+/*
+ * Copyright (c) 1995, the EUROPAGATE consortium (see below).
+ *
+ * The EUROPAGATE consortium members are:
+ *
+ * University College Dublin
+ * Danmarks Teknologiske Videnscenter
+ * An Chomhairle Leabharlanna
+ * Consejo Superior de Investigaciones Cientificas
+ *
+ * Permission to use, copy, modify, distribute, and sell this software and
+ * its documentation, in whole or in part, for any purpose, is hereby granted,
+ * provided that:
+ *
+ * 1. This copyright and permission notice appear in all copies of the
+ * software and its documentation. Notices of copyright or attribution
+ * which appear at the beginning of any file must remain unchanged.
+ *
+ * 2. The names of EUROPAGATE or the project partners may not be used to
+ * endorse or promote products derived from this software without specific
+ * prior written permission.
+ *
+ * 3. Users of this software (implementors and gateway operators) agree to
+ * inform the EUROPAGATE consortium of their use of the software. This
+ * information will be used to evaluate the EUROPAGATE project and the
+ * software, and to plan further developments. The consortium may use
+ * the information in later publications.
+ *
+ * 4. Users of this software agree to make their best efforts, when
+ * documenting their use of the software, to acknowledge the EUROPAGATE
+ * consortium, and the role played by the software in their work.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS, IMPLIED, OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY
+ * WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
+ * IN NO EVENT SHALL THE EUROPAGATE CONSORTIUM OR ITS MEMBERS BE LIABLE
+ * FOR ANY SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF
+ * ANY KIND, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA
+ * OR PROFITS, WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND
+ * ON ANY THEORY OF LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE
+ * USE OR PERFORMANCE OF THIS SOFTWARE.
+ *
+ */
/* CCL find (to rpn conversion)
* Europagate, 1995
*
* $Log: cclfind.c,v $
- * Revision 1.1 1995-04-10 10:28:19 quinn
- * Added copy of CCL.
+ * Revision 1.10 1998-02-11 11:53:33 adam
+ * Changed code so that it compiles as C++.
+ *
+ * Revision 1.9 1997/09/29 08:56:37 adam
+ * Changed CCL parser to be thread safe. New type, CCL_parser, declared
+ * and a create/destructers ccl_parser_create/ccl_parser/destory has
+ * been added.
+ *
+ * Revision 1.8 1997/09/01 08:48:11 adam
+ * New windows NT/95 port using MSV5.0. Only a few changes made
+ * to avoid warnings.
+ *
+ * Revision 1.7 1997/05/14 06:53:26 adam
+ * C++ support.
+ *
+ * Revision 1.6 1997/04/30 08:52:06 quinn
+ * Null
+ *
+ * Revision 1.5 1996/10/11 15:00:24 adam
+ * CCL parser from Europagate Email gateway 1.0.
+ *
+ * Revision 1.16 1996/01/08 08:41:13 adam
+ * Removed unused function.
+ *
+ * Revision 1.15 1995/07/20 08:14:34 adam
+ * Qualifiers were observed too often. Instead tokens are treated as
+ * qualifiers only when separated by comma.
+ *
+ * Revision 1.14 1995/05/16 09:39:26 adam
+ * LICENSE.
+ *
+ * Revision 1.13 1995/04/17 09:31:42 adam
+ * Improved handling of qualifiers. Aliases or reserved words.
*
* Revision 1.12 1995/03/20 15:27:43 adam
* Minor changes.
#include <ccl.h>
-static struct ccl_token *look_token;
-static int ccl_error;
-static CCL_bibset bibset;
+/* returns type of current lookahead */
+#define KIND (cclp->look_token->kind)
-#define KIND (look_token->kind)
-#define ADVANCE look_token = look_token->next
-#define ADVX(x) x=(x)->next
+/* move one token forward */
+#define ADVANCE cclp->look_token = cclp->look_token->next
-static struct ccl_rpn_attr *qual_val (struct ccl_rpn_attr *list, int type)
+/*
+ * qual_val_type: test for existance of attribute type/value pair.
+ * qa: Attribute array
+ * type: Type of attribute to search for
+ * value: Value of attribute to seach for
+ * return: 1 if found; 0 otherwise.
