-/*
- * Copyright (C) 1994-1995, Index Data I/S
- * All rights reserved.
- * Sebastian Hammer, Adam Dickmeiss
- *
- * $Log: zrpn.c,v $
- * Revision 1.40 1996-02-02 13:44:44 adam
- * The public dictionary functions simply use char instead of Dict_char
- * to represent search strings. Dict_char is used internally only.
- *
- * Revision 1.39 1996/01/03 16:22:13 quinn
- * operator->roperator
- *
- * Revision 1.38 1995/12/11 09:12:55 adam
- * The rec_get function returns NULL if record doesn't exist - will
- * happen in the server if the result set records have been deleted since
- * the creation of the set (i.e. the search).
- * The server saves a result temporarily if it is 'volatile', i.e. the
- * set is register dependent.
- *
- * Revision 1.37 1995/12/06 15:05:28 adam
- * More verbose in count_set.
- *
- * Revision 1.36 1995/12/06 12:41:27 adam
- * New command 'stat' for the index program.
- * Filenames can be read from stdin by specifying '-'.
- * Bug fix/enhancement of the transformation from terms to regular
- * expressons in the search engine.
- *
- * Revision 1.35 1995/11/27 09:29:00 adam
- * Bug fixes regarding conversion to regular expressions.
- *
- * Revision 1.34 1995/11/16 17:00:56 adam
- * Better logging of rpn query.
- *
- * Revision 1.33 1995/11/01 13:58:28 quinn
- * Moving data1 to yaz/retrieval
- *
- * Revision 1.32 1995/10/27 14:00:11 adam
- * Implemented detection of database availability.
- *
- * Revision 1.31 1995/10/17 18:02:10 adam
- * New feature: databases. Implemented as prefix to words in dictionary.
- *
- * Revision 1.30 1995/10/16 09:32:38 adam
- * More work on relational op.
- *
- * Revision 1.29 1995/10/13 16:01:49 adam
- * Work on relations.
- *
- * Revision 1.28 1995/10/13 12:26:43 adam
- * Optimization of truncation.
- *
- * Revision 1.27 1995/10/12 17:07:22 adam
- * Truncation works.
- *
- * Revision 1.26 1995/10/12 12:40:54 adam
- * Bug fixes in rpn_prox.
- *
- * Revision 1.25 1995/10/10 13:59:24 adam
- * Function rset_open changed its wflag parameter to general flags.
- *
- * Revision 1.24 1995/10/09 16:18:37 adam
- * Function dict_lookup_grep got extra client data parameter.
- *
- * Revision 1.23 1995/10/06 16:33:37 adam
- * Use attribute mappings.
- *
- * Revision 1.22 1995/10/06 15:07:39 adam
- * Structure 'local-number' handled.
- *
- * Revision 1.21 1995/10/06 13:52:06 adam
- * Bug fixes. Handler may abort further scanning.
- *
- * Revision 1.20 1995/10/06 11:06:33 adam
- * Scan entries include 'occurrences' now.
- *
- * Revision 1.19 1995/10/06 10:43:56 adam
- * Scan added. 'occurrences' in scan entries not set yet.
- *
- * Revision 1.18 1995/10/04 16:57:20 adam
- * Key input and merge sort in one pass.
- *
- * Revision 1.17 1995/10/04 12:55:17 adam
- * Bug fix in ranked search. Use=Any keys inserted.
- *
- * Revision 1.16 1995/10/02 16:24:40 adam
- * Use attribute actually used in search requests.
- *
- * Revision 1.15 1995/10/02 15:18:52 adam
- * New member in recRetrieveCtrl: diagnostic.
- *
- * Revision 1.14 1995/09/28 12:10:32 adam
- * Bug fixes. Field prefix used in queries.
- *
- * Revision 1.13 1995/09/18 14:17:50 adam
- * Minor changes.
- *
- * Revision 1.12 1995/09/15 14:45:21 adam
- * Retrieve control.
- * Work on truncation.
- *
- * Revision 1.11 1995/09/14 11:53:27 adam
- * First work on regular expressions/truncations.
- *
- * Revision 1.10 1995/09/11 15:23:26 adam
- * More work on relevance search.
- *
- * Revision 1.9 1995/09/11 13:09:35 adam
- * More work on relevance feedback.
- *
- * Revision 1.8 1995/09/08 14:52:27 adam
- * Minor changes. Dictionary is lower case now.
- *
- * Revision 1.7 1995/09/07 13:58:36 adam
- * New parameter: result-set file descriptor (RSFD) to support multiple
- * positions within the same result-set.
- * Boolean operators: and, or, not implemented.
- * Result-set references.
- *
- * Revision 1.6 1995/09/06 16:11:18 adam
- * Option: only one word key per file.
- *
- * Revision 1.5 1995/09/06 10:33:04 adam
- * More work on present. Some log messages removed.
- *
- * Revision 1.4 1995/09/05 15:28:40 adam
- * More work on search engine.
- *
- * Revision 1.3 1995/09/04 15:20:22 adam
- * Minor changes.
- *
- * Revision 1.2 1995/09/04 12:33:43 adam
- * Various cleanup. YAZ util used instead.
- *
- * Revision 1.1 1995/09/04 09:10:40 adam
- * More work on index add/del/update.
- * Merge sort implemented.
- * Initial work on z39 server.
- *
- */
+/* $Id: zrpn.c,v 1.210 2006-03-30 09:52:16 adam Exp $
+ Copyright (C) 1995-2005
+ Index Data ApS
+
+This file is part of the Zebra server.
+
+Zebra is free software; you can redistribute it and/or modify it under
+the terms of the GNU General Public License as published by the Free
+Software Foundation; either version 2, or (at your option) any later
+version.
+
+Zebra is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or
+FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+for more details.
+
+You should have received a copy of the GNU General Public License
+along with Zebra; see the file LICENSE.zebra. If not, write to the
+Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
+02111-1307, USA.
+*/
+
#include <stdio.h>
#include <assert.h>
+#ifdef WIN32
+#include <io.h>
+#endif
+#if HAVE_UNISTD_H
#include <unistd.h>
+#endif
#include <ctype.h>
-#include "zserver.h"
-#include "attribute.h"
+#include <yaz/diagbib1.h>
+#include "index.h"
+#include <zebra_xpath.h>
-#include <rsisam.h>
-#include <rstemp.h>
-#include <rsnull.h>
-#include <rsbool.h>
-#include <rsrel.h>
+#include <charmap.h>
+#include <rset.h>
-int index_word_prefix_map (char *string, oid_value attrSet, int attrUse,
- char *basename)
+struct rpn_char_map_info
{
- attent *attp;
-
- logf (LOG_DEBUG, "oid_value attrSet = %d, attrUse = %d", attrSet, attrUse);
- attp = att_getentbyatt (attrSet, attrUse);
- if (!attp)
- return -1;
- logf (LOG_DEBUG, "ord=%d", attp->attset_ordinal);
- return index_word_prefix (string, attp->attset_ordinal,
- attp->local_attribute, basename);
-}
+ ZebraMaps zm;
+ int reg_type;
+};
-typedef struct {
+typedef struct
+{
int type;
int major;
int minor;
Z_AttributesPlusTerm *zapt;
} AttrType;
-static int attr_find (AttrType *src, oid_value *attributeSetP)
+static int log_level_set = 0;
+static int log_level_rpn = 0;
+
+static const char **rpn_char_map_handler(void *vp, const char **from, int len)
+{
+ struct rpn_char_map_info *p = (struct rpn_char_map_info *) vp;
+ const char **out = zebra_maps_input(p->zm, p->reg_type, from, len, 0);
+#if 0
+ if (out && *out)
+ {
+ const char *outp = *out;
+ yaz_log(YLOG_LOG, "---");
+ while (*outp)
+ {
+ yaz_log(YLOG_LOG, "%02X", *outp);
+ outp++;
+ }
+ }
+#endif
+ return out;
+}
+
+static void rpn_char_map_prepare(struct zebra_register *reg, int reg_type,
+ struct rpn_char_map_info *map_info)
{
- while (src->major < src->zapt->num_attributes)
+ map_info->zm = reg->zebra_maps;
+ map_info->reg_type = reg_type;
+ dict_grep_cmap(reg->dict, map_info, rpn_char_map_handler);
+}
+
+static int attr_find_ex(AttrType *src, oid_value *attributeSetP,
+ const char **string_value)
+{
+ int num_attributes;
+
+ num_attributes = src->zapt->attributes->num_attributes;
+ while (src->major < num_attributes)
{
Z_AttributeElement *element;
- element = src->zapt->attributeList[src->major];
+ element = src->zapt->attributes->attributes[src->major];
if (src->type == *element->attributeType)
{
switch (element->which)
{
oident *attrset;
- attrset = oid_getentbyoid (element->attributeSet);
+ attrset = oid_getentbyoid(element->attributeSet);
*attributeSetP = attrset->value;
}
return *element->value.numeric;
break;
case Z_AttributeValue_complex:
- if (src->minor >= element->value.complex->num_list ||
- element->value.complex->list[src->minor]->which !=
- Z_StringOrNumeric_numeric)
+ if (src->minor >= element->value.complex->num_list)
break;
- ++(src->minor);
if (element->attributeSet && attributeSetP)
{
oident *attrset;
-
- attrset = oid_getentbyoid (element->attributeSet);
+
+ attrset = oid_getentbyoid(element->attributeSet);
*attributeSetP = attrset->value;
}
- return *element->value.complex->list[src->minor-1]->u.numeric;
+ if (element->value.complex->list[src->minor]->which ==
+ Z_StringOrNumeric_numeric)
+ {
+ ++(src->minor);
+ return
+ *element->value.complex->list[src->minor-1]->u.numeric;
+ }
+ else if (element->value.complex->list[src->minor]->which ==
+ Z_StringOrNumeric_string)
+ {
+ if (!string_value)
+ break;
+ ++(src->minor);
+ *string_value =
+ element->value.complex->list[src->minor-1]->u.string;
+ return -2;
+ }
+ else
+ break;
default:
- assert (0);
+ assert(0);
}
}
++(src->major);
return -1;
}
-static void attr_init (AttrType *src, Z_AttributesPlusTerm *zapt,
+static int attr_find(AttrType *src, oid_value *attributeSetP)
+{
+ return attr_find_ex(src, attributeSetP, 0);
+}
+
+static void attr_init(AttrType *src, Z_AttributesPlusTerm *zapt,
int type)
{
src->zapt = zapt;
src->minor = 0;
}
-struct trunc_info {
- int *ptr;
- int *indx;
- char **heap;
- int heapnum;
- int (*cmp)(const void *p1, const void *p2);
- int keysize;
- char *swapbuf;
- char *tmpbuf;
- char *buf;
-};
+#define TERM_COUNT
+
+struct grep_info {
+#ifdef TERM_COUNT
+ int *term_no;
+#endif
+ ISAM_P *isam_p_buf;
+ int isam_p_size;
+ int isam_p_indx;
+ ZebraHandle zh;
+ int reg_type;
+ ZebraSet termset;
+};
-static void heap_swap (struct trunc_info *ti, int i1, int i2)
+void zebra_term_untrans(ZebraHandle zh, int reg_type,
+ char *dst, const char *src)
{
- int swap;
-
- swap = ti->ptr[i1];
- ti->ptr[i1] = ti->ptr[i2];
- ti->ptr[i2] = swap;
+ int len = 0;
+ while (*src)
+ {
+ const char *cp = zebra_maps_output(zh->reg->zebra_maps,
+ reg_type, &src);
+ if (!cp)
+ {
+ if (len < IT_MAX_WORD-1)
+ dst[len++] = *src;
+ src++;
+ }
+ else
+ while (*cp && len < IT_MAX_WORD-1)
+ dst[len++] = *cp++;
+ }
+ dst[len] = '\0';
}
-static void heap_delete (struct trunc_info *ti)
+static void add_isam_p(const char *name, const char *info,
+ struct grep_info *p)
{
- int cur = 1, child = 2;
-
- heap_swap (ti, 1, ti->heapnum--);
- while (child <= ti->heapnum) {
- if (child < ti->heapnum &&
- (*ti->cmp)(ti->heap[ti->ptr[child]],
- ti->heap[ti->ptr[1+child]]) > 0)
- child++;
- if ((*ti->cmp)(ti->heap[ti->ptr[cur]],
- ti->heap[ti->ptr[child]]) > 0)
+ if (!log_level_set)
+ {
+ log_level_rpn = yaz_log_module_level("rpn");
+ log_level_set = 1;
+ }
+ if (p->isam_p_indx == p->isam_p_size)
+ {
+ ISAM_P *new_isam_p_buf;
+#ifdef TERM_COUNT
+ int *new_term_no;
+#endif
+ p->isam_p_size = 2*p->isam_p_size + 100;
+ new_isam_p_buf = (ISAM_P *) xmalloc(sizeof(*new_isam_p_buf) *
+ p->isam_p_size);
+ if (p->isam_p_buf)
{
- heap_swap (ti, cur, child);
- cur = child;
- child = 2*cur;
+ memcpy(new_isam_p_buf, p->isam_p_buf,
+ p->isam_p_indx * sizeof(*p->isam_p_buf));
+ xfree(p->isam_p_buf);
}
- else
- break;
+ p->isam_p_buf = new_isam_p_buf;
+
+#ifdef TERM_COUNT
+ 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,
+ p->isam_p_indx * sizeof(*p->term_no));
+ xfree(p->term_no);
+ }
+ p->term_no = new_term_no;
+#endif
}
-}
+ assert(*info == sizeof(*p->isam_p_buf));
+ memcpy(p->isam_p_buf + p->isam_p_indx, info+1, sizeof(*p->isam_p_buf));
-static void heap_insert (struct trunc_info *ti, const char *buf, int indx)
-{
- int cur, parent;
-
- cur = ++(ti->heapnum);
- memcpy (ti->heap[ti->ptr[cur]], buf, ti->keysize);
- ti->indx[ti->ptr[cur]] = indx;
- parent = cur/2;
- while (parent && (*ti->cmp)(ti->heap[ti->ptr[parent]],
- ti->heap[ti->ptr[cur]]) > 0)
+#if 1
+ if (p->termset)
{
- heap_swap (ti, cur, parent);
- cur = parent;
- parent = cur/2;
+ const char *db;
+ int set, use;
+ char term_tmp[IT_MAX_WORD];
+ int ord = 0;
+ int len = key_SU_decode (&ord, (const unsigned char *) name);
+
+ zebra_term_untrans (p->zh, p->reg_type, term_tmp, name+len+1);
+ yaz_log(log_level_rpn, "grep: %d %c %s", ord, name[len], term_tmp);
+ zebraExplain_lookup_ord (p->zh->reg->zei,
+ ord, 0 /* index_type */, &db, &set, &use, 0);
+ yaz_log(log_level_rpn, "grep: set=%d use=%d db=%s", set, use, db);
+
+ resultSetAddTerm(p->zh, p->termset, name[len], db,
+ set, use, term_tmp);
}
+#endif
+ (p->isam_p_indx)++;
}
-static
-struct trunc_info *heap_init (int size, int key_size,
- int (*cmp)(const void *p1, const void *p2))
+static int grep_handle(char *name, const char *info, void *p)
{
- struct trunc_info *ti = xmalloc (sizeof(*ti));
- int i;
+ add_isam_p(name, info, (struct grep_info *) p);
+ return 0;
+}
+
+static int term_pre(ZebraMaps zebra_maps, int reg_type, const char **src,
+ const char *ct1, const char *ct2, int first)
+{
+ const char *s1, *s0 = *src;
+ const char **map;
- ++size;
- ti->heapnum = 0;
- ti->keysize = key_size;
- ti->cmp = cmp;
- ti->indx = xmalloc (size * sizeof(*ti->indx));
- ti->heap = xmalloc (size * sizeof(*ti->heap));
- ti->ptr = xmalloc (size * sizeof(*ti->ptr));
- ti->swapbuf = xmalloc (ti->keysize);
- ti->tmpbuf = xmalloc (ti->keysize);
- ti->buf = xmalloc (size * ti->keysize);
- for (i = size; --i >= 0; )
+ /* skip white space */
+ while (*s0)
{
- ti->ptr[i] = i;
- ti->heap[i] = ti->buf + ti->keysize * i;
+ if (ct1 && strchr(ct1, *s0))
+ break;
+ if (ct2 && strchr(ct2, *s0))
+ break;
+ s1 = s0;
+ map = zebra_maps_input(zebra_maps, reg_type, &s1, strlen(s1), first);
+ if (**map != *CHR_SPACE)
+ break;
+ s0 = s1;
}
- return ti;
+ *src = s0;
+ return *s0;
}
-static void heap_close (struct trunc_info *ti)
+
+static void esc_str(char *out_buf, int out_size,
+ const char *in_buf, int in_size)
{
- xfree (ti->ptr);
- xfree (ti->indx);
- xfree (ti->heap);
- xfree (ti->swapbuf);
- xfree (ti->tmpbuf);
- xfree (ti);
+ int k;
+
+ assert(out_buf);
+ assert(in_buf);
+ assert(out_size > 20);
+ *out_buf = '\0';
+ for (k = 0; k<in_size; k++)
+ {
+ int c = in_buf[k] & 0xff;
+ int pc;
+ if (c < 32 || c > 126)
+ pc = '?';
+ else
+ pc = c;
+ sprintf(out_buf +strlen(out_buf), "%02X:%c ", c, pc);
+ if (strlen(out_buf) > out_size-20)
+ {
+ strcat(out_buf, "..");
+ break;
+ }
+ }
}
-static RSET rset_trunc_r (ISAM isam, ISAM_P *isam_p, int from, int to,
- int merge_chunk)
+#define REGEX_CHARS " []()|.*+?!"
