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/*-------------------------------------------------------------------------
*
* placeholder.c
* PlaceHolderVar and PlaceHolderInfo manipulation routines
*
*
* Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* src/backend/optimizer/util/placeholder.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "nodes/nodeFuncs.h"
#include "optimizer/cost.h"
#include "optimizer/optimizer.h"
#include "optimizer/pathnode.h"
#include "optimizer/placeholder.h"
#include "optimizer/planmain.h"
#include "utils/lsyscache.h"
/* Local functions */
static void find_placeholders_recurse(PlannerInfo *root, Node *jtnode);
static void find_placeholders_in_expr(PlannerInfo *root, Node *expr);
/*
* make_placeholder_expr
* Make a PlaceHolderVar for the given expression.
*
* phrels is the syntactic location (as a set of baserels) to attribute
* to the expression.
*/
PlaceHolderVar *
make_placeholder_expr(PlannerInfo *root, Expr *expr, Relids phrels)
{
PlaceHolderVar *phv = makeNode(PlaceHolderVar);
phv->phexpr = expr;
phv->phrels = phrels;
phv->phid = ++(root->glob->lastPHId);
phv->phlevelsup = 0;
return phv;
}
/*
* find_placeholder_info
* Fetch the PlaceHolderInfo for the given PHV
*
* If the PlaceHolderInfo doesn't exist yet, create it if create_new_ph is
* true, else throw an error.
*
* This is separate from make_placeholder_expr because subquery pullup has
* to make PlaceHolderVars for expressions that might not be used at all in
* the upper query, or might not remain after const-expression simplification.
* We build PlaceHolderInfos only for PHVs that are still present in the
* simplified query passed to query_planner().
*
* Note: this should only be called after query_planner() has started. Also,
* create_new_ph must not be true after deconstruct_jointree begins, because
* make_outerjoininfo assumes that we already know about all placeholders.
*/
PlaceHolderInfo *
find_placeholder_info(PlannerInfo *root, PlaceHolderVar *phv,
bool create_new_ph)
{
PlaceHolderInfo *phinfo;
Relids rels_used;
ListCell *lc;
/* if this ever isn't true, we'd need to be able to look in parent lists */
Assert(phv->phlevelsup == 0);
foreach(lc, root->placeholder_list)
{
phinfo = (PlaceHolderInfo *) lfirst(lc);
if (phinfo->phid == phv->phid)
return phinfo;
}
/* Not found, so create it */
if (!create_new_ph)
elog(ERROR, "too late to create a new PlaceHolderInfo");
phinfo = makeNode(PlaceHolderInfo);
phinfo->phid = phv->phid;
phinfo->ph_var = copyObject(phv);
/*
* Any referenced rels that are outside the PHV's syntactic scope are
* LATERAL references, which should be included in ph_lateral but not in
* ph_eval_at. If no referenced rels are within the syntactic scope,
* force evaluation at the syntactic location.
*/
rels_used = pull_varnos(root, (Node *) phv->phexpr);
phinfo->ph_lateral = bms_difference(rels_used, phv->phrels);
if (bms_is_empty(phinfo->ph_lateral))
phinfo->ph_lateral = NULL; /* make it exactly NULL if empty */
phinfo->ph_eval_at = bms_int_members(rels_used, phv->phrels);
/* If no contained vars, force evaluation at syntactic location */
if (bms_is_empty(phinfo->ph_eval_at))
{
phinfo->ph_eval_at = bms_copy(phv->phrels);
Assert(!bms_is_empty(phinfo->ph_eval_at));
}
/* ph_eval_at may change later, see update_placeholder_eval_levels */
phinfo->ph_needed = NULL; /* initially it's unused */
/* for the moment, estimate width using just the datatype info */
phinfo->ph_width = get_typavgwidth(exprType((Node *) phv->phexpr),
exprTypmod((Node *) phv->phexpr));
root->placeholder_list = lappend(root->placeholder_list, phinfo);
/*
* The PHV's contained expression may contain other, lower-level PHVs. We
* now know we need to get those into the PlaceHolderInfo list, too, so we
* may as well do that immediately.