+ */
+static int qual_val_type (struct ccl_rpn_attr **qa, int type, int value)
{
- while (list)
- {
- if (list->type == type)
- return list;
- list = list->next;
- }
- return NULL;
-}
+ int i;
+ struct ccl_rpn_attr *q;
-static int qual_val_type (struct ccl_rpn_attr *list, int type, int value)
-{
- while (list)
- {
- if (list->type == type && list->value == value)
- return 1;
- list = list->next;
- }
+ if (!qa)
+ return 0;
+ for (i = 0; (q=qa[i]); i++)
+ while (q)
+ {
+ if (q->type == type && q->value == value)
+ return 1;
+ q = q->next;
+ }
return 0;
}
+/*
+ * strxcat: concatenate strings.
+ * n: Null-terminated Destination string
+ * src: Source string to be appended (not null-terminated)
+ * len: Length of source string.
+ */
static void strxcat (char *n, const char *src, int len)
{
while (*n)
*n = '\0';
}
+/*
+ * copy_token_name: Return copy of CCL token name
+ * tp: Pointer to token info.
+ * return: malloc(3) allocated copy of token name.
+ */
static char *copy_token_name (struct ccl_token *tp)
{
- char *str = malloc (tp->len + 1);
+ char *str = (char *)malloc (tp->len + 1);
assert (str);
memcpy (str, tp->name, tp->len);
str[tp->len] = '\0';
return str;
}
-static struct ccl_rpn_node *mk_node (enum rpn_node_kind kind)
+/*
+ * mk_node: Create RPN node.
+ * kind: Type of node.
+ * return: pointer to allocated node.
+ */
+static struct ccl_rpn_node *mk_node (int kind)
{
struct ccl_rpn_node *p;
- p = malloc (sizeof(*p));
+ p = (struct ccl_rpn_node *)malloc (sizeof(*p));
assert (p);
p->kind = kind;
return p;
}
+/*
+ * ccl_rpn_delete: Delete RPN tree.
+ * rpn: Pointer to tree.
+ */
void ccl_rpn_delete (struct ccl_rpn_node *rpn)
{
struct ccl_rpn_attr *attr, *attr1;
free (rpn);
}
-static struct ccl_rpn_node *find_spec (struct ccl_rpn_attr **qa);
-static struct ccl_rpn_node *search_terms (struct ccl_rpn_attr **qa);
+static struct ccl_rpn_node *find_spec (CCL_parser cclp,
+ struct ccl_rpn_attr **qa);
+static struct ccl_rpn_node *search_terms (CCL_parser cclp,
+ struct ccl_rpn_attr **qa);
+/*
+ * add_attr: Add attribute (type/value) to RPN term node.
+ * p: RPN node of type term.
+ * type: Type of attribute
+ * value: Value of attribute
+ */
static void add_attr (struct ccl_rpn_node *p, int type, int value)
{
struct ccl_rpn_attr *n;
- n = malloc (sizeof(*n));
+ n = (struct ccl_rpn_attr *)malloc (sizeof(*n));
assert (n);
n->type = type;
n->value = value;
p->u.t.attr_list = n;
}
-static struct ccl_rpn_node *search_term (struct ccl_rpn_attr **qa)
+/*
+ * search_term: Parse CCL search term.
+ * cclp: CCL Parser
+ * qa: Qualifier attributes already applied.
+ * return: pointer to node(s); NULL on error.
