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Check lateral references within PHVs for memoize cache keys 

If we intend to generate a Memoize node on top of a path, we need
cache keys of some sort.  Currently we search for the cache keys in
the parameterized clauses of the path as well as the lateral_vars of
its parent.  However, it turns out that this is not sufficient because
there might be lateral references derived from PlaceHolderVars, which
we fail to take into consideration.

This oversight can cause us to miss opportunities to utilize the
Memoize node.  Moreover, in some plans, failing to recognize all the
cache keys could result in performance regressions.  This is because
without identifying all the cache keys, we would need to purge the
entire cache every time we get a new outer tuple during execution.

This patch fixes this issue by extracting lateral Vars from within
PlaceHolderVars and subsequently including them in the cache keys.

In passing, this patch also includes a comment clarifying that Memoize
nodes are currently not added on top of join relation paths.  This
explains why this patch only considers PlaceHolderVars that are due to
be evaluated at baserels.

Author: Richard Guo
Reviewed-by: Tom Lane, David Rowley, Andrei Lepikhov
Discussion: https://postgr.es/m/CAMbWs48jLxn0pAPZpJ50EThZ569Xrw+=4Ac3QvkpQvNszbeoNg@mail.gmail.com
This commit is contained in:
Richard Guo 2024-07-15 10:26:33 +09:00
parent f96c2c7278
commit 069d0ff022
4 changed files with 245 additions and 9 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

12
contrib/postgres_fdw/expected/postgres_fdw.out
View File

@ -3774,15 +3774,19 @@ ORDER BY ref_0."C 1";
-> Index Scan using t1_pkey on "S 1"."T 1" ref_0
Output: ref_0."C 1", ref_0.c2, ref_0.c3, ref_0.c4, ref_0.c5, ref_0.c6, ref_0.c7, ref_0.c8
Index Cond: (ref_0."C 1" < 10)
-> Foreign Scan on public.ft1 ref_1
Output: ref_1.c3, ref_0.c2
Remote SQL: SELECT c3 FROM "S 1"."T 1" WHERE ((c3 = '00001'))
-> Memoize
Output: ref_1.c3, (ref_0.c2)
Cache Key: ref_0.c2
Cache Mode: binary
-> Foreign Scan on public.ft1 ref_1
Output: ref_1.c3, ref_0.c2
Remote SQL: SELECT c3 FROM "S 1"."T 1" WHERE ((c3 = '00001'))
-> Materialize
Output: ref_3.c3
-> Foreign Scan on public.ft2 ref_3
Output: ref_3.c3
Remote SQL: SELECT c3 FROM "S 1"."T 1" WHERE ((c3 = '00001'))
(15 rows)
(19 rows)
SELECT ref_0.c2, subq_1.*
FROM