+
+/* term_100: handle term, where trunc = none(no operators at all) */
+static int term_100(ZebraMaps zebra_maps, int reg_type,
+ const char **src, char *dst, int space_split,
+ char *dst_term)
{
- RSET result;
- RSFD result_rsfd;
- rset_temp_parms parms;
+ const char *s0;
+ const char **map;
+ int i = 0;
+ int j = 0;
- parms.key_size = sizeof(struct it_key);
- result = rset_create (rset_kind_temp, &parms);
- result_rsfd = rset_open (result, RSETF_WRITE|RSETF_SORT_SYSNO);
+ const char *space_start = 0;
+ const char *space_end = 0;
- if (to - from > merge_chunk)
+ if (!term_pre(zebra_maps, reg_type, src, NULL, NULL, !space_split))
+ return 0;
+ s0 = *src;
+ while (*s0)
{
- RSFD *rsfd;
- RSET *rset;
- int i, i_add = (to-from)/merge_chunk + 1;
- struct trunc_info *ti;
- int rscur = 0;
- int rsmax = (to-from)/i_add + 1;
-
- rset = xmalloc (sizeof(*rset) * rsmax);
- rsfd = xmalloc (sizeof(*rsfd) * rsmax);
-
- for (i = from; i < to; i += i_add)
+ const char *s1 = s0;
+ int q_map_match = 0;
+ map = zebra_maps_search(zebra_maps, reg_type, &s0, strlen(s0),
+ &q_map_match);
+ if (space_split)
{
- if (i_add <= to - i)
- rset[rscur] = rset_trunc_r (isam, isam_p, i, i+i_add,
- merge_chunk);
- else
- rset[rscur] = rset_trunc_r (isam, isam_p, i, to,
- merge_chunk);
- rscur++;
+ if (**map == *CHR_SPACE)
+ break;
}
- ti = heap_init (rscur, sizeof(struct it_key), key_compare);
- for (i = rscur; --i >= 0; )
+ else /* complete subfield only. */
{
- rsfd[i] = rset_open (rset[i], RSETF_READ|RSETF_SORT_SYSNO);
- if (rset_read (rset[i], rsfd[i], ti->tmpbuf))
- heap_insert (ti, ti->tmpbuf, i);
- else
- {
- rset_close (rset[i], rsfd[i]);
- rset_delete (rset[i]);
+ if (**map == *CHR_SPACE)
+ { /* save space mapping for later .. */
+ space_start = s1;
+ space_end = s0;
+ continue;
}
- }
- while (ti->heapnum)
- {
- int n = ti->indx[ti->ptr[1]];
-
- rset_write (result, result_rsfd, ti->heap[ti->ptr[1]]);
-
- while (1)
- {
- if (!rset_read (rset[n], rsfd[n], ti->tmpbuf))
- {
- heap_delete (ti);
- rset_close (rset[n], rsfd[n]);
- rset_delete (rset[n]);
- break;
- }
- if ((*ti->cmp)(ti->tmpbuf, ti->heap[ti->ptr[1]]) > 1)
+ else if (space_start)
+ { /* reload last space */
+ while (space_start < space_end)
{
- heap_delete (ti);
- heap_insert (ti, ti->tmpbuf, n);
- break;
+ if (strchr(REGEX_CHARS, *space_start))
+ dst[i++] = '\\';
+ dst_term[j++] = *space_start;
+ dst[i++] = *space_start++;
}
+ /* and reset */
+ space_start = space_end = 0;
}
}
- xfree (rset);
- xfree (rsfd);
- heap_close (ti);
+ /* add non-space char */
+ memcpy(dst_term+j, s1, s0 - s1);
+ j += (s0 - s1);
+ if (!q_map_match)
+ {
+ while (s1 < s0)
+ {
+ if (strchr(REGEX_CHARS, *s1))
+ dst[i++] = '\\';
+ dst[i++] = *s1++;
+ }
+ }
+ else
+ {
+ char tmpbuf[80];
+ esc_str(tmpbuf, sizeof(tmpbuf), map[0], strlen(map[0]));
+
+ strcpy(dst + i, map[0]);
+ i += strlen(map[0]);
+ }
}
- else
- {
- ISPT *ispt;
- int i;
- struct trunc_info *ti;
+ dst[i] = '\0';
+ dst_term[j] = '\0';
+ *src = s0;
+ return i;
+}
- ispt = xmalloc (sizeof(*ispt) * (to-from));
+/* term_101: handle term, where trunc = Process # */
+static int term_101(ZebraMaps zebra_maps, int reg_type,
+ const char **src, char *dst, int space_split,
+ char *dst_term)
+{
+ const char *s0;
+ const char **map;
+ int i = 0;
+ int j = 0;
- ti = heap_init (to-from, sizeof(struct it_key),
- key_compare);
- for (i = to-from; --i >= 0; )
+ if (!term_pre(zebra_maps, reg_type, src, "#", "#", !space_split))
+ return 0;
+ s0 = *src;
+ while (*s0)
+ {
+ if (*s0 == '#')
{
- ispt[i] = is_position (isam, isam_p[from+i]);
- if (is_readkey (ispt[i], ti->tmpbuf))
- heap_insert (ti, ti->tmpbuf, i);
- else
- is_pt_free (ispt[i]);
+ dst[i++] = '.';
+ dst[i++] = '*';
+ dst_term[j++] = *s0++;
}
- while (ti->heapnum)
+ else
{
- int n = ti->indx[ti->ptr[1]];
+ const char *s1 = s0;
+ int q_map_match = 0;
+ map = zebra_maps_search(zebra_maps, reg_type, &s0, strlen(s0),
+ &q_map_match);
+ if (space_split && **map == *CHR_SPACE)
+ break;
- rset_write (result, result_rsfd, ti->heap[ti->ptr[1]]);
-#if 0
-/* section that preserve all keys */
- heap_delete (ti);
- if (is_readkey (ispt[n], ti->tmpbuf))
- heap_insert (ti, ti->tmpbuf, n);
- else
- is_pt_free (ispt[n]);
-#else
-/* section that preserve all keys with unique sysnos */
- while (1)
- {
- if (!is_readkey (ispt[n], ti->tmpbuf))
- {
- heap_delete (ti);
- is_pt_free (ispt[n]);
- break;
- }
- if ((*ti->cmp)(ti->tmpbuf, ti->heap[ti->ptr[1]]) > 1)
- {
- heap_delete (ti);
- heap_insert (ti, ti->tmpbuf, n);
- break;
- }
- }
-#endif
+ /* add non-space char */
+ memcpy(dst_term+j, s1, s0 - s1);
+ j += (s0 - s1);
+ if (!q_map_match)
+ {
+ while (s1 < s0)
+ {
+ if (strchr(REGEX_CHARS, *s1))
+ dst[i++] = '\\';
+ dst[i++] = *s1++;
+ }
+ }
+ else
+ {
+ char tmpbuf[80];
+ esc_str(tmpbuf, sizeof(tmpbuf), map[0], strlen(map[0]));
+
+ strcpy(dst + i, map[0]);
+ i += strlen(map[0]);
+ }
}
- heap_close (ti);
- xfree (ispt);
}
- rset_close (result, result_rsfd);
- return result;
+ dst[i] = '\0';
+ dst_term[j++] = '\0';
+ *src = s0;
+ return i;
}
-static int isam_trunc_cmp (const void *p1, const void *p2)
+/* term_103: handle term, where trunc = re-2 (regular expressions) */
+static int term_103(ZebraMaps zebra_maps, int reg_type, const char **src,
+ char *dst, int *errors, int space_split,
+ char *dst_term)
{
- ISAM_P i1 = *(ISAM_P*) p1;
- ISAM_P i2 = *(ISAM_P*) p2;
- int d;
-
- d = is_type (i1) - is_type (i2);
- if (d)
- return d;
- return is_block (i1) - is_block (i2);
+ int i = 0;
+ int j = 0;
+ const char *s0;
+ const char **map;
+
+ if (!term_pre(zebra_maps, reg_type, src, "^\\()[].*+?|", "(", !space_split))
+ return 0;
+ s0 = *src;
+ if (errors && *s0 == '+' && s0[1] && s0[2] == '+' && s0[3] &&
+ isdigit(((const unsigned char *)s0)[1]))
+ {
+ *errors = s0[1] - '0';
+ s0 += 3;
+ if (*errors > 3)
+ *errors = 3;
+ }
+ while (*s0)
+ {
+ if (strchr("^\\()[].*+?|-", *s0))
+ {
+ dst_term[j++] = *s0;
+ dst[i++] = *s0++;
+ }
+ else
+ {
+ const char *s1 = s0;
+ int q_map_match = 0;
+ map = zebra_maps_search(zebra_maps, reg_type, &s0, strlen(s0),
+ &q_map_match);
+ if (space_split && **map == *CHR_SPACE)
+ break;
+
+ /* add non-space char */
+ memcpy(dst_term+j, s1, s0 - s1);
+ j += (s0 - s1);
+ if (!q_map_match)
+ {
+ while (s1 < s0)
+ {
+ if (strchr(REGEX_CHARS, *s1))
+ dst[i++] = '\\';
+ dst[i++] = *s1++;
+ }
+ }
+ else
+ {
+ char tmpbuf[80];
+ esc_str(tmpbuf, sizeof(tmpbuf), map[0], strlen(map[0]));
+
+ strcpy(dst + i, map[0]);
+ i += strlen(map[0]);
+ }
+ }
+ }
+ dst[i] = '\0';
+ dst_term[j] = '\0';
+ *src = s0;
+
+ return i;
}
-static RSET rset_trunc (ISAM isam, ISAM_P *isam_p, int no)
+/* term_103: handle term, where trunc = re-1 (regular expressions) */
+static int term_102(ZebraMaps zebra_maps, int reg_type, const char **src,
+ char *dst, int space_split, char *dst_term)
{
-
- qsort (isam_p, no, sizeof(*isam_p), isam_trunc_cmp);
- return rset_trunc_r (isam, isam_p, 0, no, 100);
+ return term_103(zebra_maps, reg_type, src, dst, NULL, space_split,
+ dst_term);
}
-struct grep_info {
- ISAM_P *isam_p_buf;
- int isam_p_size;
- int isam_p_indx;
-};
-static void add_isam_p (const char *info, struct grep_info *p)
+/* term_104: handle term, where trunc = Process # and ! */
+static int term_104(ZebraMaps zebra_maps, int reg_type,
+ const char **src, char *dst, int space_split,
+ char *dst_term)
{
- if (p->isam_p_indx == p->isam_p_size)
+ const char *s0;
+ const char **map;
+ int i = 0;
+ int j = 0;
+
+ if (!term_pre(zebra_maps, reg_type, src, "?*#", "?*#", !space_split))
+ return 0;
+ s0 = *src;
+ while (*s0)
{
- ISAM_P *new_isam_p_buf;
-
- p->isam_p_size = 2*p->isam_p_size + 100;
- new_isam_p_buf = xmalloc (sizeof(*new_isam_p_buf) *
- p->isam_p_size);
- if (p->isam_p_buf)
+ if (*s0 == '?')