+ */
+static struct ccl_rpn_node *search_term (CCL_parser cclp,
+ struct ccl_rpn_attr **qa)
{
struct ccl_rpn_node *p;
- struct ccl_rpn_attr *attr;
- struct ccl_token *lookahead = look_token;
+ struct ccl_token *lookahead = cclp->look_token;
int len = 0;
- int no, i;
+ size_t no, i;
int left_trunc = 0;
int right_trunc = 0;
int mid_trunc = 0;
+ int relation_value = -1;
+ int position_value = -1;
+ int structure_value = -1;
+ int truncation_value = -1;
+ int completeness_value = -1;
if (KIND != CCL_TOK_TERM)
{
- ccl_error = CCL_ERR_TERM_EXPECTED;
+ cclp->error_code = CCL_ERR_TERM_EXPECTED;
return NULL;
}
+ /* create the term node, but wait a moment before adding the term */
+ p = mk_node (CCL_RPN_TERM);
+ p->u.t.attr_list = NULL;
+ p->u.t.term = NULL;
+
+ if (!qa)
+ {
+ /* no qualifier(s) applied. Use 'term' if it is defined */
+
+ qa = (struct ccl_rpn_attr **)malloc (2*sizeof(*qa));
+ assert (qa);
+ qa[0] = ccl_qual_search (cclp, "term", 4);
+ qa[1] = NULL;
+ }
+
+ /* 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 = qa[i]; attr; attr = attr->next)
+ if (attr->value > 0)
+ { /* deal only with REAL attributes (positive) */
+ switch (attr->type)
+ {
+ case CCL_BIB1_REL:
+ if (relation_value != -1)
+ continue;
+ relation_value = attr->value;
+ break;
+ case CCL_BIB1_POS:
+ if (position_value != -1)
+ continue;
+ position_value = attr->value;
+ break;
+ case CCL_BIB1_STR:
+ if (structure_value != -1)
+ continue;
+ structure_value = attr->value;
+ break;
+ case CCL_BIB1_TRU:
+ if (truncation_value != -1)
+ continue;
+ truncation_value = attr->value;
+ break;
+ case CCL_BIB1_COM:
+ if (completeness_value != -1)
+ continue;
+ completeness_value = attr->value;
+ break;
+ }
+ add_attr (p, attr->type, attr->value);
+ }
+ }
+ /* go through each TERM token. If no truncation attribute is yet
+ met, then look for left/right truncation markers (?) and
+ set left_trunc/right_trunc/mid_trunc accordingly */
for (no = 0; lookahead->kind == CCL_TOK_TERM; no++)
{
for (i = 0; i<lookahead->len; i++)
- if (lookahead->name[i] == '?')
+ if (truncation_value == -1 && lookahead->name[i] == '?')
{
if (no == 0 && i == 0 && lookahead->len >= 1)
left_trunc = 1;
len += 1+lookahead->len;
lookahead = lookahead->next;
}
- p = mk_node (CCL_RPN_TERM);
- p->u.t.term = malloc (len);
+ /* len now holds the number of characters in the RPN term */
+ /* no holds the number of CCL tokens (1 or more) */
+
+ if (structure_value == -1 &&
+ qual_val_type (qa, CCL_BIB1_STR, CCL_BIB1_STR_WP))
+ { /* no structure attribute met. Apply either structure attribute
+ WORD or PHRASE depending on number of CCL tokens */
+ if (no == 1)
+ add_attr (p, CCL_BIB1_STR, 2);
+ else
+ add_attr (p, CCL_BIB1_STR, 1);
+ }
+
+ /* make the RPN token */
+ p->u.t.term = (char *)malloc (len);
assert (p->u.t.term);
- p->u.t.attr_list = NULL;
p->u.t.term[0] = '\0';
for (i = 0; i<no; i++)
{
- const char *src_str = look_token->name;
- int src_len = look_token->len;
+ const char *src_str = cclp->look_token->name;
+ int src_len = cclp->look_token->len;
if (i == 0 && left_trunc)
{
strxcat (p->u.t.term, src_str, src_len);
ADVANCE;
}
- if (qa)
- {
- int i;
- for (i=0; qa[i]; i++)
- {
- struct ccl_rpn_attr *attr;
-
- for (attr = qa[i]; attr; attr = attr->next)
- if (attr->value > 0)
- add_attr (p, attr->type, attr->value);
- }