114
src/backend/optimizer/path/joinpath.c
View File

@ -23,6 +23,7 @@
#include "optimizer/optimizer.h"
#include "optimizer/pathnode.h"
#include "optimizer/paths.h"
#include "optimizer/placeholder.h"
#include "optimizer/planmain.h"
#include "utils/typcache.h"
@ -425,7 +426,7 @@ have_unsafe_outer_join_ref(PlannerInfo *root,
/*
* paraminfo_get_equal_hashops
* Determine if the clauses in param_info and innerrel's lateral_vars
* Determine if the clauses in param_info and innerrel's lateral vars
* can be hashed.
* Returns true if hashing is possible, otherwise false.
*
@ -438,10 +439,11 @@ have_unsafe_outer_join_ref(PlannerInfo *root,
static bool
paraminfo_get_equal_hashops(PlannerInfo *root, ParamPathInfo *param_info,
RelOptInfo *outerrel, RelOptInfo *innerrel,
List **param_exprs, List **operators,
bool *binary_mode)
List *ph_lateral_vars, List **param_exprs,
List **operators, bool *binary_mode)
{
List *lateral_vars;
ListCell *lc;
*param_exprs = NIL;
@ -521,7 +523,8 @@ paraminfo_get_equal_hashops(PlannerInfo *root, ParamPathInfo *param_info,
}
/* Now add any lateral vars to the cache key too */
foreach(lc, innerrel->lateral_vars)
lateral_vars = list_concat(ph_lateral_vars, innerrel->lateral_vars);
foreach(lc, lateral_vars)
{
Node *expr = (Node *) lfirst(lc);
TypeCacheEntry *typentry;
@ -572,10 +575,101 @@ paraminfo_get_equal_hashops(PlannerInfo *root, ParamPathInfo *param_info,
return true;
}
/*
* extract_lateral_vars_from_PHVs
* Extract lateral references within PlaceHolderVars that are due to be
* evaluated at 'innerrelids'.
*/
static List *
extract_lateral_vars_from_PHVs(PlannerInfo *root, Relids innerrelids)
{
List *ph_lateral_vars = NIL;
ListCell *lc;
/* Nothing would be found if the query contains no LATERAL RTEs */
if (!root->hasLateralRTEs)
return NIL;
/*
* No need to consider PHVs that are due to be evaluated at joinrels,
* since we do not add Memoize nodes on top of joinrel paths.
*/
if (bms_membership(innerrelids) == BMS_MULTIPLE)
return NIL;
foreach(lc, root->placeholder_list)
{
PlaceHolderInfo *phinfo = (PlaceHolderInfo *) lfirst(lc);
List *vars;
ListCell *cell;
/* PHV is uninteresting if no lateral refs */
if (phinfo->ph_lateral == NULL)
continue;
/* PHV is uninteresting if not due to be evaluated at innerrelids */
if (!bms_equal(phinfo->ph_eval_at, innerrelids))
continue;
/*
* If the PHV does not reference any rels in innerrelids, use its
* contained expression as a cache key rather than extracting the
* Vars/PHVs from it and using those. This can be beneficial in cases
* where the expression results in fewer distinct values to cache
* tuples for.
*/
if (!bms_overlap(pull_varnos(root, (Node *) phinfo->ph_var->phexpr),
innerrelids))
{
ph_lateral_vars = lappend(ph_lateral_vars, phinfo->ph_var->phexpr);
continue;
}
/* Fetch Vars and PHVs of lateral references within PlaceHolderVars */
vars = pull_vars_of_level((Node *) phinfo->ph_var->phexpr, 0);
foreach(cell, vars)
{
Node *node = (Node *) lfirst(cell);
if (IsA(node, Var))
{
Var *var = (Var *) node;
Assert(var->varlevelsup == 0);
if (bms_is_member(var->varno, phinfo->ph_lateral))
ph_lateral_vars = lappend(ph_lateral_vars, node);
}
else if (IsA(node, PlaceHolderVar))
{
PlaceHolderVar *phv = (PlaceHolderVar *) node;
Assert(phv->phlevelsup == 0);
if (bms_is_subset(find_placeholder_info(root, phv)->ph_eval_at,
phinfo->ph_lateral))
ph_lateral_vars = lappend(ph_lateral_vars, node);
}
else
Assert(false);
}
list_free(vars);
}
return ph_lateral_vars;
}
/*
* get_memoize_path
* If possible, make and return a Memoize path atop of 'inner_path'.
* Otherwise return NULL.
*
* Note that currently we do not add Memoize nodes on top of join relation
* paths. This is because the ParamPathInfos for join relation paths do not
* maintain ppi_clauses, as the set of relevant clauses varies depending on how
* the join is formed. In addition, joinrels do not maintain lateral_vars. So
* we do not have a way to extract cache keys from joinrels.
*/
static Path *
get_memoize_path(PlannerInfo *root, RelOptInfo *innerrel,
@ -587,6 +681,7 @@ get_memoize_path(PlannerInfo *root, RelOptInfo *innerrel,
List *hash_operators;
ListCell *lc;
bool binary_mode;
List *ph_lateral_vars;
/* Obviously not if it's disabled */
if (!enable_memoize)
@ -601,6 +696,13 @@ get_memoize_path(PlannerInfo *root, RelOptInfo *innerrel,
if (outer_path->parent->rows < 2)
return NULL;
/*
* Extract lateral Vars/PHVs within PlaceHolderVars that are due to be
* evaluated at innerrel. These lateral Vars/PHVs could be used as
* memoize cache keys.
*/
ph_lateral_vars = extract_lateral_vars_from_PHVs(root, innerrel->relids);
/*
* We can only have a memoize node when there's some kind of cache key,
* either parameterized path clauses or lateral Vars. No cache key sounds
@ -608,7 +710,8 @@ get_memoize_path(PlannerInfo *root, RelOptInfo *innerrel,
*/
if ((inner_path->param_info == NULL ||
inner_path->param_info->ppi_clauses == NIL) &&
innerrel->lateral_vars == NIL)
innerrel->lateral_vars == NIL &&
ph_lateral_vars == NIL)
return NULL;
/*
@ -695,6 +798,7 @@ get_memoize_path(PlannerInfo *root, RelOptInfo *innerrel,
outerrel->top_parent ?
outerrel->top_parent : outerrel,
innerrel,
ph_lateral_vars,
&param_exprs,
&hash_operators,
&binary_mode))

