/*
* We intentionally do not compare phexpr. Two PlaceHolderVars with the
* same ID and levelsup should be considered equal even if the contained
- * expressions have managed to mutate to different states. One way in
- * which that can happen is that initplan sublinks would get replaced by
- * differently-numbered Params when sublink folding is done. (The end
- * result of such a situation would be some unreferenced initplans, which
- * is annoying but not really a problem.)
+ * expressions have managed to mutate to different states. This will
+ * happen during final plan construction when there are nested PHVs, since
+ * the inner PHV will get replaced by a Param in some copies of the outer
+ * PHV. Another way in which it can happen is that initplan sublinks
+ * could get replaced by differently-numbered Params when sublink folding
+ * is done. (The end result of such a situation would be some
+ * unreferenced initplans, which is annoying but not really a problem.) On
+ * the same reasoning, there is no need to examine phrels.
*
* COMPARE_NODE_FIELD(phexpr);
+ *
+ * COMPARE_BITMAPSET_FIELD(phrels);
*/
- COMPARE_BITMAPSET_FIELD(phrels);
COMPARE_SCALAR_FIELD(phid);
COMPARE_SCALAR_FIELD(phlevelsup);
Assert(phv->phlevelsup == 0);
/*
- * If not to be replaced, just return the PlaceHolderVar unmodified.
- * We use bms_overlap as a cheap/quick test to see if the PHV might be
- * evaluated in the outer rels, and then grab its PlaceHolderInfo to
- * tell for sure.
+ * Check whether we need to replace the PHV. We use bms_overlap as a
+ * cheap/quick test to see if the PHV might be evaluated in the outer
+ * rels, and then grab its PlaceHolderInfo to tell for sure.
*/
- if (!bms_overlap(phv->phrels, root->curOuterRels))
- return node;
- if (!bms_is_subset(find_placeholder_info(root, phv, false)->ph_eval_at,
- root->curOuterRels))
- return node;
+ if (!bms_overlap(phv->phrels, root->curOuterRels) ||
+ !bms_is_subset(find_placeholder_info(root, phv, false)->ph_eval_at,
+ root->curOuterRels))
+ {
+ /*
+ * We can't replace the whole PHV, but we might still need to
+ * replace Vars or PHVs within its expression, in case it ends up
+ * actually getting evaluated here. (It might get evaluated in
+ * this plan node, or some child node; in the latter case we don't
+ * really need to process the expression here, but we haven't got
+ * enough info to tell if that's the case.) Flat-copy the PHV
+ * node and then recurse on its expression.
+ *
+ * Note that after doing this, we might have different
+ * representations of the contents of the same PHV in different
+ * parts of the plan tree. This is OK because equal() will just
+ * match on phid/phlevelsup, so setrefs.c will still recognize an
+ * upper-level reference to a lower-level copy of the same PHV.
+ */
+ PlaceHolderVar *newphv = makeNode(PlaceHolderVar);
+
+ memcpy(newphv, phv, sizeof(PlaceHolderVar));
+ newphv->phexpr = (Expr *)
+ replace_nestloop_params_mutator((Node *) phv->phexpr,
+ root);
+ return (Node *) newphv;
+ }
/* Create a Param representing the PlaceHolderVar */
param = assign_nestloop_param_placeholdervar(root, phv);
/* Is this param already listed in root->curOuterParams? */
456 | 7318
(3 rows)
+--
+-- nested nestloops can require nested PlaceHolderVars
+--
+create temp table nt1 (
+ id int primary key,
+ a1 boolean,
+ a2 boolean
+);