{
- memcpy (new_isam_p_buf, p->isam_p_buf,
- p->isam_p_indx * sizeof(*p->isam_p_buf));
- xfree (p->isam_p_buf);
+ dst_term[j++] = *s0++;
+ if (*s0 >= '0' && *s0 <= '9')
+ {
+ int limit = 0;
+ while (*s0 >= '0' && *s0 <= '9')
+ {
+ limit = limit * 10 + (*s0 - '0');
+ dst_term[j++] = *s0++;
+ }
+ if (limit > 20)
+ limit = 20;
+ while (--limit >= 0)
+ {
+ dst[i++] = '.';
+ dst[i++] = '?';
+ }
+ }
+ else
+ {
+ dst[i++] = '.';
+ dst[i++] = '*';
+ }
+ }
+ else if (*s0 == '*')
+ {
+ dst[i++] = '.';
+ dst[i++] = '*';
+ dst_term[j++] = *s0++;
+ }
+ else if (*s0 == '#')
+ {
+ dst[i++] = '.';
+ dst_term[j++] = *s0++;
+ }
+ else
+ {
+ const char *s1 = s0;
+ int q_map_match = 0;
+ map = zebra_maps_search(zebra_maps, reg_type, &s0, strlen(s0),
+ &q_map_match);
+ if (space_split && **map == *CHR_SPACE)
+ break;
+
+ /* add non-space char */
+ memcpy(dst_term+j, s1, s0 - s1);
+ j += (s0 - s1);
+ if (!q_map_match)
+ {
+ while (s1 < s0)
+ {
+ if (strchr(REGEX_CHARS, *s1))
+ dst[i++] = '\\';
+ dst[i++] = *s1++;
+ }
+ }
+ else
+ {
+ char tmpbuf[80];
+ esc_str(tmpbuf, sizeof(tmpbuf), map[0], strlen(map[0]));
+
+ strcpy(dst + i, map[0]);
+ i += strlen(map[0]);
+ }
}
- p->isam_p_buf = new_isam_p_buf;
}
- assert (*info == sizeof(*p->isam_p_buf));
- memcpy (p->isam_p_buf + p->isam_p_indx, info+1, sizeof(*p->isam_p_buf));
- (p->isam_p_indx)++;
+ dst[i] = '\0';
+ dst_term[j++] = '\0';
+ *src = s0;
+ return i;
}
-static int grep_handle (char *name, const char *info, void *p)
+/* term_105/106: handle term, where trunc = Process * and ! and right trunc */
+static int term_105(ZebraMaps zebra_maps, int reg_type,
+ const char **src, char *dst, int space_split,
+ char *dst_term, int right_truncate)
{
- logf (LOG_DEBUG, "dict name: %s", name);
- add_isam_p (info, p);
- return 0;
+ const char *s0;
+ const char **map;
+ int i = 0;
+ int j = 0;
+
+ if (!term_pre(zebra_maps, reg_type, src, "*!", "*!", !space_split))
+ return 0;
+ s0 = *src;
+ while (*s0)
+ {
+ if (*s0 == '*')
+ {
+ dst[i++] = '.';
+ dst[i++] = '*';
+ dst_term[j++] = *s0++;
+ }
+ else if (*s0 == '!')
+ {
+ dst[i++] = '.';
+ dst_term[j++] = *s0++;
+ }
+ else
+ {
+ const char *s1 = s0;
+ int q_map_match = 0;
+ map = zebra_maps_search(zebra_maps, reg_type, &s0, strlen(s0),
+ &q_map_match);
+ if (space_split && **map == *CHR_SPACE)
+ break;
+
+ /* add non-space char */
+ memcpy(dst_term+j, s1, s0 - s1);
+ j += (s0 - s1);
+ if (!q_map_match)
+ {
+ while (s1 < s0)
+ {
+ if (strchr(REGEX_CHARS, *s1))
+ dst[i++] = '\\';
+ dst[i++] = *s1++;
+ }
+ }
+ else
+ {
+ char tmpbuf[80];
+ esc_str(tmpbuf, sizeof(tmpbuf), map[0], strlen(map[0]));
+
+ strcpy(dst + i, map[0]);
+ i += strlen(map[0]);
+ }
+ }
+ }
+ if (right_truncate)
+ {
+ dst[i++] = '.';
+ dst[i++] = '*';
+ }
+ dst[i] = '\0';
+
+ dst_term[j++] = '\0';
+ *src = s0;
+ return i;
}
-static void gen_regular_rel (char *dst, int val, int islt)
+
+/* gen_regular_rel - generate regular expression from relation
+ * val: border value (inclusive)
+ * islt: 1 if <=; 0 if >=.
+ */
+static void gen_regular_rel(char *dst, int val, int islt)
{
- int dst_p = 1;
+ int dst_p;
int w, d, i;
int pos = 0;
char numstr[20];
- *dst = '(';
- sprintf (numstr, "%d", val);
+ yaz_log(YLOG_DEBUG, "gen_regular_rel. val=%d, islt=%d", val, islt);
+ if (val >= 0)
+ {
+ if (islt)
+ strcpy(dst, "(-[0-9]+|(");
+ else
+ strcpy(dst, "((");
+ }
+ else
+ {
+ if (!islt)
+ {
+ strcpy(dst, "([0-9]+|-(");
+ dst_p = strlen(dst);
+ islt = 1;
+ }
+ else
+ {
+ strcpy(dst, "(-(");
+ islt = 0;
+ }
+ val = -val;
+ }
+ dst_p = strlen(dst);
+ sprintf(numstr, "%d", val);
for (w = strlen(numstr); --w >= 0; pos++)
{
d = numstr[w];
}
}
- strcpy (dst + dst_p, numstr);
+ strcpy(dst + dst_p, numstr);
dst_p = strlen(dst) - pos - 1;
if (islt)
dst[dst_p] = '\0';
if (islt)
{
- for (i=1; i<pos; i++)
- strcat (dst, "[0-9]?");
+ /* match everything less than 10^(pos-1) */
+ strcat(dst, "0*");
+ for (i = 1; i<pos; i++)
+ strcat(dst, "[0-9]?");
}
else
{
+ /* match everything greater than 10^pos */
for (i = 0; i <= pos; i++)
- strcat (dst, "[0-9]");
- strcat (dst, "[0-9]*");
+ strcat(dst, "[0-9]");
+ strcat(dst, "[0-9]*");
}
- strcat (dst, ")");
+ strcat(dst, "))");
+}
+
+void string_rel_add_char(char **term_p, const char *src, int *indx)
+{
+ if (src[*indx] == '\\')
+ *(*term_p)++ = src[(*indx)++];
+ *(*term_p)++ = src[(*indx)++];
}
-static int relational_term (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- const char *term_sub,
- char *term_dict,
- oid_value attributeSet,
- struct grep_info *grep_info,
- int *max_pos)
+/*
+ * > abc ([b-].*|a[c-].*|ab[d-].*|abc.+)
+ * ([^-a].*|a[^-b].*ab[^-c].*|abc.+)
+ * >= abc ([b-].*|a[c-].*|ab[c-].*)
+ * ([^-a].*|a[^-b].*|ab[c-].*)
+ * < abc ([-0].*|a[-a].*|ab[-b].*)
+ * ([^a-].*|a[^b-].*|ab[^c-].*)
+ * <= abc ([-0].*|a[-a].*|ab[-b].*|abc)
+ * ([^a-].*|a[^b-].*|ab[^c-].*|abc)
+ */
+static int string_relation(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ const char **term_sub, char *term_dict,
+ oid_value attributeSet,
+ int reg_type, int space_split, char *term_dst,
+ int *error_code)
{
AttrType relation;
int relation_value;
- int term_value;
- int r;
+ int i;
+ char *term_tmp = term_dict + strlen(term_dict);
+ char term_component[2*IT_MAX_WORD+20];
- attr_init (&relation, zapt, 2);
- relation_value = attr_find (&relation, NULL);
- term_value = atoi (term_sub);
+ attr_init(&relation, zapt, 2);
+ relation_value = attr_find(&relation, NULL);
+ *error_code = 0;
+ yaz_log(YLOG_DEBUG, "string relation value=%d", relation_value);
switch (relation_value)
{
case 1:
- if (term_value <= 0)
- return 1;
- logf (LOG_DEBUG, "Relation <");
- gen_regular_rel (term_dict + strlen(term_dict), term_value-1, 1);
+ if (!term_100(zh->reg->zebra_maps, reg_type,
+ term_sub, term_component,
+ space_split, term_dst))
+ return 0;
+ yaz_log(log_level_rpn, "Relation <");
+
+ *term_tmp++ = '(';
+ for (i = 0; term_component[i]; )
+ {
+ int j = 0;
+
+ if (i)
+ *term_tmp++ = '|';
+ while (j < i)
+ string_rel_add_char(&term_tmp, term_component, &j);
+
+ *term_tmp++ = '[';
+
+ *term_tmp++ = '^';
+ string_rel_add_char(&term_tmp, term_component, &i);
+ *term_tmp++ = '-';
+
+ *term_tmp++ = ']';
+ *term_tmp++ = '.';
+ *term_tmp++ = '*';
+
+ if ((term_tmp - term_dict) > IT_MAX_WORD)
+ break;
+ }
+ *term_tmp++ = ')';
+ *term_tmp = '\0';
break;
case 2:
- if (term_value < 0)
- return 1;
- logf (LOG_DEBUG, "Relation <=");
- gen_regular_rel (term_dict + strlen(term_dict), term_value, 1);
- break;
- case 4:
- if (term_value < 0)
- term_value = 0;
- logf (LOG_DEBUG, "Relation >=");
- gen_regular_rel (term_dict + strlen(term_dict), term_value, 0);
+ if (!term_100(zh->reg->zebra_maps, reg_type,
+ term_sub, term_component,
+ space_split, term_dst))
+ return 0;
+ yaz_log(log_level_rpn, "Relation <=");
+
+ *term_tmp++ = '(';
+ for (i = 0; term_component[i]; )
+ {
+ int j = 0;
+
+ while (j < i)
+ string_rel_add_char(&term_tmp, term_component, &j);
+ *term_tmp++ = '[';
+
+ *term_tmp++ = '^';
+ string_rel_add_char(&term_tmp, term_component, &i);
+ *term_tmp++ = '-';
+
+ *term_tmp++ = ']';
+ *term_tmp++ = '.';
+ *term_tmp++ = '*';
+
+ *term_tmp++ = '|';
+
+ if ((term_tmp - term_dict) > IT_MAX_WORD)
+ break;
+ }
+ for (i = 0; term_component[i]; )
+ string_rel_add_char(&term_tmp, term_component, &i);
+ *term_tmp++ = ')';
+ *term_tmp = '\0';
break;
case 5:
- if (term_value < 0)
- term_value = 0;
- logf (LOG_DEBUG, "Relation >");
- gen_regular_rel (term_dict + strlen(term_dict), term_value+1, 0);
+ if (!term_100 (zh->reg->zebra_maps, reg_type,
+ term_sub, term_component, space_split, term_dst))
+ return 0;
+ yaz_log(log_level_rpn, "Relation >");
+
+ *term_tmp++ = '(';
+ for (i = 0; term_component[i];)
+ {
+ int j = 0;
+
+ while (j < i)
+ string_rel_add_char(&term_tmp, term_component, &j);
+ *term_tmp++ = '[';
+
+ *term_tmp++ = '^';
+ *term_tmp++ = '-';
+ string_rel_add_char(&term_tmp, term_component, &i);
+
+ *term_tmp++ = ']';
+ *term_tmp++ = '.';
+ *term_tmp++ = '*';
+
+ *term_tmp++ = '|';
+
+ if ((term_tmp - term_dict) > IT_MAX_WORD)
+ break;
+ }
+ for (i = 0; term_component[i];)
+ string_rel_add_char(&term_tmp, term_component, &i);
+ *term_tmp++ = '.';
+ *term_tmp++ = '+';
+ *term_tmp++ = ')';
+ *term_tmp = '\0';
+ break;
+ case 4:
+ if (!term_100(zh->reg->zebra_maps, reg_type, term_sub,
+ term_component, space_split, term_dst))
+ return 0;
+ yaz_log(log_level_rpn, "Relation >=");
+
+ *term_tmp++ = '(';
+ for (i = 0; term_component[i];)
+ {
+ int j = 0;
+
+ if (i)
+ *term_tmp++ = '|';
+ while (j < i)
+ string_rel_add_char(&term_tmp, term_component, &j);
+ *term_tmp++ = '[';
+
+ if (term_component[i+1])
+ {
+ *term_tmp++ = '^';
+ *term_tmp++ = '-';
+ string_rel_add_char(&term_tmp, term_component, &i);
+ }
+ else
+ {
+ string_rel_add_char(&term_tmp, term_component, &i);
+ *term_tmp++ = '-';
+ }
+ *term_tmp++ = ']';
+ *term_tmp++ = '.';
+ *term_tmp++ = '*';
+
+ if ((term_tmp - term_dict) > IT_MAX_WORD)
+ break;
+ }
+ *term_tmp++ = ')';
+ *term_tmp = '\0';
break;
+ case 3:
+ case 102:
+ case -1:
+ yaz_log(log_level_rpn, "Relation =");
+ if (!term_100(zh->reg->zebra_maps, reg_type, term_sub,
+ term_component, space_split, term_dst))
+ return 0;
+ strcat(term_tmp, "(");
+ strcat(term_tmp, term_component);
+ strcat(term_tmp, ")");
+ break;
default:
- return 0;
+ *error_code = YAZ_BIB1_UNSUPP_RELATION_ATTRIBUTE;
+ return 0;
}
- logf (LOG_DEBUG, "dict_lookup_grep: %s", term_dict);
- r = dict_lookup_grep (zi->wordDict, term_dict, 0, grep_info, max_pos,
- grep_handle);
- if (r)
- logf (LOG_WARN, "dict_lookup_grep fail, rel=gt: %d", r);
- logf (LOG_DEBUG, "%d positions", grep_info->isam_p_indx);
return 1;
}
-static void verbatim_char (int ch, int *indx, char *dst)
+static ZEBRA_RES string_term(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ const char **term_sub,
+ oid_value attributeSet, NMEM stream,
+ struct grep_info *grep_info,
+ int reg_type, int complete_flag,
+ int num_bases, char **basenames,
+ char *term_dst, int xpath_use,
+ struct ord_list **ol);
+
+static ZEBRA_RES term_limits_APT(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ zint *hits_limit_value,
+ const char **term_ref_id_str,
+ NMEM nmem)
{
- if (!isalnum (ch))
- dst[(*indx)++] = '\\';
- dst[(*indx)++] = ch;
+ AttrType term_ref_id_attr;
+ AttrType hits_limit_attr;
+ int term_ref_id_int;
+
+ attr_init(&hits_limit_attr, zapt, 9);
+ *hits_limit_value = attr_find(&hits_limit_attr, NULL);
+
+ attr_init(&term_ref_id_attr, zapt, 10);
+ term_ref_id_int = attr_find_ex(&term_ref_id_attr, NULL, term_ref_id_str);
