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Support parameterized TidPaths. 

Up to now we've not worried much about joins where the join key is a
relation's CTID column, reasoning that storing a table's CTIDs in some
other table would be pretty useless.  However, there are use-cases for
this sort of query involving self-joins, so that argument doesn't really
hold water.

This patch allows generating plans for joins on CTID that use a nestloop
with inner TidScan, similar to what we might do with an index on the join
column.  This is the most efficient way to join when the outer side of
the nestloop is expected to yield relatively few rows.

This change requires upgrading tidpath.c and the generated TidPaths
to work with RestrictInfos instead of bare qual clauses, but that's
long-postponed technical debt anyway.

Discussion: https://postgr.es/m/17443.1545435266@sss.pgh.pa.us
This commit is contained in:
Tom Lane 2018-12-30 15:24:28 -05:00
parent 6f19a8c41f
commit b5415e3c21
8 changed files with 418 additions and 143 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

9
src/backend/optimizer/path/costsize.c
View File

@ -1202,15 +1202,18 @@ cost_tidscan(Path *path, PlannerInfo *root,
ntuples = 0;
foreach(l, tidquals)
{
if (IsA(lfirst(l), ScalarArrayOpExpr))
RestrictInfo *rinfo = lfirst_node(RestrictInfo, l);
Expr *qual = rinfo->clause;
if (IsA(qual, ScalarArrayOpExpr))
{
/* Each element of the array yields 1 tuple */
ScalarArrayOpExpr *saop = (ScalarArrayOpExpr *) lfirst(l);
ScalarArrayOpExpr *saop = (ScalarArrayOpExpr *) qual;
Node *arraynode = (Node *) lsecond(saop->args);
ntuples += estimate_array_length(arraynode);
}
else if (IsA(lfirst(l), CurrentOfExpr))
else if (IsA(qual, CurrentOfExpr))
{
/* CURRENT OF yields 1 tuple */
isCurrentOf = true;

