/*
- * Copyright (C) 1995-1998, Index Data
+ * Copyright (C) 1995-1999, Index Data
* All rights reserved.
* Sebastian Hammer, Adam Dickmeiss
*
* $Log: zrpn.c,v $
- * Revision 1.90 1998-11-16 16:03:43 adam
+ * Revision 1.93 1999-06-17 14:38:40 adam
+ * Bug fix: Scan SEGV'ed when getting unknown use attribute.
+ *
+ * Revision 1.92 1999/05/26 07:49:13 adam
+ * C++ compilation.
+ *
+ * Revision 1.91 1999/02/02 14:51:13 adam
+ * Updated WIN32 code specific sections. Changed header.
+ *
+ * Revision 1.90 1998/11/16 16:03:43 adam
* Moved loggin utilities to Yaz. Was implemented in file zlogs.c.
*
* Revision 1.89 1998/11/16 10:11:55 adam
*/
#include <stdio.h>
#include <assert.h>
-#ifdef WINDOWS
+#ifdef WIN32
#include <io.h>
#else
#include <unistd.h>
static const char **rpn_char_map_handler (void *vp, const char **from, int len)
{
- struct rpn_char_map_info *p = vp;
+ struct rpn_char_map_info *p = (struct rpn_char_map_info *) vp;
return zebra_maps_input (p->zm, p->reg_type, from, len);
}
int *new_term_no;
#endif
p->isam_p_size = 2*p->isam_p_size + 100;
- new_isam_p_buf = xmalloc (sizeof(*new_isam_p_buf) *
- p->isam_p_size);
+ new_isam_p_buf = (ISAM_P *) xmalloc (sizeof(*new_isam_p_buf) *
+ p->isam_p_size);
if (p->isam_p_buf)
{
memcpy (new_isam_p_buf, p->isam_p_buf,
p->isam_p_buf = new_isam_p_buf;
#ifdef TERM_COUNT
- new_term_no = xmalloc (sizeof(*new_term_no) *
- p->isam_p_size);
+ new_term_no = (int *) xmalloc (sizeof(*new_term_no) *
+ p->isam_p_size);
if (p->term_no)
{
memcpy (new_term_no, p->isam_p_buf,
static int grep_handle (char *name, const char *info, void *p)
{
- add_isam_p (name, info, p);
+ add_isam_p (name, info, (struct grep_info *) p);
return 0;
}
int term_index;
const char *flags = NULL;
- rsfd = xmalloc (sizeof(*rsfd)*rset_no);
- more = xmalloc (sizeof(*more)*rset_no);
- buf = xmalloc (sizeof(*buf)*rset_no);
+ rsfd = (RSFD *) xmalloc (sizeof(*rsfd)*rset_no);
+ more = (int *) xmalloc (sizeof(*more)*rset_no);
+ buf = (struct it_key **) xmalloc (sizeof(*buf)*rset_no);
for (i = 0; i<rset_no; i++)
{
int j;
- buf[i] = xmalloc (sizeof(**buf));
+ buf[i] = (struct it_key *) xmalloc (sizeof(**buf));
rsfd[i] = rset_open (rset[i], RSETF_READ);
if (!(more[i] = rset_read (rset[i], rsfd[i], buf[i], &term_index)))
break;
grep_info.isam_p_indx, term_dst,
strlen(term_dst), rank_type);
assert (rset[rset_no]);
- if (++rset_no >= sizeof(rset)/sizeof(*rset))
+ if (++rset_no >= (int) (sizeof(rset)/sizeof(*rset)))
break;
}
#ifdef TERM_COUNT
grep_info.isam_p_indx, term_dst,
strlen(term_dst), rank_type);
assert (rset[rset_no]);
- if (++rset_no >= sizeof(rset)/sizeof(*rset))
+ if (++rset_no >= (int) (sizeof(rset)/sizeof(*rset)))
break;
}
#ifdef TERM_COUNT
grep_info.isam_p_indx, term_dst,
strlen(term_dst), rank_type);
assert (rset[rset_no]);
- if (++rset_no >= sizeof(rset)/sizeof(*rset))
+ if (++rset_no >= (int) (sizeof(rset)/sizeof(*rset)))
break;
}
#ifdef TERM_COUNT
grep_info.isam_p_indx, term_dst,
strlen(term_dst), rank_type);
assert (rset[rset_no]);
- if (++rset_no >= sizeof(rset)/sizeof(*rset))