*/
find_placeholders_in_expr(root, (Node *) phinfo->ph_var->phexpr);
return phinfo;
}
/*
* find_placeholders_in_jointree
* Search the jointree for PlaceHolderVars, and build PlaceHolderInfos
*
* We don't need to look at the targetlist because build_base_rel_tlists()
* will already have made entries for any PHVs in the tlist.
*
* This is called before we begin deconstruct_jointree. Once we begin
* deconstruct_jointree, all active placeholders must be present in
* root->placeholder_list, because make_outerjoininfo and
* update_placeholder_eval_levels require this info to be available
* while we crawl up the join tree.
*/
void
find_placeholders_in_jointree(PlannerInfo *root)
{
/* We need do nothing if the query contains no PlaceHolderVars */
if (root->glob->lastPHId != 0)
{
/* Start recursion at top of jointree */
Assert(root->parse->jointree != NULL &&
IsA(root->parse->jointree, FromExpr));
find_placeholders_recurse(root, (Node *) root->parse->jointree);
}
}
/*
* find_placeholders_recurse
* One recursion level of find_placeholders_in_jointree.
*
* jtnode is the current jointree node to examine.
*/
static void
find_placeholders_recurse(PlannerInfo *root, Node *jtnode)
{
if (jtnode == NULL)
return;
if (IsA(jtnode, RangeTblRef))
{
/* No quals to deal with here */
}
else if (IsA(jtnode, FromExpr))
{
FromExpr *f = (FromExpr *) jtnode;
ListCell *l;
/*
* First, recurse to handle child joins.
*/
foreach(l, f->fromlist)
{
find_placeholders_recurse(root, lfirst(l));
}
/*
* Now process the top-level quals.
*/
find_placeholders_in_expr(root, f->quals);
}
else if (IsA(jtnode, JoinExpr))
{
JoinExpr *j = (JoinExpr *) jtnode;
/*
* First, recurse to handle child joins.
*/
find_placeholders_recurse(root, j->larg);
find_placeholders_recurse(root, j->rarg);
/* Process the qual clauses */
find_placeholders_in_expr(root, j->quals);
}
else
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(jtnode));
}
/*
* find_placeholders_in_expr
* Find all PlaceHolderVars in the given expression, and create
* PlaceHolderInfo entries for them.
*/
static void
find_placeholders_in_expr(PlannerInfo *root, Node *expr)
{
List *vars;
ListCell *vl;
/*
* pull_var_clause does more than we need here, but it'll do and it's
* convenient to use.
*/
vars = pull_var_clause(expr,
PVC_RECURSE_AGGREGATES |
PVC_RECURSE_WINDOWFUNCS |
PVC_INCLUDE_PLACEHOLDERS);
foreach(vl, vars)
{
PlaceHolderVar *phv = (PlaceHolderVar *) lfirst(vl);
/* Ignore any plain Vars */
if (!IsA(phv, PlaceHolderVar))
continue;
/* Create a PlaceHolderInfo entry if there's not one already */
(void) find_placeholder_info(root, phv, true);
}
list_free(vars);
}
/*
* update_placeholder_eval_levels
* Adjust the target evaluation levels for placeholders
*
* The initial eval_at level set by find_placeholder_info was the set of
* rels used in the placeholder's expression (or the whole subselect below
* the placeholder's syntactic location, if the expr is variable-free).
* If the query contains any outer joins that can null any of those rels,
* we must delay evaluation to above those joins.
*
* We repeat this operation each time we add another outer join to
* root->join_info_list. It's somewhat annoying to have to do that, but
* since we don't have very much information on the placeholders' locations,
* it's hard to avoid. Each placeholder's eval_at level must be correct
* by the time it starts to figure in outer-join delay decisions for higher
* outer joins.