- attr = qa[0];
- }
- else
- attr = ccl_qual_search (bibset, "term", 4);
- if (attr && qual_val_type (attr, CCL_BIB1_STR, CCL_BIB1_STR_WP))
- {
- if (no == 1)
- add_attr (p, CCL_BIB1_STR, 2);
- else
- add_attr (p, CCL_BIB1_STR, 1);
- }
if (left_trunc && right_trunc)
{
- if (attr && !qual_val_type (attr, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_BOTH))
+ if (!qual_val_type (qa, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_BOTH))
{
- ccl_error = CCL_ERR_TRUNC_NOT_BOTH;
- if (qa)
- free (qa);
+ cclp->error_code = CCL_ERR_TRUNC_NOT_BOTH;
+ free (qa);
ccl_rpn_delete (p);
return NULL;
}
}
else if (right_trunc)
{
- if (attr && !qual_val_type (attr, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_RIGHT))
+ if (!qual_val_type (qa, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_RIGHT))
{
- ccl_error = CCL_ERR_TRUNC_NOT_RIGHT;
- if (qa)
- free (qa);
+ cclp->error_code = CCL_ERR_TRUNC_NOT_RIGHT;
+ free (qa);
ccl_rpn_delete (p);
return NULL;
}
}
else if (left_trunc)
{
- if (attr && !qual_val_type (attr, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_LEFT))
+ if (!qual_val_type (qa, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_LEFT))
{
- ccl_error = CCL_ERR_TRUNC_NOT_LEFT;
- if (qa)
- free (qa);
+ cclp->error_code = CCL_ERR_TRUNC_NOT_LEFT;
+ free (qa);
ccl_rpn_delete (p);
return NULL;
}
}
else
{
- if (attr && qual_val_type (attr, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_NONE))
+ if (qual_val_type (qa, CCL_BIB1_TRU, CCL_BIB1_TRU_CAN_NONE))
add_attr (p, CCL_BIB1_TRU, 100);
}
return p;
}
-static struct ccl_rpn_node *qualifiers (struct ccl_token *la,
+/*
+ * qualifiers: Parse CCL qualifiers and search terms.
+ * cclp: CCL Parser
+ * la: Token pointer to RELATION token.
+ * qa: Qualifier attributes already applied.
+ * return: pointer to node(s); NULL on error.
+ */
+static struct ccl_rpn_node *qualifiers (CCL_parser cclp, struct ccl_token *la,
struct ccl_rpn_attr **qa)
{
- struct ccl_token *lookahead = look_token;
+ struct ccl_token *lookahead = cclp->look_token;
struct ccl_rpn_attr **ap;
- int no = 1;
+ int no = 0;
int i, rel;
- struct ccl_rpn_attr *attr;
-
+#if 0
if (qa)
{
- ccl_error = CCL_ERR_DOUBLE_QUAL;
+ cclp->error_code = CCL_ERR_DOUBLE_QUAL;
return NULL;
}
- for (lookahead = look_token; lookahead != la; lookahead=lookahead->next)
+#endif
+ for (lookahead = cclp->look_token; lookahead != la;
+ lookahead=lookahead->next)
no++;
- ap = malloc (no * sizeof(*ap));
+ if (qa)
+ for (i=0; qa[i]; i++)
+ no++;
+ ap = (struct ccl_rpn_attr **)malloc ((no+1) * sizeof(*ap));
assert (ap);
- for (i=0; look_token != la; i++)
+ for (i = 0; cclp->look_token != la; i++)
{
- ap[i] = ccl_qual_search (bibset, look_token->name, look_token->len);
+ ap[i] = ccl_qual_search (cclp, cclp->look_token->name,
+ cclp->look_token->len);
if (!ap[i])
{
- ccl_error = CCL_ERR_UNKNOWN_QUAL;
+ cclp->error_code = CCL_ERR_UNKNOWN_QUAL;
free (ap);
return NULL;
}
if (KIND == CCL_TOK_COMMA)
ADVANCE;
}
+ if (qa)
+ while (*qa)
+ ap[i++] = *qa++;
ap[i] = NULL;
- if (! (attr = qual_val (ap[0], CCL_BIB1_REL)) ||
- attr->value != CCL_BIB1_REL_ORDER)
+ if (!qual_val_type (ap, CCL_BIB1_REL, CCL_BIB1_REL_ORDER))
{
/* unordered relation */
struct ccl_rpn_node *p;
if (KIND != CCL_TOK_EQ)
{
- ccl_error = CCL_ERR_EQ_EXPECTED;
+ cclp->error_code = CCL_ERR_EQ_EXPECTED;
