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/*-------------------------------------------------------------------------
*
* extended_stats.c
* POSTGRES extended statistics
*
* Generic code supporting statistics objects created via CREATE STATISTICS.
*
*
* Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/statistics/extended_stats.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/detoast.h"
#include "access/genam.h"
#include "access/htup_details.h"
#include "access/table.h"
#include "catalog/indexing.h"
#include "catalog/pg_collation.h"
#include "catalog/pg_statistic_ext.h"
#include "catalog/pg_statistic_ext_data.h"
#include "executor/executor.h"
#include "commands/defrem.h"
#include "commands/progress.h"
#include "miscadmin.h"
#include "nodes/nodeFuncs.h"
#include "optimizer/clauses.h"
#include "optimizer/optimizer.h"
#include "parser/parsetree.h"
#include "pgstat.h"
#include "postmaster/autovacuum.h"
#include "statistics/extended_stats_internal.h"
#include "statistics/statistics.h"
#include "utils/acl.h"
#include "utils/array.h"
#include "utils/attoptcache.h"
#include "utils/builtins.h"
#include "utils/datum.h"
#include "utils/fmgroids.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
#include "utils/rel.h"
#include "utils/selfuncs.h"
#include "utils/syscache.h"
#include "utils/typcache.h"
/*
* To avoid consuming too much memory during analysis and/or too much space
* in the resulting pg_statistic rows, we ignore varlena datums that are wider
* than WIDTH_THRESHOLD (after detoasting!). This is legitimate for MCV
* and distinct-value calculations since a wide value is unlikely to be
* duplicated at all, much less be a most-common value. For the same reason,
* ignoring wide values will not affect our estimates of histogram bin
* boundaries very much.
*/
#define WIDTH_THRESHOLD 1024
/*
* Used internally to refer to an individual statistics object, i.e.,
* a pg_statistic_ext entry.
*/
typedef struct StatExtEntry
{
Oid statOid; /* OID of pg_statistic_ext entry */
char *schema; /* statistics object's schema */
char *name; /* statistics object's name */
Bitmapset *columns; /* attribute numbers covered by the object */
List *types; /* 'char' list of enabled statistics kinds */
int stattarget; /* statistics target (-1 for default) */
List *exprs; /* expressions */
} StatExtEntry;
static List *fetch_statentries_for_relation(Relation pg_statext, Oid relid);
static VacAttrStats **lookup_var_attr_stats(Relation rel, Bitmapset *attrs, List *exprs,
int nvacatts, VacAttrStats **vacatts);
static void statext_store(Oid statOid, bool inh,
MVNDistinct *ndistinct, MVDependencies *dependencies,
MCVList *mcv, Datum exprs, VacAttrStats **stats);
static int statext_compute_stattarget(int stattarget,
int nattrs, VacAttrStats **stats);
/* Information needed to analyze a single simple expression. */
typedef struct AnlExprData
{
Node *expr; /* expression to analyze */
VacAttrStats *vacattrstat; /* statistics attrs to analyze */
} AnlExprData;
static void compute_expr_stats(Relation onerel, double totalrows,
AnlExprData *exprdata, int nexprs,
HeapTuple *rows, int numrows);
static Datum serialize_expr_stats(AnlExprData *exprdata, int nexprs);
static Datum expr_fetch_func(VacAttrStatsP stats, int rownum, bool *isNull);
static AnlExprData *build_expr_data(List *exprs, int stattarget);
static StatsBuildData *make_build_data(Relation rel, StatExtEntry *stat,
int numrows, HeapTuple *rows,
VacAttrStats **stats, int stattarget);
/*
* Compute requested extended stats, using the rows sampled for the plain
* (single-column) stats.
*
* This fetches a list of stats types from pg_statistic_ext, computes the
* requested stats, and serializes them back into the catalog.
*/
void
BuildRelationExtStatistics(Relation onerel, bool inh, double totalrows,
int numrows, HeapTuple *rows,
int natts, VacAttrStats **vacattrstats)
{
Relation pg_stext;
ListCell *lc;
List *statslist;
MemoryContext cxt;
MemoryContext oldcxt;
int64 ext_cnt;
/* Do nothing if there are no columns to analyze. */
if (!natts)
return;
/* the list of stats has to be allocated outside the memory context */
pg_stext = table_open(StatisticExtRelationId, RowExclusiveLock);
statslist = fetch_statentries_for_relation(pg_stext, RelationGetRelid(onerel));
/* memory context for building each statistics object */
cxt = AllocSetContextCreate(CurrentMemoryContext,
"BuildRelationExtStatistics",
ALLOCSET_DEFAULT_SIZES);
oldcxt = MemoryContextSwitchTo(cxt);
/* report this phase */
if (statslist != NIL)
{
const int index[] = {
PROGRESS_ANALYZE_PHASE,
PROGRESS_ANALYZE_EXT_STATS_TOTAL
};
const int64 val[] = {
PROGRESS_ANALYZE_PHASE_COMPUTE_EXT_STATS,
list_length(statslist)
};
pgstat_progress_update_multi_param(2, index, val);
}
ext_cnt = 0;
foreach(lc, statslist)
{
StatExtEntry *stat = (StatExtEntry *) lfirst(lc);
MVNDistinct *ndistinct = NULL;
MVDependencies *dependencies = NULL;
MCVList *mcv = NULL;
Datum exprstats = (Datum) 0;
VacAttrStats **stats;
ListCell *lc2;
int stattarget;
StatsBuildData *data;
/*
* Check if we can build these stats based on the column analyzed. If
* not, report this fact (except in autovacuum) and move on.
*/
stats = lookup_var_attr_stats(onerel, stat->columns, stat->exprs,
natts, vacattrstats);
if (!stats)
{
if (!IsAutoVacuumWorkerProcess())
ereport(WARNING,
(errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
errmsg("statistics object \"%s.%s\" could not be computed for relation \"%s.%s\"",
stat->schema, stat->name,
get_namespace_name(onerel->rd_rel->relnamespace),
RelationGetRelationName(onerel)),
errtable(onerel)));
continue;
}
/* compute statistics target for this statistics object */
stattarget = statext_compute_stattarget(stat->stattarget,
bms_num_members(stat->columns),
stats);
/*
* Don't rebuild statistics objects with statistics target set to 0
* (we just leave the existing values around, just like we do for
* regular per-column statistics).
*/
if (stattarget == 0)
continue;
/* evaluate expressions (if the statistics object has any) */
data = make_build_data(onerel, stat, numrows, rows, stats, stattarget);
/* compute statistic of each requested type */
foreach(lc2, stat->types)
{
char t = (char) lfirst_int(lc2);
if (t == STATS_EXT_NDISTINCT)
ndistinct = statext_ndistinct_build(totalrows, data);
else if (t == STATS_EXT_DEPENDENCIES)
dependencies = statext_dependencies_build(data);
else if (t == STATS_EXT_MCV)
mcv = statext_mcv_build(data, totalrows, stattarget);
else if (t == STATS_EXT_EXPRESSIONS)
{
AnlExprData *exprdata;
int nexprs;
/* should not happen, thanks to checks when defining stats */
if (!stat->exprs)
elog(ERROR, "requested expression stats, but there are no expressions");
exprdata = build_expr_data(stat->exprs, stattarget);
nexprs = list_length(stat->exprs);
compute_expr_stats(onerel, totalrows,
exprdata, nexprs,
rows, numrows);
exprstats = serialize_expr_stats(exprdata, nexprs);
}
}
/* store the statistics in the catalog */
statext_store(stat->statOid, inh,
ndistinct, dependencies, mcv, exprstats, stats);
/* for reporting progress */
pgstat_progress_update_param(PROGRESS_ANALYZE_EXT_STATS_COMPUTED,
++ext_cnt);
/* free the data used for building this statistics object */
MemoryContextReset(cxt);
}
MemoryContextSwitchTo(oldcxt);
MemoryContextDelete(cxt);
list_free(statslist);
table_close(pg_stext, RowExclusiveLock);
}
/*
* ComputeExtStatisticsRows
* Compute number of rows required by extended statistics on a table.
*
* Computes number of rows we need to sample to build extended statistics on a
* table. This only looks at statistics we can actually build - for example
* when analyzing only some of the columns, this will skip statistics objects
* that would require additional columns.
*
* See statext_compute_stattarget for details about how we compute the
* statistics target for a statistics object (from the object target,
* attribute targets and default statistics target).
*/
int
ComputeExtStatisticsRows(Relation onerel,
int natts, VacAttrStats **vacattrstats)
{
Relation pg_stext;
ListCell *lc;
List *lstats;
MemoryContext cxt;
MemoryContext oldcxt;
int result = 0;
/* If there are no columns to analyze, just return 0. */
if (!natts)
return 0;
cxt = AllocSetContextCreate(CurrentMemoryContext,
"ComputeExtStatisticsRows",
ALLOCSET_DEFAULT_SIZES);
oldcxt = MemoryContextSwitchTo(cxt);
pg_stext = table_open(StatisticExtRelationId, RowExclusiveLock);
lstats = fetch_statentries_for_relation(pg_stext, RelationGetRelid(onerel));
foreach(lc, lstats)
{
StatExtEntry *stat = (StatExtEntry *) lfirst(lc);
int stattarget;
VacAttrStats **stats;
int nattrs = bms_num_members(stat->columns);
/*
* Check if we can build this statistics object based on the columns
* analyzed. If not, ignore it (don't report anything, we'll do that
* during the actual build BuildRelationExtStatistics).
*/
stats = lookup_var_attr_stats(onerel, stat->columns, stat->exprs,
natts, vacattrstats);
if (!stats)
continue;
/*
* Compute statistics target, based on what's set for the statistic
* object itself, and for its attributes.
