ccl_assert(p);
p->kind = kind;
- switch(kind)
+ switch (kind)
{
case CCL_RPN_TERM:
p->u.t.attr_list = 0;
return p;
}
+static struct ccl_rpn_node *ccl_rpn_node_mkbool(struct ccl_rpn_node *l,
+ struct ccl_rpn_node *r,
+ enum ccl_rpn_kind op)
+{
+ if (l && r)
+ {
+ struct ccl_rpn_node *tmp = ccl_rpn_node_create(op);
+ tmp->u.p[0] = l;
+ tmp->u.p[1] = r;
+ tmp->u.p[2] = 0;
+ return tmp;
+ }
+ else if (r)
+ return r;
+ return l;
+}
+
+static struct ccl_rpn_node *ccl_rpn_dup(struct ccl_rpn_node *rpn)
+{
+ struct ccl_rpn_node *n;
+ struct ccl_rpn_attr *attr, **attrp;
+ if (!rpn)
+ return 0;
+ n = ccl_rpn_node_create(rpn->kind);
+ switch (rpn->kind)
+ {
+ case CCL_RPN_AND:
+ case CCL_RPN_OR:
+ case CCL_RPN_NOT:
+ n->u.p[0] = ccl_rpn_dup(rpn->u.p[0]);
+ n->u.p[1] = ccl_rpn_dup(rpn->u.p[1]);
+ break;
+ case CCL_RPN_TERM:
+ n->u.t.term = xstrdup(rpn->u.t.term);
+ n->u.t.qual = rpn->u.t.qual ? xstrdup(rpn->u.t.qual) : 0;
+ attrp = &n->u.t.attr_list;
+ for (attr = rpn->u.t.attr_list; attr; attr = attr->next)
+ {
+ *attrp = (struct ccl_rpn_attr *) xmalloc(sizeof(**attrp));
+ (*attrp)->kind = attr->kind;
+ (*attrp)->type = attr->type;
+ if (attr->kind == CCL_RPN_ATTR_STRING)
+ (*attrp)->value.str = xstrdup(attr->value.str);
+ else
+ (*attrp)->value.numeric = attr->value.numeric;
+ if (attr->set)
+ (*attrp)->set = xstrdup(attr->set);
+ else
+ (*attrp)->set = 0;
+ attrp = &(*attrp)->next;
+ }
+ *attrp = 0;
+ break;
+ case CCL_RPN_SET:
+ n->u.setname = xstrdup(rpn->u.setname);
+ break;
+ case CCL_RPN_PROX:
+ n->u.p[0] = ccl_rpn_dup(rpn->u.p[0]);
+ n->u.p[1] = ccl_rpn_dup(rpn->u.p[1]);
+ n->u.p[2] = ccl_rpn_dup(rpn->u.p[2]);
+ break;
+ }
+ return n;
+}
+
/**
* ccl_rpn_delete: Delete RPN tree.
* rpn: Pointer to tree.