+ if (term_ref_id_int >= 0)
+ {
+ char *res = nmem_malloc(nmem, 20);
+ sprintf(res, "%d", term_ref_id_int);
+ *term_ref_id_str = res;
+ }
+
+ /* no limit given ? */
+ if (*hits_limit_value == -1)
+ {
+ if (*term_ref_id_str)
+ {
+ /* use global if term_ref is present */
+ *hits_limit_value = zh->approx_limit;
+ }
+ else
+ {
+ /* no counting if term_ref is not present */
+ *hits_limit_value = 0;
+ }
+ }
+ else if (*hits_limit_value == 0)
+ {
+ /* 0 is the same as global limit */
+ *hits_limit_value = zh->approx_limit;
+ }
+ yaz_log(YLOG_DEBUG, "term_limits_APT ref_id=%s limit=" ZINT_FORMAT,
+ *term_ref_id_str ? *term_ref_id_str : "none",
+ *hits_limit_value);
+ return ZEBRA_OK;
}
-static int trunc_term (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- const char *term_sub,
- oid_value attributeSet, struct grep_info *grep_info,
- int num_bases, char **basenames)
+static ZEBRA_RES term_trunc(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char **term_sub,
+ oid_value attributeSet, NMEM stream,
+ struct grep_info *grep_info,
+ int reg_type, int complete_flag,
+ int num_bases, char **basenames,
+ char *term_dst,
+ const char *rank_type, int xpath_use,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
{
- char term_dict[2*IT_MAX_WORD+2];
- int i, j, r, base_no;
- AttrType truncation;
- int truncation_value;
+ ZEBRA_RES res;
+ struct ord_list *ol;
+ zint hits_limit_value;
+ const char *term_ref_id_str = 0;
+ *rset = 0;
+
+ term_limits_APT(zh, zapt, &hits_limit_value, &term_ref_id_str,
+ stream);
+ grep_info->isam_p_indx = 0;
+ res = string_term(zh, zapt, term_sub, attributeSet, stream, grep_info,
+ reg_type, complete_flag, num_bases, basenames,
+ term_dst, xpath_use, &ol);
+ if (res != ZEBRA_OK)
+ return res;
+ if (!*term_sub) /* no more terms ? */
+ return res;
+ yaz_log(log_level_rpn, "term: %s", term_dst);
+ *rset = rset_trunc(zh, grep_info->isam_p_buf,
+ grep_info->isam_p_indx, term_dst,
+ strlen(term_dst), rank_type, 1 /* preserve pos */,
+ zapt->term->which, rset_nmem,
+ kc, kc->scope, ol, reg_type, hits_limit_value,
+ term_ref_id_str);
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return ZEBRA_OK;
+}
+
+static ZEBRA_RES string_term(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ const char **term_sub,
+ oid_value attributeSet, NMEM stream,
+ struct grep_info *grep_info,
+ int reg_type, int complete_flag,
+ int num_bases, char **basenames,
+ char *term_dst, int xpath_use,
+ struct ord_list **ol)
+{
+ char term_dict[2*IT_MAX_WORD+4000];
+ int j, r, base_no;
+ AttrType truncation;
+ int truncation_value;
AttrType use;
int use_value;
+ const char *use_string = 0;
oid_value curAttributeSet = attributeSet;
+ const char *termp;
+ struct rpn_char_map_info rcmi;
+ int space_split = complete_flag ? 0 : 1;
- attr_init (&use, zapt, 1);
- use_value = attr_find (&use, &curAttributeSet);
- logf (LOG_DEBUG, "use value %d", use_value);
- attr_init (&truncation, zapt, 5);
- truncation_value = attr_find (&truncation, NULL);
- logf (LOG_DEBUG, "truncation value %d", truncation_value);
+ int bases_ok = 0; /* no of databases with OK attribute */
- if (use_value == -1)
- use_value = 1016;
+ *ol = ord_list_create(stream);
+ rpn_char_map_prepare (zh->reg, reg_type, &rcmi);
+ attr_init(&use, zapt, 1);
+ use_value = attr_find_ex(&use, &curAttributeSet, &use_string);
+ yaz_log(log_level_rpn, "string_term, use value %d", use_value);
+ attr_init(&truncation, zapt, 5);
+ truncation_value = attr_find(&truncation, NULL);
+ yaz_log(log_level_rpn, "truncation value %d", truncation_value);
+
+ if (use_value == -1) /* no attribute - assumy "any" */
+ use_value = 1016;
for (base_no = 0; base_no < num_bases; base_no++)
{
- int max_pos;
- int prefix_len = index_word_prefix_map (term_dict, curAttributeSet,
- use_value,
- basenames[base_no]);
- if (prefix_len < 0)
+ int ord = -1;
+ int attr_ok = 0;
+ int regex_range = 0;
+ int init_pos = 0;
+ attent attp;
+ data1_local_attribute id_xpath_attr;
+ data1_local_attribute *local_attr;
+ int max_pos, prefix_len = 0;
+ int relation_error;
+
+ termp = *term_sub;
+
+ if (zebraExplain_curDatabase (zh->reg->zei, basenames[base_no]))
+ {
+ zebra_setError(zh, YAZ_BIB1_DATABASE_UNAVAILABLE,
+ basenames[base_no]);
+ return ZEBRA_FAIL;
+ }
+ if (xpath_use > 0 && use_value == -2)
{
- zi->errCode = 114;
- return -1;
+ /* xpath mode and we have a string attribute */
+ attp.local_attributes = &id_xpath_attr;
+ attp.attset_ordinal = VAL_IDXPATH;
+ id_xpath_attr.next = 0;
+
+ use_value = xpath_use; /* xpath_use as use-attribute now */
+ id_xpath_attr.local = use_value;
}
- if (!relational_term (zi, zapt, term_sub, term_dict,
- attributeSet, grep_info, &max_pos))
+ else if (curAttributeSet == VAL_IDXPATH && use_value >= 0)
{
- switch (truncation_value)
+ /* X-Path attribute, use numeric value directly */
+ attp.local_attributes = &id_xpath_attr;
+ attp.attset_ordinal = VAL_IDXPATH;
+ id_xpath_attr.next = 0;
+ id_xpath_attr.local = use_value;
+ }
+ else if (use_string &&
+ (ord = zebraExplain_lookup_attr_str(zh->reg->zei,
+ reg_type,
+ use_string)) >= 0)
+ {
+ /* we have a match for a raw string attribute */
+ char ord_buf[32];
+ int i, ord_len;
+
+ if (prefix_len)
+ term_dict[prefix_len++] = '|';
+ else
+ term_dict[prefix_len++] = '(';
+
+ ord_len = key_SU_encode (ord, ord_buf);
+ for (i = 0; i<ord_len; i++)
{
- case -1: /* not specified */
- case 100: /* do not truncate */
- j = strlen(term_dict);
- term_dict[j++] = '(';
- for (i = 0; term_sub[i]; i++)
- verbatim_char (term_sub[i], &j, term_dict);
- strcpy (term_dict+j, ")");
- r = dict_lookup_grep (zi->wordDict, term_dict, 0, grep_info,
- &max_pos, grep_handle);
- if (r)
- logf (LOG_WARN, "dict_lookup_grep err, trunc=none:%d", r);
- break;
- case 1: /* right truncation */
- j = strlen(term_dict);
- term_dict[j++] = '(';
- for (i = 0; term_sub[i]; i++)
- verbatim_char (term_sub[i], &j, term_dict);
- strcpy (term_dict+j, ".*)");
- dict_lookup_grep (zi->wordDict, term_dict, 0, grep_info,
- &max_pos, grep_handle);
- break;
- case 2: /* left truncation */
- case 3: /* left&right truncation */
- zi->errCode = 120;
- return -1;
- case 101: /* process # in term */
- j = strlen(term_dict);
- term_dict[j++] = '(';
- for (i=0; term_sub[i]; i++)
- if (term_sub[i] == '#' && i > 2)
- {
- term_dict[j++] = '.';
- term_dict[j++] = '*';
- }
+ term_dict[prefix_len++] = 1;
+ term_dict[prefix_len++] = ord_buf[i];
+ }
+ attp.local_attributes = 0; /* no more attributes */
+ *ol = ord_list_append(stream, *ol, ord);
+ }
+ else
+ {
+ /* lookup in the .att files . Allow string as well */
+ if ((r = att_getentbyatt (zh, &attp, curAttributeSet, use_value,
+ use_string)))
+ {
+ yaz_log(YLOG_DEBUG, "att_getentbyatt fail. set=%d use=%d r=%d",
+ curAttributeSet, use_value, r);
+ if (r == -1)
+ {
+ /* set was found, but value wasn't defined */
+ if (use_string)
+ zebra_setError(zh,
+ YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_string);
else
- verbatim_char (term_sub[i], &j, term_dict);
- strcpy (term_dict+j, ")");
- r = dict_lookup_grep (zi->wordDict, term_dict, 0, grep_info,
- &max_pos, grep_handle);
- if (r)
- logf (LOG_WARN, "dict_lookup_grep err, trunc=#: %d",
- r);
- break;
- case 102: /* regular expression */
- sprintf (term_dict + strlen(term_dict), "(%s)", term_sub);
- r = dict_lookup_grep (zi->wordDict, term_dict, 0, grep_info,
- &max_pos, grep_handle);
- if (r)
- logf (LOG_WARN, "dict_lookup_grep err, trunc=regular: %d",
- r);
- break;
+ zebra_setError_zint(zh, YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_value);
+ }
+ else
+ {
+ int oid[OID_SIZE];
+ struct oident oident;
+
+ oident.proto = PROTO_Z3950;
+ oident.oclass = CLASS_ATTSET;
+ oident.value = curAttributeSet;
+ oid_ent_to_oid (&oident, oid);
+
+ zebra_setError(zh,
+ YAZ_BIB1_UNSUPP_ATTRIBUTE_SET,
+ oident.desc);
+
+ }
+ continue;
}
}
- if (max_pos <= strlen(basenames[base_no]))
+ for (local_attr = attp.local_attributes; local_attr;
+ local_attr = local_attr->next)
+ {
+ char ord_buf[32];
+ int i, ord_len;
+
+ ord = zebraExplain_lookup_attr_su(zh->reg->zei,
+ reg_type,
+ attp.attset_ordinal,
+ local_attr->local);
+ if (ord < 0)
+ continue;
+ *ol = ord_list_append(stream, *ol, ord);
+ if (prefix_len)
+ term_dict[prefix_len++] = '|';
+ else
+ term_dict[prefix_len++] = '(';
+
+ ord_len = key_SU_encode (ord, ord_buf);
+ for (i = 0; i<ord_len; i++)
+ {
+ term_dict[prefix_len++] = 1;
+ term_dict[prefix_len++] = ord_buf[i];
+ }
+ }
+ bases_ok++;
+ if (prefix_len)
+ attr_ok = 1;
+
+ term_dict[prefix_len++] = ')';
+ term_dict[prefix_len] = '\0';
+ j = prefix_len;
+ switch (truncation_value)
{
- zi->errCode = 109; /* Database unavailable */
- zi->errString = basenames[base_no];
- return -1;
+ case -1: /* not specified */
+ case 100: /* do not truncate */
+ if (!string_relation (zh, zapt, &termp, term_dict,
+ attributeSet,
+ reg_type, space_split, term_dst,
+ &relation_error))
+ {
+ if (relation_error)
+ {
+ zebra_setError(zh, relation_error, 0);
+ return ZEBRA_FAIL;
+ }
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ break;
+ case 1: /* right truncation */
+ term_dict[j++] = '(';
+ if (!term_100(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ".*)");
+ break;
+ case 2: /* keft truncation */
+ term_dict[j++] = '('; term_dict[j++] = '.'; term_dict[j++] = '*';
+ if (!term_100(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 3: /* left&right truncation */
+ term_dict[j++] = '('; term_dict[j++] = '.'; term_dict[j++] = '*';
+ if (!term_100(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ".*)");
+ break;
+ case 101: /* process # in term */
+ term_dict[j++] = '(';
+ if (!term_101(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 102: /* Regexp-1 */
+ term_dict[j++] = '(';
+ if (!term_102(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 103: /* Regexp-2 */
+ regex_range = 1;
+ term_dict[j++] = '(';
+ init_pos = 2;
+ if (!term_103(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, ®ex_range,
+ space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 104: /* process # and ! in term */
+ term_dict[j++] = '(';
+ if (!term_104(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 105: /* process * and ! in term */
+ term_dict[j++] = '(';
+ if (!term_105(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst, 1))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ case 106: /* process * and ! in term */
+ term_dict[j++] = '(';
+ if (!term_105(zh->reg->zebra_maps, reg_type,
+ &termp, term_dict + j, space_split, term_dst, 0))