400
src/backend/optimizer/path/tidpath.c
View File

@ -12,18 +12,17 @@
* this allows
* WHERE ctid IN (tid1, tid2, ...)
*
* As with indexscans, our definition of "pseudoconstant" is pretty liberal:
* we allow anything that doesn't involve a volatile function or a Var of
* the relation under consideration. Vars belonging to other relations of
* the query are allowed, giving rise to parameterized TID scans.
*
* We also support "WHERE CURRENT OF cursor" conditions (CurrentOfExpr),
* which amount to "CTID = run-time-determined-TID". These could in
* theory be translated to a simple comparison of CTID to the result of
* a function, but in practice it works better to keep the special node
* representation all the way through to execution.
*
* There is currently no special support for joins involving CTID; in
* particular nothing corresponding to best_inner_indexscan(). Since it's
* not very useful to store TIDs of one table in another table, there
* doesn't seem to be enough use-case to justify adding a lot of code
* for that.
*
*
* Portions Copyright (c) 1996-2018, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
@ -44,82 +43,97 @@
#include "optimizer/pathnode.h"
#include "optimizer/paths.h"
#include "optimizer/restrictinfo.h"
static bool IsTidEqualClause(OpExpr *node, int varno);
static bool IsTidEqualAnyClause(ScalarArrayOpExpr *node, int varno);
static List *TidQualFromExpr(Node *expr, int varno);
static List *TidQualFromBaseRestrictinfo(RelOptInfo *rel);
#include "optimizer/var.h"
/*
* Check to see if an opclause is of the form
* Does this Var represent the CTID column of the specified baserel?
*/
static inline bool
IsCTIDVar(Var *var, RelOptInfo *rel)
{
/* The vartype check is strictly paranoia */
if (var->varattno == SelfItemPointerAttributeNumber &&
var->vartype == TIDOID &&
var->varno == rel->relid &&
var->varlevelsup == 0)
return true;
return false;
}
/*
* Check to see if a RestrictInfo is of the form
* CTID = pseudoconstant
* or
* pseudoconstant = CTID
*
* We check that the CTID Var belongs to relation "varno". That is probably
* redundant considering this is only applied to restriction clauses, but
* let's be safe.
* where the CTID Var belongs to relation "rel", and nothing on the
* other side of the clause does.
*/
static bool
IsTidEqualClause(OpExpr *node, int varno)
IsTidEqualClause(RestrictInfo *rinfo, RelOptInfo *rel)
{
OpExpr *node;
Node *arg1,
*arg2,
*other;
Var *var;
Relids other_relids;
/* Must be an OpExpr */
if (!is_opclause(rinfo->clause))
return false;
node = (OpExpr *) rinfo->clause;
/* Operator must be tideq */
if (node->opno != TIDEqualOperator)
return false;
if (list_length(node->args) != 2)
return false;
Assert(list_length(node->args) == 2);
arg1 = linitial(node->args);
arg2 = lsecond(node->args);
/* Look for CTID as either argument */
other = NULL;
if (arg1 && IsA(arg1, Var))
other_relids = NULL;
if (arg1 && IsA(arg1, Var) &&
IsCTIDVar((Var *) arg1, rel))
{
var = (Var *) arg1;
if (var->varattno == SelfItemPointerAttributeNumber &&
var->vartype == TIDOID &&
var->varno == varno &&
var->varlevelsup == 0)
other = arg2;
other = arg2;
other_relids = rinfo->right_relids;
}
if (!other && arg2 && IsA(arg2, Var))
if (!other && arg2 && IsA(arg2, Var) &&
IsCTIDVar((Var *) arg2, rel))
{
var = (Var *) arg2;
if (var->varattno == SelfItemPointerAttributeNumber &&
var->vartype == TIDOID &&
var->varno == varno &&
var->varlevelsup == 0)
other = arg1;
other = arg1;
other_relids = rinfo->left_relids;
}
if (!other)
return false;
if (exprType(other) != TIDOID)
return false; /* probably can't happen */
/* The other argument must be a pseudoconstant */
if (!is_pseudo_constant_clause(other))
if (bms_is_member(rel->relid, other_relids) ||
contain_volatile_functions(other))
return false;
return true; /* success */
}
/*
* Check to see if a clause is of the form
* Check to see if a RestrictInfo is of the form
* CTID = ANY (pseudoconstant_array)
* where the CTID Var belongs to relation "rel", and nothing on the
* other side of the clause does.
*/
static bool
IsTidEqualAnyClause(ScalarArrayOpExpr *node, int varno)
IsTidEqualAnyClause(RestrictInfo *rinfo, RelOptInfo *rel)
{
ScalarArrayOpExpr *node;
Node *arg1,
*arg2;
/* Must be a ScalarArrayOpExpr */
if (!(rinfo->clause && IsA(rinfo->clause, ScalarArrayOpExpr)))
return false;
node = (ScalarArrayOpExpr *) rinfo->clause;
/* Operator must be tideq */
if (node->opno != TIDEqualOperator)
return false;
@ -130,117 +144,230 @@ IsTidEqualAnyClause(ScalarArrayOpExpr *node, int varno)
arg2 = lsecond(node->args);
/* CTID must be first argument */
if (arg1 && IsA(arg1, Var))
if (arg1 && IsA(arg1, Var) &&
IsCTIDVar((Var *) arg1, rel))
{
Var *var = (Var *) arg1;
/* The other argument must be a pseudoconstant */
