{UNDEF};
1403						}
1404						elsif (keys %$vals > 1) {
1405	54				135	$res->{$c} = UNRESOLVABLE_CONDITION;
1406						}
1407						}
1408
1409	11403				35781	$res;
1410						}
1411
1412						1;