+ {
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
+ strcat(term_dict, ")");
+ break;
+ default:
+ zebra_setError_zint(zh,
+ YAZ_BIB1_UNSUPP_TRUNCATION_ATTRIBUTE,
+ truncation_value);
+ return ZEBRA_FAIL;
}
+ if (attr_ok)
+ {
+ char buf[80];
+ const char *input = term_dict + prefix_len;
+ esc_str(buf, sizeof(buf), input, strlen(input));
+ }
+ if (attr_ok)
+ {
+ yaz_log(log_level_rpn, "dict_lookup_grep: %s", term_dict+prefix_len);
+ r = dict_lookup_grep(zh->reg->dict, term_dict, regex_range,
+ grep_info, &max_pos, init_pos,
+ grep_handle);
+ if (r)
+ yaz_log(YLOG_WARN, "dict_lookup_grep fail %d", r);
+ }
}
- logf (LOG_DEBUG, "%d positions", grep_info->isam_p_indx);
- return 0;
+ if (!bases_ok)
+ return ZEBRA_FAIL;
+ *term_sub = termp;
+ yaz_log(YLOG_DEBUG, "%d positions", grep_info->isam_p_indx);
+ return ZEBRA_OK;
}
-static void trans_term (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- char *termz)
+
+/* convert APT search term to UTF8 */
+static ZEBRA_RES zapt_term_to_utf8(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ char *termz)
{
- size_t i, sizez;
+ size_t sizez;
Z_Term *term = zapt->term;
- sizez = term->u.general->len;
- if (sizez > IT_MAX_WORD)
- sizez = IT_MAX_WORD;
- for (i = 0; i < sizez; i++)
- termz[i] = index_char_cvt (term->u.general->buf[i]);
- termz[i] = '\0';
+ switch (term->which)
+ {
+ case Z_Term_general:
+ if (zh->iconv_to_utf8 != 0)
+ {
+ char *inbuf = (char *) term->u.general->buf;
+ size_t inleft = term->u.general->len;
+ char *outbuf = termz;
+ size_t outleft = IT_MAX_WORD-1;
+ size_t ret;
+
+ ret = yaz_iconv(zh->iconv_to_utf8, &inbuf, &inleft,
+ &outbuf, &outleft);
+ if (ret == (size_t)(-1))
+ {
+ ret = yaz_iconv(zh->iconv_to_utf8, 0, 0, 0, 0);
+ zebra_setError(
+ zh,
+ YAZ_BIB1_QUERY_TERM_INCLUDES_CHARS_THAT_DO_NOT_TRANSLATE_INTO_,
+ 0);
+ return ZEBRA_FAIL;
+ }
+ *outbuf = 0;
+ }
+ else
+ {
+ sizez = term->u.general->len;
+ if (sizez > IT_MAX_WORD-1)
+ sizez = IT_MAX_WORD-1;
+ memcpy (termz, term->u.general->buf, sizez);
+ termz[sizez] = '\0';
+ }
+ break;
+ case Z_Term_characterString:
+ sizez = strlen(term->u.characterString);
+ if (sizez > IT_MAX_WORD-1)
+ sizez = IT_MAX_WORD-1;
+ memcpy (termz, term->u.characterString, sizez);
+ termz[sizez] = '\0';
+ break;
+ default:
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_CODED_VALUE_FOR_TERM, 0);
+ return ZEBRA_FAIL;
+ }
+ return ZEBRA_OK;
}
-static RSET rpn_search_APT_relevance (ZServerInfo *zi,
- Z_AttributesPlusTerm *zapt,
- oid_value attributeSet,
- int num_bases, char **basenames)
+/* convert APT SCAN term to internal cmap */
+static ZEBRA_RES trans_scan_term(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ char *termz, int reg_type)
{
- rset_relevance_parms parms;
- char termz[IT_MAX_WORD+1];
- char term_sub[IT_MAX_WORD+1];
- struct grep_info grep_info;
- char *p0 = termz, *p1 = NULL;
- RSET result;
+ char termz0[IT_MAX_WORD];
- parms.key_size = sizeof(struct it_key);
- parms.max_rec = 100;
- parms.cmp = key_compare;
- parms.is = zi->wordIsam;
-
- if (zapt->term->which != Z_Term_general)
+ if (zapt_term_to_utf8(zh, zapt, termz0) == ZEBRA_FAIL)
+ return ZEBRA_FAIL; /* error */
+ else
{
- zi->errCode = 124;
- return NULL;
+ const char **map;
+ const char *cp = (const char *) termz0;
+ const char *cp_end = cp + strlen(cp);
+ const char *src;
+ int i = 0;
+ const char *space_map = NULL;
+ int len;
+
+ while ((len = (cp_end - cp)) > 0)
+ {
+ map = zebra_maps_input(zh->reg->zebra_maps, reg_type, &cp, len, 0);
+ if (**map == *CHR_SPACE)
+ space_map = *map;
+ else
+ {
+ if (i && space_map)
+ for (src = space_map; *src; src++)
+ termz[i++] = *src;
+ space_map = NULL;
+ for (src = *map; *src; src++)
+ termz[i++] = *src;
+ }
+ }
+ termz[i] = '\0';
}
- trans_term (zi, zapt, termz);
- grep_info.isam_p_indx = 0;
- grep_info.isam_p_size = 0;
- grep_info.isam_p_buf = NULL;
- while (1)
+ return ZEBRA_OK;
+}
+
+static void grep_info_delete(struct grep_info *grep_info)
+{
+#ifdef TERM_COUNT
+ xfree(grep_info->term_no);
+#endif
+ xfree(grep_info->isam_p_buf);
+}
+
+static ZEBRA_RES grep_info_prepare(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ struct grep_info *grep_info,
+ int reg_type)
+{
+ AttrType termset;
+ int termset_value_numeric;
+ const char *termset_value_string;
+
+#ifdef TERM_COUNT
+ grep_info->term_no = 0;
+#endif
+ grep_info->isam_p_size = 0;
+ grep_info->isam_p_buf = NULL;
+ grep_info->zh = zh;
+ grep_info->reg_type = reg_type;
+ grep_info->termset = 0;
+
+ if (!zapt)
+ return ZEBRA_OK;
+ attr_init(&termset, zapt, 8);
+ termset_value_numeric =
+ attr_find_ex(&termset, NULL, &termset_value_string);
+ if (termset_value_numeric != -1)
{
- if ((p1 = strchr (p0, ' ')))
+ char resname[32];
+ const char *termset_name = 0;
+ if (termset_value_numeric != -2)
{
- memcpy (term_sub, p0, p1-p0);
- term_sub[p1-p0] = '\0';
+
+ sprintf(resname, "%d", termset_value_numeric);
+ termset_name = resname;
}
else
- strcpy (term_sub, p0);
- if (trunc_term (zi, zapt, term_sub, attributeSet, &grep_info,
- num_bases, basenames))
- return NULL;
- if (!p1)
- break;
- p0 = p1;
- while (*++p0 == ' ')
- ;
+ termset_name = termset_value_string;
+ yaz_log(log_level_rpn, "creating termset set %s", termset_name);
+ grep_info->termset = resultSetAdd(zh, termset_name, 1);
+ if (!grep_info->termset)
+ {
+ zebra_setError(zh, YAZ_BIB1_ILLEGAL_RESULT_SET_NAME, termset_name);
+ return ZEBRA_FAIL;
+ }
}
- parms.isam_positions = grep_info.isam_p_buf;
- parms.no_isam_positions = grep_info.isam_p_indx;
- if (grep_info.isam_p_indx > 0)
- result = rset_create (rset_kind_relevance, &parms);
+ return ZEBRA_OK;
+}
+
+/**
+ \brief Create result set(s) for list of terms
+ \param zh Zebra Handle
+ \param termz term as used in query but converted to UTF-8
+ \param attributeSet default attribute set
+ \param stream memory for result
+ \param reg_type register type ('w', 'p',..)
+ \param complete_flag whether it's phrases or not
+ \param rank_type term flags for ranking
+ \param xpath_use use attribute for X-Path (-1 for no X-path)
+ \param num_bases number of databases
+ \param basenames array of databases
+ \param rset_mem memory for result sets
+ \param result_sets output result set for each term in list (output)
+ \param number number of output result sets
+ \param kc rset key control to be used for created result sets
+*/
+static ZEBRA_RES term_list_trunc(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz,
+ oid_value attributeSet,
+ NMEM stream,
+ int reg_type, int complete_flag,
+ const char *rank_type, int xpath_use,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET **result_sets, int *num_result_sets,
+ struct rset_key_control *kc)
+{
+ char term_dst[IT_MAX_WORD+1];
+ struct grep_info grep_info;
+ const char *termp = termz;
+ int alloc_sets = 0;
+
+ *num_result_sets = 0;
+ *term_dst = 0;
+ if (grep_info_prepare(zh, zapt, &grep_info, reg_type) == ZEBRA_FAIL)
+ return ZEBRA_FAIL;
+ while(1)
+ {
+ ZEBRA_RES res;
+
+ if (alloc_sets == *num_result_sets)
+ {
+ int add = 10;
+ RSET *rnew = (RSET *) nmem_malloc(stream, (alloc_sets+add) *
+ sizeof(*rnew));
+ if (alloc_sets)
+ memcpy(rnew, *result_sets, alloc_sets * sizeof(*rnew));
+ alloc_sets = alloc_sets + add;
+ *result_sets = rnew;
+ }
+ res = term_trunc(zh, zapt, &termp, attributeSet,
+ stream, &grep_info,
+ reg_type, complete_flag,
+ num_bases, basenames,
+ term_dst, rank_type,
+ xpath_use, rset_nmem,
+ &(*result_sets)[*num_result_sets],
+ kc);
+ if (res != ZEBRA_OK)
+ {
+ int i;
+ for (i = 0; i < *num_result_sets; i++)
+ rset_delete((*result_sets)[i]);
+ grep_info_delete (&grep_info);
+ return res;
+ }
+ if ((*result_sets)[*num_result_sets] == 0)
+ break;
+ (*num_result_sets)++;
+ }
+ grep_info_delete(&grep_info);
+ return ZEBRA_OK;
+}
+
+static ZEBRA_RES rpn_search_APT_phrase(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz_org,
+ oid_value attributeSet,
+ NMEM stream,
+ int reg_type, int complete_flag,
+ const char *rank_type, int xpath_use,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
+{
+ RSET *result_sets = 0;
+ int num_result_sets = 0;
+ ZEBRA_RES res =
+ term_list_trunc(zh, zapt, termz_org, attributeSet,
+ stream, reg_type, complete_flag,
+ rank_type, xpath_use,
+ num_bases, basenames,
+ rset_nmem,
+ &result_sets, &num_result_sets, kc);
+ if (res != ZEBRA_OK)
+ return res;
+ if (num_result_sets == 0)
+ *rset = rsnull_create (rset_nmem, kc, 0);
+ else if (num_result_sets == 1)
+ *rset = result_sets[0];
else
- result = rset_create (rset_kind_null, NULL);
- xfree (grep_info.isam_p_buf);
- return result;
+ *rset = rsprox_create(rset_nmem, kc, kc->scope,
+ num_result_sets, result_sets,
+ 1 /* ordered */, 0 /* exclusion */,
+ 3 /* relation */, 1 /* distance */);
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return ZEBRA_OK;
}
-static RSET rpn_search_APT_word (ZServerInfo *zi,
- Z_AttributesPlusTerm *zapt,
- oid_value attributeSet,
- int num_bases, char **basenames)
+static ZEBRA_RES rpn_search_APT_or_list(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz_org,
+ oid_value attributeSet,
+ NMEM stream,
+ int reg_type, int complete_flag,
+ const char *rank_type,
+ int xpath_use,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
{
- rset_isam_parms parms;
- char termz[IT_MAX_WORD+1];
- struct grep_info grep_info;
- RSET result;
+ RSET *result_sets = 0;
+ int num_result_sets = 0;
+ ZEBRA_RES res =
+ term_list_trunc(zh, zapt, termz_org, attributeSet,
+ stream, reg_type, complete_flag,
+ rank_type, xpath_use,
+ num_bases, basenames,
+ rset_nmem,
+ &result_sets, &num_result_sets, kc);
+ if (res != ZEBRA_OK)
+ return res;
+ if (num_result_sets == 0)
+ *rset = rsnull_create (rset_nmem, kc, 0);
+ else if (num_result_sets == 1)
+ *rset = result_sets[0];
+ else
+ *rset = rsmulti_or_create(rset_nmem, kc, kc->scope, 0 /* termid */,
+ num_result_sets, result_sets);
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return ZEBRA_OK;
+}
- if (zapt->term->which != Z_Term_general)
- {
- zi->errCode = 124;
- return NULL;
- }
- trans_term (zi, zapt, termz);
+static ZEBRA_RES rpn_search_APT_and_list(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz_org,
+ oid_value attributeSet,
+ NMEM stream,
+ int reg_type, int complete_flag,
+ const char *rank_type,
+ int xpath_use,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
+{
+ RSET *result_sets = 0;
+ int num_result_sets = 0;
+ ZEBRA_RES res =
+ term_list_trunc(zh, zapt, termz_org, attributeSet,
+ stream, reg_type, complete_flag,
+ rank_type, xpath_use,