*/
stattarget = statext_compute_stattarget(stat->stattarget,
nattrs, stats);
/* Use the largest value for all statistics objects. */
if (stattarget > result)
result = stattarget;
}
table_close(pg_stext, RowExclusiveLock);
MemoryContextSwitchTo(oldcxt);
MemoryContextDelete(cxt);
/* compute sample size based on the statistics target */
return (300 * result);
}
/*
* statext_compute_stattarget
* compute statistics target for an extended statistic
*
* When computing target for extended statistics objects, we consider three
* places where the target may be set - the statistics object itself,
* attributes the statistics object is defined on, and then the default
* statistics target.
*
* First we look at what's set for the statistics object itself, using the
* ALTER STATISTICS ... SET STATISTICS command. If we find a valid value
* there (i.e. not -1) we're done. Otherwise we look at targets set for any
* of the attributes the statistic is defined on, and if there are columns
* with defined target, we use the maximum value. We do this mostly for
* backwards compatibility, because this is what we did before having
* statistics target for extended statistics.
*
* And finally, if we still don't have a statistics target, we use the value
* set in default_statistics_target.
*/
static int
statext_compute_stattarget(int stattarget, int nattrs, VacAttrStats **stats)
{
int i;
/*
* If there's statistics target set for the statistics object, use it. It
* may be set to 0 which disables building of that statistic.
*/
if (stattarget >= 0)
return stattarget;
/*
* The target for the statistics object is set to -1, in which case we
* look at the maximum target set for any of the attributes the object is
* defined on.
*/
for (i = 0; i < nattrs; i++)
{
/* keep the maximum statistics target */
if (stats[i]->attr->attstattarget > stattarget)
stattarget = stats[i]->attr->attstattarget;
}
/*
* If the value is still negative (so neither the statistics object nor
* any of the columns have custom statistics target set), use the global
* default target.
*/
if (stattarget < 0)
stattarget = default_statistics_target;
/* As this point we should have a valid statistics target. */
Assert((stattarget >= 0) && (stattarget <= 10000));
return stattarget;
}
/*
* statext_is_kind_built
* Is this stat kind built in the given pg_statistic_ext_data tuple?
*/
bool
statext_is_kind_built(HeapTuple htup, char type)
{
AttrNumber attnum;
switch (type)
{
case STATS_EXT_NDISTINCT:
attnum = Anum_pg_statistic_ext_data_stxdndistinct;
break;
case STATS_EXT_DEPENDENCIES:
attnum = Anum_pg_statistic_ext_data_stxddependencies;
break;
case STATS_EXT_MCV:
attnum = Anum_pg_statistic_ext_data_stxdmcv;
break;
case STATS_EXT_EXPRESSIONS:
attnum = Anum_pg_statistic_ext_data_stxdexpr;
break;
default:
elog(ERROR, "unexpected statistics type requested: %d", type);
}
return !heap_attisnull(htup, attnum, NULL);
}
/*
* Return a list (of StatExtEntry) of statistics objects for the given relation.
*/
static List *
fetch_statentries_for_relation(Relation pg_statext, Oid relid)
{
SysScanDesc scan;
ScanKeyData skey;
HeapTuple htup;
List *result = NIL;
/*
* Prepare to scan pg_statistic_ext for entries having stxrelid = this
* rel.
*/
ScanKeyInit(&skey,
Anum_pg_statistic_ext_stxrelid,
BTEqualStrategyNumber, F_OIDEQ,
ObjectIdGetDatum(relid));
scan = systable_beginscan(pg_statext, StatisticExtRelidIndexId, true,
NULL, 1, &skey);
while (HeapTupleIsValid(htup = systable_getnext(scan)))
{
StatExtEntry *entry;
Datum datum;
bool isnull;
int i;
ArrayType *arr;
char *enabled;
Form_pg_statistic_ext staForm;
List *exprs = NIL;
entry = palloc0(sizeof(StatExtEntry));
staForm = (Form_pg_statistic_ext) GETSTRUCT(htup);
entry->statOid = staForm->oid;
entry->schema = get_namespace_name(staForm->stxnamespace);
entry->name = pstrdup(NameStr(staForm->stxname));
entry->stattarget = staForm->stxstattarget;
for (i = 0; i < staForm->stxkeys.dim1; i++)
{
entry->columns = bms_add_member(entry->columns,
staForm->stxkeys.values[i]);
}
/* decode the stxkind char array into a list of chars */
datum = SysCacheGetAttrNotNull(STATEXTOID, htup,
Anum_pg_statistic_ext_stxkind);
arr = DatumGetArrayTypeP(datum);
if (ARR_NDIM(arr) != 1 ||
ARR_HASNULL(arr) ||
ARR_ELEMTYPE(arr) != CHAROID)
elog(ERROR, "stxkind is not a 1-D char array");
enabled = (char *) ARR_DATA_PTR(arr);
for (i = 0; i < ARR_DIMS(arr)[0]; i++)
{
Assert((enabled[i] == STATS_EXT_NDISTINCT) ||
(enabled[i] == STATS_EXT_DEPENDENCIES) ||
(enabled[i] == STATS_EXT_MCV) ||
(enabled[i] == STATS_EXT_EXPRESSIONS));
entry->types = lappend_int(entry->types, (int) enabled[i]);
}
/* decode expression (if any) */
datum = SysCacheGetAttr(STATEXTOID, htup,
Anum_pg_statistic_ext_stxexprs, &isnull);
if (!isnull)
{
char *exprsString;
exprsString = TextDatumGetCString(datum);
exprs = (List *) stringToNode(exprsString);
pfree(exprsString);
/*
* Run the expressions through eval_const_expressions. This is not
* just an optimization, but is necessary, because the planner
* will be comparing them to similarly-processed qual clauses, and
* may fail to detect valid matches without this. We must not use
* canonicalize_qual, however, since these aren't qual
* expressions.
*/
exprs = (List *) eval_const_expressions(NULL, (Node *) exprs);
/* May as well fix opfuncids too */
fix_opfuncids((Node *) exprs);
}
entry->exprs = exprs;
result = lappend(result, entry);
}
systable_endscan(scan);
return result;
}
/*
* examine_attribute -- pre-analysis of a single column
*
* Determine whether the column is analyzable; if so, create and initialize
* a VacAttrStats struct for it. If not, return NULL.
*/
static VacAttrStats *
examine_attribute(Node *expr)
{
HeapTuple typtuple;
VacAttrStats *stats;
int i;
bool ok;
/*
* Create the VacAttrStats struct. Note that we only have a copy of the
* fixed fields of the pg_attribute tuple.
*/
stats = (VacAttrStats *) palloc0(sizeof(VacAttrStats));
/* fake the attribute */
stats->attr = (Form_pg_attribute) palloc0(ATTRIBUTE_FIXED_PART_SIZE);
stats->attr->attstattarget = -1;
/*
* When analyzing an expression, believe the expression tree's type not
* the column datatype --- the latter might be the opckeytype storage type
* of the opclass, which is not interesting for our purposes. (Note: if
* we did anything with non-expression statistics columns, we'd need to
* figure out where to get the correct type info from, but for now that's
* not a problem.) It's not clear whether anyone will care about the
* typmod, but we store that too just in case.
*/
stats->attrtypid = exprType(expr);
stats->attrtypmod = exprTypmod(expr);
stats->attrcollid = exprCollation(expr);
typtuple = SearchSysCacheCopy1(TYPEOID,
ObjectIdGetDatum(stats->attrtypid));
if (!HeapTupleIsValid(typtuple))
elog(ERROR, "cache lookup failed for type %u", stats->attrtypid);
stats->attrtype = (Form_pg_type) GETSTRUCT(typtuple);
/*
* We don't actually analyze individual attributes, so no need to set the
* memory context.
*/
stats->anl_context = NULL;
stats->tupattnum = InvalidAttrNumber;
/*
* The fields describing the stats->stavalues[n] element types default to
* the type of the data being analyzed, but the type-specific typanalyze
* function can change them if it wants to store something else.
*/
for (i = 0; i < STATISTIC_NUM_SLOTS; i++)
{
stats->statypid[i] = stats->attrtypid;
stats->statyplen[i] = stats->attrtype->typlen;
stats->statypbyval[i] = stats->attrtype->typbyval;
stats->statypalign[i] = stats->attrtype->typalign;
}
/*
* Call the type-specific typanalyze function. If none is specified, use
* std_typanalyze().
*/
if (OidIsValid(stats->attrtype->typanalyze))
ok = DatumGetBool(OidFunctionCall1(stats->attrtype->typanalyze,
PointerGetDatum(stats)));
else
ok = std_typanalyze(stats);
if (!ok || stats->compute_stats == NULL || stats->minrows <= 0)
{
heap_freetuple(typtuple);
pfree(stats->attr);
pfree(stats);
return NULL;
}
return stats;
}
/*
* examine_expression -- pre-analysis of a single expression
*
* Determine whether the expression is analyzable; if so, create and initialize
* a VacAttrStats struct for it. If not, return NULL.
*/
static VacAttrStats *
examine_expression(Node *expr, int stattarget)
{
HeapTuple typtuple;
VacAttrStats *stats;
int i;
bool ok;
Assert(expr != NULL);
/*
* Create the VacAttrStats struct.
*/
stats = (VacAttrStats *) palloc0(sizeof(VacAttrStats));
/*
* When analyzing an expression, believe the expression tree's type.
*/
stats->attrtypid = exprType(expr);
stats->attrtypmod = exprTypmod(expr);
/*
* We don't allow collation to be specified in CREATE STATISTICS, so we
* have to use the collation specified for the expression. It's possible
* to specify the collation in the expression "(col COLLATE "en_US")" in
* which case exprCollation() does the right thing.