93
src/test/regress/expected/memoize.out
View File

@ -129,6 +129,99 @@ WHERE t1.unique1 < 10;
20 | 0.50000000000000000000
(1 row)
-- Try with LATERAL references within PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+1 AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
explain_memoize
-------------------------------------------------------------------------------------------
Aggregate (actual rows=1 loops=N)
-> Nested Loop (actual rows=1000 loops=N)
-> Seq Scan on tenk1 t1 (actual rows=1000 loops=N)
Filter: (unique1 < 1000)
Rows Removed by Filter: 9000
-> Memoize (actual rows=1 loops=N)
Cache Key: (t1.two + 1)
Cache Mode: binary
Hits: 998 Misses: 2 Evictions: Zero Overflows: 0 Memory Usage: NkB
-> Index Only Scan using tenk1_unique1 on tenk1 t2 (actual rows=1 loops=N)
Filter: ((t1.two + 1) = unique1)
Rows Removed by Filter: 9999
Heap Fetches: N
(13 rows)
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+1 AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
count | avg
-------+--------------------
1000 | 9.5000000000000000
(1 row)
-- Try with LATERAL references within PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+t2.two AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
explain_memoize
--------------------------------------------------------------------------------------
Aggregate (actual rows=1 loops=N)
-> Nested Loop (actual rows=1000 loops=N)
-> Seq Scan on tenk1 t1 (actual rows=1000 loops=N)
Filter: (unique1 < 1000)
Rows Removed by Filter: 9000
-> Memoize (actual rows=1 loops=N)
Cache Key: t1.two
Cache Mode: binary
Hits: 998 Misses: 2 Evictions: Zero Overflows: 0 Memory Usage: NkB
-> Seq Scan on tenk1 t2 (actual rows=1 loops=N)
Filter: ((t1.two + two) = unique1)
Rows Removed by Filter: 9999
(12 rows)
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+t2.two AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
count | avg
-------+--------------------
1000 | 9.0000000000000000
(1 row)
-- Ensure we do not omit the cache keys from PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.twenty AS c1, t2.unique1 AS c2, t2.two FROM tenk1 t2) s
ON t1.two = s.two
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
explain_memoize
---------------------------------------------------------------------------------------
Aggregate (actual rows=1 loops=N)
-> Nested Loop (actual rows=1000 loops=N)
-> Seq Scan on tenk1 t1 (actual rows=1000 loops=N)
Filter: (unique1 < 1000)
Rows Removed by Filter: 9000
-> Memoize (actual rows=1 loops=N)
Cache Key: t1.two, t1.twenty
Cache Mode: binary
Hits: 980 Misses: 20 Evictions: Zero Overflows: 0 Memory Usage: NkB
-> Seq Scan on tenk1 t2 (actual rows=1 loops=N)
Filter: ((t1.twenty = unique1) AND (t1.two = two))
Rows Removed by Filter: 9999
(12 rows)
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.twenty AS c1, t2.unique1 AS c2, t2.two FROM tenk1 t2) s
ON t1.two = s.two
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
count | avg
-------+--------------------
1000 | 9.5000000000000000
(1 row)
SET enable_mergejoin TO off;
-- Test for varlena datatype with expr evaluation
CREATE TABLE expr_key (x numeric, t text);

35
src/test/regress/sql/memoize.sql
View File

@ -74,6 +74,41 @@ LATERAL (
ON t1.two = t2.two
WHERE t1.unique1 < 10;
-- Try with LATERAL references within PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+1 AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+1 AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
-- Try with LATERAL references within PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+t2.two AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.two+t2.two AS c1, t2.unique1 AS c2 FROM tenk1 t2) s ON TRUE
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
-- Ensure we do not omit the cache keys from PlaceHolderVars
SELECT explain_memoize('
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.twenty AS c1, t2.unique1 AS c2, t2.two FROM tenk1 t2) s
ON t1.two = s.two
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;', false);
-- And check we get the expected results.
SELECT COUNT(*), AVG(t1.twenty) FROM tenk1 t1 LEFT JOIN
LATERAL (SELECT t1.twenty AS c1, t2.unique1 AS c2, t2.two FROM tenk1 t2) s
ON t1.two = s.two
WHERE s.c1 = s.c2 AND t1.unique1 < 1000;
SET enable_mergejoin TO off;
-- Test for varlena datatype with expr evaluation