*
* In future we might want to put additional policy/heuristics here to
* try to determine an optimal evaluation level. The current rules will
* result in evaluation at the lowest possible level. However, pushing a
* placeholder eval up the tree is likely to further constrain evaluation
* order for outer joins, so it could easily be counterproductive; and we
* don't have enough information at this point to make an intelligent choice.
*/
void
update_placeholder_eval_levels(PlannerInfo *root, SpecialJoinInfo *new_sjinfo)
{
ListCell *lc1;
foreach(lc1, root->placeholder_list)
{
PlaceHolderInfo *phinfo = (PlaceHolderInfo *) lfirst(lc1);
Relids syn_level = phinfo->ph_var->phrels;
Relids eval_at;
bool found_some;
ListCell *lc2;
/*
* We don't need to do any work on this placeholder unless the
* newly-added outer join is syntactically beneath its location.
*/
if (!bms_is_subset(new_sjinfo->syn_lefthand, syn_level) ||
!bms_is_subset(new_sjinfo->syn_righthand, syn_level))
continue;
/*
* Check for delays due to lower outer joins. This is the same logic
* as in check_outerjoin_delay in initsplan.c, except that we don't
* have anything to do with the delay_upper_joins flags; delay of
* upper outer joins will be handled later, based on the eval_at
* values we compute now.
*/
eval_at = phinfo->ph_eval_at;
do
{
found_some = false;
foreach(lc2, root->join_info_list)
{
SpecialJoinInfo *sjinfo = (SpecialJoinInfo *) lfirst(lc2);
/* disregard joins not within the PHV's sub-select */
if (!bms_is_subset(sjinfo->syn_lefthand, syn_level) ||
!bms_is_subset(sjinfo->syn_righthand, syn_level))
continue;
/* do we reference any nullable rels of this OJ? */
if (bms_overlap(eval_at, sjinfo->min_righthand) ||
(sjinfo->jointype == JOIN_FULL &&
bms_overlap(eval_at, sjinfo->min_lefthand)))
{
/* yes; have we included all its rels in eval_at? */
if (!bms_is_subset(sjinfo->min_lefthand, eval_at) ||
!bms_is_subset(sjinfo->min_righthand, eval_at))
{
/* no, so add them in */
eval_at = bms_add_members(eval_at,
sjinfo->min_lefthand);
eval_at = bms_add_members(eval_at,
sjinfo->min_righthand);
/* we'll need another iteration */
found_some = true;
}
}
}
} while (found_some);
/* Can't move the PHV's eval_at level to above its syntactic level */
Assert(bms_is_subset(eval_at, syn_level));
phinfo->ph_eval_at = eval_at;
}
}
/*
* fix_placeholder_input_needed_levels
* Adjust the "needed at" levels for placeholder inputs
*
* This is called after we've finished determining the eval_at levels for
* all placeholders. We need to make sure that all vars and placeholders
* needed to evaluate each placeholder will be available at the scan or join
* level where the evaluation will be done. (It might seem that scan-level
* evaluations aren't interesting, but that's not so: a LATERAL reference
* within a placeholder's expression needs to cause the referenced var or
* placeholder to be marked as needed in the scan where it's evaluated.)
* Note that this loop can have side-effects on the ph_needed sets of other
* PlaceHolderInfos; that's okay because we don't examine ph_needed here, so
* there are no ordering issues to worry about.
*/
void
fix_placeholder_input_needed_levels(PlannerInfo *root)
{
ListCell *lc;
foreach(lc, root->placeholder_list)
{
PlaceHolderInfo *phinfo = (PlaceHolderInfo *) lfirst(lc);
List *vars = pull_var_clause((Node *) phinfo->ph_var->phexpr,
PVC_RECURSE_AGGREGATES |
PVC_RECURSE_WINDOWFUNCS |
PVC_INCLUDE_PLACEHOLDERS);
add_vars_to_targetlist(root, vars, phinfo->ph_eval_at, false);
list_free(vars);
}
}
/*
* add_placeholders_to_base_rels
* Add any required PlaceHolderVars to base rels' targetlists.
