-/* $Id: rsmultiandor.c,v 1.18 2005-05-18 11:47:50 adam Exp $
+/* $Id: rsmultiandor.c,v 1.19 2005-05-24 11:35:43 adam Exp $
Copyright (C) 1995-2005
Index Data ApS
struct rset_private {
- int no_rsets;
- RSET *rsets;
+ int dummy;
};
static RSET rsmulti_andor_create(NMEM nmem,
struct rset_key_control *kcontrol,
- int scope, int no_rsets, RSET* rsets,
+ int scope, TERMID termid,
+ int no_rsets, RSET* rsets,
const struct rset_control *ctrl)
{
- RSET rnew = rset_create_base(ctrl, nmem, kcontrol, scope, 0);
+ RSET rnew = rset_create_base(ctrl, nmem, kcontrol, scope, termid,
+ no_rsets, rsets);
struct rset_private *info;
if (!log_level_initialized)
{
log_level_initialized = 1;
}
yaz_log(log_level, "rsmultiand_andor_create scope=%d", scope);
- info = (struct rset_private *) nmem_malloc(rnew->nmem,sizeof(*info));
- info->no_rsets = no_rsets;
- info->rsets = (RSET*)nmem_malloc(rnew->nmem, no_rsets*sizeof(*rsets));
- memcpy(info->rsets,rsets,no_rsets*sizeof(*rsets));
+ info = (struct rset_private *) nmem_malloc(rnew->nmem, sizeof(*info));
rnew->priv = info;
return rnew;
}
RSET rsmulti_or_create(NMEM nmem, struct rset_key_control *kcontrol,
- int scope, int no_rsets, RSET* rsets)
+ int scope, TERMID termid, int no_rsets, RSET* rsets)
{
- return rsmulti_andor_create(nmem, kcontrol, scope,
+ return rsmulti_andor_create(nmem, kcontrol, scope, termid,
no_rsets, rsets, &control_or);
}
RSET rsmulti_and_create(NMEM nmem, struct rset_key_control *kcontrol,
int scope, int no_rsets, RSET* rsets)
{
- return rsmulti_andor_create(nmem, kcontrol, scope,
+ return rsmulti_andor_create(nmem, kcontrol, scope, 0,
no_rsets, rsets, &control_and);
}
static void r_delete (RSET ct)
{
- struct rset_private *info = (struct rset_private *) ct->priv;
- int i;
- for(i = 0; i<info->no_rsets; i++)
- rset_delete(info->rsets[i]);
}
-
/* Opening and closing fd's on them *********************/
static RSFD r_open_andor (RSET ct, int flag, int is_and)
{
RSFD rfd;
struct rfd_private *p;
- struct rset_private *info = (struct rset_private *) ct->priv;
const struct rset_key_control *kctrl = ct->keycontrol;
int i;
p->h = 0;
p->tailbits = 0;
if (is_and)
- p->tailbits = nmem_malloc(ct->nmem, info->no_rsets*sizeof(char) );
+ p->tailbits = nmem_malloc(ct->nmem, ct->no_children*sizeof(char) );
else
- p->h = heap_create( ct->nmem, info->no_rsets, kctrl);
- p->items=(struct heap_item *) nmem_malloc(ct->nmem,
- info->no_rsets*sizeof(*p->items));
- for (i = 0; i<info->no_rsets; i++)
+ p->h = heap_create( ct->nmem, ct->no_children, kctrl);
+ p->items = (struct heap_item *)
+ nmem_malloc(ct->nmem, ct->no_children*sizeof(*p->items));
+ for (i = 0; i<ct->no_children; i++)
{
- p->items[i].rset = info->rsets[i];
+ p->items[i].rset = ct->children[i];
p->items[i].buf = nmem_malloc(ct->nmem, kctrl->key_size);
}
}
p->tailcount = 0;
if (is_and)
{ /* read the array and sort it */
- for (i = 0; i<info->no_rsets; i++){
- p->items[i].fd = rset_open(info->rsets[i],RSETF_READ);
+ for (i = 0; i<ct->no_children; i++){
+ p->items[i].fd = rset_open(ct->children[i], RSETF_READ);
