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Bug fix: did not return root (absyn) node
[idzebra-moved-to-github.git]
/
recctrl
/
recgrs.c
diff --git
a/recctrl/recgrs.c
b/recctrl/recgrs.c
index
1bae99d
..
4a0f045
100644
(file)
--- a/
recctrl/recgrs.c
+++ b/
recctrl/recgrs.c
@@
-1,4
+1,4
@@
-/* $Id: recgrs.c,v 1.82 2003-08-21 10:29:00 adam Exp $
+/* $Id: recgrs.c,v 1.86 2004-05-21 11:58:56 adam Exp $
Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002,2003
Index Data Aps
Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002,2003
Index Data Aps
@@
-107,6
+107,7
@@
static void *grs_init(RecType recType)
#if HAVE_PERL
grs_add_handler (h, recTypeGrs_perl);
#endif
#if HAVE_PERL
grs_add_handler (h, recTypeGrs_perl);
#endif
+ grs_add_handler (h, recTypeGrs_danbib);
return h;
}
return h;
}
@@
-137,26
+138,26
@@
int d1_check_xpath_predicate(data1_node *n, struct xpath_predicate *p)
if (p->which == XPATH_PREDICATE_RELATION) {
if (p->u.relation.name[0]) {
if (*p->u.relation.name != '@') {
if (p->which == XPATH_PREDICATE_RELATION) {
if (p->u.relation.name[0]) {
if (*p->u.relation.name != '@') {
- logf(LOG_WARN,
+ yaz_log(LOG_WARN,
" Only attributes (@) are supported in xelm xpath predicates");
" Only attributes (@) are supported in xelm xpath predicates");
- logf(LOG_WARN, "predicate %s ignored", p->u.relation.name);
+ yaz_log(LOG_WARN, "predicate %s ignored", p->u.relation.name);
return (1);
}
attname = p->u.relation.name + 1;
res = 0;
/* looking for the attribute with a specified name */
for (attr = n->u.tag.attributes; attr; attr = attr->next) {
return (1);
}
attname = p->u.relation.name + 1;
res = 0;
/* looking for the attribute with a specified name */
for (attr = n->u.tag.attributes; attr; attr = attr->next) {
- logf(LOG_DEBUG," - attribute %s <-> %s", attname, attr->name );
+ yaz_log(LOG_DEBUG," - attribute %s <-> %s", attname, attr->name );
if (!strcmp(attr->name, attname)) {
if (p->u.relation.op[0]) {
if (*p->u.relation.op != '=') {
if (!strcmp(attr->name, attname)) {
if (p->u.relation.op[0]) {
if (*p->u.relation.op != '=') {
- logf(LOG_WARN,
+ yaz_log(LOG_WARN,
"Only '=' relation is supported (%s)",p->u.relation.op);
"Only '=' relation is supported (%s)",p->u.relation.op);
- logf(LOG_WARN, "predicate %s ignored", p->u.relation.name);
+ yaz_log(LOG_WARN, "predicate %s ignored", p->u.relation.name);
res = 1; break;
} else {
res = 1; break;
} else {
- logf(LOG_DEBUG," - value %s <-> %s",
+ yaz_log(LOG_DEBUG," - value %s <-> %s",
p->u.relation.value, attr->value );
if (!strcmp(attr->value, p->u.relation.value)) {
res = 1; break;
p->u.relation.value, attr->value );
if (!strcmp(attr->value, p->u.relation.value)) {
res = 1; break;
@@
-168,6
+169,7
@@
int d1_check_xpath_predicate(data1_node *n, struct xpath_predicate *p)
}
}
}
}
}
}
+ yaz_log(LOG_DEBUG, "return %d", res);
return res;
} else {
return 1;
return res;
} else {
return 1;
@@
-182,7
+184,7
@@
int d1_check_xpath_predicate(data1_node *n, struct xpath_predicate *p)
return (d1_check_xpath_predicate(n, p->u.boolean.left)
|| d1_check_xpath_predicate(n, p->u.boolean.right));
} else {
return (d1_check_xpath_predicate(n, p->u.boolean.left)
|| d1_check_xpath_predicate(n, p->u.boolean.right));
} else {
- logf(LOG_WARN, "Unknown boolean relation %s, ignored",p->u.boolean.op);
+ yaz_log(LOG_WARN, "Unknown boolean relation %s, ignored",p->u.boolean.op);
return 1;
}
}
return 1;
}
}
@@
-221,7
+223,7
@@
data1_termlist *xpath_termlist_by_tagpath(char *tagpath, data1_node *n)
int ok = 0;
sprintf (pexpr, "%s\n", tagpath);
int ok = 0;
sprintf (pexpr, "%s\n", tagpath);