if (bms_is_member(rel->relid, pull_varnos(arg2)) ||
contain_volatile_functions(arg2))
return false;
if (var->varattno == SelfItemPointerAttributeNumber &&
var->vartype == TIDOID &&
var->varno == varno &&
var->varlevelsup == 0)
{
/* The other argument must be a pseudoconstant */
if (is_pseudo_constant_clause(arg2))
return true; /* success */
}
return true; /* success */
}
return false;
}
/*
* Extract a set of CTID conditions from the given qual expression
* Check to see if a RestrictInfo is a CurrentOfExpr referencing "rel".
*/
static bool
IsCurrentOfClause(RestrictInfo *rinfo, RelOptInfo *rel)
{
CurrentOfExpr *node;
/* Must be a CurrentOfExpr */
if (!(rinfo->clause && IsA(rinfo->clause, CurrentOfExpr)))
return false;
node = (CurrentOfExpr *) rinfo->clause;
/* If it references this rel, we're good */
if (node->cvarno == rel->relid)
return true;
return false;
}
/*
* Extract a set of CTID conditions from the given RestrictInfo
*
* Returns a List of CTID qual expressions (with implicit OR semantics
* across the list), or NIL if there are no usable conditions.
* Returns a List of CTID qual RestrictInfos for the specified rel (with
* implicit OR semantics across the list), or NIL if there are no usable
* conditions.
*
* If the expression is an AND clause, we can use a CTID condition
* from any sub-clause. If it is an OR clause, we must be able to
* extract a CTID condition from every sub-clause, or we can't use it.
*
* In theory, in the AND case we could get CTID conditions from different
* sub-clauses, in which case we could try to pick the most efficient one.
* In practice, such usage seems very unlikely, so we don't bother; we
* just exit as soon as we find the first candidate.
* This function considers only base cases; AND/OR combination is handled
* below. Therefore the returned List never has more than one element.
* (Using a List may seem a bit weird, but it simplifies the caller.)
*/
static List *
TidQualFromExpr(Node *expr, int varno)
TidQualFromRestrictInfo(RestrictInfo *rinfo, RelOptInfo *rel)
{
/*
* We may ignore pseudoconstant clauses (they can't contain Vars, so could
* not match anyway).
*/
if (rinfo->pseudoconstant)
return NIL;
/*
* If clause must wait till after some lower-security-level restriction
* clause, reject it.
*/
if (!restriction_is_securely_promotable(rinfo, rel))
return NIL;
/*
* Check all base cases. If we get a match, return the clause.
*/
if (IsTidEqualClause(rinfo, rel) ||
IsTidEqualAnyClause(rinfo, rel) ||
IsCurrentOfClause(rinfo, rel))
return list_make1(rinfo);
return NIL;
}
/*
* Extract a set of CTID conditions from implicit-AND List of RestrictInfos
*
* Returns a List of CTID qual RestrictInfos for the specified rel (with
* implicit OR semantics across the list), or NIL if there are no usable
* conditions.
*
* This function is just concerned with handling AND/OR recursion.
*/
static List *
TidQualFromRestrictInfoList(List *rlist, RelOptInfo *rel)
{
List *rlst = NIL;
ListCell *l;
if (is_opclause(expr))
foreach(l, rlist)
{
/* base case: check for tideq opclause */
if (IsTidEqualClause((OpExpr *) expr, varno))
rlst = list_make1(expr);
}
else if (expr && IsA(expr, ScalarArrayOpExpr))
{
/* another base case: check for tid = ANY clause */
if (IsTidEqualAnyClause((ScalarArrayOpExpr *) expr, varno))
rlst = list_make1(expr);
}
else if (expr && IsA(expr, CurrentOfExpr))
{
/* another base case: check for CURRENT OF on this rel */
if (((CurrentOfExpr *) expr)->cvarno == varno)
rlst = list_make1(expr);
}
else if (and_clause(expr))
{
foreach(l, ((BoolExpr *) expr)->args)
{
rlst = TidQualFromExpr((Node *) lfirst(l), varno);
if (rlst)
break;
}
}
else if (or_clause(expr))
{
foreach(l, ((BoolExpr *) expr)->args)
{
List *frtn = TidQualFromExpr((Node *) lfirst(l), varno);
RestrictInfo *rinfo = lfirst_node(RestrictInfo, l);
if (frtn)
rlst = list_concat(rlst, frtn);
else
if (restriction_is_or_clause(rinfo))
{
ListCell *j;
/*
* We must be able to extract a CTID condition from every
* sub-clause of an OR, or we can't use it.
*/
foreach(j, ((BoolExpr *) rinfo->orclause)->args)
{
if (rlst)
list_free(rlst);
rlst = NIL;
break;
Node *orarg = (Node *) lfirst(j);
List *sublist;
/* OR arguments should be ANDs or sub-RestrictInfos */
if (and_clause(orarg))
{
List *andargs = ((BoolExpr *) orarg)->args;
/* Recurse in case there are sub-ORs */
sublist = TidQualFromRestrictInfoList(andargs, rel);
}
else
{
RestrictInfo *rinfo = castNode(RestrictInfo, orarg);
Assert(!restriction_is_or_clause(rinfo));
sublist = TidQualFromRestrictInfo(rinfo, rel);
}
/*
* If nothing found in this arm, we can't do anything with
* this OR clause.
*/
if (sublist == NIL)
{
rlst = NIL; /* forget anything we had */
break; /* out of loop over OR args */