*/
stats->attrcollid = exprCollation(expr);
/*
* We don't have any pg_attribute for expressions, so let's fake something
* reasonable into attstattarget, which is the only thing std_typanalyze
* needs.
*/
stats->attr = (Form_pg_attribute) palloc(ATTRIBUTE_FIXED_PART_SIZE);
/*
* We can't have statistics target specified for the expression, so we
* could use either the default_statistics_target, or the target computed
* for the extended statistics. The second option seems more reasonable.
*/
stats->attr->attstattarget = stattarget;
/* initialize some basic fields */
stats->attr->attrelid = InvalidOid;
stats->attr->attnum = InvalidAttrNumber;
stats->attr->atttypid = stats->attrtypid;
typtuple = SearchSysCacheCopy1(TYPEOID,
ObjectIdGetDatum(stats->attrtypid));
if (!HeapTupleIsValid(typtuple))
elog(ERROR, "cache lookup failed for type %u", stats->attrtypid);
stats->attrtype = (Form_pg_type) GETSTRUCT(typtuple);
stats->anl_context = CurrentMemoryContext; /* XXX should be using
* something else? */
stats->tupattnum = InvalidAttrNumber;
/*
* The fields describing the stats->stavalues[n] element types default to
* the type of the data being analyzed, but the type-specific typanalyze
* function can change them if it wants to store something else.
*/
for (i = 0; i < STATISTIC_NUM_SLOTS; i++)
{
stats->statypid[i] = stats->attrtypid;
stats->statyplen[i] = stats->attrtype->typlen;
stats->statypbyval[i] = stats->attrtype->typbyval;
stats->statypalign[i] = stats->attrtype->typalign;
}
/*
* Call the type-specific typanalyze function. If none is specified, use
* std_typanalyze().
*/
if (OidIsValid(stats->attrtype->typanalyze))
ok = DatumGetBool(OidFunctionCall1(stats->attrtype->typanalyze,
PointerGetDatum(stats)));
else
ok = std_typanalyze(stats);
if (!ok || stats->compute_stats == NULL || stats->minrows <= 0)
{
heap_freetuple(typtuple);
pfree(stats);
return NULL;
}
return stats;
}
/*
* Using 'vacatts' of size 'nvacatts' as input data, return a newly-built
* VacAttrStats array which includes only the items corresponding to
* attributes indicated by 'attrs'. If we don't have all of the per-column
* stats available to compute the extended stats, then we return NULL to
* indicate to the caller that the stats should not be built.
*/
static VacAttrStats **
lookup_var_attr_stats(Relation rel, Bitmapset *attrs, List *exprs,
int nvacatts, VacAttrStats **vacatts)
{
int i = 0;
int x = -1;
int natts;
VacAttrStats **stats;
ListCell *lc;
natts = bms_num_members(attrs) + list_length(exprs);
stats = (VacAttrStats **) palloc(natts * sizeof(VacAttrStats *));
/* lookup VacAttrStats info for the requested columns (same attnum) */
while ((x = bms_next_member(attrs, x)) >= 0)
{
int j;
stats[i] = NULL;
for (j = 0; j < nvacatts; j++)
{
if (x == vacatts[j]->tupattnum)
{
stats[i] = vacatts[j];
break;
}
}
if (!stats[i])
{
/*
* Looks like stats were not gathered for one of the columns
* required. We'll be unable to build the extended stats without
* this column.
*/
pfree(stats);
return NULL;
}
/*
* Sanity check that the column is not dropped - stats should have
* been removed in this case.
*/
Assert(!stats[i]->attr->attisdropped);
i++;
}
/* also add info for expressions */
foreach(lc, exprs)
{
Node *expr = (Node *) lfirst(lc);
stats[i] = examine_attribute(expr);
/*
* XXX We need tuple descriptor later, and we just grab it from
* stats[0]->tupDesc (see e.g. statext_mcv_build). But as coded
* examine_attribute does not set that, so just grab it from the first
* vacatts element.
*/
stats[i]->tupDesc = vacatts[0]->tupDesc;
i++;
}
return stats;
}
/*
* statext_store
* Serializes the statistics and stores them into the pg_statistic_ext_data
* tuple.
*/
static void
statext_store(Oid statOid, bool inh,
MVNDistinct *ndistinct, MVDependencies *dependencies,
MCVList *mcv, Datum exprs, VacAttrStats **stats)
{
Relation pg_stextdata;
HeapTuple stup;
Datum values[Natts_pg_statistic_ext_data];
bool nulls[Natts_pg_statistic_ext_data];
pg_stextdata = table_open(StatisticExtDataRelationId, RowExclusiveLock);
memset(nulls, true, sizeof(nulls));
memset(values, 0, sizeof(values));
/* basic info */
values[Anum_pg_statistic_ext_data_stxoid - 1] = ObjectIdGetDatum(statOid);
nulls[Anum_pg_statistic_ext_data_stxoid - 1] = false;
values[Anum_pg_statistic_ext_data_stxdinherit - 1] = BoolGetDatum(inh);
nulls[Anum_pg_statistic_ext_data_stxdinherit - 1] = false;
/*
* Construct a new pg_statistic_ext_data tuple, replacing the calculated
* stats.
*/
if (ndistinct != NULL)
{
bytea *data = statext_ndistinct_serialize(ndistinct);
nulls[Anum_pg_statistic_ext_data_stxdndistinct - 1] = (data == NULL);
values[Anum_pg_statistic_ext_data_stxdndistinct - 1] = PointerGetDatum(data);
}
if (dependencies != NULL)
{
bytea *data = statext_dependencies_serialize(dependencies);
nulls[Anum_pg_statistic_ext_data_stxddependencies - 1] = (data == NULL);
values[Anum_pg_statistic_ext_data_stxddependencies - 1] = PointerGetDatum(data);
}
if (mcv != NULL)
{
bytea *data = statext_mcv_serialize(mcv, stats);
nulls[Anum_pg_statistic_ext_data_stxdmcv - 1] = (data == NULL);
values[Anum_pg_statistic_ext_data_stxdmcv - 1] = PointerGetDatum(data);
}
if (exprs != (Datum) 0)
{
nulls[Anum_pg_statistic_ext_data_stxdexpr - 1] = false;
values[Anum_pg_statistic_ext_data_stxdexpr - 1] = exprs;
}
/*
* Delete the old tuple if it exists, and insert a new one. It's easier
* than trying to update or insert, based on various conditions.
*/
RemoveStatisticsDataById(statOid, inh);
/* form and insert a new tuple */
stup = heap_form_tuple(RelationGetDescr(pg_stextdata), values, nulls);
CatalogTupleInsert(pg_stextdata, stup);
heap_freetuple(stup);
table_close(pg_stextdata, RowExclusiveLock);
}
/* initialize multi-dimensional sort */
MultiSortSupport
multi_sort_init(int ndims)
{
MultiSortSupport mss;
Assert(ndims >= 2);
mss = (MultiSortSupport) palloc0(offsetof(MultiSortSupportData, ssup)
+ sizeof(SortSupportData) * ndims);
mss->ndims = ndims;
return mss;
}
/*
* Prepare sort support info using the given sort operator and collation
* at the position 'sortdim'
*/
void
multi_sort_add_dimension(MultiSortSupport mss, int sortdim,
Oid oper, Oid collation)
{
SortSupport ssup = &mss->ssup[sortdim];
ssup->ssup_cxt = CurrentMemoryContext;
ssup->ssup_collation = collation;
ssup->ssup_nulls_first = false;
PrepareSortSupportFromOrderingOp(oper, ssup);
}
/* compare all the dimensions in the selected order */
int
multi_sort_compare(const void *a, const void *b, void *arg)
{
MultiSortSupport mss = (MultiSortSupport) arg;
SortItem *ia = (SortItem *) a;
SortItem *ib = (SortItem *) b;
int i;
for (i = 0; i < mss->ndims; i++)
{
int compare;
compare = ApplySortComparator(ia->values[i], ia->isnull[i],
ib->values[i], ib->isnull[i],
&mss->ssup[i]);
if (compare != 0)
return compare;
}
/* equal by default */
return 0;
}
/* compare selected dimension */
int
multi_sort_compare_dim(int dim, const SortItem *a, const SortItem *b,
MultiSortSupport mss)
{
return ApplySortComparator(a->values[dim], a->isnull[dim],
b->values[dim], b->isnull[dim],
&mss->ssup[dim]);
}
int
multi_sort_compare_dims(int start, int end,
const SortItem *a, const SortItem *b,
MultiSortSupport mss)
{
int dim;
for (dim = start; dim <= end; dim++)
{
int r = ApplySortComparator(a->values[dim], a->isnull[dim],
b->values[dim], b->isnull[dim],
&mss->ssup[dim]);
if (r != 0)
return r;
}
return 0;
}
int
compare_scalars_simple(const void *a, const void *b, void *arg)
{
return compare_datums_simple(*(Datum *) a,
*(Datum *) b,
(SortSupport) arg);
}
int
compare_datums_simple(Datum a, Datum b, SortSupport ssup)
{
return ApplySortComparator(a, false, b, false, ssup);
}
/*
* build_attnums_array
* Transforms a bitmap into an array of AttrNumber values.
*
* This is used for extended statistics only, so all the attributes must be
* user-defined. That means offsetting by FirstLowInvalidHeapAttributeNumber
* is not necessary here (and when querying the bitmap).
