NMEM nmem;
};
-static int log2_int (zint g)
+static int log2_int(zint g)
{
int n = 0;
if (g < 0)
* create: Creates/Initialises this rank handler. This routine is
* called exactly once. The routine returns the class_handle.
*/
-static void *create (ZebraHandle zh)
+static void *create(ZebraHandle zh)
{
struct rank_class_info *ci =
- (struct rank_class_info *) xmalloc (sizeof(*ci));
+ (struct rank_class_info *) xmalloc(sizeof(*ci));
if (!log_initialized)
{
* when the handler is no longer needed - i.e. when the server
* dies. The class_handle was previously returned by create.
*/
-static void destroy (struct zebra_register *reg, void *class_handle)
+static void destroy(struct zebra_register *reg, void *class_handle)
{
struct rank_class_info *ci = (struct rank_class_info *) class_handle;
yaz_log(log_level, "rank-1 destroy");
- xfree (ci);
+ xfree(ci);
}
* each result set. The returned handle is a "set handle" and
* will be used in each of the handlers below.
*/
-static void *begin (struct zebra_register *reg,
- void *class_handle, RSET rset, NMEM nmem,
- TERMID *terms, int numterms)
+static void *begin(struct zebra_register *reg,
+ void *class_handle, RSET rset, NMEM nmem,
+ TERMID *terms, int numterms)
{
struct rank_set_info *si =
- (struct rank_set_info *) nmem_malloc (nmem,sizeof(*si));
+ (struct rank_set_info *) nmem_malloc(nmem,sizeof(*si));
int i;
yaz_log(log_level, "rank-1 begin");
si->no_rank_entries = 0;
si->nmem=nmem;
si->entries = (struct rank_term_info *)
- nmem_malloc (si->nmem, sizeof(*si->entries)*numterms);
+ nmem_malloc(si->nmem, sizeof(*si->entries)*numterms);
for (i = 0; i < numterms; i++)
{
zint g = rset_count(terms[i]->rset);
yaz_log(log_level, "i=%d flags=%s '%s'", i,
terms[i]->flags, terms[i]->name );
- if (!strncmp (terms[i]->flags, "rank,", 5))
+ if (!strncmp(terms[i]->flags, "rank,", 5))
{
const char *cp = strstr(terms[i]->flags+4, ",w=");
si->entries[i].rank_flag = 1;
if (cp)
- si->entries[i].rank_weight = atoi (cp+3);
+ si->entries[i].rank_weight = atoi(cp+3);
else
si->entries[i].rank_weight = 34; /* sqrroot of 1000 */
yaz_log(log_level, " i=%d weight=%d g="ZINT_FORMAT, i,
si->entries[i].rank_flag = 0;
si->entries[i].local_occur = 0; /* FIXME */
si->entries[i].global_occur = g;
- si->entries[i].global_inv = 32 - log2_int (g);
+ si->entries[i].global_inv = 32 - log2_int(g);
yaz_log(log_level, " global_inv = %d g = " ZINT_FORMAT,
- (int) (32-log2_int (g)), g);
+ (int) (32-log2_int(g)), g);
si->entries[i].term = terms[i];
si->entries[i].term_index=i;
terms[i]->rankpriv = &(si->entries[i]);
* end: Terminates ranking process. Called after a result set
* has been ranked.
*/
-static void end (struct zebra_register *reg, void *set_handle)
+static void end(struct zebra_register *reg, void *set_handle)
{
yaz_log(log_level, "rank-1 end");
/* no need to free anything, they are in nmems */
* should be as fast as possible. This routine should "incrementally"
* update the score.
*/
-static void add (void *set_handle, int seqno, TERMID term)
+static void add(void *set_handle, int seqno, TERMID term)
{
struct rank_set_info *si = (struct rank_set_info *) set_handle;
struct rank_term_info *ti;
* score should be between 0 and 1000. If score cannot be obtained
* -1 should be returned.
*/
-static int calc (void *set_handle, zint sysno, zint staticrank,
- int *stop_flag)
+static int calc(void *set_handle, zint sysno, zint staticrank,
+ int *stop_flag)
{
int i, lo, divisor, score = 0;
struct rank_set_info *si = (struct rank_set_info *) set_handle;
score += (8+log2_int (lo)) * si->entries[i].global_inv *
si->entries[i].rank_weight;
}
- divisor = si->no_rank_entries * (8+log2_int (si->last_pos/si->no_entries));
+ divisor = si->no_rank_entries * (8+log2_int(si->last_pos/si->no_entries));
score = score / divisor;
yaz_log(log_level, "calc sysno=" ZINT_FORMAT " score=%d", sysno, score);
if (score > 1000)
projects / idzebra-moved-to-github.git / commitdiff