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postgresql/src/backend/access/gin/ginscan.c
Alexander Korotkov 4b754d6c16 Avoid full scan of GIN indexes when possible 
The strategy of GIN index scan is driven by opclass-specific extract_query
method.  This method that needed search mode is GIN_SEARCH_MODE_ALL.  This
mode means that matching tuple may contain none of extracted entries.  Simple
example is '!term' tsquery, which doesn't need any term to exist in matching
tsvector.

In order to handle such scan key GIN calculates virtual entry, which contains
all TIDs of all entries of attribute.  In fact this is full scan of index
attribute.  And typically this is very slow, but allows to handle some queries
correctly in GIN.  However, current algorithm calculate such virtual entry for
each GIN_SEARCH_MODE_ALL scan key even if they are multiple for the same
attribute.  This is clearly not optimal.

This commit improves the situation by introduction of "exclude only" scan keys.
Such scan keys are not capable to return set of matching TIDs.  Instead, they
are capable only to filter TIDs produced by normal scan keys.  Therefore,
each attribute should contain at least one normal scan key, while rest of them
may be "exclude only" if search mode is GIN_SEARCH_MODE_ALL.

The same optimization might be applied to the whole scan, not per-attribute.
But that leads to NULL values elimination problem.  There is trade-off between
multiple possible ways to do this.  We probably want to do this later using
some cost-based decision algorithm.

Discussion: https://postgr.es/m/CAOBaU_YGP5-BEt5Cc0%3DzMve92vocPzD%2BXiZgiZs1kjY0cj%3DXBg%40mail.gmail.com
Author: Nikita Glukhov, Alexander Korotkov, Tom Lane, Julien Rouhaud
Reviewed-by: Julien Rouhaud, Tomas Vondra, Tom Lane
2020-01-18 01:11:39 +03:00

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/*-------------------------------------------------------------------------
*
* ginscan.c
* routines to manage scans of inverted index relations
*
*
* Portions Copyright (c) 1996-2020, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/access/gin/ginscan.c
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/gin_private.h"
#include "access/relscan.h"
#include "pgstat.h"
#include "utils/memutils.h"
#include "utils/rel.h"
IndexScanDesc
ginbeginscan(Relation rel, int nkeys, int norderbys)
{
IndexScanDesc scan;
GinScanOpaque so;
/* no order by operators allowed */
Assert(norderbys == 0);
scan = RelationGetIndexScan(rel, nkeys, norderbys);
/* allocate private workspace */
so = (GinScanOpaque) palloc(sizeof(GinScanOpaqueData));
so->keys = NULL;
so->nkeys = 0;
so->tempCtx = AllocSetContextCreate(CurrentMemoryContext,
"Gin scan temporary context",
ALLOCSET_DEFAULT_SIZES);
so->keyCtx = AllocSetContextCreate(CurrentMemoryContext,
"Gin scan key context",
ALLOCSET_DEFAULT_SIZES);
initGinState(&so->ginstate, scan->indexRelation);
scan->opaque = so;
return scan;
}
/*
* Create a new GinScanEntry, unless an equivalent one already exists,
* in which case just return it
*/
static GinScanEntry
ginFillScanEntry(GinScanOpaque so, OffsetNumber attnum,
StrategyNumber strategy, int32 searchMode,
Datum queryKey, GinNullCategory queryCategory,
bool isPartialMatch, Pointer extra_data)
{
GinState *ginstate = &so->ginstate;
GinScanEntry scanEntry;
uint32 i;
/*
* Look for an existing equivalent entry.
*
* Entries with non-null extra_data are never considered identical, since
* we can't know exactly what the opclass might be doing with that.