- logf(LOG_DEBUG,"Checking tagpath %s",tagpath);
+ yaz_log(LOG_DEBUG,"Checking tagpath %s",tagpath);
while (xpe)
{
struct DFA_state **dfaar = xpe->dfa->states;
while (xpe)
{
struct DFA_state **dfaar = xpe->dfa->states;
@@
-232,8
+234,6
@@
data1_termlist *xpath_termlist_by_tagpath(char *tagpath, data1_node *n)
unsigned char c;
int start_line = 1;
unsigned char c;
int start_line = 1;
- logf(LOG_DEBUG," - xpath %s",xpe->xpath_expr);
-
c = *pexpr++; t = s->trans; i = s->tran_no;
if ((c >= t->ch[0] && c <= t->ch[1]) || (!t->ch[0])) {
p = pexpr;
c = *pexpr++; t = s->trans; i = s->tran_no;
if ((c >= t->ch[0] && c <= t->ch[1]) || (!t->ch[0])) {
p = pexpr;
@@
-250,6
+250,11
@@
data1_termlist *xpath_termlist_by_tagpath(char *tagpath, data1_node *n)
p++;
} while (i >= 0);
}
p++;
} while (i >= 0);
}
+ if (ok)
+ yaz_log(LOG_DEBUG," xpath match %s",xpe->xpath_expr);
+ else
+ yaz_log(LOG_DEBUG," xpath no match %s",xpe->xpath_expr);
+
pexpr--;
if (ok) {
#ifdef ENHANCED_XELM
pexpr--;
if (ok) {
#ifdef ENHANCED_XELM
@@
-265,11
+270,11
@@
data1_termlist *xpath_termlist_by_tagpath(char *tagpath, data1_node *n)
backwards trough xpath location steps ... */
for (i=xpe->xpath_len - 1; i>0; i--) {
backwards trough xpath location steps ... */
for (i=xpe->xpath_len - 1; i>0; i--) {
- logf(LOG_DEBUG,"Checking step %d: %s on tag %s",
+ yaz_log(LOG_DEBUG,"Checking step %d: %s on tag %s",
i,xp[i].part,nn->u.tag.tag);
if (!d1_check_xpath_predicate(nn, xp[i].predicate)) {
i,xp[i].part,nn->u.tag.tag);
if (!d1_check_xpath_predicate(nn, xp[i].predicate)) {
- logf(LOG_DEBUG," Predicates didn't match");
+ yaz_log(LOG_DEBUG," Predicates didn't match");
ok = 0;
break;
}
ok = 0;
break;
}
@@
-289,7
+294,7
@@
data1_termlist *xpath_termlist_by_tagpath(char *tagpath, data1_node *n)
xfree(pexpr);
if (ok) {
xfree(pexpr);
if (ok) {
- logf(LOG_DEBUG,"Got it");
+ yaz_log(LOG_DEBUG,"Got it");
return xpe->termlists;
} else {
return NULL;
return xpe->termlists;
} else {
return NULL;
@@
-351,6
+356,7
@@
static void index_xpath (data1_node *n, struct recExtractCtrl *p,
data1_node *nn;
int termlist_only = 1;
data1_node *nn;
int termlist_only = 1;
+ yaz_log(LOG_DEBUG, "index_xpath level=%d use=%d", level, use);
if ((!n->root->u.root.absyn) ||
(n->root->u.root.absyn->enable_xpath_indexing)) {
termlist_only = 0;
if ((!n->root->u.root.absyn) ||
(n->root->u.root.absyn->enable_xpath_indexing)) {
termlist_only = 0;
@@
-373,8
+379,6
@@
static void index_xpath (data1_node *n, struct recExtractCtrl *p,
int xpdone = 0;
flen = 0;
int xpdone = 0;
flen = 0;
- // logf (LOG_LOG,"Index value, %s",wrd->string);
-
/* we have to fetch the whole path to the data tag */
for (nn = n; nn; nn = nn->parent) {
if (nn->which == DATA1N_tag) {
/* we have to fetch the whole path to the data tag */
for (nn = n; nn; nn = nn->parent) {
if (nn->which == DATA1N_tag) {
@@
-390,7
+394,7
@@
static void index_xpath (data1_node *n, struct recExtractCtrl *p,
tag_path_full[flen] = 0;
/* If we have a matching termlist... */
tag_path_full[flen] = 0;
/* If we have a matching termlist... */
- if ((tl = xpath_termlist_by_tagpath(tag_path_full, n))) {
+ if (n->root->u.root.absyn && (tl = xpath_termlist_by_tagpath(tag_path_full, n))) {
for (; tl; tl = tl->next) {
wrd->reg_type = *tl->structure;
/* this is the ! case, so structure is for the xpath index */
for (; tl; tl = tl->next) {
wrd->reg_type = *tl->structure;
/* this is the ! case, so structure is for the xpath index */
@@
-399,8
+403,8
@@
static void index_xpath (data1_node *n, struct recExtractCtrl *p,
wrd->attrUse = use;
(*p->tokenAdd)(wrd);
xpdone = 1;
wrd->attrUse = use;
(*p->tokenAdd)(wrd);