*/
AttrNumber *
build_attnums_array(Bitmapset *attrs, int nexprs, int *numattrs)
{
int i,
j;
AttrNumber *attnums;
int num = bms_num_members(attrs);
if (numattrs)
*numattrs = num;
/* build attnums from the bitmapset */
attnums = (AttrNumber *) palloc(sizeof(AttrNumber) * num);
i = 0;
j = -1;
while ((j = bms_next_member(attrs, j)) >= 0)
{
int attnum = (j - nexprs);
/*
* Make sure the bitmap contains only user-defined attributes. As
* bitmaps can't contain negative values, this can be violated in two
* ways. Firstly, the bitmap might contain 0 as a member, and secondly
* the integer value might be larger than MaxAttrNumber.
*/
Assert(AttributeNumberIsValid(attnum));
Assert(attnum <= MaxAttrNumber);
Assert(attnum >= (-nexprs));
attnums[i++] = (AttrNumber) attnum;
/* protect against overflows */
Assert(i <= num);
}
return attnums;
}
/*
* build_sorted_items
* build a sorted array of SortItem with values from rows
*
* Note: All the memory is allocated in a single chunk, so that the caller
* can simply pfree the return value to release all of it.
*/
SortItem *
build_sorted_items(StatsBuildData *data, int *nitems,
MultiSortSupport mss,
int numattrs, AttrNumber *attnums)
{
int i,
j,
len,
nrows;
int nvalues = data->numrows * numattrs;
SortItem *items;
Datum *values;
bool *isnull;
char *ptr;
int *typlen;
/* Compute the total amount of memory we need (both items and values). */
len = data->numrows * sizeof(SortItem) + nvalues * (sizeof(Datum) + sizeof(bool));
/* Allocate the memory and split it into the pieces. */
ptr = palloc0(len);
/* items to sort */
items = (SortItem *) ptr;
ptr += data->numrows * sizeof(SortItem);
/* values and null flags */
values = (Datum *) ptr;
ptr += nvalues * sizeof(Datum);
isnull = (bool *) ptr;
ptr += nvalues * sizeof(bool);
/* make sure we consumed the whole buffer exactly */
Assert((ptr - (char *) items) == len);
/* fix the pointers to Datum and bool arrays */
nrows = 0;
for (i = 0; i < data->numrows; i++)
{
items[nrows].values = &values[nrows * numattrs];
items[nrows].isnull = &isnull[nrows * numattrs];
nrows++;
}
/* build a local cache of typlen for all attributes */
typlen = (int *) palloc(sizeof(int) * data->nattnums);
for (i = 0; i < data->nattnums; i++)
typlen[i] = get_typlen(data->stats[i]->attrtypid);
nrows = 0;
for (i = 0; i < data->numrows; i++)
{
bool toowide = false;
/* load the values/null flags from sample rows */
for (j = 0; j < numattrs; j++)
{
Datum value;
bool isnull;
int attlen;
AttrNumber attnum = attnums[j];
int idx;
/* match attnum to the pre-calculated data */
for (idx = 0; idx < data->nattnums; idx++)
{
if (attnum == data->attnums[idx])
break;
}
Assert(idx < data->nattnums);
value = data->values[idx][i];
isnull = data->nulls[idx][i];
attlen = typlen[idx];
/*
* If this is a varlena value, check if it's too wide and if yes
* then skip the whole item. Otherwise detoast the value.
*
* XXX It may happen that we've already detoasted some preceding
* values for the current item. We don't bother to cleanup those
* on the assumption that those are small (below WIDTH_THRESHOLD)
* and will be discarded at the end of analyze.
*/
if ((!isnull) && (attlen == -1))
{
if (toast_raw_datum_size(value) > WIDTH_THRESHOLD)
{
toowide = true;
break;
}
value = PointerGetDatum(PG_DETOAST_DATUM(value));
}
items[nrows].values[j] = value;
items[nrows].isnull[j] = isnull;
}
if (toowide)
continue;
nrows++;
}
/* store the actual number of items (ignoring the too-wide ones) */
*nitems = nrows;
/* all items were too wide */
if (nrows == 0)
{
/* everything is allocated as a single chunk */
pfree(items);
return NULL;
}
/* do the sort, using the multi-sort */
qsort_interruptible(items, nrows, sizeof(SortItem),
multi_sort_compare, mss);
return items;
}
/*
* has_stats_of_kind
* Check whether the list contains statistic of a given kind
*/
bool
has_stats_of_kind(List *stats, char requiredkind)
{
ListCell *l;
foreach(l, stats)
{
StatisticExtInfo *stat = (StatisticExtInfo *) lfirst(l);
if (stat->kind == requiredkind)
return true;
}
return false;
}
/*
* stat_find_expression
* Search for an expression in statistics object's list of expressions.
*
* Returns the index of the expression in the statistics object's list of
* expressions, or -1 if not found.
*/
static int
stat_find_expression(StatisticExtInfo *stat, Node *expr)
{
ListCell *lc;
int idx;
idx = 0;
foreach(lc, stat->exprs)
{
Node *stat_expr = (Node *) lfirst(lc);
if (equal(stat_expr, expr))
return idx;
idx++;
}
/* Expression not found */
return -1;
}
/*
* stat_covers_expressions
* Test whether a statistics object covers all expressions in a list.
*
* Returns true if all expressions are covered. If expr_idxs is non-NULL, it
* is populated with the indexes of the expressions found.
*/
static bool
stat_covers_expressions(StatisticExtInfo *stat, List *exprs,
Bitmapset **expr_idxs)
{
ListCell *lc;
foreach(lc, exprs)
{
Node *expr = (Node *) lfirst(lc);
int expr_idx;
expr_idx = stat_find_expression(stat, expr);
if (expr_idx == -1)
return false;
if (expr_idxs != NULL)
*expr_idxs = bms_add_member(*expr_idxs, expr_idx);
}
/* If we reach here, all expressions are covered */
return true;
}
/*
* choose_best_statistics
* Look for and return statistics with the specified 'requiredkind' which
* have keys that match at least two of the given attnums. Return NULL if
* there's no match.
*
* The current selection criteria is very simple - we choose the statistics
* object referencing the most attributes in covered (and still unestimated
* clauses), breaking ties in favor of objects with fewer keys overall.
*
* The clause_attnums is an array of bitmaps, storing attnums for individual
* clauses. A NULL element means the clause is either incompatible or already
* estimated.
*
* XXX If multiple statistics objects tie on both criteria, then which object
* is chosen depends on the order that they appear in the stats list. Perhaps
* further tiebreakers are needed.
*/
StatisticExtInfo *
choose_best_statistics(List *stats, char requiredkind, bool inh,
Bitmapset **clause_attnums, List **clause_exprs,
int nclauses)
{
ListCell *lc;
StatisticExtInfo *best_match = NULL;
int best_num_matched = 2; /* goal #1: maximize */
int best_match_keys = (STATS_MAX_DIMENSIONS + 1); /* goal #2: minimize */
foreach(lc, stats)
{
int i;
StatisticExtInfo *info = (StatisticExtInfo *) lfirst(lc);
Bitmapset *matched_attnums = NULL;
Bitmapset *matched_exprs = NULL;
int num_matched;
int numkeys;
/* skip statistics that are not of the correct type */
if (info->kind != requiredkind)
continue;
/* skip statistics with mismatching inheritance flag */
if (info->inherit != inh)
continue;
/*
* Collect attributes and expressions in remaining (unestimated)
* clauses fully covered by this statistic object.
*
* We know already estimated clauses have both clause_attnums and
* clause_exprs set to NULL. We leave the pointers NULL if already
* estimated, or we reset them to NULL after estimating the clause.
*/
for (i = 0; i < nclauses; i++)
{
Bitmapset *expr_idxs = NULL;
/* ignore incompatible/estimated clauses */
if (!clause_attnums[i] && !clause_exprs[i])
continue;
/* ignore clauses that are not covered by this object */
if (!bms_is_subset(clause_attnums[i], info->keys) ||
!stat_covers_expressions(info, clause_exprs[i], &expr_idxs))
continue;
/* record attnums and indexes of expressions covered */
matched_attnums = bms_add_members(matched_attnums, clause_attnums[i]);
matched_exprs = bms_add_members(matched_exprs, expr_idxs);
}
num_matched = bms_num_members(matched_attnums) + bms_num_members(matched_exprs);
bms_free(matched_attnums);
bms_free(matched_exprs);
/*
* save the actual number of keys in the stats so that we can choose
* the narrowest stats with the most matching keys.
*/
numkeys = bms_num_members(info->keys) + list_length(info->exprs);
/*
* Use this object when it increases the number of matched attributes
* and expressions or when it matches the same number of attributes
* and expressions but these stats have fewer keys than any previous
* match.
*/
if (num_matched > best_num_matched ||
(num_matched == best_num_matched && numkeys < best_match_keys))
{
best_match = info;
best_num_matched = num_matched;
best_match_keys = numkeys;
}
}
return best_match;
}
/*
* statext_is_compatible_clause_internal
* Determines if the clause is compatible with MCV lists.
*
* To be compatible, the given clause must be a combination of supported
* clauses built from Vars or sub-expressions (where a sub-expression is
* something that exactly matches an expression found in statistics objects).
* This function recursively examines the clause and extracts any
* sub-expressions that will need to be matched against statistics.
*
* Currently, we only support the following types of clauses:
*
* (a) OpExprs of the form (Var/Expr op Const), or (Const op Var/Expr), where
* the op is one of ("=", "<", ">", ">=", "<=")
*
* (b) (Var/Expr IS [NOT] NULL)
*
* (c) combinations using AND/OR/NOT
*
* (d) ScalarArrayOpExprs of the form (Var/Expr op ANY (Const)) or
* (Var/Expr op ALL (Const))
*
* In the future, the range of supported clauses may be expanded to more
* complex cases, for example (Var op Var).