+ num_bases, basenames,
+ rset_nmem,
+ &result_sets, &num_result_sets,
+ kc);
+ if (res != ZEBRA_OK)
+ return res;
+ if (num_result_sets == 0)
+ *rset = rsnull_create (rset_nmem, kc, 0);
+ else if (num_result_sets == 1)
+ *rset = result_sets[0];
+ else
+ *rset = rsmulti_and_create(rset_nmem, kc, kc->scope,
+ num_result_sets, result_sets);
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return ZEBRA_OK;
+}
- grep_info.isam_p_indx = 0;
- grep_info.isam_p_size = 0;
- grep_info.isam_p_buf = NULL;
-
- if (trunc_term (zi, zapt, termz, attributeSet, &grep_info,
- num_bases, basenames))
- return NULL;
- if (grep_info.isam_p_indx < 1)
- result = rset_create (rset_kind_null, NULL);
- else if (grep_info.isam_p_indx == 1)
+static int numeric_relation(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ const char **term_sub,
+ char *term_dict,
+ oid_value attributeSet,
+ struct grep_info *grep_info,
+ int *max_pos,
+ int reg_type,
+ char *term_dst,
+ int *error_code)
+{
+ AttrType relation;
+ int relation_value;
+ int term_value;
+ int r;
+ char *term_tmp = term_dict + strlen(term_dict);
+
+ *error_code = 0;
+ attr_init(&relation, zapt, 2);
+ relation_value = attr_find(&relation, NULL);
+
+ yaz_log(log_level_rpn, "numeric relation value=%d", relation_value);
+
+ if (!term_100(zh->reg->zebra_maps, reg_type, term_sub, term_tmp, 1,
+ term_dst))
+ return 0;
+ term_value = atoi (term_tmp);
+ switch (relation_value)
{
- parms.is = zi->wordIsam;
- parms.pos = *grep_info.isam_p_buf;
- result = rset_create (rset_kind_isam, &parms);
+ case 1:
+ yaz_log(log_level_rpn, "Relation <");
+ gen_regular_rel(term_tmp, term_value-1, 1);
+ break;
+ case 2:
+ yaz_log(log_level_rpn, "Relation <=");
+ gen_regular_rel(term_tmp, term_value, 1);
+ break;
+ case 4:
+ yaz_log(log_level_rpn, "Relation >=");
+ gen_regular_rel(term_tmp, term_value, 0);
+ break;
+ case 5:
+ yaz_log(log_level_rpn, "Relation >");
+ gen_regular_rel(term_tmp, term_value+1, 0);
+ break;
+ case -1:
+ case 3:
+ yaz_log(log_level_rpn, "Relation =");
+ sprintf(term_tmp, "(0*%d)", term_value);
+ break;
+ default:
+ *error_code = YAZ_BIB1_UNSUPP_RELATION_ATTRIBUTE;
+ return 0;
}
- else
- result = rset_trunc (zi->wordIsam, grep_info.isam_p_buf,
- grep_info.isam_p_indx);
- xfree (grep_info.isam_p_buf);
- return result;
+ yaz_log(log_level_rpn, "dict_lookup_grep: %s", term_tmp);
+ r = dict_lookup_grep(zh->reg->dict, term_dict, 0, grep_info, max_pos,
+ 0, grep_handle);
+ if (r)
+ yaz_log(YLOG_WARN, "dict_lookup_grep fail, rel = gt: %d", r);
+ yaz_log(log_level_rpn, "%d positions", grep_info->isam_p_indx);
+ return 1;
}
-static RSET rpn_prox (RSET *rset, int rset_no)
+static ZEBRA_RES numeric_term(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ const char **term_sub,
+ oid_value attributeSet,
+ struct grep_info *grep_info,
+ int reg_type, int complete_flag,
+ int num_bases, char **basenames,
+ char *term_dst, int xpath_use, NMEM stream)
{
- int i;
- RSFD *rsfd;
- int *more;
- struct it_key **buf;
- RSFD rsfd_result;
- RSET result;
- rset_temp_parms parms;
-
- rsfd = xmalloc (sizeof(*rsfd)*rset_no);
- more = xmalloc (sizeof(*more)*rset_no);
- buf = xmalloc (sizeof(*buf)*rset_no);
+ char term_dict[2*IT_MAX_WORD+2];
+ int r, base_no;
+ AttrType use;
+ int use_value;
+ const char *use_string = 0;
+ oid_value curAttributeSet = attributeSet;
+ const char *termp;
+ struct rpn_char_map_info rcmi;
+
+ int bases_ok = 0; /* no of databases with OK attribute */
+
+ rpn_char_map_prepare (zh->reg, reg_type, &rcmi);
+ attr_init(&use, zapt, 1);
+ use_value = attr_find_ex(&use, &curAttributeSet, &use_string);
- for (i = 0; i<rset_no; i++)
+ if (use_value == -1)
+ use_value = 1016;
+
+ for (base_no = 0; base_no < num_bases; base_no++)
{
- buf[i] = xmalloc (sizeof(**buf));
- rsfd[i] = rset_open (rset[i], RSETF_READ|RSETF_SORT_SYSNO);
- if (!(more[i] = rset_read (rset[i], rsfd[i], buf[i])))
+ attent attp;
+ data1_local_attribute id_xpath_attr;
+ data1_local_attribute *local_attr;
+ int max_pos, prefix_len = 0;
+ int relation_error = 0;
+
+ termp = *term_sub;
+ if (use_value == -2) /* string attribute (assume IDXPATH/any) */
{
- while (i >= 0)
- {
- rset_close (rset[i], rsfd[i]);
- xfree (buf[i]);
- --i;
- }
- xfree (rsfd);
- xfree (more);
- xfree (buf);
- return rset_create (rset_kind_null, NULL);
+ use_value = xpath_use;
+ attp.local_attributes = &id_xpath_attr;
+ attp.attset_ordinal = VAL_IDXPATH;
+ id_xpath_attr.next = 0;
+ id_xpath_attr.local = use_value;
}
- }
- parms.key_size = sizeof (struct it_key);
- result = rset_create (rset_kind_temp, &parms);
- rsfd_result = rset_open (result, RSETF_WRITE|RSETF_SORT_SYSNO);
-
- while (*more)
- {
- for (i = 1; i<rset_no; i++)
+ else if (curAttributeSet == VAL_IDXPATH)
{
- int cmp;
-
- if (!more[i])
- {
- *more = 0;
- break;
- }
- cmp = key_compare (buf[i], buf[i-1]);
- if (cmp > 1)
- {
- more[i-1] = rset_read (rset[i-1], rsfd[i-1], buf[i-1]);
- break;
- }
- else if (cmp == 1)
+ attp.local_attributes = &id_xpath_attr;
+ attp.attset_ordinal = VAL_IDXPATH;
+ id_xpath_attr.next = 0;
+ id_xpath_attr.local = use_value;
+ }
+ else
+ {
+ if ((r = att_getentbyatt (zh, &attp, curAttributeSet, use_value,
+ use_string)))
{
- if (buf[i-1]->seqno+1 != buf[i]->seqno)
+ yaz_log(YLOG_DEBUG, "att_getentbyatt fail. set=%d use=%d r=%d",
+ curAttributeSet, use_value, r);
+ if (r == -1)
{
- more[i-1] = rset_read (rset[i-1], rsfd[i-1], buf[i-1]);
- break;
+ if (use_string)
+ zebra_setError(zh,
+ YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_string);
+ else
+ zebra_setError_zint(zh, YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_value);
}
+ else
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_ATTRIBUTE_SET, 0);
+ continue;
}
+ }
+ if (zebraExplain_curDatabase (zh->reg->zei, basenames[base_no]))
+ {
+ zebra_setError(zh, YAZ_BIB1_DATABASE_UNAVAILABLE,
+ basenames[base_no]);
+ return ZEBRA_FAIL;
+ }
+ for (local_attr = attp.local_attributes; local_attr;
+ local_attr = local_attr->next)
+ {
+ int ord;
+ char ord_buf[32];
+ int i, ord_len;
+
+ ord = zebraExplain_lookup_attr_su(zh->reg->zei,
+ reg_type,
+ attp.attset_ordinal,
+ local_attr->local);
+ if (ord < 0)
+ continue;
+ if (prefix_len)
+ term_dict[prefix_len++] = '|';
else
+ term_dict[prefix_len++] = '(';
+
+ ord_len = key_SU_encode (ord, ord_buf);
+ for (i = 0; i<ord_len; i++)
{
- more[i] = rset_read (rset[i], rsfd[i], buf[i]);
- break;
+ term_dict[prefix_len++] = 1;
+ term_dict[prefix_len++] = ord_buf[i];
}
}
- if (i == rset_no)
+ if (!prefix_len)
{
- rset_write (result, rsfd_result, buf[0]);
- more[0] = rset_read (*rset, *rsfd, *buf);
+ zebra_setError_zint(zh, YAZ_BIB1_UNSUPP_USE_ATTRIBUTE, use_value);
+ continue;
}
+ bases_ok++;
+ term_dict[prefix_len++] = ')';
+ term_dict[prefix_len] = '\0';
+ if (!numeric_relation(zh, zapt, &termp, term_dict,
+ attributeSet, grep_info, &max_pos, reg_type,
+ term_dst, &relation_error))
+ {
+ if (relation_error)
+ {
+ zebra_setError(zh, relation_error, 0);
+ return ZEBRA_FAIL;
+ }
+ *term_sub = 0;
+ return ZEBRA_OK;
+ }
}
-
- for (i = 0; i<rset_no; i++)
- {
- rset_close (rset[i], rsfd[i]);
- xfree (buf[i]);
- }
- rset_close (result, rsfd_result);
- xfree (buf);
- xfree (more);
- xfree (rsfd);
- return result;
+ if (!bases_ok)
+ return ZEBRA_FAIL;
+ *term_sub = termp;
+ yaz_log(YLOG_DEBUG, "%d positions", grep_info->isam_p_indx);
+ return ZEBRA_OK;
}
-static RSET rpn_search_APT_phrase (ZServerInfo *zi,
- Z_AttributesPlusTerm *zapt,
- oid_value attributeSet,
- int num_bases, char **basenames)
+
+static ZEBRA_RES rpn_search_APT_numeric(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz,
+ oid_value attributeSet,
+ NMEM stream,
+ int reg_type, int complete_flag,
+ const char *rank_type, int xpath_use,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
{
- char termz[IT_MAX_WORD+1];
- char term_sub[IT_MAX_WORD+1];
- char *p0 = termz, *p1 = NULL;
- RSET rset[60], result;
- int i, rset_no = 0;
+ char term_dst[IT_MAX_WORD+1];
+ const char *termp = termz;
+ RSET *result_sets = 0;
+ int num_result_sets = 0;
+ ZEBRA_RES res;
struct grep_info grep_info;
+ int alloc_sets = 0;
+ zint hits_limit_value;
+ const char *term_ref_id_str = 0;
- if (zapt->term->which != Z_Term_general)
- {
- zi->errCode = 124;
- return NULL;
- }
- trans_term (zi, zapt, termz);
-
- grep_info.isam_p_size = 0;
- grep_info.isam_p_buf = NULL;
+ term_limits_APT(zh, zapt, &hits_limit_value, &term_ref_id_str, stream);
+ yaz_log(log_level_rpn, "APT_numeric t='%s'", termz);
+ if (grep_info_prepare(zh, zapt, &grep_info, reg_type) == ZEBRA_FAIL)
+ return ZEBRA_FAIL;
while (1)
- {
- if ((p1 = strchr (p0, ' ')))
- {
- memcpy (term_sub, p0, p1-p0);
- term_sub[p1-p0] = '\0';
- }
- else
- strcpy (term_sub, p0);
-
+ {
+ if (alloc_sets == num_result_sets)
+ {
+ int add = 10;
+ RSET *rnew = (RSET *) nmem_malloc(stream, (alloc_sets+add) *
+ sizeof(*rnew));
+ if (alloc_sets)
+ memcpy(rnew, result_sets, alloc_sets * sizeof(*rnew));
+ alloc_sets = alloc_sets + add;
+ result_sets = rnew;
+ }
+ yaz_log(YLOG_DEBUG, "APT_numeric termp=%s", termp);
grep_info.isam_p_indx = 0;
- if (trunc_term (zi, zapt, term_sub, attributeSet, &grep_info,
- num_bases, basenames))
- return NULL;
- if (grep_info.isam_p_indx == 0)
- rset[rset_no] = rset_create (rset_kind_null, NULL);
- else if (grep_info.isam_p_indx > 1)
- rset[rset_no] = rset_trunc (zi->wordIsam,
- grep_info.isam_p_buf,
- grep_info.isam_p_indx);
- else
- {
- rset_isam_parms parms;
-
- parms.is = zi->wordIsam;
- parms.pos = *grep_info.isam_p_buf;
- rset[rset_no] = rset_create (rset_kind_isam, &parms);
- }
- assert (rset[rset_no]);
- if (++rset_no >= sizeof(rset)/sizeof(*rset))
- break;
- if (!p1)
- break;
- p0 = p1;
- while (*++p0 == ' ')
- ;
+ res = numeric_term(zh, zapt, &termp, attributeSet, &grep_info,
+ reg_type, complete_flag, num_bases, basenames,
+ term_dst, xpath_use,
+ stream);
+ if (res == ZEBRA_FAIL || termp == 0)
+ break;
+ yaz_log(YLOG_DEBUG, "term: %s", term_dst);
+ result_sets[num_result_sets] =
+ rset_trunc(zh, grep_info.isam_p_buf,
+ grep_info.isam_p_indx, term_dst,
+ strlen(term_dst), rank_type,
+ 0 /* preserve position */,
+ zapt->term->which, rset_nmem,
+ kc, kc->scope, 0, reg_type,
+ hits_limit_value,
+ term_ref_id_str);
+ if (!result_sets[num_result_sets])
+ break;
+ num_result_sets++;
+ }
+ grep_info_delete(&grep_info);
+ if (termp)
+ {
+ int i;
+ for (i = 0; i<num_result_sets; i++)
+ rset_delete(result_sets[i]);
+ return ZEBRA_FAIL;
}
- xfree (grep_info.isam_p_buf);
- if (rset_no == 0)
- return rset_create (rset_kind_null, NULL);