xpdone = 1;
- /* this is just the old fashioned attribute based index */
} else {
} else {
+ /* this is just the old fashioned attribute based index */
wrd->attrSet = (int) (tl->att->parent->reference);
wrd->attrUse = tl->att->locals->local;
(*p->tokenAdd)(wrd);
wrd->attrSet = (int) (tl->att->parent->reference);
wrd->attrUse = tl->att->locals->local;
(*p->tokenAdd)(wrd);
@@
-470,9
+474,7
@@
static void index_xpath (data1_node *n, struct recExtractCtrl *p,
if (use == 1) /* only for the starting tag... */
{
if (use == 1) /* only for the starting tag... */
{
-
#define MAX_ATTR_COUNT 50
#define MAX_ATTR_COUNT 50
-
data1_termlist *tll[MAX_ATTR_COUNT];
int i = 0;
data1_termlist *tll[MAX_ATTR_COUNT];
int i = 0;
@@
-860,10
+862,10
@@
static int process_comp(data1_handle dh, data1_node *n, Z_RecordComposition *c)
if (!(eset = data1_getesetbyname(dh, n->u.root.absyn,
c->u.simple->u.generic)))
{
if (!(eset = data1_getesetbyname(dh, n->u.root.absyn,
c->u.simple->u.generic)))
{
- logf(LOG_LOG, "Unknown esetname '%s'", c->u.simple->u.generic);
+ yaz_log(LOG_LOG, "Unknown esetname '%s'", c->u.simple->u.generic);
return 25; /* invalid esetname */
}
return 25; /* invalid esetname */
}
- logf(LOG_DEBUG, "Esetname '%s' in simple compspec",
+ yaz_log(LOG_DEBUG, "Esetname '%s' in simple compspec",
c->u.simple->u.generic);
espec = eset->spec;
break;
c->u.simple->u.generic);
espec = eset->spec;
break;
@@
-880,23
+882,23
@@
static int process_comp(data1_handle dh, data1_node *n, Z_RecordComposition *c)
data1_getesetbyname(dh, n->u.root.absyn,
p->u.elementSetName)))
{
data1_getesetbyname(dh, n->u.root.absyn,
p->u.elementSetName)))
{
- logf(LOG_LOG, "Unknown esetname '%s'",
+ yaz_log(LOG_LOG, "Unknown esetname '%s'",
p->u.elementSetName);
return 25; /* invalid esetname */
}
p->u.elementSetName);
return 25; /* invalid esetname */
}
- logf(LOG_DEBUG, "Esetname '%s' in complex compspec",
+ yaz_log(LOG_DEBUG, "Esetname '%s' in complex compspec",
p->u.elementSetName);
espec = eset->spec;
break;
case Z_ElementSpec_externalSpec:
if (p->u.externalSpec->which == Z_External_espec1)
{
p->u.elementSetName);
espec = eset->spec;
break;
case Z_ElementSpec_externalSpec:
if (p->u.externalSpec->which == Z_External_espec1)
{
- logf(LOG_DEBUG, "Got Espec-1");
+ yaz_log(LOG_DEBUG, "Got Espec-1");
espec = p->u.externalSpec-> u.espec1;
}
else
{
espec = p->u.externalSpec-> u.espec1;
}
else
{
- logf(LOG_LOG, "Unknown external espec.");
+ yaz_log(LOG_LOG, "Unknown external espec.");
return 25; /* bad. what is proper diagnostic? */
}
break;
return 25; /* bad. what is proper diagnostic? */
}
break;
@@
-908,12
+910,12
@@
static int process_comp(data1_handle dh, data1_node *n, Z_RecordComposition *c)
}
if (espec)
{
}
if (espec)
{
- logf (LOG_DEBUG, "Element: Espec-1 match");
+ yaz_log(LOG_DEBUG, "Element: Espec-1 match");
return data1_doespec1(dh, n, espec);
}
else
{
return data1_doespec1(dh, n, espec);
}
else
{
- logf (LOG_DEBUG, "Element: all match");
+ yaz_log(LOG_DEBUG, "Element: all match");
return -1;
}
}
return -1;
}
}
@@
-990,7
+992,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
gri.mem = mem;
gri.dh = p->dh;
gri.mem = mem;
gri.dh = p->dh;
- logf (LOG_DEBUG, "grs_retrieve");
+ yaz_log(LOG_DEBUG, "grs_retrieve");
if (read_grs_type (h, &gri, p->subType, &node))
{
p->diagnostic = 14;
if (read_grs_type (h, &gri, p->subType, &node))
{
p->diagnostic = 14;
@@
-1013,7
+1015,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
#endif
top = data1_get_root_tag (p->dh, node);
#endif
top = data1_get_root_tag (p->dh, node);
- logf (LOG_DEBUG, "grs_retrieve: size");