if (!rset_read(p->items[i].fd, p->items[i].buf, &p->items[i].term))
p->eof = 1;
p->tailbits[i] = 0;
}
- qsort(p->items, info->no_rsets, sizeof(p->items[0]), compare_ands);
+ qsort(p->items, ct->no_children, sizeof(p->items[0]), compare_ands);
} else
{ /* fill the heap for ORing */
- for (i = 0; i<info->no_rsets; i++){
- p->items[i].fd = rset_open(info->rsets[i],RSETF_READ);
+ for (i = 0; i<ct->no_children; i++){
+ p->items[i].fd = rset_open(ct->children[i],RSETF_READ);
if ( rset_read(p->items[i].fd, p->items[i].buf, &p->items[i].term))
heap_insert(p->h, &(p->items[i]));
}
static void r_close (RSFD rfd)
{
- struct rset_private *info=
- (struct rset_private *)(rfd->rset->priv);
struct rfd_private *p=(struct rfd_private *)(rfd->priv);
int i;
if (p->h)
heap_destroy (p->h);
- for (i = 0; i<info->no_rsets; i++)
+ for (i = 0; i<rfd->rset->no_children; i++)
if (p->items[i].fd)
rset_close(p->items[i].fd);
- rfd_delete_base(rfd);
}
static int r_forward_or(RSFD rfd, void *buf,
- TERMID *term,const void *untilbuf)
+ TERMID *term, const void *untilbuf)
{ /* while heap head behind untilbuf, forward it and rebalance heap */
struct rfd_private *p = rfd->priv;
const struct rset_key_control *kctrl = rfd->rset->keycontrol;
}
}
- return r_read_or(rfd,buf,term);
+ return r_read_or(rfd, buf, term);
}
static int r_read_or (RSFD rfd, void *buf, TERMID *term)
{
+ RSET rset = rfd->rset;
struct rfd_private *mrfd = rfd->priv;
- const struct rset_key_control *kctrl = rfd->rset->keycontrol;
+ const struct rset_key_control *kctrl = rset->keycontrol;
struct heap_item *it;
int rdres;
if (heap_empty(mrfd->h))
return 0;
it = mrfd->h->heap[1];
- memcpy(buf,it->buf, kctrl->key_size);
+ memcpy(buf, it->buf, kctrl->key_size);
if (term)
- *term = it->term;
+ {
+ if (rset->term)
+ *term = rset->term;
+ else
+ *term = it->term;
+ assert(*term);
+ }
(mrfd->hits)++;
rdres = rset_read(it->fd, it->buf, &it->term);
if ( rdres )
/* value. Mark all as being in the tail. Read next from that */
/* item, and if not in the same record, clear its tail bit */
struct rfd_private *p = rfd->priv;
- const struct rset_key_control *kctrl = rfd->rset->keycontrol;
- struct rset_private *info = rfd->rset->priv;
+ RSET ct = rfd->rset;
+ const struct rset_key_control *kctrl = ct->keycontrol;
int i, mintail;
int cmp;
if (p->tailcount)
{ /* we are tailing, find lowest tail and return it */
mintail = 0;
- while ((mintail<info->no_rsets) && !p->tailbits[mintail])
+ while ((mintail<ct->no_children) && !p->tailbits[mintail])
mintail++; /* first tail */
- for (i = mintail+1; i<info->no_rsets; i++)
+ for (i = mintail+1; i<ct->no_children; i++)
{
if (p->tailbits[i])
{
&p->items[mintail].term))
{
p->eof = 1; /* game over, once tails have been returned */
- p->tailbits[mintail]=0;
+ p->tailbits[mintail] = 0;
(p->tailcount)--;
(p->hits)++;
return 1;
}
/* still a tail? */
- cmp=(*kctrl->cmp)(p->items[mintail].buf,buf);
+ cmp = (*kctrl->cmp)(p->items[mintail].buf,buf);
if (cmp >= rfd->rset->scope){
- p->tailbits[mintail]=0;
+ p->tailbits[mintail] = 0;
(p->tailcount)--;
}
(p->hits)++;
if (p->eof)
return 0; /* nothing more to see */