}
/*
* OK, continue constructing implicitly-OR'ed result list.
*/
rlst = list_concat(rlst, sublist);
}
}
else
{
/* Not an OR clause, so handle base cases */
rlst = TidQualFromRestrictInfo(rinfo, rel);
}
/*
* Stop as soon as we find any usable CTID condition. In theory we
* could get CTID equality conditions from different AND'ed clauses,
* in which case we could try to pick the most efficient one. In
* practice, such usage seems very unlikely, so we don't bother; we
* just exit as soon as we find the first candidate.
*/
if (rlst)
break;
}
return rlst;
}
/*
* Extract a set of CTID conditions from the rel's baserestrictinfo list
* Given a list of join clauses involving our rel, create a parameterized
* TidPath for each one that is a suitable TidEqual clause.
*
* In principle we could combine clauses that reference the same outer rels,
* but it doesn't seem like such cases would arise often enough to be worth
* troubling over.
*/
static List *
TidQualFromBaseRestrictinfo(RelOptInfo *rel)
static void
BuildParameterizedTidPaths(PlannerInfo *root, RelOptInfo *rel, List *clauses)
{
List *rlst = NIL;
ListCell *l;
foreach(l, rel->baserestrictinfo)
foreach(l, clauses)
{
RestrictInfo *rinfo = (RestrictInfo *) lfirst(l);
RestrictInfo *rinfo = lfirst_node(RestrictInfo, l);
List *tidquals;
Relids required_outer;
/*
* If clause must wait till after some lower-security-level
* restriction clause, reject it.
* Validate whether each clause is actually usable; we must check this
* even when examining clauses generated from an EquivalenceClass,
* since they might not satisfy the restriction on not having Vars of
* our rel on the other side, or somebody might've built an operator
* class that accepts type "tid" but has other operators in it.
*
* We currently consider only TidEqual join clauses. In principle we
* might find a suitable ScalarArrayOpExpr in the rel's joininfo list,
* but it seems unlikely to be worth checking for.
*/
if (!restriction_is_securely_promotable(rinfo, rel))
if (!IsTidEqualClause(rinfo, rel))
continue;
rlst = TidQualFromExpr((Node *) rinfo->clause, rel->relid);
if (rlst)
break;
/*
* Check if clause can be moved to this rel; this is probably
* redundant when considering EC-derived clauses, but we must check it
* for "loose" join clauses.
*/
if (!join_clause_is_movable_to(rinfo, rel))
continue;
/* OK, make list of clauses for this path */
tidquals = list_make1(rinfo);
/* Compute required outer rels for this path */
required_outer = bms_union(rinfo->required_relids, rel->lateral_relids);
required_outer = bms_del_member(required_outer, rel->relid);
add_path(rel, (Path *) create_tidscan_path(root, rel, tidquals,
required_outer));
}
return rlst;
}
/*
* Test whether an EquivalenceClass member matches our rel's CTID Var.
*
* This is a callback for use by generate_implied_equalities_for_column.
*/
static bool
ec_member_matches_ctid(PlannerInfo *root, RelOptInfo *rel,
EquivalenceClass *ec, EquivalenceMember *em,
void *arg)
{
if (em->em_expr && IsA(em->em_expr, Var) &&
IsCTIDVar((Var *) em->em_expr, rel))
return true;
return false;
}
/*
@ -252,19 +379,50 @@ TidQualFromBaseRestrictinfo(RelOptInfo *rel)
void
create_tidscan_paths(PlannerInfo *root, RelOptInfo *rel)
{
Relids required_outer;
List *tidquals;
/*
* We don't support pushing join clauses into the quals of a tidscan, but
* it could still have required parameterization due to LATERAL refs in
* its tlist.
* If any suitable quals exist in the rel's baserestrict list, generate a
* plain (unparameterized) TidPath with them.
*/
required_outer = rel->lateral_relids;
tidquals = TidQualFromBaseRestrictinfo(rel);
tidquals = TidQualFromRestrictInfoList(rel->baserestrictinfo, rel);
if (tidquals)
{
/*
* This path uses no join clauses, but it could still have required
* parameterization due to LATERAL refs in its tlist.
*/
Relids required_outer = rel->lateral_relids;
add_path(rel, (Path *) create_tidscan_path(root, rel, tidquals,
required_outer));
}
/*
* Try to generate parameterized TidPaths using equality clauses extracted
* from EquivalenceClasses. (This is important since simple "t1.ctid =
* t2.ctid" clauses will turn into ECs.)
*/
if (rel->has_eclass_joins)
{
List *clauses;
/* Generate clauses, skipping any that join to lateral_referencers */
clauses = generate_implied_equalities_for_column(root,
rel,
ec_member_matches_ctid,
NULL,
rel->lateral_referencers);
/* Generate a path for each usable join clause */
BuildParameterizedTidPaths(root, rel, clauses);
}
/*
* Also consider parameterized TidPaths using "loose" join quals. Quals
* of the form "t1.ctid = t2.ctid" would turn into these if they are outer
* join quals, for example.
*/
BuildParameterizedTidPaths(root, rel, rel->joininfo);
}