free (ap);
return NULL;
}
if (KIND == CCL_TOK_LP)
{
ADVANCE;
- if (!(p = find_spec (ap)))
+ if (!(p = find_spec (cclp, ap)))
{
free (ap);
return NULL;
}
if (KIND != CCL_TOK_RP)
{
- ccl_error = CCL_ERR_RP_EXPECTED;
+ cclp->error_code = CCL_ERR_RP_EXPECTED;
ccl_rpn_delete (p);
free (ap);
return NULL;
ADVANCE;
}
else
- p = search_terms (ap);
+ p = search_terms (cclp, ap);
free (ap);
return p;
}
rel = 0;
- if (look_token->len == 1)
+ if (cclp->look_token->len == 1)
{
- if (look_token->name[0] == '<')
+ if (cclp->look_token->name[0] == '<')
rel = 1;
- else if (look_token->name[0] == '=')
+ else if (cclp->look_token->name[0] == '=')
rel = 3;
- else if (look_token->name[0] == '>')
+ else if (cclp->look_token->name[0] == '>')
rel = 5;
}
- else if (look_token->len == 2)
+ else if (cclp->look_token->len == 2)
{
- if (!memcmp (look_token->name, "<=", 2))
+ if (!memcmp (cclp->look_token->name, "<=", 2))
rel = 2;
- else if (!memcmp (look_token->name, ">=", 2))
+ else if (!memcmp (cclp->look_token->name, ">=", 2))
rel = 4;
- else if (!memcmp (look_token->name, "<>", 2))
+ else if (!memcmp (cclp->look_token->name, "<>", 2))
rel = 6;
}
if (!rel)
- ccl_error = CCL_ERR_BAD_RELATION;
+ cclp->error_code = CCL_ERR_BAD_RELATION;
else
{
struct ccl_rpn_node *p;
ADVANCE; /* skip relation */
- if (KIND == CCL_TOK_TERM)
+ if (KIND == CCL_TOK_TERM &&
+ cclp->look_token->next->kind == CCL_TOK_MINUS)
{
struct ccl_rpn_node *p1;
- p1 = search_term (ap);
- if (KIND == CCL_TOK_MINUS)
+ if (!(p1 = search_term (cclp, ap)))
+ {
+ free (ap);
+ return NULL;
+ }
+ ADVANCE; /* skip '-' */
+ if (KIND == CCL_TOK_TERM) /* = term - term ? */
{
- ADVANCE; /* skip '-' */
- if (KIND == CCL_TOK_TERM) /* = term - term ? */
- {
- struct ccl_rpn_node *p2;
-
- p2 = search_term (ap);
- p = mk_node (CCL_RPN_AND);
- p->u.p[0] = p1;
- add_attr (p1, CCL_BIB1_REL, 4);
- p->u.p[1] = p2;
- add_attr (p2, CCL_BIB1_REL, 2);
- free (ap);
- return p;
- }
- else /* = term - */
- {
- add_attr (p1, CCL_BIB1_REL, 4);
- free (ap);
- return p1;
- }
+ struct ccl_rpn_node *p2;
+
+ if (!(p2 = search_term (cclp, ap)))
+ {
+ ccl_rpn_delete (p1);
+ free (ap);
+ return NULL;
+ }
+ p = mk_node (CCL_RPN_AND);
+ p->u.p[0] = p1;
+ add_attr (p1, CCL_BIB1_REL, 4);
+ p->u.p[1] = p2;
+ add_attr (p2, CCL_BIB1_REL, 2);
+ free (ap);
+ return p;
}
- else
+ else /* = term - */
{
- add_attr (p1, CCL_BIB1_REL, rel);
+ add_attr (p1, CCL_BIB1_REL, 4);
free (ap);
return p1;
}
else if (KIND == CCL_TOK_MINUS) /* = - term ? */
{
ADVANCE;
- p = search_term (ap);
+ if (!(p = search_term (cclp, ap)))
+ {
+ free (ap);
+ return NULL;
+ }
add_attr (p, CCL_BIB1_REL, 2);
free (ap);
return p;
}
- ccl_error = CCL_ERR_TERM_EXPECTED;
+ else if (KIND == CCL_TOK_LP)
+ {
+ ADVANCE;
+ if (!(p = find_spec (cclp, ap)))
+ {
+ free (ap);
+ return NULL;
+ }
+ if (KIND != CCL_TOK_RP)
+ {
+ cclp->error_code = CCL_ERR_RP_EXPECTED;
+ ccl_rpn_delete (p);
+ free (ap);
+ return NULL;
+ }
+ ADVANCE;
+ free (ap);
+ return p;
+ }
+ else
+ {
+ if (!(p = search_terms (cclp, ap)))
+ {
+ free (ap);
+ return NULL;
+ }
+ add_attr (p, CCL_BIB1_REL, rel);
+ free (ap);
+ return p;
+ }
+ cclp->error_code = CCL_ERR_TERM_EXPECTED;
}
free (ap);
return NULL;
}
-static struct ccl_rpn_node *search_terms (struct ccl_rpn_attr **qa)
+/*
+ * search_terms: Parse CCL search terms - including proximity.