*
* Arguments:
* clause: (sub)clause to be inspected (bare clause, not a RestrictInfo)
* relid: rel that all Vars in clause must belong to
* *attnums: input/output parameter collecting attribute numbers of all
* mentioned Vars. Note that we do not offset the attribute numbers,
* so we can't cope with system columns.
* *exprs: input/output parameter collecting primitive subclauses within
* the clause tree
*
* Returns false if there is something we definitively can't handle.
* On true return, we can proceed to match the *exprs against statistics.
*/
static bool
statext_is_compatible_clause_internal(PlannerInfo *root, Node *clause,
Index relid, Bitmapset **attnums,
List **exprs)
{
/* Look inside any binary-compatible relabeling (as in examine_variable) */
if (IsA(clause, RelabelType))
clause = (Node *) ((RelabelType *) clause)->arg;
/* plain Var references (boolean Vars or recursive checks) */
if (IsA(clause, Var))
{
Var *var = (Var *) clause;
/* Ensure var is from the correct relation */
if (var->varno != relid)
return false;
/* we also better ensure the Var is from the current level */
if (var->varlevelsup > 0)
return false;
/*
* Also reject system attributes and whole-row Vars (we don't allow
* stats on those).
*/
if (!AttrNumberIsForUserDefinedAttr(var->varattno))
return false;
/* OK, record the attnum for later permissions checks. */
*attnums = bms_add_member(*attnums, var->varattno);
return true;
}
/* (Var/Expr op Const) or (Const op Var/Expr) */
if (is_opclause(clause))
{
RangeTblEntry *rte = root->simple_rte_array[relid];
OpExpr *expr = (OpExpr *) clause;
Node *clause_expr;
/* Only expressions with two arguments are considered compatible. */
if (list_length(expr->args) != 2)
return false;
/* Check if the expression has the right shape */
if (!examine_opclause_args(expr->args, &clause_expr, NULL, NULL))
return false;
/*
* If it's not one of the supported operators ("=", "<", ">", etc.),
* just ignore the clause, as it's not compatible with MCV lists.
*
* This uses the function for estimating selectivity, not the operator
* directly (a bit awkward, but well ...).
*/
switch (get_oprrest(expr->opno))
{
case F_EQSEL:
case F_NEQSEL:
case F_SCALARLTSEL:
case F_SCALARLESEL:
case F_SCALARGTSEL:
case F_SCALARGESEL:
/* supported, will continue with inspection of the Var/Expr */
break;
default:
/* other estimators are considered unknown/unsupported */
return false;
}
/*
* If there are any securityQuals on the RTE from security barrier
* views or RLS policies, then the user may not have access to all the
* table's data, and we must check that the operator is leak-proof.
*
* If the operator is leaky, then we must ignore this clause for the
* purposes of estimating with MCV lists, otherwise the operator might
* reveal values from the MCV list that the user doesn't have
* permission to see.
*/
if (rte->securityQuals != NIL &&
!get_func_leakproof(get_opcode(expr->opno)))
return false;
/* Check (Var op Const) or (Const op Var) clauses by recursing. */
if (IsA(clause_expr, Var))
return statext_is_compatible_clause_internal(root, clause_expr,
relid, attnums, exprs);
/* Otherwise we have (Expr op Const) or (Const op Expr). */
*exprs = lappend(*exprs, clause_expr);
return true;
}
/* Var/Expr IN Array */
if (IsA(clause, ScalarArrayOpExpr))
{
RangeTblEntry *rte = root->simple_rte_array[relid];
ScalarArrayOpExpr *expr = (ScalarArrayOpExpr *) clause;
Node *clause_expr;
bool expronleft;
/* Only expressions with two arguments are considered compatible. */
if (list_length(expr->args) != 2)
return false;
/* Check if the expression has the right shape (one Var, one Const) */
if (!examine_opclause_args(expr->args, &clause_expr, NULL, &expronleft))
return false;
/* We only support Var on left, Const on right */
if (!expronleft)
return false;
/*
* If it's not one of the supported operators ("=", "<", ">", etc.),
* just ignore the clause, as it's not compatible with MCV lists.
*
* This uses the function for estimating selectivity, not the operator
* directly (a bit awkward, but well ...).
*/
switch (get_oprrest(expr->opno))
{
case F_EQSEL:
case F_NEQSEL:
case F_SCALARLTSEL:
case F_SCALARLESEL:
case F_SCALARGTSEL:
case F_SCALARGESEL:
/* supported, will continue with inspection of the Var/Expr */
break;
default:
/* other estimators are considered unknown/unsupported */
return false;
}
/*
* If there are any securityQuals on the RTE from security barrier
* views or RLS policies, then the user may not have access to all the
* table's data, and we must check that the operator is leak-proof.
*
* If the operator is leaky, then we must ignore this clause for the
* purposes of estimating with MCV lists, otherwise the operator might
* reveal values from the MCV list that the user doesn't have
* permission to see.
*/
if (rte->securityQuals != NIL &&
!get_func_leakproof(get_opcode(expr->opno)))
return false;
/* Check Var IN Array clauses by recursing. */
if (IsA(clause_expr, Var))
return statext_is_compatible_clause_internal(root, clause_expr,
relid, attnums, exprs);
/* Otherwise we have Expr IN Array. */
*exprs = lappend(*exprs, clause_expr);
return true;
}
/* AND/OR/NOT clause */
if (is_andclause(clause) ||
is_orclause(clause) ||
is_notclause(clause))
{
/*
* AND/OR/NOT-clauses are supported if all sub-clauses are supported
*
* Perhaps we could improve this by handling mixed cases, when some of
* the clauses are supported and some are not. Selectivity for the
* supported subclauses would be computed using extended statistics,
* and the remaining clauses would be estimated using the traditional
* algorithm (product of selectivities).
*
* It however seems overly complex, and in a way we already do that
* because if we reject the whole clause as unsupported here, it will
* be eventually passed to clauselist_selectivity() which does exactly
* this (split into supported/unsupported clauses etc).
*/
BoolExpr *expr = (BoolExpr *) clause;
ListCell *lc;
foreach(lc, expr->args)
{
/*
* If we find an incompatible clause in the arguments, treat the
* whole clause as incompatible.
*/
if (!statext_is_compatible_clause_internal(root,
(Node *) lfirst(lc),
relid, attnums, exprs))
return false;
}
return true;
}
/* Var/Expr IS NULL */
if (IsA(clause, NullTest))
{
NullTest *nt = (NullTest *) clause;
/* Check Var IS NULL clauses by recursing. */
if (IsA(nt->arg, Var))
return statext_is_compatible_clause_internal(root, (Node *) (nt->arg),
relid, attnums, exprs);
/* Otherwise we have Expr IS NULL. */
*exprs = lappend(*exprs, nt->arg);
return true;
}
/*
* Treat any other expressions as bare expressions to be matched against
* expressions in statistics objects.
*/
*exprs = lappend(*exprs, clause);
return true;
}
/*
* statext_is_compatible_clause
* Determines if the clause is compatible with MCV lists.
*
* See statext_is_compatible_clause_internal, above, for the basic rules.
* This layer deals with RestrictInfo superstructure and applies permissions
* checks to verify that it's okay to examine all mentioned Vars.
*
* Arguments:
* clause: clause to be inspected (in RestrictInfo form)
* relid: rel that all Vars in clause must belong to
* *attnums: input/output parameter collecting attribute numbers of all
* mentioned Vars. Note that we do not offset the attribute numbers,
* so we can't cope with system columns.
* *exprs: input/output parameter collecting primitive subclauses within
* the clause tree
*
* Returns false if there is something we definitively can't handle.
* On true return, we can proceed to match the *exprs against statistics.
*/
static bool
statext_is_compatible_clause(PlannerInfo *root, Node *clause, Index relid,
Bitmapset **attnums, List **exprs)
{
RangeTblEntry *rte = root->simple_rte_array[relid];
RelOptInfo *rel = root->simple_rel_array[relid];
RestrictInfo *rinfo;
int clause_relid;
Oid userid;
/*
* Special-case handling for bare BoolExpr AND clauses, because the
* restrictinfo machinery doesn't build RestrictInfos on top of AND
* clauses.
*/
if (is_andclause(clause))
{
BoolExpr *expr = (BoolExpr *) clause;
ListCell *lc;
/*
* Check that each sub-clause is compatible. We expect these to be
* RestrictInfos.
*/
foreach(lc, expr->args)
{
if (!statext_is_compatible_clause(root, (Node *) lfirst(lc),
relid, attnums, exprs))
return false;
}
return true;
}
/* Otherwise it must be a RestrictInfo. */
if (!IsA(clause, RestrictInfo))
return false;
rinfo = (RestrictInfo *) clause;
/* Pseudoconstants are not really interesting here. */
if (rinfo->pseudoconstant)
return false;
/* Clauses referencing other varnos are incompatible. */
if (!bms_get_singleton_member(rinfo->clause_relids, &clause_relid) ||
clause_relid != relid)
return false;
/* Check the clause and determine what attributes it references. */
if (!statext_is_compatible_clause_internal(root, (Node *) rinfo->clause,
relid, attnums, exprs))
return false;
/*
* Check that the user has permission to read all required attributes.
*/
userid = OidIsValid(rel->userid) ? rel->userid : GetUserId();
/* Table-level SELECT privilege is sufficient for all columns */
if (pg_class_aclcheck(rte->relid, userid, ACL_SELECT) != ACLCHECK_OK)
{
Bitmapset *clause_attnums = NULL;
int attnum = -1;
/*
* We have to check per-column privileges. *attnums has the attnums
* for individual Vars we saw, but there may also be Vars within
* subexpressions in *exprs. We can use pull_varattnos() to extract
* those, but there's an impedance mismatch: attnums returned by
* pull_varattnos() are offset by FirstLowInvalidHeapAttributeNumber,
* while attnums within *attnums aren't. Convert *attnums to the
* offset style so we can combine the results.