67
src/backend/optimizer/plan/createplan.c
View File

@ -3083,18 +3083,72 @@ create_tidscan_plan(PlannerInfo *root, TidPath *best_path,
TidScan *scan_plan;
Index scan_relid = best_path->path.parent->relid;
List *tidquals = best_path->tidquals;
List *ortidquals;
/* it should be a base rel... */
Assert(scan_relid > 0);
Assert(best_path->path.parent->rtekind == RTE_RELATION);
/*
* The qpqual list must contain all restrictions not enforced by the
* tidquals list. Since tidquals has OR semantics, we have to be careful
* about matching it up to scan_clauses. It's convenient to handle the
* single-tidqual case separately from the multiple-tidqual case. In the
* single-tidqual case, we look through the scan_clauses while they are
* still in RestrictInfo form, and drop any that are redundant with the
* tidqual.
*
* In normal cases simple pointer equality checks will be enough to spot
* duplicate RestrictInfos, so we try that first.
*
* Another common case is that a scan_clauses entry is generated from the
* same EquivalenceClass as some tidqual, and is therefore redundant with
* it, though not equal.
*
* Unlike indexpaths, we don't bother with predicate_implied_by(); the
* number of cases where it could win are pretty small.
*/
if (list_length(tidquals) == 1)
{
List *qpqual = NIL;
ListCell *l;
foreach(l, scan_clauses)
{
RestrictInfo *rinfo = lfirst_node(RestrictInfo, l);
if (rinfo->pseudoconstant)
continue; /* we may drop pseudoconstants here */
if (list_member_ptr(tidquals, rinfo))
continue; /* simple duplicate */
if (is_redundant_derived_clause(rinfo, tidquals))
continue; /* derived from same EquivalenceClass */
qpqual = lappend(qpqual, rinfo);
}
scan_clauses = qpqual;
}
/* Sort clauses into best execution order */
scan_clauses = order_qual_clauses(root, scan_clauses);
/* Reduce RestrictInfo list to bare expressions; ignore pseudoconstants */
/* Reduce RestrictInfo lists to bare expressions; ignore pseudoconstants */
tidquals = extract_actual_clauses(tidquals, false);
scan_clauses = extract_actual_clauses(scan_clauses, false);
/*
* If we have multiple tidquals, it's more convenient to remove duplicate
* scan_clauses after stripping the RestrictInfos. In this situation,
* because the tidquals represent OR sub-clauses, they could not have come
* from EquivalenceClasses so we don't have to worry about matching up
* non-identical clauses. On the other hand, because tidpath.c will have
* extracted those sub-clauses from some OR clause and built its own list,
* we will certainly not have pointer equality to any scan clause. So
* convert the tidquals list to an explicit OR clause and see if we can
* match it via equal() to any scan clause.
*/
if (list_length(tidquals) > 1)
scan_clauses = list_difference(scan_clauses,
list_make1(make_orclause(tidquals)));
/* Replace any outer-relation variables with nestloop params */
if (best_path->path.param_info)
{
@ -3104,15 +3158,6 @@ create_tidscan_plan(PlannerInfo *root, TidPath *best_path,
replace_nestloop_params(root, (Node *) scan_clauses);
}
/*
* Remove any clauses that are TID quals. This is a bit tricky since the
* tidquals list has implicit OR semantics.
*/
ortidquals = tidquals;
if (list_length(ortidquals) > 1)
ortidquals = list_make1(make_orclause(ortidquals));
scan_clauses = list_difference(scan_clauses, ortidquals);
scan_plan = make_tidscan(tlist,
scan_clauses,
scan_relid,

6
src/backend/optimizer/util/pathnode.c
View File

@ -3715,12 +3715,8 @@ do { \
{
TidPath *tpath;
/*
* TidPath contains tidquals, which do not contain any
* external parameters per create_tidscan_path(). So don't
* bother to translate those.
*/
FLAT_COPY_PATH(tpath, path, TidPath);
ADJUST_CHILD_ATTRS(tpath->tidquals);
new_path = (Path *) tpath;
}
break;

3
src/include/nodes/plannodes.h
View File

@ -478,7 +478,8 @@ typedef struct BitmapHeapScan
* tid scan node
*
* tidquals is an implicitly OR'ed list of qual expressions of the form
* "CTID = pseudoconstant" or "CTID = ANY(pseudoconstant_array)".
* "CTID = pseudoconstant", or "CTID = ANY(pseudoconstant_array)",
* or a CurrentOfExpr for the relation.
* ----------------
*/
typedef struct TidScan