+ * cclp: CCL Parser
+ * qa: Qualifier attributes already applied.
+ * return: pointer to node(s); NULL on error.
+ */
+static struct ccl_rpn_node *search_terms (CCL_parser cclp,
+ struct ccl_rpn_attr **qa)
{
struct ccl_rpn_node *p1, *p2, *pn;
- p1 = search_term (qa);
+ p1 = search_term (cclp, qa);
if (!p1)
return NULL;
while (1)
if (KIND == CCL_TOK_PROX)
{
ADVANCE;
- p2 = search_term (qa);
+ p2 = search_term (cclp, qa);
if (!p2)
{
ccl_rpn_delete (p1);
}
else if (KIND == CCL_TOK_TERM)
{
- p2 = search_term (qa);
+ p2 = search_term (cclp, qa);
if (!p2)
{
ccl_rpn_delete (p1);
return p1;
}
-static struct ccl_rpn_node *search_elements (struct ccl_rpn_attr **qa)
+/*
+ * search_elements: Parse CCL search elements
+ * cclp: CCL Parser
+ * qa: Qualifier attributes already applied.
+ * return: pointer to node(s); NULL on error.
+ */
+static struct ccl_rpn_node *search_elements (CCL_parser cclp,
+ struct ccl_rpn_attr **qa)
{
struct ccl_rpn_node *p1;
struct ccl_token *lookahead;
if (KIND == CCL_TOK_LP)
{
ADVANCE;
- p1 = find_spec (qa);
+ p1 = find_spec (cclp, qa);
if (!p1)
return NULL;
if (KIND != CCL_TOK_RP)
{
- ccl_error = CCL_ERR_RP_EXPECTED;
+ cclp->error_code = CCL_ERR_RP_EXPECTED;
ccl_rpn_delete (p1);
return NULL;
}
ADVANCE;
if (KIND != CCL_TOK_TERM)
{
- ccl_error = CCL_ERR_SETNAME_EXPECTED;
+ cclp->error_code = CCL_ERR_SETNAME_EXPECTED;
return NULL;
}
p1 = mk_node (CCL_RPN_SET);
- p1->u.setname = copy_token_name (look_token);
+ p1->u.setname = copy_token_name (cclp->look_token);
ADVANCE;
return p1;
}
- lookahead = look_token;
+ lookahead = cclp->look_token;
- while (lookahead->kind==CCL_TOK_TERM || lookahead->kind==CCL_TOK_COMMA)
- lookahead = lookahead->next;
- if (lookahead->kind == CCL_TOK_REL || lookahead->kind == CCL_TOK_EQ)
- return qualifiers (lookahead, qa);
- return search_terms (qa);
+ while (lookahead->kind==CCL_TOK_TERM)
+ {
+ lookahead = lookahead->next;
+ if (lookahead->kind == CCL_TOK_REL || lookahead->kind == CCL_TOK_EQ)
+ return qualifiers (cclp, lookahead, qa);
+ if (lookahead->kind != CCL_TOK_COMMA)
+ break;
+ lookahead = lookahead->next;
+ }
+ return search_terms (cclp, qa);
}
-static struct ccl_rpn_node *find_spec (struct ccl_rpn_attr **qa)
+/*
+ * find_spec: Parse CCL find specification
+ * cclp: CCL Parser
+ * qa: Qualifier attributes already applied.