static int is_term_ok(int look, int *list)
{
- for (;*list >= 0; list++)
+ for (; *list >= 0; list++)
if (look == *list)
return 1;
return 0;
static struct ccl_rpn_attr *add_attr_node(struct ccl_rpn_node *p,
const char *set, int type)
{
- struct ccl_rpn_attr *n;
-
- n = (struct ccl_rpn_attr *)xmalloc(sizeof(*n));
+ struct ccl_rpn_attr *n = (struct ccl_rpn_attr *) xmalloc(sizeof(*n));
ccl_assert(n);
if (set)
n->set = xstrdup(set);
n->type = type;
n->next = p->u.t.attr_list;
p->u.t.attr_list = n;
-
return n;
}
void ccl_add_attr_numeric(struct ccl_rpn_node *p, const char *set,
int type, int value)
{
- struct ccl_rpn_attr *n;
-
- n = add_attr_node(p, set, type);
+ struct ccl_rpn_attr *n = add_attr_node(p, set, type);
n->kind = CCL_RPN_ATTR_NUMERIC;
n->value.numeric = value;
}
void ccl_add_attr_string(struct ccl_rpn_node *p, const char *set,
int type, char *value)
{
- struct ccl_rpn_attr *n;
-
- n = add_attr_node(p, set, type);
+ struct ccl_rpn_attr *n = add_attr_node(p, set, type);
n->kind = CCL_RPN_ATTR_STRING;
n->value.str = xstrdup(value);
}
static struct ccl_rpn_node *ccl_term_one_use(CCL_parser cclp,
+ struct ccl_token *lookahead0,
struct ccl_rpn_attr *attr_use,
ccl_qualifier_t *qa,
- size_t no, int term_len,
+ size_t no,
int is_phrase,
int auto_group)
{
int z3958_trunc = 0;
int is_ccl_masked = 0;
char *attset;
- struct ccl_token *lookahead = cclp->look_token;
+ struct ccl_token *lookahead = lookahead0;
const char **truncation_aliases;
const char *t_default[2];
const char **mask_aliases;
const char *m_default[2];
+ int term_len = 0;
truncation_aliases =
ccl_qual_search_special(cclp->bibset, "truncation");
t_default[0] = "?";
t_default[1] = 0;
}
-
mask_aliases =
ccl_qual_search_special(cclp->bibset, "mask");
if (!mask_aliases)
m_default[0] = "#";
m_default[1] = 0;
}
-
-
for (i = 0; i < no; i++)
{
if (has_ccl_masking(lookahead->name, lookahead->len,
truncation_aliases,
mask_aliases))
is_ccl_masked = 1;
+
+ term_len += 1 + lookahead->len + lookahead->ws_prefix_len;
lookahead = lookahead->next;
}
- lookahead = cclp->look_token;
+ lookahead = lookahead0;
p = ccl_rpn_node_create(CCL_RPN_TERM);
p->u.t.attr_list = NULL;
{
struct ccl_rpn_attr *attr;
for (attr = ccl_qual_get_attr(qa[i]); attr; attr = attr->next)
- if (attr->type != 1 || attr == attr_use)
+ if (attr->type != 1 || !attr_use || attr == attr_use)
{
switch (attr->kind)
{
return p;
}
+static struct ccl_rpn_node *ccl_term_multi_use(CCL_parser cclp,
+ struct ccl_token *lookahead0,
+ ccl_qualifier_t *qa,
+ size_t no,
+ int is_phrase,
+ int auto_group)
+{
+ struct ccl_rpn_node *p = 0;
+ int i;
+ for (i = 0; qa && qa[i]; i++)
+ {
+ struct ccl_rpn_attr *attr;
+ for (attr = ccl_qual_get_attr(qa[i]); attr; attr = attr->next)
+ if (attr->type == 1 && i == 0)
+ {
+ struct ccl_rpn_node *tmp2;
+ tmp2 = ccl_term_one_use(cclp, lookahead0,