*/
if (extra_data == NULL)
{
for (i = 0; i < so->totalentries; i++)
{
GinScanEntry prevEntry = so->entries[i];
if (prevEntry->extra_data == NULL &&
prevEntry->isPartialMatch == isPartialMatch &&
prevEntry->strategy == strategy &&
prevEntry->searchMode == searchMode &&
prevEntry->attnum == attnum &&
ginCompareEntries(ginstate, attnum,
prevEntry->queryKey,
prevEntry->queryCategory,
queryKey,
queryCategory) == 0)
{
/* Successful match */
return prevEntry;
}
}
}
/* Nope, create a new entry */
scanEntry = (GinScanEntry) palloc(sizeof(GinScanEntryData));
scanEntry->queryKey = queryKey;
scanEntry->queryCategory = queryCategory;
scanEntry->isPartialMatch = isPartialMatch;
scanEntry->extra_data = extra_data;
scanEntry->strategy = strategy;
scanEntry->searchMode = searchMode;
scanEntry->attnum = attnum;
scanEntry->buffer = InvalidBuffer;
ItemPointerSetMin(&scanEntry->curItem);
scanEntry->matchBitmap = NULL;
scanEntry->matchIterator = NULL;
scanEntry->matchResult = NULL;
scanEntry->list = NULL;
scanEntry->nlist = 0;
scanEntry->offset = InvalidOffsetNumber;
scanEntry->isFinished = false;
scanEntry->reduceResult = false;
/* Add it to so's array */
if (so->totalentries >= so->allocentries)
{
so->allocentries *= 2;
so->entries = (GinScanEntry *)
repalloc(so->entries, so->allocentries * sizeof(GinScanEntry));
}
so->entries[so->totalentries++] = scanEntry;
return scanEntry;
}
/*
* Append hidden scan entry of given category to the scan key.
*
* NB: this had better be called at most once per scan key, since
* ginFillScanKey leaves room for only one hidden entry. Currently,
* it seems sufficiently clear that this is true that we don't bother
* with any cross-check logic.
*/
static void
ginScanKeyAddHiddenEntry(GinScanOpaque so, GinScanKey key,
GinNullCategory queryCategory)
{
int i = key->nentries++;
/* strategy is of no interest because this is not a partial-match item */
key->scanEntry[i] = ginFillScanEntry(so, key->attnum,
InvalidStrategy, key->searchMode,
(Datum) 0, queryCategory,
false, NULL);
}
/*
* Initialize the next GinScanKey using the output from the extractQueryFn
*/
static void
ginFillScanKey(GinScanOpaque so, OffsetNumber attnum,
StrategyNumber strategy, int32 searchMode,
Datum query, uint32 nQueryValues,
Datum *queryValues, GinNullCategory *queryCategories,
bool *partial_matches, Pointer *extra_data)
{
GinScanKey key = &(so->keys[so->nkeys++]);
GinState *ginstate = &so->ginstate;
uint32 i;
key->nentries = nQueryValues;
key->nuserentries = nQueryValues;
/* Allocate one extra array slot for possible "hidden" entry */
key->scanEntry = (GinScanEntry *) palloc(sizeof(GinScanEntry) *
(nQueryValues + 1));
key->entryRes = (GinTernaryValue *) palloc0(sizeof(GinTernaryValue) *
(nQueryValues + 1));
key->query = query;
key->queryValues = queryValues;
key->queryCategories = queryCategories;
key->extra_data = extra_data;
key->strategy = strategy;
key->searchMode = searchMode;
key->attnum = attnum;
/*
* Initially, scan keys of GIN_SEARCH_MODE_ALL mode are marked
* excludeOnly. This might get changed later.
*/
key->excludeOnly = (searchMode == GIN_SEARCH_MODE_ALL);
ItemPointerSetMin(&key->curItem);
key->curItemMatches = false;
key->recheckCurItem = false;
key->isFinished = false;
key->nrequired = 0;
key->nadditional = 0;
key->requiredEntries = NULL;
key->additionalEntries = NULL;
ginInitConsistentFunction(ginstate, key);
/* Set up normal scan entries using extractQueryFn's outputs */
for (i = 0; i < nQueryValues; i++)
{
Datum queryKey;
GinNullCategory queryCategory;
bool isPartialMatch;
Pointer this_extra;
queryKey = queryValues[i];
queryCategory = queryCategories[i];
isPartialMatch =
(ginstate->canPartialMatch[attnum - 1] && partial_matches)
? partial_matches[i] : false;
this_extra = (extra_data) ? extra_data[i] : NULL;
key->scanEntry[i] = ginFillScanEntry(so, attnum,
strategy, searchMode,
queryKey, queryCategory,
isPartialMatch, this_extra);
}
/*
* For GIN_SEARCH_MODE_INCLUDE_EMPTY and GIN_SEARCH_MODE_EVERYTHING search
* modes, we add the "hidden" entry immediately. GIN_SEARCH_MODE_ALL is
* handled later, since we might be able to omit the hidden entry for it.