+NOTICE: CREATE TABLE / PRIMARY KEY will create implicit index "nt1_pkey" for table "nt1"
+create temp table nt2 (
+ id int primary key,
+ nt1_id int,
+ b1 boolean,
+ b2 boolean,
+ foreign key (nt1_id) references nt1(id)
+);
+NOTICE: CREATE TABLE / PRIMARY KEY will create implicit index "nt2_pkey" for table "nt2"
+create temp table nt3 (
+ id int primary key,
+ nt2_id int,
+ c1 boolean,
+ foreign key (nt2_id) references nt2(id)
+);
+NOTICE: CREATE TABLE / PRIMARY KEY will create implicit index "nt3_pkey" for table "nt3"
+insert into nt1 values (1,true,true);
+insert into nt1 values (2,true,false);
+insert into nt1 values (3,false,false);
+insert into nt2 values (1,1,true,true);
+insert into nt2 values (2,2,true,false);
+insert into nt2 values (3,3,false,false);
+insert into nt3 values (1,1,true);
+insert into nt3 values (2,2,false);
+insert into nt3 values (3,3,true);
+explain (costs off)
+select nt3.id
+from nt3 as nt3
+ left join
+ (select nt2.*, (nt2.b1 and ss1.a3) AS b3
+ from nt2 as nt2
+ left join
+ (select nt1.*, (nt1.id is not null) as a3 from nt1) as ss1
+ on ss1.id = nt2.nt1_id
+ ) as ss2
+ on ss2.id = nt3.nt2_id
+where nt3.id = 1 and ss2.b3;
+ QUERY PLAN
+-----------------------------------------------
+ Nested Loop
+ -> Nested Loop
+ -> Index Scan using nt3_pkey on nt3
+ Index Cond: (id = 1)
+ -> Index Scan using nt2_pkey on nt2
+ Index Cond: (id = nt3.nt2_id)
+ -> Index Only Scan using nt1_pkey on nt1
+ Index Cond: (id = nt2.nt1_id)
+ Filter: (nt2.b1 AND (id IS NOT NULL))
+(9 rows)
+
+select nt3.id
+from nt3 as nt3
+ left join
+ (select nt2.*, (nt2.b1 and ss1.a3) AS b3
+ from nt2 as nt2
+ left join
+ (select nt1.*, (nt1.id is not null) as a3 from nt1) as ss1
+ on ss1.id = nt2.nt1_id
+ ) as ss2
+ on ss2.id = nt3.nt2_id
+where nt3.id = 1 and ss2.b3;
+ id
+----
+ 1
+(1 row)
+
--
-- test case where a PlaceHolderVar is propagated into a subquery
--
USING (qq)
INNER JOIN tenk1 c ON qq = unique2;
+--
+-- nested nestloops can require nested PlaceHolderVars
+--
+
+create temp table nt1 (
+ id int primary key,
+ a1 boolean,
+ a2 boolean
+);
+create temp table nt2 (
+ id int primary key,
+ nt1_id int,
+ b1 boolean,
+ b2 boolean,
+ foreign key (nt1_id) references nt1(id)
+);
+create temp table nt3 (
+ id int primary key,
+ nt2_id int,
+ c1 boolean,
+ foreign key (nt2_id) references nt2(id)
+);
+
+insert into nt1 values (1,true,true);
+insert into nt1 values (2,true,false);
+insert into nt1 values (3,false,false);
+insert into nt2 values (1,1,true,true);
+insert into nt2 values (2,2,true,false);
+insert into nt2 values (3,3,false,false);
+insert into nt3 values (1,1,true);
+insert into nt3 values (2,2,false);
+insert into nt3 values (3,3,true);
+
+explain (costs off)
+select nt3.id
+from nt3 as nt3
+ left join
+ (select nt2.*, (nt2.b1 and ss1.a3) AS b3
+ from nt2 as nt2
+ left join
+ (select nt1.*, (nt1.id is not null) as a3 from nt1) as ss1
+ on ss1.id = nt2.nt1_id
+ ) as ss2
+ on ss2.id = nt3.nt2_id
+where nt3.id = 1 and ss2.b3;
+
+select nt3.id
+from nt3 as nt3
+ left join
+ (select nt2.*, (nt2.b1 and ss1.a3) AS b3
+ from nt2 as nt2
+ left join
+ (select nt1.*, (nt1.id is not null) as a3 from nt1) as ss1
+ on ss1.id = nt2.nt1_id
+ ) as ss2
+ on ss2.id = nt3.nt2_id
+where nt3.id = 1 and ss2.b3;
+
--
-- test case where a PlaceHolderVar is propagated into a subquery
--
projects / postgresql / commitdiff