+ if (++rset_no >= (int) (sizeof(rset)/sizeof(*rset)))
break;
}
#ifdef TERM_COUNT
if (!sort_sequence->specs)
{
sort_sequence->num_specs = 10;
- sort_sequence->specs = nmem_malloc (stream, sort_sequence->num_specs *
- sizeof(*sort_sequence->specs));
+ sort_sequence->specs = (Z_SortKeySpec **)
+ nmem_malloc (stream, sort_sequence->num_specs *
+ sizeof(*sort_sequence->specs));
for (i = 0; i<sort_sequence->num_specs; i++)
sort_sequence->specs[i] = 0;
}
if (zapt->term->which != Z_Term_general)
i = 0;
else
- i = atoi_n (zapt->term->u.general->buf, zapt->term->u.general->len);
+ i = atoi_n ((char *) zapt->term->u.general->buf,
+ zapt->term->u.general->len);
if (i >= sort_sequence->num_specs)
i = 0;
if (!oid_ent_to_oid (&oe, oid))
return 0;
- sks = nmem_malloc (stream, sizeof(*sks));
- sks->sortElement = nmem_malloc (stream, sizeof(*sks->sortElement));
+ sks = (Z_SortKeySpec *) nmem_malloc (stream, sizeof(*sks));
+ sks->sortElement = (Z_SortElement *)
+ nmem_malloc (stream, sizeof(*sks->sortElement));
sks->sortElement->which = Z_SortElement_generic;
- sk = sks->sortElement->u.generic = nmem_malloc (stream, sizeof(*sk));
+ sk = sks->sortElement->u.generic = (Z_SortKey *)
+ nmem_malloc (stream, sizeof(*sk));
sk->which = Z_SortKey_sortAttributes;
- sk->u.sortAttributes = nmem_malloc (stream, sizeof(*sk->u.sortAttributes));
+ sk->u.sortAttributes = (Z_SortAttributes *)
+ nmem_malloc (stream, sizeof(*sk->u.sortAttributes));
sk->u.sortAttributes->id = oid;
- sk->u.sortAttributes->list =
+ sk->u.sortAttributes->list = (Z_AttributeList *)
nmem_malloc (stream, sizeof(*sk->u.sortAttributes->list));
sk->u.sortAttributes->list->num_attributes = 1;
- sk->u.sortAttributes->list->attributes =
+ sk->u.sortAttributes->list->attributes = (Z_AttributeElement **)
nmem_malloc (stream, sizeof(*sk->u.sortAttributes->list->attributes));
- ae = *sk->u.sortAttributes->list->attributes =
+ ae = *sk->u.sortAttributes->list->attributes = (Z_AttributeElement *)
nmem_malloc (stream, sizeof(**sk->u.sortAttributes->list->attributes));
ae->attributeSet = 0;
- ae->attributeType = nmem_malloc (stream, sizeof(*ae->attributeType));
+ ae->attributeType = (int *)
+ nmem_malloc (stream, sizeof(*ae->attributeType));
*ae->attributeType = 1;
ae->which = Z_AttributeValue_numeric;
- ae->value.numeric = nmem_malloc (stream, sizeof(*ae->value.numeric));
+ ae->value.numeric = (int *)
+ nmem_malloc (stream, sizeof(*ae->value.numeric));
*ae->value.numeric = use_value;
- sks->sortRelation = nmem_malloc (stream, sizeof(*sks->sortRelation));
+ sks->sortRelation = (int *)
+ nmem_malloc (stream, sizeof(*sks->sortRelation));
if (sort_relation_value == 1)
*sks->sortRelation = Z_SortRelation_ascending;
else if (sort_relation_value == 2)
else
*sks->sortRelation = Z_SortRelation_ascending;
- sks->caseSensitivity = nmem_malloc (stream, sizeof(*sks->caseSensitivity));
+ sks->caseSensitivity = (int *)
+ nmem_malloc (stream, sizeof(*sks->caseSensitivity));
*sks->caseSensitivity = 0;
#ifdef ASN_COMPILED
#ifdef ASN_COMPILED