i = 1; /* assume items[0] is highest up */
- while (i<info->no_rsets) {
- cmp=(*kctrl->cmp)(p->items[0].buf,p->items[i].buf);
- if (cmp<=-rfd->rset->scope) { /* [0] was behind, forward it */
+ while (i<ct->no_children) {
+ cmp = (*kctrl->cmp)(p->items[0].buf, p->items[i].buf);
+ if (cmp <= -rfd->rset->scope) { /* [0] was behind, forward it */
if (!rset_forward(p->items[0].fd, p->items[0].buf,
&p->items[0].term, p->items[i].buf))
{
/* if we get this far, all rsets are now within +- scope of [0] */
/* ergo, we have a hit. Mark them all as tailing, and let the */
/* upper 'if' return the hits in right order */
- for (i = 0; i<info->no_rsets; i++)
+ for (i = 0; i<ct->no_children; i++)
p->tailbits[i] = 1;
- p->tailcount = info->no_rsets;
+ p->tailcount = ct->no_children;
} /* while 1 */
}
const void *untilbuf)
{
struct rfd_private *p = rfd->priv;
- const struct rset_key_control *kctrl = rfd->rset->keycontrol;
- struct rset_private *info = rfd->rset->priv;
+ RSET ct = rfd->rset;
+ const struct rset_key_control *kctrl = ct->keycontrol;
int i;
int cmp;
int killtail = 0;
- for (i = 0; i<info->no_rsets; i++)
+ for (i = 0; i<ct->no_children; i++)
{
cmp = (*kctrl->cmp)(p->items[i].buf,untilbuf);
if (cmp <= -rfd->rset->scope)
}
if (killtail)
{
- for (i = 0; i<info->no_rsets; i++)
+ for (i = 0; i<ct->no_children; i++)
p->tailbits[i] = 0;
p->tailcount = 0;
}
static void r_pos (RSFD rfd, double *current, double *total)
{
- struct rset_private *info =
- (struct rset_private *)(rfd->rset->priv);
+ RSET ct = rfd->rset;
struct rfd_private *mrfd =
(struct rfd_private *)(rfd->priv);
double cur, tot;
double scur = 0.0, stot = 0.0;
int i;
- for (i = 0; i<info->no_rsets; i++){
+ for (i = 0; i<ct->no_children; i++){
rset_pos(mrfd->items[i].fd, &cur, &tot);
yaz_log(log_level, "r_pos: %d %0.1f %0.1f", i, cur,tot);
scur += cur;
}
static void r_get_terms(RSET ct, TERMID *terms, int maxterms, int *curterm)
- /* Special case: Some multi-ors have all terms pointing to the same */
- /* term. We do not want to duplicate those. Other multiors (and ands) */
- /* have different terms under them. Those we want. */
{
- struct rset_private *info =
- (struct rset_private *) ct->priv;
- int firstterm= *curterm;
- int i;
- for (i = 0; i<info->no_rsets; i++)
+ if (ct->term)
+ rset_get_one_term(ct, terms, maxterms, curterm);
+ else
{
- rset_getterms(info->rsets[i], terms, maxterms, curterm);
- if ( ( *curterm > firstterm+1 ) &&
- ( *curterm <= maxterms ) &&
- ( terms[(*curterm)-1] == terms[firstterm] )
- )
- (*curterm)--; /* forget the term, seen that before */
+ /* Special case: Some multi-ors have all terms pointing to the same
+ term. We do not want to duplicate those. Other multiors (and ands)
+ have different terms under them. Those we want.
+ */
+ int firstterm= *curterm;
+ int i;
+
+ for (i = 0; i<ct->no_children; i++)
+ {
+ rset_getterms(ct->children[i], terms, maxterms, curterm);
+ if ( ( *curterm > firstterm+1 ) &&
+ ( *curterm <= maxterms ) &&
+ ( terms[(*curterm)-1] == terms[firstterm] )
+ )
+ (*curterm)--; /* forget the term, seen that before */
+ }
}
}