+ attr, qa, no,
+ is_phrase, auto_group);
+ if (!tmp2)
+ {
+ ccl_rpn_delete(p);
+ return 0;
+ }
+ p = ccl_rpn_node_mkbool(p, tmp2, CCL_RPN_OR);
+ }
+ }
+ if (!p)
+ p = ccl_term_one_use(cclp, lookahead0,
+ 0 /* attr: no use */, qa, no,
+ is_phrase, auto_group);
+ return p;
+}
+
+static struct ccl_rpn_node *split_recur(CCL_parser cclp, ccl_qualifier_t *qa,
+ struct ccl_rpn_node *parent,
+ struct ccl_token **ar, size_t sz)
+{
+ size_t l;
+ struct ccl_rpn_node *p_top = 0;
+ assert(sz > 0);
+ for (l = 1; l <= sz; l++)
+ {
+ struct ccl_rpn_node *p1;
+ struct ccl_rpn_node *p2 = ccl_term_multi_use(cclp, ar[0],
+ qa, l,
+ l > 1,
+ /* auto_group */0);
+ if (!p2)
+ {
+ ccl_rpn_delete(p_top);
+ return 0;
+ }
+ if (parent)
+ {
+ struct ccl_rpn_node *tmp = ccl_rpn_node_create(CCL_RPN_AND);
+ tmp->u.p[0] = l > 1 ? ccl_rpn_dup(parent) : parent;
+ tmp->u.p[1] = p2;
+ p2 = tmp;
+ }
+ if (sz > l)
+ p1 = split_recur(cclp, qa, p2, ar + l, sz - l);
+ else
+ p1 = p2;
+ if (!p1)
+ {
+ ccl_rpn_delete(p2);
+ ccl_rpn_delete(p_top);
+ return 0;
+ }
+ p_top = ccl_rpn_node_mkbool(p_top, p1, CCL_RPN_OR);
+ }
+ assert(p_top);
+ return p_top;
+}
+
+static struct ccl_rpn_node *search_term_split_list(CCL_parser cclp,
+ ccl_qualifier_t *qa,
+ int *term_list, int multi)
+{
+ struct ccl_rpn_node *p;
+ struct ccl_token **ar;
+ struct ccl_token *lookahead = cclp->look_token;
+ size_t i, sz;
+ for (sz = 0; is_term_ok(lookahead->kind, term_list); sz++)
+ lookahead = lookahead->next;
+ if (sz == 0)
+ {
+ cclp->error_code = CCL_ERR_TERM_EXPECTED;
+ return 0;
+ }
+ ar = (struct ccl_token **) xmalloc(sizeof(*lookahead) * sz);
+ lookahead = cclp->look_token;
+ for (i = 0; is_term_ok(lookahead->kind, term_list); i++)
+ {
+ ar[i] = lookahead;
+ lookahead = lookahead->next;
+ }
+ p = split_recur(cclp, qa, 0, ar, sz);
+ xfree(ar);
+ for (i = 0; i < sz; i++)
+ ADVANCE;
+ return p;
+}
+
/**
* search_term: Parse CCL search term.
* cclp: CCL Parser
auto_group = 1;
if (qual_val_type(qa, CCL_BIB1_STR, CCL_BIB1_STR_OR_LIST, 0))
or_list = 1;
+ if (qual_val_type(qa, CCL_BIB1_STR, CCL_BIB1_STR_SPLIT_LIST, 0))
+ {
+ return search_term_split_list(cclp, qa, term_list, multi);
+ }
while (1)
{
struct ccl_rpn_node *p = 0;
size_t no, i;
- int len = 0;
int is_phrase = 0;
size_t max = 200;
if (and_list || or_list || !multi)
}
else if (this_is_phrase || no > 0)
is_phrase = 1;
- len += 1+lookahead->len+lookahead->ws_prefix_len;
lookahead = lookahead->next;
}
- if (len == 0)
+ if (no == 0)
break; /* no more terms . stop . */
-
- /* go through all attributes and add them to the attribute list */
- for (i = 0; qa && qa[i]; i++)
- {
- struct ccl_rpn_attr *attr;
-
- for (attr = ccl_qual_get_attr(qa[i]); attr; attr = attr->next)
- if (attr->type == 1)
- {
- struct ccl_rpn_node *tmp2;
- tmp2 = ccl_term_one_use(cclp, attr, qa, no, len,
- is_phrase,
- auto_group);