if (*zop->u.prox->u.known != Z_ProxUnit_word)
{
- char *val = nmem_malloc (stream, 16);
+ char *val = (char *) nmem_malloc (stream, 16);
zh->errCode = 132;
zh->errString = val;
sprintf (val, "%d", *zop->u.prox->u.known);
#else
if (*zop->u.prox->proximityUnitCode != Z_ProxUnit_word)
{
- char *val = nmem_malloc (stream, 16);
+ char *val = (char *) nmem_malloc (stream, 16);
zh->errCode = 132;
zh->errString = val;
sprintf (val, "%d", *zop->u.prox->proximityUnitCode);
zh->errString = NULL;
zh->hits = 0;
- sort_sequence = nmem_malloc (nmem, sizeof(*sort_sequence));
+ sort_sequence = (Z_SortKeySpecList *)
+ nmem_malloc (nmem, sizeof(*sort_sequence));
sort_sequence->num_specs = 10;
- sort_sequence->specs = nmem_malloc (nmem, sort_sequence->num_specs *
- sizeof(*sort_sequence->specs));
+ sort_sequence->specs = (Z_SortKeySpec **)
+ nmem_malloc (nmem, sort_sequence->num_specs *
+ sizeof(*sort_sequence->specs));
for (i = 0; i<sort_sequence->num_specs; i++)
sort_sequence->specs[i] = 0;
static int scan_handle (char *name, const char *info, int pos, void *client)
{
int len_prefix, idx;
- struct scan_info *scan_info = client;
+ struct scan_info *scan_info = (struct scan_info *) client;
len_prefix = strlen(scan_info->prefix);
if (memcmp (name, scan_info->prefix, len_prefix))
idx = scan_info->after - pos + scan_info->before;
else
idx = - pos - 1;
- scan_info->list[idx].term = odr_malloc (scan_info->odr,
- strlen(name + len_prefix)+1);
+ scan_info->list[idx].term = (char *)
+ odr_malloc (scan_info->odr, strlen(name + len_prefix)+1);
strcpy (scan_info->list[idx].term, name + len_prefix);
assert (*info == sizeof(ISAM_P));
memcpy (&scan_info->list[idx].isam_p, info+1, sizeof(ISAM_P));
term_untrans (zh, reg_type, term_dst, src);
- *dst = nmem_malloc (stream, strlen(term_dst)+1);
+ *dst = (char *) nmem_malloc (stream, strlen(term_dst)+1);
strcpy (*dst, term_dst);
}
char *rank_type = NULL;
int complete_flag;
int sort_flag;
+ *list = 0;
if (attributeset == VAL_NONE)
attributeset = VAL_BIB1;
zh->errCode = 114;
else
zh->errCode = 121;
+ *num_entries = 0;
+ return;
}
if (zebraExplain_curDatabase (zh->zei, basenames[base_no]))
{
/* prepare dictionary scanning */
before = pos-1;
after = 1+num-pos;
- scan_info_array = odr_malloc (stream, ord_no * sizeof(*scan_info_array));
+ scan_info_array = (struct scan_info *)
+ odr_malloc (stream, ord_no * sizeof(*scan_info_array));
for (i = 0; i < ord_no; i++)
{
int j, prefix_len = 0;
scan_info->after = after;
scan_info->odr = stream;
- scan_info->list = odr_malloc (stream, (before+after)*
- sizeof(*scan_info->list));
+ scan_info->list = (struct scan_info_entry *)
+ odr_malloc (stream, (before+after) * sizeof(*scan_info->list));
for (j = 0; j<before+after; j++)
scan_info->list[j].term = NULL;
dict_scan (zh->dict, termz, &before_tmp, &after_tmp, scan_info,
scan_handle);
}
- glist = odr_malloc (stream, (before+after)*sizeof(*glist));
+ glist = (ZebraScanEntry *)
+ odr_malloc (stream, (before+after)*sizeof(*glist));
/* consider terms after main term */
for (i = 0; i < ord_no; i++)