*
* If any placeholder can be computed at a base rel and is needed above it,
* add it to that rel's targetlist. This might look like it could be merged
* with fix_placeholder_input_needed_levels, but it must be separate because
* join removal happens in between, and can change the ph_eval_at sets. There
* is essentially the same logic in add_placeholders_to_joinrel, but we can't
* do that part until joinrels are formed.
*/
void
add_placeholders_to_base_rels(PlannerInfo *root)
{
ListCell *lc;
foreach(lc, root->placeholder_list)
{
PlaceHolderInfo *phinfo = (PlaceHolderInfo *) lfirst(lc);
Relids eval_at = phinfo->ph_eval_at;
int varno;
if (bms_get_singleton_member(eval_at, &varno) &&
bms_nonempty_difference(phinfo->ph_needed, eval_at))
{
RelOptInfo *rel = find_base_rel(root, varno);
rel->reltarget->exprs = lappend(rel->reltarget->exprs,
copyObject(phinfo->ph_var));
/* reltarget's cost and width fields will be updated later */
}
}
}
/*
* add_placeholders_to_joinrel
* Add any required PlaceHolderVars to a join rel's targetlist;
* and if they contain lateral references, add those references to the
* joinrel's direct_lateral_relids.
*
* A join rel should emit a PlaceHolderVar if (a) the PHV can be computed
* at or below this join level and (b) the PHV is needed above this level.
* However, condition (a) is sufficient to add to direct_lateral_relids,
* as explained below.
*/
void
add_placeholders_to_joinrel(PlannerInfo *root, RelOptInfo *joinrel,
RelOptInfo *outer_rel, RelOptInfo *inner_rel)
{
Relids relids = joinrel->relids;
ListCell *lc;
foreach(lc, root->placeholder_list)
{
PlaceHolderInfo *phinfo = (PlaceHolderInfo *) lfirst(lc);
/* Is it computable here? */
if (bms_is_subset(phinfo->ph_eval_at, relids))
{
/* Is it still needed above this joinrel? */
if (bms_nonempty_difference(phinfo->ph_needed, relids))
{
/* Yup, add it to the output */
joinrel->reltarget->exprs = lappend(joinrel->reltarget->exprs,
phinfo->ph_var);
joinrel->reltarget->width += phinfo->ph_width;
/*
* Charge the cost of evaluating the contained expression if
* the PHV can be computed here but not in either input. This
* is a bit bogus because we make the decision based on the
* first pair of possible input relations considered for the
* joinrel. With other pairs, it might be possible to compute
* the PHV in one input or the other, and then we'd be double
* charging the PHV's cost for some join paths. For now, live
* with that; but we might want to improve it later by
* refiguring the reltarget costs for each pair of inputs.
*/
if (!bms_is_subset(phinfo->ph_eval_at, outer_rel->relids) &&
!bms_is_subset(phinfo->ph_eval_at, inner_rel->relids))
{
QualCost cost;
cost_qual_eval_node(&cost, (Node *) phinfo->ph_var->phexpr,
root);
joinrel->reltarget->cost.startup += cost.startup;
joinrel->reltarget->cost.per_tuple += cost.per_tuple;
}
}
/*
* Also adjust joinrel's direct_lateral_relids to include the
* PHV's source rel(s). We must do this even if we're not
* actually going to emit the PHV, otherwise join_is_legal() will
* reject valid join orderings. (In principle maybe we could
* instead remove the joinrel's lateral_relids dependency; but
* that's complicated to get right, and cases where we're not
* going to emit the PHV are too rare to justify the work.)
*
* In principle we should only do this if the join doesn't yet
* include the PHV's source rel(s). But our caller
* build_join_rel() will clean things up by removing the join's
* own relids from its direct_lateral_relids, so we needn't
* account for that here.
*/
joinrel->direct_lateral_relids =
bms_add_members(joinrel->direct_lateral_relids,
phinfo->ph_lateral);
}
}
}
|