- else if (rset_no == 1)
- return (rset[0]);
-
- result = rpn_prox (rset, rset_no);
- for (i = 0; i<rset_no; i++)
- rset_delete (rset[i]);
- return result;
+ if (num_result_sets == 0)
+ *rset = rsnull_create(rset_nmem, kc, 0);
+ if (num_result_sets == 1)
+ *rset = result_sets[0];
+ else
+ *rset = rsmulti_and_create(rset_nmem, kc, kc->scope,
+ num_result_sets, result_sets);
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return ZEBRA_OK;
}
-static RSET rpn_search_APT_local (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- oid_value attributeSet)
+static ZEBRA_RES rpn_search_APT_local(ZebraHandle zh,
+ Z_AttributesPlusTerm *zapt,
+ const char *termz,
+ oid_value attributeSet,
+ NMEM stream,
+ const char *rank_type, NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
{
- RSET result;
RSFD rsfd;
struct it_key key;
- rset_temp_parms parms;
- char termz[IT_MAX_WORD+1];
+ int sys;
+ *rset = rstemp_create(rset_nmem, kc, kc->scope,
+ res_get (zh->res, "setTmpDir"),0 );
+ rsfd = rset_open(*rset, RSETF_WRITE);
+
+ sys = atoi(termz);
+ if (sys <= 0)
+ sys = 1;
+ key.mem[0] = sys;
+ key.mem[1] = 1;
+ key.len = 2;
+ rset_write (rsfd, &key);
+ rset_close (rsfd);
+ return ZEBRA_OK;
+}
- if (zapt->term->which != Z_Term_general)
+static ZEBRA_RES rpn_sort_spec(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ oid_value attributeSet, NMEM stream,
+ Z_SortKeySpecList *sort_sequence,
+ const char *rank_type,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
+{
+ int i;
+ int sort_relation_value;
+ AttrType sort_relation_type;
+ Z_SortKeySpec *sks;
+ Z_SortKey *sk;
+ int oid[OID_SIZE];
+ oident oe;
+ char termz[20];
+
+ attr_init(&sort_relation_type, zapt, 7);
+ sort_relation_value = attr_find(&sort_relation_type, &attributeSet);
+
+ if (!sort_sequence->specs)
{
- zi->errCode = 124;
- return NULL;
+ sort_sequence->num_specs = 10;
+ 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;
}
- parms.key_size = sizeof (struct it_key);
- result = rset_create (rset_kind_temp, &parms);
- rsfd = rset_open (result, RSETF_WRITE|RSETF_SORT_SYSNO);
-
- trans_term (zi, zapt, termz);
- key.sysno = atoi (termz);
- if (key.sysno <= 0)
- key.sysno = 1;
- rset_write (result, rsfd, &key);
- rset_close (result, rsfd);
- return result;
+ if (zapt->term->which != Z_Term_general)
+ i = 0;
+ else
+ i = atoi_n ((char *) zapt->term->u.general->buf,
+ zapt->term->u.general->len);
+ if (i >= sort_sequence->num_specs)
+ i = 0;
+ sprintf(termz, "%d", i);
+
+ oe.proto = PROTO_Z3950;
+ oe.oclass = CLASS_ATTSET;
+ oe.value = attributeSet;
+ if (!oid_ent_to_oid (&oe, oid))
+ return ZEBRA_FAIL;
+
+ 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 = (Z_SortKey *)
+ nmem_malloc(stream, sizeof(*sk));
+ sk->which = Z_SortKey_sortAttributes;
+ sk->u.sortAttributes = (Z_SortAttributes *)
+ nmem_malloc(stream, sizeof(*sk->u.sortAttributes));
+
+ sk->u.sortAttributes->id = oid;
+ sk->u.sortAttributes->list = zapt->attributes;
+
+ sks->sortRelation = (int *)
+ nmem_malloc(stream, sizeof(*sks->sortRelation));
+ if (sort_relation_value == 1)
+ *sks->sortRelation = Z_SortKeySpec_ascending;
+ else if (sort_relation_value == 2)
+ *sks->sortRelation = Z_SortKeySpec_descending;
+ else
+ *sks->sortRelation = Z_SortKeySpec_ascending;
+
+ sks->caseSensitivity = (int *)
+ nmem_malloc(stream, sizeof(*sks->caseSensitivity));
+ *sks->caseSensitivity = 0;
+
+ sks->which = Z_SortKeySpec_null;
+ sks->u.null = odr_nullval ();
+ sort_sequence->specs[i] = sks;
+ *rset = rsnull_create (rset_nmem, kc, 0);
+ return ZEBRA_OK;
}
-static RSET rpn_search_APT (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- oid_value attributeSet,
- int num_bases, char **basenames)
+
+static int parse_xpath(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ oid_value attributeSet,
+ struct xpath_location_step *xpath, int max, NMEM mem)
{
- AttrType relation;
- AttrType structure;
- int relation_value, structure_value;
+ oid_value curAttributeSet = attributeSet;
+ AttrType use;
+ const char *use_string = 0;
+
+ attr_init(&use, zapt, 1);
+ attr_find_ex(&use, &curAttributeSet, &use_string);
+
+ if (!use_string || *use_string != '/')
+ return -1;
- attr_init (&relation, zapt, 2);
- attr_init (&structure, zapt, 4);
+ return zebra_parse_xpath_str(use_string, xpath, max, mem);
+}
+
+
+
+static RSET xpath_trunc(ZebraHandle zh, NMEM stream,
+ int reg_type, const char *term, int use,
+ oid_value curAttributeSet, NMEM rset_nmem,
+ struct rset_key_control *kc)
+{
+ RSET rset;
+ struct grep_info grep_info;
+ char term_dict[2048];
+ char ord_buf[32];
+ int prefix_len = 0;
+ int ord = zebraExplain_lookup_attr_su(zh->reg->zei, reg_type,
+ curAttributeSet, use);
+ int ord_len, i, r, max_pos;
+ int term_type = Z_Term_characterString;
+ const char *flags = "void";
+
+ if (grep_info_prepare(zh, 0 /* zapt */, &grep_info, '0') == ZEBRA_FAIL)
+ return rsnull_create(rset_nmem, kc, 0);
+
+ if (ord < 0)
+ return rsnull_create(rset_nmem, kc, 0);
+ if (prefix_len)
+ term_dict[prefix_len++] = '|';
+ else
+ term_dict[prefix_len++] = '(';
- relation_value = attr_find (&relation, NULL);
- structure_value = attr_find (&structure, NULL);
- switch (structure_value)
+ ord_len = key_SU_encode (ord, ord_buf);
+ for (i = 0; i<ord_len; i++)
{
- case -1:
- if (relation_value == 102) /* relevance relation */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- return rpn_search_APT_phrase (zi, zapt, attributeSet,
- num_bases, basenames);
- case 1: /* phrase */
- if (relation_value == 102) /* relevance relation */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- return rpn_search_APT_phrase (zi, zapt, attributeSet,
- num_bases, basenames);
- break;
- case 2: /* word */
- if (relation_value == 102) /* relevance relation */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- return rpn_search_APT_word (zi, zapt, attributeSet,
- num_bases, basenames);
- case 3: /* key */
- break;
- case 4: /* year */
- break;
- case 5: /* date - normalized */
- break;
- case 6: /* word list */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- case 100: /* date - un-normalized */
- break;
- case 101: /* name - normalized */
- break;
- case 102: /* date - un-normalized */
- break;
- case 103: /* structure */
- break;
- case 104: /* urx */
- break;
- case 105: /* free-form-text */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- case 106: /* document-text */
- return rpn_search_APT_relevance (zi, zapt, attributeSet,
- num_bases, basenames);
- case 107: /* local-number */
- return rpn_search_APT_local (zi, zapt, attributeSet);
- case 108: /* string */
- return rpn_search_APT_word (zi, zapt, attributeSet,
- num_bases, basenames);
- case 109: /* numeric string */
- break;
+ term_dict[prefix_len++] = 1;
+ term_dict[prefix_len++] = ord_buf[i];
}
- zi->errCode = 118;
- return NULL;
+ term_dict[prefix_len++] = ')';
+ strcpy(term_dict+prefix_len, term);
+
+ grep_info.isam_p_indx = 0;
+ r = dict_lookup_grep(zh->reg->dict, term_dict, 0,
+ &grep_info, &max_pos, 0, grep_handle);
+ yaz_log(YLOG_DEBUG, "%s %d positions", term,
+ grep_info.isam_p_indx);
+ rset = rset_trunc(zh, grep_info.isam_p_buf,
+ grep_info.isam_p_indx, term, strlen(term),
+ flags, 1, term_type,rset_nmem,
+ kc, kc->scope, 0, reg_type, 0 /* hits_limit */,
+ 0 /* term_ref_id_str */);
+ grep_info_delete(&grep_info);
+ return rset;
}
-static RSET rpn_search_ref (ZServerInfo *zi, Z_ResultSetId *resultSetId)
+static
+ZEBRA_RES rpn_search_xpath(ZebraHandle zh,
+ oid_value attributeSet,
+ int num_bases, char **basenames,
+ NMEM stream, const char *rank_type, RSET rset,
+ int xpath_len, struct xpath_location_step *xpath,
+ NMEM rset_nmem,
+ RSET *rset_out,
+ struct rset_key_control *kc)
{
- ZServerSet *s;
+ oid_value curAttributeSet = attributeSet;
+ int base_no;
+ int i;
- if (!(s = resultSetGet (zi, resultSetId)))
- return rset_create (rset_kind_null, NULL);
- return s->rset;
-}
+ if (xpath_len < 0)
+ {
+ *rset_out = rset;
+ return ZEBRA_OK;
+ }
-static RSET rpn_search_structure (ZServerInfo *zi, Z_RPNStructure *zs,
- oid_value attributeSet,
- int num_bases, char **basenames)
-{
- RSET r = NULL;
- if (zs->which == Z_RPNStructure_complex)
+ yaz_log(YLOG_DEBUG, "xpath len=%d", xpath_len);
+ for (i = 0; i<xpath_len; i++)
{
- rset_bool_parms bool_parms;
- int soft = 0;
-
- bool_parms.rset_l = rpn_search_structure (zi, zs->u.complex->s1,
- attributeSet,
- num_bases, basenames);
- if (bool_parms.rset_l == NULL)
- return NULL;
- if (rset_is_ranked(bool_parms.rset_l))
- soft = 1;
- bool_parms.rset_r = rpn_search_structure (zi, zs->u.complex->s2,
- attributeSet,
- num_bases, basenames);
- if (bool_parms.rset_r == NULL)
- {
- rset_delete (bool_parms.rset_l);
- return NULL;
- }
- if (rset_is_ranked(bool_parms.rset_r))
- soft = 1;
- bool_parms.key_size = sizeof(struct it_key);
- bool_parms.cmp = key_compare;
+ yaz_log(log_level_rpn, "XPATH %d %s", i, xpath[i].part);
- switch (zs->u.complex->roperator->which)
- {
- case Z_Operator_and:
- r = rset_create (soft ? rset_kind_sand:rset_kind_and, &bool_parms);
- break;
- case Z_Operator_or:
- r = rset_create (soft ? rset_kind_sor:rset_kind_or, &bool_parms);
- break;
- case Z_Operator_and_not:
- r = rset_create (soft ? rset_kind_snot:rset_kind_not, &bool_parms);
- break;
- default:
- assert (0);
- }
}
- else if (zs->which == Z_RPNStructure_simple)
+
+ curAttributeSet = VAL_IDXPATH;
+
+ /*
+ //a -> a/.*
+ //a/b -> b/a/.*
+ /a -> a/
+ /a/b -> b/a/
+
+ / -> none
+
+ a[@attr = value]/b[@other = othervalue]
+
+ /e/@a val range(e/,range(@a,freetext(w,1015,val),@a),e/)
+ /a/b val range(b/a/,freetext(w,1016,val),b/a/)
+ /a/b/@c val range(b/a/,range(@c,freetext(w,1016,val),@c),b/a/)
+ /a/b[@c = y] val range(b/a/,freetext(w,1016,val),b/a/,@c = y)
+ /a[@c = y]/b val range(a/,range(b/a/,freetext(w,1016,val),b/a/),a/,@c = y)
+ /a[@c = x]/b[@c = y] range(a/,range(b/a/,freetext(w,1016,val),b/a/,@c = y),a/,@c = x)
+
+ */
+
+ dict_grep_cmap (zh->reg->dict, 0, 0);
+
+ for (base_no = 0; base_no < num_bases; base_no++)
{
- if (zs->u.simple->which == Z_Operand_APT)
- {
- logf (LOG_DEBUG, "rpn_search_APT");
- r = rpn_search_APT (zi, zs->u.simple->u.attributesPlusTerm,
- attributeSet, num_bases, basenames);
- }
- else if (zs->u.simple->which == Z_Operand_resultSetId)
+ int level = xpath_len;
+ int first_path = 1;
+
+ if (zebraExplain_curDatabase (zh->reg->zei, basenames[base_no]))
{
- logf (LOG_DEBUG, "rpn_search_ref");
- r = rpn_search_ref (zi, zs->u.simple->u.resultSetId);
+ zebra_setError(zh, YAZ_BIB1_DATABASE_UNAVAILABLE,
