/*------------------------------------------------------------------------- * * ts_selfuncs.c * Selectivity estimation functions for text search operators. * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * * * IDENTIFICATION * src/backend/tsearch/ts_selfuncs.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/htup_details.h" #include "catalog/pg_statistic.h" #include "catalog/pg_type.h" #include "miscadmin.h" #include "nodes/nodes.h" #include "tsearch/ts_type.h" #include "utils/builtins.h" #include "utils/lsyscache.h" #include "utils/selfuncs.h" #include "utils/syscache.h" /* * The default text search selectivity is chosen to be small enough to * encourage indexscans for typical table densities. See selfuncs.h and * DEFAULT_EQ_SEL for details. */ #define DEFAULT_TS_MATCH_SEL 0.005 /* lookup table type for binary searching through MCELEMs */ typedef struct { text *element; float4 frequency; } TextFreq; /* type of keys for bsearch'ing through an array of TextFreqs */ typedef struct { char *lexeme; int length; } LexemeKey; static Selectivity tsquerysel(VariableStatData *vardata, Datum constval); static Selectivity mcelem_tsquery_selec(TSQuery query, Datum *mcelem, int nmcelem, float4 *numbers, int nnumbers); static Selectivity tsquery_opr_selec(QueryItem *item, char *operand, TextFreq *lookup, int length, float4 minfreq); static int compare_lexeme_textfreq(const void *e1, const void *e2); #define tsquery_opr_selec_no_stats(query) \ tsquery_opr_selec(GETQUERY(query), GETOPERAND(query), NULL, 0, 0) /* * tsmatchsel -- Selectivity of "@@" * * restriction selectivity function for tsvector @@ tsquery and * tsquery @@ tsvector */ Datum tsmatchsel(PG_FUNCTION_ARGS) { PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0); #ifdef NOT_USED Oid operator = PG_GETARG_OID(1); #endif List *args = (List *) PG_GETARG_POINTER(2); int varRelid = PG_GETARG_INT32(3); VariableStatData vardata; Node *other; bool varonleft; Selectivity selec; /* * If expression is not variable = something or something = variable, then * punt and return a default estimate. */ if (!get_restriction_variable(root, args, varRelid, &vardata, &other, &varonleft)) PG_RETURN_FLOAT8(DEFAULT_TS_MATCH_SEL); /* * Can't do anything useful if the something is not a constant, either. */ if (!IsA(other, Const)) { ReleaseVariableStats(vardata); PG_RETURN_FLOAT8(DEFAULT_TS_MATCH_SEL); } /* * The "@@" operator is strict, so we can cope with NULL right away */ if (((Const *) other)->constisnull) { ReleaseVariableStats(vardata); PG_RETURN_FLOAT8(0.0); } /* * OK, there's a Var and a Const we're dealing with here. We need the * Const to be a TSQuery, else we can't do anything useful. We have to * check this because the Var might be the TSQuery not the TSVector. */ if (((Const *) other)->consttype == TSQUERYOID) { /* tsvector @@ tsquery or the other way around */ Assert(vardata.vartype == TSVECTOROID); selec = tsquerysel(&vardata, ((Const *) other)->constvalue); } else { /* If we can't see the query structure, must punt */ selec = DEFAULT_TS_MATCH_SEL; } ReleaseVariableStats(vardata); CLAMP_PROBABILITY(selec); PG_RETURN_FLOAT8((float8) selec); } /* * tsmatchjoinsel -- join selectivity of "@@" * * join selectivity function for tsvector @@ tsquery and tsquery @@ tsvector */ Datum tsmatchjoinsel(PG_FUNCTION_ARGS) { /* for the moment we just punt */ PG_RETURN_FLOAT8(DEFAULT_TS_MATCH_SEL); } /* * @@ selectivity for tsvector var vs tsquery constant */ static Selectivity tsquerysel(VariableStatData *vardata, Datum constval) { Selectivity selec; TSQuery query; /* The caller made sure the const is a TSQuery, so get it now */ query = DatumGetTSQuery(constval); /* Empty query matches nothing */ if (query->size == 0) return (Selectivity) 0.0; if (HeapTupleIsValid(vardata->statsTuple)) { Form_pg_statistic stats; AttStatsSlot sslot; stats = (Form_pg_statistic) GETSTRUCT(vardata->statsTuple); /* MCELEM will be an array of TEXT elements for a tsvector column */ if (get_attstatsslot(&sslot, vardata->statsTuple, STATISTIC_KIND_MCELEM, InvalidOid, ATTSTATSSLOT_VALUES | ATTSTATSSLOT_NUMBERS)) { /* * There is a most-common-elements slot for the tsvector Var, so * use that. */ selec = mcelem_tsquery_selec(query, sslot.values, sslot.nvalues, sslot.numbers, sslot.nnumbers); free_attstatsslot(&sslot); } else { /* No most-common-elements info, so do without */ selec = tsquery_opr_selec_no_stats(query); } /* * MCE stats count only non-null rows, so adjust for null rows. */ selec *= (1.0 - stats->stanullfrac); } else { /* No stats at all, so do without */ selec = tsquery_opr_selec_no_stats(query); /* we assume no nulls here, so no stanullfrac correction */ } return selec; } /* * Extract data from the pg_statistic arrays into useful format. */ static Selectivity mcelem_tsquery_selec(TSQuery query, Datum *mcelem, int nmcelem, float4 *numbers, int nnumbers) { float4 minfreq; TextFreq *lookup; Selectivity selec; int i; /* * There should be two more Numbers than Values, because the last two * cells are taken for minimal and maximal frequency. Punt if not. * * (Note: the MCELEM statistics slot definition allows for a third extra * number containing the frequency of nulls, but we're not expecting that * to appear for a tsvector column.) */ if (nnumbers != nmcelem + 2) return tsquery_opr_selec_no_stats(query); /* * Transpose the data into a single array so we can use bsearch(). */ lookup = (TextFreq *) palloc(sizeof(TextFreq) * nmcelem); for (i = 0; i < nmcelem; i++) { /* * The text Datums came from an array, so it cannot be compressed or * stored out-of-line -- it's safe to use VARSIZE_ANY*. */ Assert(!VARATT_IS_COMPRESSED(mcelem[i]) && !VARATT_IS_EXTERNAL(mcelem[i])); lookup[i].element = (text *) DatumGetPointer(mcelem[i]); lookup[i].frequency = numbers[i]; } /* * Grab the lowest frequency. compute_tsvector_stats() stored it for us in * the one before the last cell of the Numbers array. See ts_typanalyze.c */ minfreq = numbers[nnumbers - 2]; selec = tsquery_opr_selec(GETQUERY(query), GETOPERAND(query), lookup, nmcelem, minfreq); pfree(lookup); return selec; } /* * Traverse the tsquery in preorder, calculating selectivity as: * * selec(left_oper) * selec(right_oper) in AND & PHRASE nodes, * * selec(left_oper) + selec(right_oper) - * selec(left_oper) * selec(right_oper) in OR nodes, * * 1 - select(oper) in NOT nodes * * histogram-based estimation in prefix VAL nodes * * freq[val] in exact VAL nodes, if the value is in MCELEM * min(freq[MCELEM]) / 2 in VAL nodes, if it is not * * The MCELEM array is already sorted (see ts_typanalyze.c), so we can use * binary search for determining freq[MCELEM]. * * If we don't have stats for the tsvector, we still use this logic, * except we use default estimates for VAL nodes. This case is signaled * by lookup == NULL. */ static Selectivity tsquery_opr_selec(QueryItem *item, char *operand, TextFreq *lookup, int length, float4 minfreq) { Selectivity selec; /* since this function recurses, it could be driven to stack overflow */ check_stack_depth(); if (item->type == QI_VAL) { QueryOperand *oper = (QueryOperand *) item; LexemeKey key; /* * Prepare the key for bsearch(). */ key.lexeme = operand + oper->distance; key.length = oper->length; if (oper->prefix) { /* Prefix match, ie the query item is lexeme:* */ Selectivity matched, allmces; int i, n_matched; /* * Our strategy is to scan through the MCELEM list and combine the * frequencies of the ones that match the prefix. We then * extrapolate the fraction of matching MCELEMs to the remaining * rows, assuming that the MCELEMs are representative of the whole * lexeme population in this respect. (Compare * histogram_selectivity().) Note that these are most common * elements not most common values, so they're not mutually * exclusive. We treat occurrences as independent events. * * This is only a good plan if we have a pretty fair number of * MCELEMs available; we set the threshold at 100. If no stats or * insufficient stats, arbitrarily use DEFAULT_TS_MATCH_SEL*4. */ if (lookup == NULL || length < 100) return (Selectivity) (DEFAULT_TS_MATCH_SEL * 4); matched = allmces = 0; n_matched = 0; for (i = 0; i < length; i++) { TextFreq *t = lookup + i; int tlen = VARSIZE_ANY_EXHDR(t->element); if (tlen >= key.length && strncmp(key.lexeme, VARDATA_ANY(t->element), key.length) == 0) { matched += t->frequency - matched * t->frequency; n_matched++; } allmces += t->frequency - allmces * t->frequency; } /* Clamp to ensure sanity in the face of roundoff error */ CLAMP_PROBABILITY(matched); CLAMP_PROBABILITY(allmces); selec = matched + (1.0 - allmces) * ((double) n_matched / length); /* * In any case, never believe that a prefix match has selectivity * less than we would assign for a non-MCELEM lexeme. This * preserves the property that "word:*" should be estimated to * match at least as many rows as "word" would be. */ selec = Max(Min(DEFAULT_TS_MATCH_SEL, minfreq / 2), selec); } else { /* Regular exact lexeme match */ TextFreq *searchres; /* If no stats for the variable, use DEFAULT_TS_MATCH_SEL */ if (lookup == NULL) return (Selectivity) DEFAULT_TS_MATCH_SEL; searchres = (TextFreq *) bsearch(&key, lookup, length, sizeof(TextFreq), compare_lexeme_textfreq); if (searchres) { /* * The element is in MCELEM. Return precise selectivity (or * at least as precise as ANALYZE could find out). */ selec = searchres->frequency; } else { /* * The element is not in MCELEM. Punt, but assume that the * selectivity cannot be more than minfreq / 2. */ selec = Min(DEFAULT_TS_MATCH_SEL, minfreq / 2); } } } else { /* Current TSQuery node is an operator */ Selectivity s1, s2; switch (item->qoperator.oper) { case OP_NOT: selec = 1.0 - tsquery_opr_selec(item + 1, operand, lookup, length, minfreq); break; case OP_PHRASE: case OP_AND: s1 = tsquery_opr_selec(item + 1, operand, lookup, length, minfreq); s2 = tsquery_opr_selec(item + item->qoperator.left, operand, lookup, length, minfreq); selec = s1 * s2; break; case OP_OR: s1 = tsquery_opr_selec(item + 1, operand, lookup, length, minfreq); s2 = tsquery_opr_selec(item + item->qoperator.left, operand, lookup, length, minfreq); selec = s1 + s2 - s1 * s2; break; default: elog(ERROR, "unrecognized operator: %d", item->qoperator.oper); selec = 0; /* keep compiler quiet */ break; } } /* Clamp intermediate results to stay sane despite roundoff error */ CLAMP_PROBABILITY(selec); return selec; } /* * bsearch() comparator for a lexeme (non-NULL terminated string with length) * and a TextFreq. Use length, then byte-for-byte comparison, because that's * how ANALYZE code sorted data before storing it in a statistic tuple. * See ts_typanalyze.c for details. */ static int compare_lexeme_textfreq(const void *e1, const void *e2) { const LexemeKey *key = (const LexemeKey *) e1; const TextFreq *t = (const TextFreq *) e2; int len1, len2; len1 = key->length; len2 = VARSIZE_ANY_EXHDR(t->element); /* Compare lengths first, possibly avoiding a strncmp call */ if (len1 > len2) return 1; else if (len1 < len2) return -1; /* Fall back on byte-for-byte comparison */ return strncmp(key->lexeme, VARDATA_ANY(t->element), len1); }