- if (!tmp2)
- {
- ccl_rpn_delete(p);
- return 0;
- }
- if (!p)
- p = tmp2;
- else
- {
- struct ccl_rpn_node *tmp1;
- tmp1 = ccl_rpn_node_create(CCL_RPN_OR);
- tmp1->u.p[0] = p;
- tmp1->u.p[1] = tmp2;
- p = tmp1;
- }
- }
- }
- if (!p)
- p = ccl_term_one_use(cclp, 0 /* attr: no use */, qa, no, len,
- is_phrase, auto_group);
+ p = ccl_term_multi_use(cclp, cclp->look_token, qa, no,
+ is_phrase, auto_group);
for (i = 0; i < no; i++)
ADVANCE;
if (!p)
return 0;
- /* make the top node point to us.. */
- if (p_top)
- {
- struct ccl_rpn_node *tmp;
-
- if (or_list)
- tmp = ccl_rpn_node_create(CCL_RPN_OR);
- else if (and_list)
- tmp = ccl_rpn_node_create(CCL_RPN_AND);
- else
- tmp = ccl_rpn_node_create(CCL_RPN_AND);
- tmp->u.p[0] = p_top;
- tmp->u.p[1] = p;
-
- p_top = tmp;
- }
- else
- p_top = p;
-
+ p_top = ccl_rpn_node_mkbool(p_top, p, or_list ? CCL_RPN_OR : CCL_RPN_AND);
if (!multi)
break;
}
}
-
static
struct ccl_rpn_node *qualifiers_order(CCL_parser cclp,
ccl_qualifier_t *ap, char *attset)
xfree(ap);
return 0;
}
- if (node)
- {
- struct ccl_rpn_node *node_this =
- ccl_rpn_node_create(CCL_RPN_OR);
- node_this->u.p[0] = node;
- node_this->u.p[1] = node_sub;
- node = node_this;
- }
- else
- node = node_sub;
+ node = ccl_rpn_node_mkbool(node, node_sub, CCL_RPN_OR);
seq++;
}
if (seq == 0)
ccl_rpn_delete(node);
break;
}
- if (node)
- {
- struct ccl_rpn_node *node_this =
- ccl_rpn_node_create(CCL_RPN_OR);
- node_this->u.p[0] = node;
- node_this->u.p[1] = node_sub;
- node = node_this;
- }
- else
- node = node_sub;
+ node = ccl_rpn_node_mkbool(node, node_sub, CCL_RPN_OR);
seq++;
}
}
ccl_rpn_delete(node);
return 0;
}
- if (node)
- {
- struct ccl_rpn_node *node_this =
- ccl_rpn_node_create(CCL_RPN_OR);
- node_this->u.p[0] = node;
- node_this->u.p[1] = node_sub;
- node_this->u.p[2] = 0;
- node = node_this;
- }
- else
- node = node_sub;
+ node = ccl_rpn_node_mkbool(node, node_sub, CCL_RPN_OR);
}
if (!node)
node = search_terms(cclp, 0);
*/
static struct ccl_rpn_node *find_spec(CCL_parser cclp, ccl_qualifier_t *qa)
{
- struct ccl_rpn_node *p1, *p2, *pn;
+ struct ccl_rpn_node *p1, *p2;
if (!(p1 = search_elements(cclp, qa)))
return NULL;
while (1)
ccl_rpn_delete(p1);
return NULL;
}
- pn = ccl_rpn_node_create(CCL_RPN_AND);
- pn->u.p[0] = p1;
- pn->u.p[1] = p2;
- pn->u.p[2] = 0;
- p1 = pn;
+ p1 = ccl_rpn_node_mkbool(p1, p2, CCL_RPN_AND);
continue;
case CCL_TOK_OR:
ADVANCE;
ccl_rpn_delete(p1);
return NULL;
}
- pn = ccl_rpn_node_create(CCL_RPN_OR);
- pn->u.p[0] = p1;
- pn->u.p[1] = p2;
- pn->u.p[2] = 0;
- p1 = pn;
+ p1 = ccl_rpn_node_mkbool(p1, p2, CCL_RPN_OR);
continue;
case CCL_TOK_NOT:
ADVANCE;
ccl_rpn_delete(p1);
return NULL;
}
- pn = ccl_rpn_node_create(CCL_RPN_NOT);
- pn->u.p[0] = p1;
- pn->u.p[1] = p2;
- pn->u.p[2] = 0;
- p1 = pn;
+ p1 = ccl_rpn_node_mkbool(p1, p2, CCL_RPN_NOT);
continue;
}
break;