*/
while ((attnum = bms_next_member(*attnums, attnum)) >= 0)
{
clause_attnums =
bms_add_member(clause_attnums,
attnum - FirstLowInvalidHeapAttributeNumber);
}
/* Now merge attnums from *exprs into clause_attnums */
if (*exprs != NIL)
pull_varattnos((Node *) *exprs, relid, &clause_attnums);
attnum = -1;
while ((attnum = bms_next_member(clause_attnums, attnum)) >= 0)
{
/* Undo the offset */
AttrNumber attno = attnum + FirstLowInvalidHeapAttributeNumber;
if (attno == InvalidAttrNumber)
{
/* Whole-row reference, so must have access to all columns */
if (pg_attribute_aclcheck_all(rte->relid, userid, ACL_SELECT,
ACLMASK_ALL) != ACLCHECK_OK)
return false;
}
else
{
if (pg_attribute_aclcheck(rte->relid, attno, userid,
ACL_SELECT) != ACLCHECK_OK)
return false;
}
}
}
/* If we reach here, the clause is OK */
return true;
}
/*
* statext_mcv_clauselist_selectivity
* Estimate clauses using the best multi-column statistics.
*
* Applies available extended (multi-column) statistics on a table. There may
* be multiple applicable statistics (with respect to the clauses), in which
* case we use greedy approach. In each round we select the best statistic on
* a table (measured by the number of attributes extracted from the clauses
* and covered by it), and compute the selectivity for the supplied clauses.
* We repeat this process with the remaining clauses (if any), until none of
* the available statistics can be used.
*
* One of the main challenges with using MCV lists is how to extrapolate the
* estimate to the data not covered by the MCV list. To do that, we compute
* not only the "MCV selectivity" (selectivities for MCV items matching the
* supplied clauses), but also the following related selectivities:
*
* - simple selectivity: Computed without extended statistics, i.e. as if the
* columns/clauses were independent.
*
* - base selectivity: Similar to simple selectivity, but is computed using
* the extended statistic by adding up the base frequencies (that we compute
* and store for each MCV item) of matching MCV items.
*
* - total selectivity: Selectivity covered by the whole MCV list.
*
* These are passed to mcv_combine_selectivities() which combines them to
* produce a selectivity estimate that makes use of both per-column statistics
* and the multi-column MCV statistics.
*
* 'estimatedclauses' is an input/output parameter. We set bits for the
* 0-based 'clauses' indexes we estimate for and also skip clause items that
* already have a bit set.
*/
static Selectivity
statext_mcv_clauselist_selectivity(PlannerInfo *root, List *clauses, int varRelid,
JoinType jointype, SpecialJoinInfo *sjinfo,
RelOptInfo *rel, Bitmapset **estimatedclauses,
bool is_or)
{
ListCell *l;
Bitmapset **list_attnums; /* attnums extracted from the clause */
List **list_exprs; /* expressions matched to any statistic */
int listidx;
Selectivity sel = (is_or) ? 0.0 : 1.0;
RangeTblEntry *rte = planner_rt_fetch(rel->relid, root);
/* check if there's any stats that might be useful for us. */
if (!has_stats_of_kind(rel->statlist, STATS_EXT_MCV))
return sel;
list_attnums = (Bitmapset **) palloc(sizeof(Bitmapset *) *
list_length(clauses));
/* expressions extracted from complex expressions */
list_exprs = (List **) palloc(sizeof(Node *) * list_length(clauses));
/*
* Pre-process the clauses list to extract the attnums and expressions
* seen in each item. We need to determine if there are any clauses which
* will be useful for selectivity estimations with extended stats. Along
* the way we'll record all of the attnums and expressions for each clause
* in lists which we'll reference later so we don't need to repeat the
* same work again.
*
* We also skip clauses that we already estimated using different types of
* statistics (we treat them as incompatible).
*/
listidx = 0;
foreach(l, clauses)
{
Node *clause = (Node *) lfirst(l);
Bitmapset *attnums = NULL;
List *exprs = NIL;
if (!bms_is_member(listidx, *estimatedclauses) &&
statext_is_compatible_clause(root, clause, rel->relid, &attnums, &exprs))
{
list_attnums[listidx] = attnums;
list_exprs[listidx] = exprs;
}
else
{
list_attnums[listidx] = NULL;
list_exprs[listidx] = NIL;
}
listidx++;
}
/* apply as many extended statistics as possible */
while (true)
{
StatisticExtInfo *stat;
List *stat_clauses;
Bitmapset *simple_clauses;
/* find the best suited statistics object for these attnums */
stat = choose_best_statistics(rel->statlist, STATS_EXT_MCV, rte->inh,
list_attnums, list_exprs,
list_length(clauses));
/*
* if no (additional) matching stats could be found then we've nothing
* to do
*/
if (!stat)
break;
/* Ensure choose_best_statistics produced an expected stats type. */
Assert(stat->kind == STATS_EXT_MCV);
/* now filter the clauses to be estimated using the selected MCV */
stat_clauses = NIL;
/* record which clauses are simple (single column or expression) */
simple_clauses = NULL;
listidx = -1;
foreach(l, clauses)
{
/* Increment the index before we decide if to skip the clause. */
listidx++;
/*
* Ignore clauses from which we did not extract any attnums or
* expressions (this needs to be consistent with what we do in
* choose_best_statistics).
*
* This also eliminates already estimated clauses - both those
* estimated before and during applying extended statistics.
*
* XXX This check is needed because both bms_is_subset and
* stat_covers_expressions return true for empty attnums and
* expressions.
*/
if (!list_attnums[listidx] && !list_exprs[listidx])
continue;
/*
* The clause was not estimated yet, and we've extracted either
* attnums or expressions from it. Ignore it if it's not fully
* covered by the chosen statistics object.
*
* We need to check both attributes and expressions, and reject if
* either is not covered.
*/
if (!bms_is_subset(list_attnums[listidx], stat->keys) ||
!stat_covers_expressions(stat, list_exprs[listidx], NULL))
continue;
/*
* Now we know the clause is compatible (we have either attnums or
* expressions extracted from it), and was not estimated yet.
*/
/* record simple clauses (single column or expression) */
if ((list_attnums[listidx] == NULL &&
list_length(list_exprs[listidx]) == 1) ||
(list_exprs[listidx] == NIL &&
bms_membership(list_attnums[listidx]) == BMS_SINGLETON))
simple_clauses = bms_add_member(simple_clauses,
list_length(stat_clauses));
/* add clause to list and mark it as estimated */
stat_clauses = lappend(stat_clauses, (Node *) lfirst(l));
*estimatedclauses = bms_add_member(*estimatedclauses, listidx);
/*
* Reset the pointers, so that choose_best_statistics knows this
* clause was estimated and does not consider it again.
*/
bms_free(list_attnums[listidx]);
list_attnums[listidx] = NULL;
list_free(list_exprs[listidx]);
list_exprs[listidx] = NULL;
}
if (is_or)
{
bool *or_matches = NULL;
Selectivity simple_or_sel = 0.0,
stat_sel = 0.0;
MCVList *mcv_list;
/* Load the MCV list stored in the statistics object */
mcv_list = statext_mcv_load(stat->statOid, rte->inh);
/*
* Compute the selectivity of the ORed list of clauses covered by
* this statistics object by estimating each in turn and combining
* them using the formula P(A OR B) = P(A) + P(B) - P(A AND B).
* This allows us to use the multivariate MCV stats to better
* estimate the individual terms and their overlap.
*
* Each time we iterate this formula, the clause "A" above is
* equal to all the clauses processed so far, combined with "OR".
*/
listidx = 0;
foreach(l, stat_clauses)
{
Node *clause = (Node *) lfirst(l);
Selectivity simple_sel,
overlap_simple_sel,
mcv_sel,
mcv_basesel,
overlap_mcvsel,
overlap_basesel,
mcv_totalsel,
clause_sel,
overlap_sel;
/*
* "Simple" selectivity of the next clause and its overlap
* with any of the previous clauses. These are our initial
* estimates of P(B) and P(A AND B), assuming independence of
* columns/clauses.
*/
simple_sel = clause_selectivity_ext(root, clause, varRelid,
jointype, sjinfo, false);
overlap_simple_sel = simple_or_sel * simple_sel;
/*
* New "simple" selectivity of all clauses seen so far,
* assuming independence.
*/
simple_or_sel += simple_sel - overlap_simple_sel;
CLAMP_PROBABILITY(simple_or_sel);
/*
* Multi-column estimate of this clause using MCV statistics,
* along with base and total selectivities, and corresponding
* selectivities for the overlap term P(A AND B).
*/
mcv_sel = mcv_clause_selectivity_or(root, stat, mcv_list,
clause, &or_matches,
&mcv_basesel,
&overlap_mcvsel,
&overlap_basesel,
&mcv_totalsel);
/*
* Combine the simple and multi-column estimates.
*
* If this clause is a simple single-column clause, then we
* just use the simple selectivity estimate for it, since the
* multi-column statistics are unlikely to improve on that
* (and in fact could make it worse). For the overlap, we
* always make use of the multi-column statistics.
*/
if (bms_is_member(listidx, simple_clauses))
clause_sel = simple_sel;
else
clause_sel = mcv_combine_selectivities(simple_sel,
mcv_sel,
mcv_basesel,
mcv_totalsel);
overlap_sel = mcv_combine_selectivities(overlap_simple_sel,
overlap_mcvsel,
overlap_basesel,
mcv_totalsel);
/* Factor these into the result for this statistics object */
stat_sel += clause_sel - overlap_sel;
CLAMP_PROBABILITY(stat_sel);
listidx++;
}
/*
* Factor the result for this statistics object into the overall
* result. We treat the results from each separate statistics
* object as independent of one another.
