+
+ zh->errCode = 0;
+ zh->errString = NULL;
+ zh->hits = 0;
+
+ zebraSet = resultSetAdd (zh, setname, 1);
+ if (!zebraSet)
+ return 0;
+ zebraSet->locked = 1;
+ zebraSet->rpn = 0;
+ zebraSet->nmem = m;
+ zebraSet->rset_nmem=nmem_create();
+
+ zebraSet->num_bases = num_bases;
+ zebraSet->basenames =
+ nmem_malloc (zebraSet->nmem, num_bases * sizeof(*zebraSet->basenames));
+ for (i = 0; i<num_bases; i++)
+ zebraSet->basenames[i] = nmem_strdup (zebraSet->nmem, basenames[i]);
+
+
+ zebraSet->rset = rpn_search (zh, zebraSet->nmem, zebraSet->rset_nmem,
+ rpn, zebraSet->num_bases,
+ zebraSet->basenames, zebraSet->name,
+ zebraSet);
+ zh->hits = zebraSet->hits;
+ if (zebraSet->rset)
+ zebraSet->rpn = rpn;
+ zebraSet->locked = 0;
+ return zebraSet;
+}
+
+void resultSetAddTerm (ZebraHandle zh, ZebraSet s, int reg_type,
+ const char *db, int set,
+ int use, const char *term)
+{
+ assert(zh); /* compiler shut up */
+ if (!s->nmem)
+ s->nmem = nmem_create ();
+ if (!s->term_entries)
+ {
+ int i;
+ s->term_entries_max = 1000;
+ s->term_entries =
+ nmem_malloc (s->nmem, s->term_entries_max *
+ sizeof(*s->term_entries));
+ for (i = 0; i < s->term_entries_max; i++)
+ s->term_entries[i].term = 0;
+ }
+ if (s->hits < s->term_entries_max)
+ {
+ s->term_entries[s->hits].reg_type = reg_type;
+ s->term_entries[s->hits].db = nmem_strdup (s->nmem, db);
+ s->term_entries[s->hits].set = set;
+ s->term_entries[s->hits].use = use;
+ s->term_entries[s->hits].term = nmem_strdup (s->nmem, term);
+ }
+ (s->hits)++;