/* * op function for ltree and lquery * Teodor Sigaev * contrib/ltree/lquery_op.c */ #include "postgres.h" #include #include "catalog/pg_collation.h" #include "ltree.h" #include "miscadmin.h" #include "utils/formatting.h" PG_FUNCTION_INFO_V1(ltq_regex); PG_FUNCTION_INFO_V1(ltq_rregex); PG_FUNCTION_INFO_V1(lt_q_regex); PG_FUNCTION_INFO_V1(lt_q_rregex); #define NEXTVAL(x) ( (lquery*)( (char*)(x) + INTALIGN( VARSIZE(x) ) ) ) static char * getlexeme(char *start, char *end, int *len) { char *ptr; int charlen; while (start < end && (charlen = pg_mblen(start)) == 1 && t_iseq(start, '_')) start += charlen; ptr = start; if (ptr >= end) return NULL; while (ptr < end && !((charlen = pg_mblen(ptr)) == 1 && t_iseq(ptr, '_'))) ptr += charlen; *len = ptr - start; return start; } bool compare_subnode(ltree_level *t, char *qn, int len, int (*cmpptr) (const char *, const char *, size_t), bool anyend) { char *endt = t->name + t->len; char *endq = qn + len; char *tn; int lent, lenq; bool isok; while ((qn = getlexeme(qn, endq, &lenq)) != NULL) { tn = t->name; isok = false; while ((tn = getlexeme(tn, endt, &lent)) != NULL) { if ((lent == lenq || (lent > lenq && anyend)) && (*cmpptr) (qn, tn, lenq) == 0) { isok = true; break; } tn += lent; } if (!isok) return false; qn += lenq; } return true; } int ltree_strncasecmp(const char *a, const char *b, size_t s) { char *al = str_tolower(a, s, DEFAULT_COLLATION_OID); char *bl = str_tolower(b, s, DEFAULT_COLLATION_OID); int res; res = strncmp(al, bl, s); pfree(al); pfree(bl); return res; } /* * See if an lquery_level matches an ltree_level * * This accounts for all flags including LQL_NOT, but does not * consider repetition counts. */ static bool checkLevel(lquery_level *curq, ltree_level *curt) { lquery_variant *curvar = LQL_FIRST(curq); bool success; success = (curq->flag & LQL_NOT) ? false : true; /* numvar == 0 means '*' which matches anything */ if (curq->numvar == 0) return success; for (int i = 0; i < curq->numvar; i++) { int (*cmpptr) (const char *, const char *, size_t); cmpptr = (curvar->flag & LVAR_INCASE) ? ltree_strncasecmp : strncmp; if (curvar->flag & LVAR_SUBLEXEME) { if (compare_subnode(curt, curvar->name, curvar->len, cmpptr, (curvar->flag & LVAR_ANYEND))) return success; } else if ((curvar->len == curt->len || (curt->len > curvar->len && (curvar->flag & LVAR_ANYEND))) && (*cmpptr) (curvar->name, curt->name, curvar->len) == 0) return success; curvar = LVAR_NEXT(curvar); } return !success; } /* * Try to match an lquery (of qlen items) to an ltree (of tlen items) */ static bool checkCond(lquery_level *curq, int qlen, ltree_level *curt, int tlen) { /* Since this function recurses, it could be driven to stack overflow */ check_stack_depth(); /* Pathological patterns could take awhile, too */ CHECK_FOR_INTERRUPTS(); /* Loop while we have query items to consider */ while (qlen > 0) { int low, high; lquery_level *nextq; /* * Get min and max repetition counts for this query item, dealing with * the backwards-compatibility hack that the low/high fields aren't * meaningful for non-'*' items unless LQL_COUNT is set. */ if ((curq->flag & LQL_COUNT) || curq->numvar == 0) low = curq->low, high = curq->high; else low = high = 1; /* * We may limit "high" to the remaining text length; this avoids * separate tests below. */ if (high > tlen) high = tlen; /* Fail if a match of required number of items is impossible */ if (high < low) return false; /* * Recursively check the rest of the pattern against each possible * start point following some of this item's match(es). */ nextq = LQL_NEXT(curq); qlen--; for (int matchcnt = 0; matchcnt < high; matchcnt++) { /* * If we've consumed an acceptable number of matches of this item, * and the rest of the pattern matches beginning here, we're good. */ if (matchcnt >= low && checkCond(nextq, qlen, curt, tlen)) return true; /* * Otherwise, try to match one more text item to this query item. */ if (!checkLevel(curq, curt)) return false; curt = LEVEL_NEXT(curt); tlen--; } /* * Once we've consumed "high" matches, we can succeed only if the rest * of the pattern matches beginning here. Loop around (if you prefer, * think of this as tail recursion). */ curq = nextq; } /* * Once we're out of query items, we match only if there's no remaining * text either. */ return (tlen == 0); } Datum ltq_regex(PG_FUNCTION_ARGS) { ltree *tree = PG_GETARG_LTREE_P(0); lquery *query = PG_GETARG_LQUERY_P(1); bool res; res = checkCond(LQUERY_FIRST(query), query->numlevel, LTREE_FIRST(tree), tree->numlevel); PG_FREE_IF_COPY(tree, 0); PG_FREE_IF_COPY(query, 1); PG_RETURN_BOOL(res); } Datum ltq_rregex(PG_FUNCTION_ARGS) { PG_RETURN_DATUM(DirectFunctionCall2(ltq_regex, PG_GETARG_DATUM(1), PG_GETARG_DATUM(0) )); } Datum lt_q_regex(PG_FUNCTION_ARGS) { ltree *tree = PG_GETARG_LTREE_P(0); ArrayType *_query = PG_GETARG_ARRAYTYPE_P(1); lquery *query = (lquery *) ARR_DATA_PTR(_query); bool res = false; int num = ArrayGetNItems(ARR_NDIM(_query), ARR_DIMS(_query)); if (ARR_NDIM(_query) > 1) ereport(ERROR, (errcode(ERRCODE_ARRAY_SUBSCRIPT_ERROR), errmsg("array must be one-dimensional"))); if (array_contains_nulls(_query)) ereport(ERROR, (errcode(ERRCODE_NULL_VALUE_NOT_ALLOWED), errmsg("array must not contain nulls"))); while (num > 0) { if (DatumGetBool(DirectFunctionCall2(ltq_regex, PointerGetDatum(tree), PointerGetDatum(query)))) { res = true; break; } num--; query = NEXTVAL(query); } PG_FREE_IF_COPY(tree, 0); PG_FREE_IF_COPY(_query, 1); PG_RETURN_BOOL(res); } Datum lt_q_rregex(PG_FUNCTION_ARGS) { PG_RETURN_DATUM(DirectFunctionCall2(lt_q_regex, PG_GETARG_DATUM(1), PG_GETARG_DATUM(0) )); }