*/
sel = sel + stat_sel - sel * stat_sel;
}
else /* Implicitly-ANDed list of clauses */
{
Selectivity simple_sel,
mcv_sel,
mcv_basesel,
mcv_totalsel,
stat_sel;
/*
* "Simple" selectivity, i.e. without any extended statistics,
* essentially assuming independence of the columns/clauses.
*/
simple_sel = clauselist_selectivity_ext(root, stat_clauses,
varRelid, jointype,
sjinfo, false);
/*
* Multi-column estimate using MCV statistics, along with base and
* total selectivities.
*/
mcv_sel = mcv_clauselist_selectivity(root, stat, stat_clauses,
varRelid, jointype, sjinfo,
rel, &mcv_basesel,
&mcv_totalsel);
/* Combine the simple and multi-column estimates. */
stat_sel = mcv_combine_selectivities(simple_sel,
mcv_sel,
mcv_basesel,
mcv_totalsel);
/* Factor this into the overall result */
sel *= stat_sel;
}
}
return sel;
}
/*
* statext_clauselist_selectivity
* Estimate clauses using the best multi-column statistics.
*/
Selectivity
statext_clauselist_selectivity(PlannerInfo *root, List *clauses, int varRelid,
JoinType jointype, SpecialJoinInfo *sjinfo,
RelOptInfo *rel, Bitmapset **estimatedclauses,
bool is_or)
{
Selectivity sel;
/* First, try estimating clauses using a multivariate MCV list. */
sel = statext_mcv_clauselist_selectivity(root, clauses, varRelid, jointype,
sjinfo, rel, estimatedclauses, is_or);
/*
* Functional dependencies only work for clauses connected by AND, so for
* OR clauses we're done.
*/
if (is_or)
return sel;
/*
* Then, apply functional dependencies on the remaining clauses by calling
* dependencies_clauselist_selectivity. Pass 'estimatedclauses' so the
* function can properly skip clauses already estimated above.
*
* The reasoning for applying dependencies last is that the more complex
* stats can track more complex correlations between the attributes, and
* so may be considered more reliable.
*
* For example, MCV list can give us an exact selectivity for values in
* two columns, while functional dependencies can only provide information
* about the overall strength of the dependency.
*/
sel *= dependencies_clauselist_selectivity(root, clauses, varRelid,
jointype, sjinfo, rel,
estimatedclauses);
return sel;
}
/*
* examine_opclause_args
* Split an operator expression's arguments into Expr and Const parts.
*
* Attempts to match the arguments to either (Expr op Const) or (Const op
* Expr), possibly with a RelabelType on top. When the expression matches this
* form, returns true, otherwise returns false.
*
* Optionally returns pointers to the extracted Expr/Const nodes, when passed
* non-null pointers (exprp, cstp and expronleftp). The expronleftp flag
* specifies on which side of the operator we found the expression node.
*/
bool
examine_opclause_args(List *args, Node **exprp, Const **cstp,
bool *expronleftp)
{
Node *expr;
Const *cst;
bool expronleft;
Node *leftop,
*rightop;
/* enforced by statext_is_compatible_clause_internal */
Assert(list_length(args) == 2);
leftop = linitial(args);
rightop = lsecond(args);
/* strip RelabelType from either side of the expression */
if (IsA(leftop, RelabelType))
leftop = (Node *) ((RelabelType *) leftop)->arg;
if (IsA(rightop, RelabelType))
rightop = (Node *) ((RelabelType *) rightop)->arg;
if (IsA(rightop, Const))
{
expr = (Node *) leftop;
cst = (Const *) rightop;
expronleft = true;
}
else if (IsA(leftop, Const))
{
expr = (Node *) rightop;
cst = (Const *) leftop;
expronleft = false;
}
else
return false;
/* return pointers to the extracted parts if requested */
if (exprp)
*exprp = expr;
if (cstp)
*cstp = cst;
if (expronleftp)
*expronleftp = expronleft;
return true;
}
/*
* Compute statistics about expressions of a relation.
*/
static void
compute_expr_stats(Relation onerel, double totalrows,
AnlExprData *exprdata, int nexprs,
HeapTuple *rows, int numrows)
{
MemoryContext expr_context,
old_context;
int ind,
i;
expr_context = AllocSetContextCreate(CurrentMemoryContext,
"Analyze Expression",
ALLOCSET_DEFAULT_SIZES);
old_context = MemoryContextSwitchTo(expr_context);
for (ind = 0; ind < nexprs; ind++)
{
AnlExprData *thisdata = &exprdata[ind];
VacAttrStats *stats = thisdata->vacattrstat;
Node *expr = thisdata->expr;
TupleTableSlot *slot;
EState *estate;
ExprContext *econtext;
Datum *exprvals;
bool *exprnulls;
ExprState *exprstate;
int tcnt;
/* Are we still in the main context? */
Assert(CurrentMemoryContext == expr_context);
/*
* Need an EState for evaluation of expressions. Create it in the
* per-expression context to be sure it gets cleaned up at the bottom
* of the loop.
*/
estate = CreateExecutorState();
econtext = GetPerTupleExprContext(estate);
/* Set up expression evaluation state */
exprstate = ExecPrepareExpr((Expr *) expr, estate);
/* Need a slot to hold the current heap tuple, too */
slot = MakeSingleTupleTableSlot(RelationGetDescr(onerel),
&TTSOpsHeapTuple);
/* Arrange for econtext's scan tuple to be the tuple under test */
econtext->ecxt_scantuple = slot;
/* Compute and save expression values */
exprvals = (Datum *) palloc(numrows * sizeof(Datum));
exprnulls = (bool *) palloc(numrows * sizeof(bool));
tcnt = 0;
for (i = 0; i < numrows; i++)
{
Datum datum;
bool isnull;
/*
* Reset the per-tuple context each time, to reclaim any cruft
* left behind by evaluating the statistics expressions.
*/
ResetExprContext(econtext);
/* Set up for expression evaluation */
ExecStoreHeapTuple(rows[i], slot, false);
/*
* Evaluate the expression. We do this in the per-tuple context so
* as not to leak memory, and then copy the result into the
* context created at the beginning of this function.
*/
datum = ExecEvalExprSwitchContext(exprstate,
GetPerTupleExprContext(estate),
&isnull);
if (isnull)
{
exprvals[tcnt] = (Datum) 0;
exprnulls[tcnt] = true;
}
else
{
/* Make sure we copy the data into the context. */
Assert(CurrentMemoryContext == expr_context);
exprvals[tcnt] = datumCopy(datum,
stats->attrtype->typbyval,
stats->attrtype->typlen);
exprnulls[tcnt] = false;
}
tcnt++;
}
/*
* Now we can compute the statistics for the expression columns.
*
* XXX Unlike compute_index_stats we don't need to switch and reset
* memory contexts here, because we're only computing stats for a
* single expression (and not iterating over many indexes), so we just
* do it in expr_context. Note that compute_stats copies the result
* into stats->anl_context, so it does not disappear.
*/
if (tcnt > 0)
{
AttributeOpts *aopt =
get_attribute_options(stats->attr->attrelid,
stats->attr->attnum);
stats->exprvals = exprvals;
stats->exprnulls = exprnulls;
stats->rowstride = 1;
stats->compute_stats(stats,
expr_fetch_func,
tcnt,
tcnt);
/*
* If the n_distinct option is specified, it overrides the above
* computation.
*/
if (aopt != NULL && aopt->n_distinct != 0.0)
stats->stadistinct = aopt->n_distinct;
}
/* And clean up */
MemoryContextSwitchTo(expr_context);
ExecDropSingleTupleTableSlot(slot);
FreeExecutorState(estate);
MemoryContextResetAndDeleteChildren(expr_context);
}
MemoryContextSwitchTo(old_context);
MemoryContextDelete(expr_context);
}
/*
* Fetch function for analyzing statistics object expressions.
*
* We have not bothered to construct tuples from the data, instead the data
* is just in Datum arrays.
*/
static Datum
expr_fetch_func(VacAttrStatsP stats, int rownum, bool *isNull)
{
int i;
/* exprvals and exprnulls are already offset for proper column */
i = rownum * stats->rowstride;
*isNull = stats->exprnulls[i];
return stats->exprvals[i];
}
/*
* Build analyze data for a list of expressions. As this is not tied
* directly to a relation (table or index), we have to fake some of
* the fields in examine_expression().