*/
if (searchMode == GIN_SEARCH_MODE_INCLUDE_EMPTY)
ginScanKeyAddHiddenEntry(so, key, GIN_CAT_EMPTY_ITEM);
else if (searchMode == GIN_SEARCH_MODE_EVERYTHING)
ginScanKeyAddHiddenEntry(so, key, GIN_CAT_EMPTY_QUERY);
}
/*
* Release current scan keys, if any.
*/
void
ginFreeScanKeys(GinScanOpaque so)
{
uint32 i;
if (so->keys == NULL)
return;
for (i = 0; i < so->totalentries; i++)
{
GinScanEntry entry = so->entries[i];
if (entry->buffer != InvalidBuffer)
ReleaseBuffer(entry->buffer);
if (entry->list)
pfree(entry->list);
if (entry->matchIterator)
tbm_end_iterate(entry->matchIterator);
if (entry->matchBitmap)
tbm_free(entry->matchBitmap);
}
MemoryContextResetAndDeleteChildren(so->keyCtx);
so->keys = NULL;
so->nkeys = 0;
so->entries = NULL;
so->totalentries = 0;
}
void
ginNewScanKey(IndexScanDesc scan)
{
ScanKey scankey = scan->keyData;
GinScanOpaque so = (GinScanOpaque) scan->opaque;
int i;
bool hasNullQuery = false;
bool attrHasNormalScan[INDEX_MAX_KEYS] = {false};
MemoryContext oldCtx;
/*
* Allocate all the scan key information in the key context. (If
* extractQuery leaks anything there, it won't be reset until the end of
* scan or rescan, but that's OK.)
*/
oldCtx = MemoryContextSwitchTo(so->keyCtx);
/* if no scan keys provided, allocate extra EVERYTHING GinScanKey */
so->keys = (GinScanKey)
palloc(Max(scan->numberOfKeys, 1) * sizeof(GinScanKeyData));
so->nkeys = 0;
/* initialize expansible array of GinScanEntry pointers */
so->totalentries = 0;
so->allocentries = 32;
so->entries = (GinScanEntry *)
palloc(so->allocentries * sizeof(GinScanEntry));
so->isVoidRes = false;
for (i = 0; i < scan->numberOfKeys; i++)
{
ScanKey skey = &scankey[i];
Datum *queryValues;
int32 nQueryValues = 0;
bool *partial_matches = NULL;
Pointer *extra_data = NULL;
bool *nullFlags = NULL;
GinNullCategory *categories;
int32 searchMode = GIN_SEARCH_MODE_DEFAULT;
/*
* We assume that GIN-indexable operators are strict, so a null query
* argument means an unsatisfiable query.
*/
if (skey->sk_flags & SK_ISNULL)
{
so->isVoidRes = true;
break;
}
/* OK to call the extractQueryFn */
queryValues = (Datum *)
DatumGetPointer(FunctionCall7Coll(&so->ginstate.extractQueryFn[skey->sk_attno - 1],
so->ginstate.supportCollation[skey->sk_attno - 1],
skey->sk_argument,
PointerGetDatum(&nQueryValues),
UInt16GetDatum(skey->sk_strategy),
PointerGetDatum(&partial_matches),
PointerGetDatum(&extra_data),
PointerGetDatum(&nullFlags),
PointerGetDatum(&searchMode)));
/*
* If bogus searchMode is returned, treat as GIN_SEARCH_MODE_ALL; note
* in particular we don't allow extractQueryFn to select
* GIN_SEARCH_MODE_EVERYTHING.