+ * return: pointer to node(s); NULL on error.
+ */
+static struct ccl_rpn_node *find_spec (CCL_parser cclp,
+ struct ccl_rpn_attr **qa)
{
struct ccl_rpn_node *p1, *p2, *pn;
- if (!(p1 = search_elements (qa)))
+ if (!(p1 = search_elements (cclp, qa)))
return NULL;
while (1)
{
{
case CCL_TOK_AND:
ADVANCE;
- p2 = search_elements (qa);
+ p2 = search_elements (cclp, qa);
if (!p2)
{
ccl_rpn_delete (p1);
continue;
case CCL_TOK_OR:
ADVANCE;
- p2 = search_elements (qa);
+ p2 = search_elements (cclp, qa);
if (!p2)
{
ccl_rpn_delete (p1);
continue;
case CCL_TOK_NOT:
ADVANCE;
- p2 = search_elements (qa);
+ p2 = search_elements (cclp, qa);
if (!p2)
{
ccl_rpn_delete (p1);
return p1;
}
-struct ccl_rpn_node *ccl_find (CCL_bibset abibset, struct ccl_token *list,
- int *error, const char **pos)
+struct ccl_rpn_node *ccl_parser_find (CCL_parser cclp, struct ccl_token *list)
{
struct ccl_rpn_node *p;
- look_token = list;
- bibset = abibset;
- p = find_spec (NULL);
+ cclp->look_token = list;
+ p = find_spec (cclp, NULL);
if (p && KIND != CCL_TOK_EOL)
{
if (KIND == CCL_TOK_RP)
- ccl_error = CCL_ERR_BAD_RP;
+ cclp->error_code = CCL_ERR_BAD_RP;
else
- ccl_error = CCL_ERR_OP_EXPECTED;
+ cclp->error_code = CCL_ERR_OP_EXPECTED;
ccl_rpn_delete (p);
p = NULL;
}
- *pos = look_token->name;
+ cclp->error_pos = cclp->look_token->name;
if (p)
- *error = CCL_ERR_OK;
+ cclp->error_code = CCL_ERR_OK;
else
- *error = ccl_error;
+ cclp->error_code = cclp->error_code;
+ return p;
+}
+
+/*
+ * ccl_find: Parse CCL find - token representation
+ * bibset: Bibset to be used for the parsing
+ * list: List of tokens
+ * error: Pointer to integer. Holds error no. on completion.
+ * pos: Pointer to char position. Holds approximate error position.
+ * return: RPN tree on successful completion; NULL otherwise.
+ */
+struct ccl_rpn_node *ccl_find (CCL_bibset bibset, struct ccl_token *list,
+ int *error, const char **pos)
+{
+ struct ccl_rpn_node *p;
+ CCL_parser cclp = ccl_parser_create ();
+
+ cclp->bibset = bibset;
+
+ p = ccl_parser_find (cclp, list);
+
+ *error = cclp->error_code;
+ *pos = cclp->error_pos;
+
+ ccl_parser_destroy (cclp);
+
return p;
}
+/*
+ * ccl_find_str: Parse CCL find - string representation
+ * bibset: Bibset to be used for the parsing
+ * str: String to be parsed
+ * error: Pointer to integer. Holds error no. on completion.
+ * pos: Pointer to char position. Holds approximate error position.
+ * return: RPN tree on successful completion; NULL otherwise.
+ */
struct ccl_rpn_node *ccl_find_str (CCL_bibset bibset, const char *str,
int *error, int *pos)
{
+ CCL_parser cclp = ccl_parser_create ();
struct ccl_token *list;
- struct ccl_rpn_node *rpn;
- const char *char_pos;
+ struct ccl_rpn_node *p;
- list = ccl_tokenize (str);
- rpn = ccl_find (bibset, list, error, &char_pos);
+ cclp->bibset = bibset;
+
+ list = ccl_parser_tokenize (cclp, str);
+ p = ccl_parser_find (cclp, list);
+
+ *error = cclp->error_code;
if (*error)
- *pos = char_pos - str;
- return rpn;
+ *pos = cclp->error_pos - str;
+ ccl_parser_destroy (cclp);
+ return p;
}