*/
static AnlExprData *
build_expr_data(List *exprs, int stattarget)
{
int idx;
int nexprs = list_length(exprs);
AnlExprData *exprdata;
ListCell *lc;
exprdata = (AnlExprData *) palloc0(nexprs * sizeof(AnlExprData));
idx = 0;
foreach(lc, exprs)
{
Node *expr = (Node *) lfirst(lc);
AnlExprData *thisdata = &exprdata[idx];
thisdata->expr = expr;
thisdata->vacattrstat = examine_expression(expr, stattarget);
idx++;
}
return exprdata;
}
/* form an array of pg_statistic rows (per update_attstats) */
static Datum
serialize_expr_stats(AnlExprData *exprdata, int nexprs)
{
int exprno;
Oid typOid;
Relation sd;
ArrayBuildState *astate = NULL;
sd = table_open(StatisticRelationId, RowExclusiveLock);
/* lookup OID of composite type for pg_statistic */
typOid = get_rel_type_id(StatisticRelationId);
if (!OidIsValid(typOid))
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("relation \"%s\" does not have a composite type",
"pg_statistic")));
for (exprno = 0; exprno < nexprs; exprno++)
{
int i,
k;
VacAttrStats *stats = exprdata[exprno].vacattrstat;
Datum values[Natts_pg_statistic];
bool nulls[Natts_pg_statistic];
HeapTuple stup;
if (!stats->stats_valid)
{
astate = accumArrayResult(astate,
(Datum) 0,
true,
typOid,
CurrentMemoryContext);
continue;
}
/*
* Construct a new pg_statistic tuple
*/
for (i = 0; i < Natts_pg_statistic; ++i)
{
nulls[i] = false;
}
values[Anum_pg_statistic_starelid - 1] = ObjectIdGetDatum(InvalidOid);
values[Anum_pg_statistic_staattnum - 1] = Int16GetDatum(InvalidAttrNumber);
values[Anum_pg_statistic_stainherit - 1] = BoolGetDatum(false);
values[Anum_pg_statistic_stanullfrac - 1] = Float4GetDatum(stats->stanullfrac);
values[Anum_pg_statistic_stawidth - 1] = Int32GetDatum(stats->stawidth);
values[Anum_pg_statistic_stadistinct - 1] = Float4GetDatum(stats->stadistinct);
i = Anum_pg_statistic_stakind1 - 1;
for (k = 0; k < STATISTIC_NUM_SLOTS; k++)
{
values[i++] = Int16GetDatum(stats->stakind[k]); /* stakindN */
}
i = Anum_pg_statistic_staop1 - 1;
for (k = 0; k < STATISTIC_NUM_SLOTS; k++)
{
values[i++] = ObjectIdGetDatum(stats->staop[k]); /* staopN */
}
i = Anum_pg_statistic_stacoll1 - 1;
for (k = 0; k < STATISTIC_NUM_SLOTS; k++)
{
values[i++] = ObjectIdGetDatum(stats->stacoll[k]); /* stacollN */
}
i = Anum_pg_statistic_stanumbers1 - 1;
for (k = 0; k < STATISTIC_NUM_SLOTS; k++)
{
int nnum = stats->numnumbers[k];
if (nnum > 0)
{
int n;
Datum *numdatums = (Datum *) palloc(nnum * sizeof(Datum));
ArrayType *arry;
for (n = 0; n < nnum; n++)
numdatums[n] = Float4GetDatum(stats->stanumbers[k][n]);
arry = construct_array_builtin(numdatums, nnum, FLOAT4OID);
values[i++] = PointerGetDatum(arry); /* stanumbersN */
}
else
{
nulls[i] = true;
values[i++] = (Datum) 0;
}
}
i = Anum_pg_statistic_stavalues1 - 1;
for (k = 0; k < STATISTIC_NUM_SLOTS; k++)
{
if (stats->numvalues[k] > 0)
{
ArrayType *arry;
arry = construct_array(stats->stavalues[k],
stats->numvalues[k],
stats->statypid[k],
stats->statyplen[k],
stats->statypbyval[k],
stats->statypalign[k]);
values[i++] = PointerGetDatum(arry); /* stavaluesN */
}
else
{
nulls[i] = true;
values[i++] = (Datum) 0;
}
}
stup = heap_form_tuple(RelationGetDescr(sd), values, nulls);
astate = accumArrayResult(astate,
heap_copy_tuple_as_datum(stup, RelationGetDescr(sd)),
false,
typOid,
CurrentMemoryContext);
}
table_close(sd, RowExclusiveLock);
return makeArrayResult(astate, CurrentMemoryContext);
}
/*
* Loads pg_statistic record from expression statistics for expression
* identified by the supplied index.
*/
HeapTuple
statext_expressions_load(Oid stxoid, bool inh, int idx)
{
bool isnull;
Datum value;
HeapTuple htup;
ExpandedArrayHeader *eah;
HeapTupleHeader td;
HeapTupleData tmptup;
HeapTuple tup;
htup = SearchSysCache2(STATEXTDATASTXOID,
ObjectIdGetDatum(stxoid), BoolGetDatum(inh));
if (!HeapTupleIsValid(htup))
elog(ERROR, "cache lookup failed for statistics object %u", stxoid);
value = SysCacheGetAttr(STATEXTDATASTXOID, htup,
Anum_pg_statistic_ext_data_stxdexpr, &isnull);
if (isnull)
elog(ERROR,
"requested statistics kind \"%c\" is not yet built for statistics object %u",
STATS_EXT_DEPENDENCIES, stxoid);
eah = DatumGetExpandedArray(value);
deconstruct_expanded_array(eah);
td = DatumGetHeapTupleHeader(eah->dvalues[idx]);
/* Build a temporary HeapTuple control structure */
tmptup.t_len = HeapTupleHeaderGetDatumLength(td);
ItemPointerSetInvalid(&(tmptup.t_self));
tmptup.t_tableOid = InvalidOid;
tmptup.t_data = td;
tup = heap_copytuple(&tmptup);
ReleaseSysCache(htup);
return tup;
}
/*
* Evaluate the expressions, so that we can use the results to build
* all the requested statistics types. This matters especially for
* expensive expressions, of course.
*/
static StatsBuildData *
make_build_data(Relation rel, StatExtEntry *stat, int numrows, HeapTuple *rows,
VacAttrStats **stats, int stattarget)
{
/* evaluated expressions */
StatsBuildData *result;
char *ptr;
Size len;
int i;
int k;
int idx;
TupleTableSlot *slot;
EState *estate;
ExprContext *econtext;
List *exprstates = NIL;
int nkeys = bms_num_members(stat->columns) + list_length(stat->exprs);
ListCell *lc;
/* allocate everything as a single chunk, so we can free it easily */
len = MAXALIGN(sizeof(StatsBuildData));
len += MAXALIGN(sizeof(AttrNumber) * nkeys); /* attnums */
len += MAXALIGN(sizeof(VacAttrStats *) * nkeys); /* stats */
/* values */
len += MAXALIGN(sizeof(Datum *) * nkeys);
len += nkeys * MAXALIGN(sizeof(Datum) * numrows);
/* nulls */
len += MAXALIGN(sizeof(bool *) * nkeys);
len += nkeys * MAXALIGN(sizeof(bool) * numrows);
ptr = palloc(len);
/* set the pointers */
result = (StatsBuildData *) ptr;
ptr += MAXALIGN(sizeof(StatsBuildData));
/* attnums */
result->attnums = (AttrNumber *) ptr;
ptr += MAXALIGN(sizeof(AttrNumber) * nkeys);
/* stats */
result->stats = (VacAttrStats **) ptr;
ptr += MAXALIGN(sizeof(VacAttrStats *) * nkeys);
/* values */
result->values = (Datum **) ptr;
ptr += MAXALIGN(sizeof(Datum *) * nkeys);
/* nulls */
result->nulls = (bool **) ptr;
ptr += MAXALIGN(sizeof(bool *) * nkeys);
for (i = 0; i < nkeys; i++)
{
result->values[i] = (Datum *) ptr;
ptr += MAXALIGN(sizeof(Datum) * numrows);
result->nulls[i] = (bool *) ptr;
ptr += MAXALIGN(sizeof(bool) * numrows);
}
Assert((ptr - (char *) result) == len);
/* we have it allocated, so let's fill the values */
result->nattnums = nkeys;
result->numrows = numrows;
/* fill the attribute info - first attributes, then expressions */
idx = 0;
k = -1;
while ((k = bms_next_member(stat->columns, k)) >= 0)
{
result->attnums[idx] = k;
result->stats[idx] = stats[idx];
idx++;
}
k = -1;
foreach(lc, stat->exprs)
{
Node *expr = (Node *) lfirst(lc);
result->attnums[idx] = k;
result->stats[idx] = examine_expression(expr, stattarget);
idx++;
k--;
}
/* first extract values for all the regular attributes */
for (i = 0; i < numrows; i++)
{
idx = 0;
k = -1;
while ((k = bms_next_member(stat->columns, k)) >= 0)
{
result->values[idx][i] = heap_getattr(rows[i], k,
result->stats[idx]->tupDesc,
&result->nulls[idx][i]);
idx++;
}
}
/* Need an EState for evaluation expressions. */
estate = CreateExecutorState();
econtext = GetPerTupleExprContext(estate);
/* Need a slot to hold the current heap tuple, too */
slot = MakeSingleTupleTableSlot(RelationGetDescr(rel),
&TTSOpsHeapTuple);
/* Arrange for econtext's scan tuple to be the tuple under test */
econtext->ecxt_scantuple = slot;
/* Set up expression evaluation state */
exprstates = ExecPrepareExprList(stat->exprs, estate);
for (i = 0; i < numrows; i++)
{
/*
* Reset the per-tuple context each time, to reclaim any cruft left
* behind by evaluating the statistics object expressions.
*/
ResetExprContext(econtext);
/* Set up for expression evaluation */
ExecStoreHeapTuple(rows[i], slot, false);
idx = bms_num_members(stat->columns);
foreach(lc, exprstates)
{
Datum datum;
bool isnull;
ExprState *exprstate = (ExprState *) lfirst(lc);
/*
* XXX This probably leaks memory. Maybe we should use
* ExecEvalExprSwitchContext but then we need to copy the result
* somewhere else.
*/
datum = ExecEvalExpr(exprstate,
GetPerTupleExprContext(estate),
&isnull);
if (isnull)
{
result->values[idx][i] = (Datum) 0;
result->nulls[idx][i] = true;
}
else
{
result->values[idx][i] = (Datum) datum;
result->nulls[idx][i] = false;
}
idx++;
}
}
ExecDropSingleTupleTableSlot(slot);
FreeExecutorState(estate);
return result;
}
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