4
src/include/nodes/relation.h
View File

@ -1229,8 +1229,8 @@ typedef struct BitmapOrPath
* TidPath represents a scan by TID
*
* tidquals is an implicitly OR'ed list of qual expressions of the form
* "CTID = pseudoconstant" or "CTID = ANY(pseudoconstant_array)".
* Note they are bare expressions, not RestrictInfos.
* "CTID = pseudoconstant", or "CTID = ANY(pseudoconstant_array)",
* or a CurrentOfExpr for the relation.
*/
typedef struct TidPath
{

55
src/test/regress/expected/tidscan.out
View File

@ -40,6 +40,22 @@ SELECT ctid, * FROM tidscan WHERE '(0,1)' = ctid;
(0,1) | 1
(1 row)
-- OR'd clauses
EXPLAIN (COSTS OFF)
SELECT ctid, * FROM tidscan WHERE ctid = '(0,2)' OR '(0,1)' = ctid;
QUERY PLAN
--------------------------------------------------------------
Tid Scan on tidscan
TID Cond: ((ctid = '(0,2)'::tid) OR ('(0,1)'::tid = ctid))
(2 rows)
SELECT ctid, * FROM tidscan WHERE ctid = '(0,2)' OR '(0,1)' = ctid;
ctid | id
-------+----
(0,1) | 1
(0,2) | 2
(2 rows)
-- ctid = ScalarArrayOp - implemented as tidscan
EXPLAIN (COSTS OFF)
SELECT ctid, * FROM tidscan WHERE ctid = ANY(ARRAY['(0,1)', '(0,2)']::tid[]);
@ -92,6 +108,45 @@ WHERE (id = 3 AND ctid IN ('(0,2)', '(0,3)')) OR (ctid = '(0,1)' AND id = 1);
(0,3) | 3
(2 rows)
-- nestloop-with-inner-tidscan joins on tid
EXPLAIN (COSTS OFF)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
QUERY PLAN
------------------------------------
Nested Loop
-> Seq Scan on tidscan t1
Filter: (id = 1)
-> Tid Scan on tidscan t2
TID Cond: (ctid = t1.ctid)
(5 rows)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
ctid | id | ctid | id
-------+----+-------+----
(0,1) | 1 | (0,1) | 1
(1 row)
EXPLAIN (COSTS OFF)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 LEFT JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
QUERY PLAN
------------------------------------
Nested Loop Left Join
-> Seq Scan on tidscan t1
Filter: (id = 1)
-> Tid Scan on tidscan t2
TID Cond: (t1.ctid = ctid)
(5 rows)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 LEFT JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
ctid | id | ctid | id
-------+----+-------+----
(0,1) | 1 | (0,1) | 1
(1 row)
-- exercise backward scan and rewind
BEGIN;
DECLARE c CURSOR FOR

17
src/test/regress/sql/tidscan.sql
View File

@ -17,6 +17,11 @@ EXPLAIN (COSTS OFF)
SELECT ctid, * FROM tidscan WHERE '(0,1)' = ctid;
SELECT ctid, * FROM tidscan WHERE '(0,1)' = ctid;
-- OR'd clauses
EXPLAIN (COSTS OFF)
SELECT ctid, * FROM tidscan WHERE ctid = '(0,2)' OR '(0,1)' = ctid;
SELECT ctid, * FROM tidscan WHERE ctid = '(0,2)' OR '(0,1)' = ctid;
-- ctid = ScalarArrayOp - implemented as tidscan
EXPLAIN (COSTS OFF)
SELECT ctid, * FROM tidscan WHERE ctid = ANY(ARRAY['(0,1)', '(0,2)']::tid[]);
@ -34,6 +39,18 @@ WHERE (id = 3 AND ctid IN ('(0,2)', '(0,3)')) OR (ctid = '(0,1)' AND id = 1);
SELECT ctid, * FROM tidscan
WHERE (id = 3 AND ctid IN ('(0,2)', '(0,3)')) OR (ctid = '(0,1)' AND id = 1);
-- nestloop-with-inner-tidscan joins on tid
EXPLAIN (COSTS OFF)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
EXPLAIN (COSTS OFF)
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 LEFT JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
SELECT t1.ctid, t1.*, t2.ctid, t2.*
FROM tidscan t1 LEFT JOIN tidscan t2 ON t1.ctid = t2.ctid WHERE t1.id = 1;
-- exercise backward scan and rewind
BEGIN;
DECLARE c CURSOR FOR