/*------------------------------------------------------------------------- * * tsvector.c * I/O functions for tsvector * * Portions Copyright (c) 1996-2007, PostgreSQL Global Development Group * * * IDENTIFICATION * $PostgreSQL: pgsql/src/backend/utils/adt/tsvector.c,v 1.7 2007/11/15 21:14:39 momjian Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "libpq/pqformat.h" #include "tsearch/ts_type.h" #include "tsearch/ts_locale.h" #include "tsearch/ts_utils.h" #include "utils/memutils.h" typedef struct { WordEntry entry; /* must be first! */ WordEntryPos *pos; int poslen; /* number of elements in pos */ } WordEntryIN; /* Compare two WordEntryPos values for qsort */ static int comparePos(const void *a, const void *b) { int apos = WEP_GETPOS(*(const WordEntryPos *) a); int bpos = WEP_GETPOS(*(const WordEntryPos *) b); if (apos == bpos) return 0; return (apos > bpos) ? 1 : -1; } /* * Removes duplicate pos entries. If there's two entries with same pos * but different weight, the higher weight is retained. * * Returns new length. */ static int uniquePos(WordEntryPos * a, int l) { WordEntryPos *ptr, *res; if (l <= 1) return l; qsort((void *) a, l, sizeof(WordEntryPos), comparePos); res = a; ptr = a + 1; while (ptr - a < l) { if (WEP_GETPOS(*ptr) != WEP_GETPOS(*res)) { res++; *res = *ptr; if (res - a >= MAXNUMPOS - 1 || WEP_GETPOS(*res) == MAXENTRYPOS - 1) break; } else if (WEP_GETWEIGHT(*ptr) > WEP_GETWEIGHT(*res)) WEP_SETWEIGHT(*res, WEP_GETWEIGHT(*ptr)); ptr++; } return res + 1 - a; } /* Compare two WordEntryIN values for qsort */ static int compareentry(const void *va, const void *vb, void *arg) { const WordEntryIN *a = (const WordEntryIN *) va; const WordEntryIN *b = (const WordEntryIN *) vb; char *BufferStr = (char *) arg; if (a->entry.len == b->entry.len) { return strncmp(&BufferStr[a->entry.pos], &BufferStr[b->entry.pos], a->entry.len); } return (a->entry.len > b->entry.len) ? 1 : -1; } /* * Sort an array of WordEntryIN, remove duplicates. * *outbuflen receives the amount of space needed for strings and positions. */ static int uniqueentry(WordEntryIN * a, int l, char *buf, int *outbuflen) { int buflen; WordEntryIN *ptr, *res; Assert(l >= 1); if (l > 1) qsort_arg((void *) a, l, sizeof(WordEntryIN), compareentry, (void *) buf); buflen = 0; res = a; ptr = a + 1; while (ptr - a < l) { if (!(ptr->entry.len == res->entry.len && strncmp(&buf[ptr->entry.pos], &buf[res->entry.pos], res->entry.len) == 0)) { /* done accumulating data into *res, count space needed */ buflen += res->entry.len; if (res->entry.haspos) { res->poslen = uniquePos(res->pos, res->poslen); buflen = SHORTALIGN(buflen); buflen += res->poslen * sizeof(WordEntryPos) + sizeof(uint16); } res++; memcpy(res, ptr, sizeof(WordEntryIN)); } else if (ptr->entry.haspos) { if (res->entry.haspos) { /* append ptr's positions to res's positions */ int newlen = ptr->poslen + res->poslen; res->pos = (WordEntryPos *) repalloc(res->pos, newlen * sizeof(WordEntryPos)); memcpy(&res->pos[res->poslen], ptr->pos, ptr->poslen * sizeof(WordEntryPos)); res->poslen = newlen; pfree(ptr->pos); } else { /* just give ptr's positions to pos */ res->entry.haspos = 1; res->pos = ptr->pos; res->poslen = ptr->poslen; } } ptr++; } /* count space needed for last item */ buflen += res->entry.len; if (res->entry.haspos) { res->poslen = uniquePos(res->pos, res->poslen); buflen = SHORTALIGN(buflen); buflen += res->poslen * sizeof(WordEntryPos) + sizeof(uint16); } *outbuflen = buflen; return res + 1 - a; } static int WordEntryCMP(WordEntry * a, WordEntry * b, char *buf) { return compareentry(a, b, buf); } Datum tsvectorin(PG_FUNCTION_ARGS) { char *buf = PG_GETARG_CSTRING(0); TSVectorParseState state; WordEntryIN *arr; int totallen; int arrlen; /* allocated size of arr */ WordEntry *inarr; int len = 0; TSVector in; int i; char *token; int toklen; WordEntryPos *pos; int poslen; char *strbuf; int stroff; /* * Tokens are appended to tmpbuf, cur is a pointer to the end of used * space in tmpbuf. */ char *tmpbuf; char *cur; int buflen = 256; /* allocated size of tmpbuf */ pg_verifymbstr(buf, strlen(buf), false); state = init_tsvector_parser(buf, false, false); arrlen = 64; arr = (WordEntryIN *) palloc(sizeof(WordEntryIN) * arrlen); cur = tmpbuf = (char *) palloc(buflen); while (gettoken_tsvector(state, &token, &toklen, &pos, &poslen, NULL)) { if (toklen >= MAXSTRLEN) ereport(ERROR, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg("word is too long (%ld bytes, max %ld bytes)", (long) toklen, (long) (MAXSTRLEN - 1)))); if (cur - tmpbuf > MAXSTRPOS) ereport(ERROR, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg("string is too long for tsvector"))); /* * Enlarge buffers if needed */ if (len >= arrlen) { arrlen *= 2; arr = (WordEntryIN *) repalloc((void *) arr, sizeof(WordEntryIN) * arrlen); } while ((cur - tmpbuf) + toklen >= buflen) { int dist = cur - tmpbuf; buflen *= 2; tmpbuf = (char *) repalloc((void *) tmpbuf, buflen); cur = tmpbuf + dist; } arr[len].entry.len = toklen; arr[len].entry.pos = cur - tmpbuf; memcpy((void *) cur, (void *) token, toklen); cur += toklen; if (poslen != 0) { arr[len].entry.haspos = 1; arr[len].pos = pos; arr[len].poslen = poslen; } else { arr[len].entry.haspos = 0; arr[len].pos = NULL; arr[len].poslen = 0; } len++; } close_tsvector_parser(state); if (len > 0) len = uniqueentry(arr, len, tmpbuf, &buflen); else buflen = 0; if (buflen > MAXSTRPOS) ereport(ERROR, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg("string is too long for tsvector"))); totallen = CALCDATASIZE(len, buflen); in = (TSVector) palloc0(totallen); SET_VARSIZE(in, totallen); in->size = len; inarr = ARRPTR(in); strbuf = STRPTR(in); stroff = 0; for (i = 0; i < len; i++) { memcpy(strbuf + stroff, &tmpbuf[arr[i].entry.pos], arr[i].entry.len); arr[i].entry.pos = stroff; stroff += arr[i].entry.len; if (arr[i].entry.haspos) { if (arr[i].poslen > 0xFFFF) elog(ERROR, "positions array too long"); /* Copy number of positions */ stroff = SHORTALIGN(stroff); *(uint16 *) (strbuf + stroff) = (uint16) arr[i].poslen; stroff += sizeof(uint16); /* Copy positions */ memcpy(strbuf + stroff, arr[i].pos, arr[i].poslen * sizeof(WordEntryPos)); stroff += arr[i].poslen * sizeof(WordEntryPos); pfree(arr[i].pos); } inarr[i] = arr[i].entry; } Assert((strbuf + stroff - (char *) in) == totallen); PG_RETURN_TSVECTOR(in); } Datum tsvectorout(PG_FUNCTION_ARGS) { TSVector out = PG_GETARG_TSVECTOR(0); char *outbuf; int4 i, lenbuf = 0, pp; WordEntry *ptr = ARRPTR(out); char *curbegin, *curin, *curout; lenbuf = out->size * 2 /* '' */ + out->size - 1 /* space */ + 2 /* \0 */ ; for (i = 0; i < out->size; i++) { lenbuf += ptr[i].len * 2 * pg_database_encoding_max_length() /* for escape */ ; if (ptr[i].haspos) lenbuf += 1 /* : */ + 7 /* int2 + , + weight */ * POSDATALEN(out, &(ptr[i])); } curout = outbuf = (char *) palloc(lenbuf); for (i = 0; i < out->size; i++) { curbegin = curin = STRPTR(out) + ptr->pos; if (i != 0) *curout++ = ' '; *curout++ = '\''; while (curin - curbegin < ptr->len) { int len = pg_mblen(curin); if (t_iseq(curin, '\'')) *curout++ = '\''; while (len--) *curout++ = *curin++; } *curout++ = '\''; if ((pp = POSDATALEN(out, ptr)) != 0) { WordEntryPos *wptr; *curout++ = ':'; wptr = POSDATAPTR(out, ptr); while (pp) { curout += sprintf(curout, "%d", WEP_GETPOS(*wptr)); switch (WEP_GETWEIGHT(*wptr)) { case 3: *curout++ = 'A'; break; case 2: *curout++ = 'B'; break; case 1: *curout++ = 'C'; break; case 0: default: break; } if (pp > 1) *curout++ = ','; pp--; wptr++; } } ptr++; } *curout = '\0'; PG_FREE_IF_COPY(out, 0); PG_RETURN_CSTRING(outbuf); } /* * Binary Input / Output functions. The binary format is as follows: * * uint32 number of lexemes * * for each lexeme: * lexeme text in client encoding, null-terminated * uint16 number of positions * for each position: * uint16 WordEntryPos */ Datum tsvectorsend(PG_FUNCTION_ARGS) { TSVector vec = PG_GETARG_TSVECTOR(0); StringInfoData buf; int i, j; WordEntry *weptr = ARRPTR(vec); pq_begintypsend(&buf); pq_sendint(&buf, vec->size, sizeof(int32)); for (i = 0; i < vec->size; i++) { uint16 npos; /* * the strings in the TSVector array are not null-terminated, so we * have to send the null-terminator separately */ pq_sendtext(&buf, STRPTR(vec) + weptr->pos, weptr->len); pq_sendbyte(&buf, '\0'); npos = POSDATALEN(vec, weptr); pq_sendint(&buf, npos, sizeof(uint16)); if (npos > 0) { WordEntryPos *wepptr = POSDATAPTR(vec, weptr); for (j = 0; j < npos; j++) pq_sendint(&buf, wepptr[j], sizeof(WordEntryPos)); } weptr++; } PG_RETURN_BYTEA_P(pq_endtypsend(&buf)); } Datum tsvectorrecv(PG_FUNCTION_ARGS) { StringInfo buf = (StringInfo) PG_GETARG_POINTER(0); TSVector vec; int i; int32 nentries; int datalen; /* number of bytes used in the variable size * area after fixed size TSVector header and * WordEntries */ Size hdrlen; Size len; /* allocated size of vec */ nentries = pq_getmsgint(buf, sizeof(int32)); if (nentries < 0 || nentries > (MaxAllocSize / sizeof(WordEntry))) elog(ERROR, "invalid size of tsvector"); hdrlen = DATAHDRSIZE + sizeof(WordEntry) * nentries; len = hdrlen * 2; /* times two to make room for lexemes */ vec = (TSVector) palloc0(len); vec->size = nentries; datalen = 0; for (i = 0; i < nentries; i++) { const char *lexeme; uint16 npos; size_t lex_len; lexeme = pq_getmsgstring(buf); npos = (uint16) pq_getmsgint(buf, sizeof(uint16)); /* sanity checks */ lex_len = strlen(lexeme); if (lex_len < 0 || lex_len > MAXSTRLEN) elog(ERROR, "invalid tsvector; lexeme too long"); if (datalen > MAXSTRPOS) elog(ERROR, "invalid tsvector; maximum total lexeme length exceeded"); if (npos > MAXNUMPOS) elog(ERROR, "unexpected number of positions"); /* * Looks valid. Fill the WordEntry struct, and copy lexeme. * * But make sure the buffer is large enough first. */ while (hdrlen + SHORTALIGN(datalen + lex_len) + (npos + 1) * sizeof(WordEntryPos) >= len) { len *= 2; vec = (TSVector) repalloc(vec, len); } vec->entries[i].haspos = (npos > 0) ? 1 : 0; vec->entries[i].len = lex_len; vec->entries[i].pos = datalen; memcpy(STRPTR(vec) + datalen, lexeme, lex_len); datalen += lex_len; if (i > 0 && WordEntryCMP(&vec->entries[i], &vec->entries[i - 1], STRPTR(vec)) <= 0) elog(ERROR, "lexemes are misordered"); /* Receive positions */ if (npos > 0) { uint16 j; WordEntryPos *wepptr; /* * Pad to 2-byte alignment if necessary. Though we used palloc0 * for the initial allocation, subsequent repalloc'd memory areas * are not initialized to zero. */ if (datalen != SHORTALIGN(datalen)) { *(STRPTR(vec) + datalen) = '\0'; datalen = SHORTALIGN(datalen); } memcpy(STRPTR(vec) + datalen, &npos, sizeof(uint16)); wepptr = POSDATAPTR(vec, &vec->entries[i]); for (j = 0; j < npos; j++) { wepptr[j] = (WordEntryPos) pq_getmsgint(buf, sizeof(WordEntryPos)); if (j > 0 && WEP_GETPOS(wepptr[j]) <= WEP_GETPOS(wepptr[j - 1])) elog(ERROR, "position information is misordered"); } datalen += (npos + 1) * sizeof(WordEntry); } } SET_VARSIZE(vec, hdrlen + datalen); PG_RETURN_TSVECTOR(vec); }