+ yaz_log(LOG_DEBUG, "grs_retrieve: size");
tagname = data1_systag_lookup(node->u.root.absyn, "size", "size");
if (tagname &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
tagname = data1_systag_lookup(node->u.root.absyn, "size", "size");
if (tagname &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
@@
-1028,7
+1030,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
if (tagname && p->score >= 0 &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
{
if (tagname && p->score >= 0 &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
{
- logf (LOG_DEBUG, "grs_retrieve: %s", tagname);
+ yaz_log(LOG_DEBUG, "grs_retrieve: %s", tagname);
dnew->u.data.what = DATA1I_num;
dnew->u.data.data = dnew->lbuf;
sprintf(dnew->u.data.data, "%d", p->score);
dnew->u.data.what = DATA1I_num;
dnew->u.data.data = dnew->lbuf;
sprintf(dnew->u.data.data, "%d", p->score);
@@
-1040,7
+1042,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
if (tagname && p->localno > 0 &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
{
if (tagname && p->localno > 0 &&
(dnew = data1_mk_tag_data_wd(p->dh, top, tagname, mem)))
{
- logf (LOG_DEBUG, "grs_retrieve: %s", tagname);
+ yaz_log(LOG_DEBUG, "grs_retrieve: %s", tagname);
dnew->u.data.what = DATA1I_text;
dnew->u.data.data = dnew->lbuf;
dnew->u.data.what = DATA1I_text;
dnew->u.data.data = dnew->lbuf;
@@
-1075,7
+1077,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
*/
if (requested_schema != VAL_NONE)
{
*/
if (requested_schema != VAL_NONE)
{
- logf (LOG_DEBUG, "grs_retrieve: schema mapping");
+ yaz_log(LOG_DEBUG, "grs_retrieve: schema mapping");
for (map = node->u.root.absyn->maptabs; map; map = map->next)
{
if (map->target_absyn_ref == requested_schema)
for (map = node->u.root.absyn->maptabs; map; map = map->next)
{
if (map->target_absyn_ref == requested_schema)
@@
-1103,7
+1105,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
* the overlap of schema and formatting which is inherent in the MARC
* family)
*/
* the overlap of schema and formatting which is inherent in the MARC
* family)
*/
- yaz_log (LOG_DEBUG, "grs_retrieve: syntax mapping");
+ yaz_log(LOG_DEBUG, "grs_retrieve: syntax mapping");
if (node->u.root.absyn)
for (map = node->u.root.absyn->maptabs; map; map = map->next)
{
if (node->u.root.absyn)
for (map = node->u.root.absyn->maptabs; map; map = map->next)
{
@@
-1119,7
+1121,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
break;
}
}
break;
}
}
- yaz_log (LOG_DEBUG, "grs_retrieve: schemaIdentifier");
+ yaz_log(LOG_DEBUG, "grs_retrieve: schemaIdentifier");
if (node->u.root.absyn &&
node->u.root.absyn->reference != VAL_NONE &&
p->input_format == VAL_GRS1)
if (node->u.root.absyn &&
node->u.root.absyn->reference != VAL_NONE &&
p->input_format == VAL_GRS1)
@@
-1157,7
+1159,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
}
}
}
}
- logf (LOG_DEBUG, "grs_retrieve: element spec");
+ yaz_log(LOG_DEBUG, "grs_retrieve: element spec");
if (p->comp && (res = process_comp(p->dh, node, p->comp)) > 0)
{
p->diagnostic = res;
if (p->comp && (res = process_comp(p->dh, node, p->comp)) > 0)
{
p->diagnostic = res;
@@
-1173,7
+1175,7
@@
static int grs_retrieve(void *clientData, struct recRetrieveCtrl *p)
#if 0
data1_pr_tree (p->dh, node, stdout);
#endif
#if 0
data1_pr_tree (p->dh, node, stdout);
#endif
- logf (LOG_DEBUG, "grs_retrieve: transfer syntax mapping");
+ yaz_log(LOG_DEBUG, "grs_retrieve: transfer syntax mapping");
switch (p->output_format = (p->input_format != VAL_NONE ?
p->input_format : VAL_SUTRS))
{
switch (p->output_format = (p->input_format != VAL_NONE ?
p->input_format : VAL_SUTRS))
{