*/
if (searchMode < GIN_SEARCH_MODE_DEFAULT ||
searchMode > GIN_SEARCH_MODE_ALL)
searchMode = GIN_SEARCH_MODE_ALL;
/* Non-default modes require the index to have placeholders */
if (searchMode != GIN_SEARCH_MODE_DEFAULT)
hasNullQuery = true;
/*
* In default mode, no keys means an unsatisfiable query.
*/
if (queryValues == NULL || nQueryValues <= 0)
{
if (searchMode == GIN_SEARCH_MODE_DEFAULT)
{
so->isVoidRes = true;
break;
}
nQueryValues = 0; /* ensure sane value */
}
/*
* Create GinNullCategory representation. If the extractQueryFn
* didn't create a nullFlags array, we assume everything is non-null.
* While at it, detect whether any null keys are present.
*/
categories = (GinNullCategory *) palloc0(nQueryValues * sizeof(GinNullCategory));
if (nullFlags)
{
int32 j;
for (j = 0; j < nQueryValues; j++)
{
if (nullFlags[j])
{
categories[j] = GIN_CAT_NULL_KEY;
hasNullQuery = true;
}
}
}
ginFillScanKey(so, skey->sk_attno,
skey->sk_strategy, searchMode,
skey->sk_argument, nQueryValues,
queryValues, categories,
partial_matches, extra_data);
/* Remember if we had any non-excludeOnly keys */
if (searchMode != GIN_SEARCH_MODE_ALL)
attrHasNormalScan[skey->sk_attno - 1] = true;
}
/*
* Processing GIN_SEARCH_MODE_ALL scan keys requires us to make a second
* pass over the scan keys. Above we marked each such scan key as
* excludeOnly. If the involved column has any normal (not excludeOnly)
* scan key as well, then we can leave it like that. Otherwise, one
* excludeOnly scan key must receive a GIN_CAT_EMPTY_QUERY hidden entry
* and be set to normal (excludeOnly = false).
*/
for (i = 0; i < so->nkeys; i++)
{
GinScanKey key = &so->keys[i];
if (key->searchMode != GIN_SEARCH_MODE_ALL)
continue;
if (!attrHasNormalScan[key->attnum - 1])
{
key->excludeOnly = false;
ginScanKeyAddHiddenEntry(so, key, GIN_CAT_EMPTY_QUERY);
attrHasNormalScan[key->attnum - 1] = true;
}
}
/*
* If there are no regular scan keys, generate an EVERYTHING scankey to
* drive a full-index scan.
*/
if (so->nkeys == 0 && !so->isVoidRes)
{
hasNullQuery = true;
ginFillScanKey(so, FirstOffsetNumber,
InvalidStrategy, GIN_SEARCH_MODE_EVERYTHING,
(Datum) 0, 0,
NULL, NULL, NULL, NULL);
}
/*
* If the index is version 0, it may be missing null and placeholder
* entries, which would render searches for nulls and full-index scans
* unreliable. Throw an error if so.
*/
if (hasNullQuery && !so->isVoidRes)
{
GinStatsData ginStats;
ginGetStats(scan->indexRelation, &ginStats);
if (ginStats.ginVersion < 1)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("old GIN indexes do not support whole-index scans nor searches for nulls"),
errhint("To fix this, do REINDEX INDEX \"%s\".",
RelationGetRelationName(scan->indexRelation))));
}
MemoryContextSwitchTo(oldCtx);
pgstat_count_index_scan(scan->indexRelation);
}
void
ginrescan(IndexScanDesc scan, ScanKey scankey, int nscankeys,
ScanKey orderbys, int norderbys)
{
GinScanOpaque so = (GinScanOpaque) scan->opaque;
ginFreeScanKeys(so);
if (scankey && scan->numberOfKeys > 0)
{
memmove(scan->keyData, scankey,
scan->numberOfKeys * sizeof(ScanKeyData));
}
}
void
ginendscan(IndexScanDesc scan)
{
GinScanOpaque so = (GinScanOpaque) scan->opaque;
ginFreeScanKeys(so);
MemoryContextDelete(so->tempCtx);
MemoryContextDelete(so->keyCtx);
pfree(so);
}
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