+ basenames[base_no]);
+ *rset_out = rset;
+ return ZEBRA_FAIL;
}
- else
+ while (--level >= 0)
{
- assert (0);
+ char xpath_rev[128];
+ int i, len;
+ RSET rset_start_tag = 0, rset_end_tag = 0, rset_attr = 0;
+
+ *xpath_rev = 0;
+ len = 0;
+ for (i = level; i >= 1; --i)
+ {
+ const char *cp = xpath[i].part;
+ if (*cp)
+ {
+ for (;*cp; cp++)
+ if (*cp == '*')
+ {
+ memcpy (xpath_rev + len, "[^/]*", 5);
+ len += 5;
+ }
+ else if (*cp == ' ')
+ {
+
+ xpath_rev[len++] = 1;
+ xpath_rev[len++] = ' ';
+ }
+
+ else
+ xpath_rev[len++] = *cp;
+ xpath_rev[len++] = '/';
+ }
+ else if (i == 1) /* // case */
+ {
+ xpath_rev[len++] = '.';
+ xpath_rev[len++] = '*';
+ }
+ }
+ xpath_rev[len] = 0;
+
+ if (xpath[level].predicate &&
+ xpath[level].predicate->which == XPATH_PREDICATE_RELATION &&
+ xpath[level].predicate->u.relation.name[0])
+ {
+ WRBUF wbuf = wrbuf_alloc();
+ wrbuf_puts(wbuf, xpath[level].predicate->u.relation.name+1);
+ if (xpath[level].predicate->u.relation.value)
+ {
+ const char *cp = xpath[level].predicate->u.relation.value;
+ wrbuf_putc(wbuf, '=');
+
+ while (*cp)
+ {
+ if (strchr(REGEX_CHARS, *cp))
+ wrbuf_putc(wbuf, '\\');
+ wrbuf_putc(wbuf, *cp);
+ cp++;
+ }
+ }
+ wrbuf_puts(wbuf, "");
+ rset_attr = xpath_trunc(
+ zh, stream, '0', wrbuf_buf(wbuf), 3,
+ curAttributeSet, rset_nmem, kc);
+ wrbuf_free(wbuf, 1);
+ }
+ else
+ {
+ if (!first_path)
+ continue;
+ }
+ yaz_log(log_level_rpn, "xpath_rev (%d) = %s", level, xpath_rev);
+ if (strlen(xpath_rev))
+ {
+ rset_start_tag = xpath_trunc(zh, stream, '0',
+ xpath_rev, 1, curAttributeSet, rset_nmem, kc);
+
+ rset_end_tag = xpath_trunc(zh, stream, '0',
+ xpath_rev, 2, curAttributeSet, rset_nmem, kc);
+
+ rset = rsbetween_create(rset_nmem, kc, kc->scope,
+ rset_start_tag, rset,
+ rset_end_tag, rset_attr);
+ }
+ first_path = 0;
}
}
+ *rset_out = rset;
+ return ZEBRA_OK;
+}
+
+static ZEBRA_RES rpn_search_APT(ZebraHandle zh, Z_AttributesPlusTerm *zapt,
+ oid_value attributeSet, NMEM stream,
+ Z_SortKeySpecList *sort_sequence,
+ int num_bases, char **basenames,
+ NMEM rset_nmem,
+ RSET *rset,
+ struct rset_key_control *kc)
+{
+ ZEBRA_RES res = ZEBRA_OK;
+ unsigned reg_id;
+ char *search_type = NULL;
+ char rank_type[128];
+ int complete_flag;
+ int sort_flag;
+ char termz[IT_MAX_WORD+1];
+ int xpath_len;
+ int xpath_use = 0;
+ struct xpath_location_step xpath[10];
+
+ if (!log_level_set)
+ {
+ log_level_rpn = yaz_log_module_level("rpn");
+ log_level_set = 1;
+ }
+ zebra_maps_attr(zh->reg->zebra_maps, zapt, ®_id, &search_type,
+ rank_type, &complete_flag, &sort_flag);
+
+ yaz_log(YLOG_DEBUG, "reg_id=%c", reg_id);
+ yaz_log(YLOG_DEBUG, "complete_flag=%d", complete_flag);
+ yaz_log(YLOG_DEBUG, "search_type=%s", search_type);
+ yaz_log(YLOG_DEBUG, "rank_type=%s", rank_type);
+
+ if (zapt_term_to_utf8(zh, zapt, termz) == ZEBRA_FAIL)
+ return ZEBRA_FAIL;
+
+ if (sort_flag)
+ return rpn_sort_spec(zh, zapt, attributeSet, stream, sort_sequence,
+ rank_type, rset_nmem, rset, kc);
+ /* consider if an X-Path query is used */
+ xpath_len = parse_xpath(zh, zapt, attributeSet, xpath, 10, stream);
+ if (xpath_len >= 0)
+ {
+ xpath_use = 1016; /* searching for element by default */
+ if (xpath[xpath_len-1].part[0] == '@')
+ xpath_use = 1015; /* last step an attribute .. */
+ }
+
+ /* search using one of the various search type strategies
+ termz is our UTF-8 search term
+ attributeSet is top-level default attribute set
+ stream is ODR for search
+ reg_id is the register type
+ complete_flag is 1 for complete subfield, 0 for incomplete
+ xpath_use is use-attribute to be used for X-Path search, 0 for none
+ */
+ if (!strcmp(search_type, "phrase"))
+ {
+ res = rpn_search_APT_phrase(zh, zapt, termz, attributeSet, stream,
+ reg_id, complete_flag, rank_type,
+ xpath_use,
+ num_bases, basenames, rset_nmem,
+ rset, kc);
+ }
+ else if (!strcmp(search_type, "and-list"))
+ {
+ res = rpn_search_APT_and_list(zh, zapt, termz, attributeSet, stream,
+ reg_id, complete_flag, rank_type,
+ xpath_use,
+ num_bases, basenames, rset_nmem,
+ rset, kc);
+ }
+ else if (!strcmp(search_type, "or-list"))
+ {
+ res = rpn_search_APT_or_list(zh, zapt, termz, attributeSet, stream,
+ reg_id, complete_flag, rank_type,
+ xpath_use,
+ num_bases, basenames, rset_nmem,
+ rset, kc);
+ }
+ else if (!strcmp(search_type, "local"))
+ {
+ res = rpn_search_APT_local(zh, zapt, termz, attributeSet, stream,
+ rank_type, rset_nmem, rset, kc);
+ }
+ else if (!strcmp(search_type, "numeric"))
+ {
+ res = rpn_search_APT_numeric(zh, zapt, termz, attributeSet, stream,
+ reg_id, complete_flag, rank_type,
+ xpath_use,
+ num_bases, basenames, rset_nmem,
+ rset, kc);
+ }
else
{
- assert (0);
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_STRUCTURE_ATTRIBUTE, 0);
+ res = ZEBRA_FAIL;
}
- return r;
+ if (res != ZEBRA_OK)
+ return res;
+ if (!*rset)
+ return ZEBRA_FAIL;
+ return rpn_search_xpath(zh, attributeSet, num_bases, basenames,
+ stream, rank_type, *rset,
+ xpath_len, xpath, rset_nmem, rset, kc);
}
-void count_set_save (RSET *r, int *count)
+static ZEBRA_RES rpn_search_structure(ZebraHandle zh, Z_RPNStructure *zs,
+ oid_value attributeSet,
+ NMEM stream, NMEM rset_nmem,
+ Z_SortKeySpecList *sort_sequence,
+ int num_bases, char **basenames,
+ RSET **result_sets, int *num_result_sets,
+ Z_Operator *parent_op,
+ struct rset_key_control *kc);
+
+ZEBRA_RES rpn_search_top(ZebraHandle zh, Z_RPNStructure *zs,
+ oid_value attributeSet,
+ NMEM stream, NMEM rset_nmem,
+ Z_SortKeySpecList *sort_sequence,
+ int num_bases, char **basenames,
+ RSET *result_set)
{
- int psysno = 0;
- int kno = 0;
- struct it_key key;
- RSFD rfd, wfd;
- RSET w;
- rset_temp_parms parms;
-
- logf (LOG_DEBUG, "count_set_save");
- *count = 0;
- parms.key_size = sizeof(struct it_key);
- w = rset_create (rset_kind_temp, &parms);
- wfd = rset_open (w, RSETF_WRITE|RSETF_SORT_SYSNO);
- rfd = rset_open (*r, RSETF_READ|RSETF_SORT_SYSNO);
- while (rset_read (*r, rfd, &key))
+ RSET *result_sets = 0;
+ int num_result_sets = 0;
+ ZEBRA_RES res;
+ struct rset_key_control *kc = zebra_key_control_create(zh);
+
+ res = rpn_search_structure(zh, zs, attributeSet,
+ stream, rset_nmem,
+ sort_sequence,
+ num_bases, basenames,
+ &result_sets, &num_result_sets,
+ 0 /* no parent op */,
+ kc);
+ if (res != ZEBRA_OK)
{
- if (key.sysno != psysno)
- {
- rset_write (w, wfd, &key);
- psysno = key.sysno;
- (*count)++;
- }
- kno++;
+ int i;
+ for (i = 0; i<num_result_sets; i++)
+ rset_delete(result_sets[i]);
+ *result_set = 0;
}
- rset_close (*r, rfd);
- rset_delete (*r);
- rset_close (w, wfd);
- *r = w;
- logf (LOG_DEBUG, "%d keys, %d distinct sysnos", kno, *count);
+ else
+ {
+ assert(num_result_sets == 1);
+ assert(result_sets);
+ assert(*result_sets);
+ *result_set = *result_sets;
+ }
+ (*kc->dec)(kc);
+ return res;
}
-static void count_set (RSET r, int *count)
+ZEBRA_RES rpn_search_structure(ZebraHandle zh, Z_RPNStructure *zs,
+ oid_value attributeSet,
+ NMEM stream, NMEM rset_nmem,
+ Z_SortKeySpecList *sort_sequence,
+ int num_bases, char **basenames,
+ RSET **result_sets, int *num_result_sets,
+ Z_Operator *parent_op,
+ struct rset_key_control *kc)
{
- int psysno = 0;
- int kno = 0;
- struct it_key key;
- RSFD rfd;
-
- logf (LOG_DEBUG, "count_set");
- *count = 0;
- rfd = rset_open (r, RSETF_READ|RSETF_SORT_SYSNO);
- while (rset_read (r, rfd, &key))
+ *num_result_sets = 0;
+ if (zs->which == Z_RPNStructure_complex)
+ {
+ ZEBRA_RES res;
+ Z_Operator *zop = zs->u.complex->roperator;
+ RSET *result_sets_l = 0;
+ int num_result_sets_l = 0;
+ RSET *result_sets_r = 0;
+ int num_result_sets_r = 0;
+
+ res = rpn_search_structure(zh, zs->u.complex->s1,
+ attributeSet, stream, rset_nmem,
+ sort_sequence,
+ num_bases, basenames,
+ &result_sets_l, &num_result_sets_l,
+ zop, kc);
+ if (res != ZEBRA_OK)
+ {
+ int i;
+ for (i = 0; i<num_result_sets_l; i++)
+ rset_delete(result_sets_l[i]);
+ return res;
+ }
+ res = rpn_search_structure(zh, zs->u.complex->s2,
+ attributeSet, stream, rset_nmem,
+ sort_sequence,
+ num_bases, basenames,
+ &result_sets_r, &num_result_sets_r,
+ zop, kc);
+ if (res != ZEBRA_OK)
+ {
+ int i;
+ for (i = 0; i<num_result_sets_l; i++)
+ rset_delete(result_sets_l[i]);
+ for (i = 0; i<num_result_sets_r; i++)
+ rset_delete(result_sets_r[i]);
+ return res;
+ }
+
+ /* make a new list of result for all children */
+ *num_result_sets = num_result_sets_l + num_result_sets_r;
+ *result_sets = nmem_malloc(stream, *num_result_sets *
+ sizeof(**result_sets));
+ memcpy(*result_sets, result_sets_l,
+ num_result_sets_l * sizeof(**result_sets));
+ memcpy(*result_sets + num_result_sets_l, result_sets_r,
+ num_result_sets_r * sizeof(**result_sets));
+
+ if (!parent_op || parent_op->which != zop->which
+ || (zop->which != Z_Operator_and &&
+ zop->which != Z_Operator_or))
+ {
+ /* parent node different from this one (or non-present) */
+ /* we must combine result sets now */
+ RSET rset;
+ switch (zop->which)
+ {
+ case Z_Operator_and:
+ rset = rsmulti_and_create(rset_nmem, kc,
+ kc->scope,
+ *num_result_sets, *result_sets);
+ break;
+ case Z_Operator_or:
+ rset = rsmulti_or_create(rset_nmem, kc,
+ kc->scope, 0, /* termid */
+ *num_result_sets, *result_sets);
+ break;
+ case Z_Operator_and_not:
+ rset = rsbool_create_not(rset_nmem, kc,
+ kc->scope,
+ (*result_sets)[0],
+ (*result_sets)[1]);
+ break;
+ case Z_Operator_prox:
+ if (zop->u.prox->which != Z_ProximityOperator_known)
+ {
+ zebra_setError(zh,
+ YAZ_BIB1_UNSUPP_PROX_UNIT_CODE,
+ 0);
+ return ZEBRA_FAIL;
+ }
+ if (*zop->u.prox->u.known != Z_ProxUnit_word)
+ {
+ zebra_setError_zint(zh,
+ YAZ_BIB1_UNSUPP_PROX_UNIT_CODE,
+ *zop->u.prox->u.known);
+ return ZEBRA_FAIL;
+ }
+ else
+ {
+ rset = rsprox_create(rset_nmem, kc,
+ kc->scope,
+ *num_result_sets, *result_sets,
+ *zop->u.prox->ordered,
+ (!zop->u.prox->exclusion ?
+ 0 : *zop->u.prox->exclusion),
+ *zop->u.prox->relationType,
+ *zop->u.prox->distance );
+ }
+ break;
+ default:
+ zebra_setError(zh, YAZ_BIB1_OPERATOR_UNSUPP, 0);
+ return ZEBRA_FAIL;
+ }
+ *num_result_sets = 1;
+ *result_sets = nmem_malloc(stream, *num_result_sets *
+ sizeof(**result_sets));
+ (*result_sets)[0] = rset;
+ }
+ }
+ else if (zs->which == Z_RPNStructure_simple)
{
- if (key.sysno != psysno)
+ RSET rset;
+ ZEBRA_RES res;
+
+ if (zs->u.simple->which == Z_Operand_APT)
{
- psysno = key.sysno;
- (*count)++;
+ yaz_log(YLOG_DEBUG, "rpn_search_APT");
+ res = rpn_search_APT(zh, zs->u.simple->u.attributesPlusTerm,
+ attributeSet, stream, sort_sequence,
+ num_bases, basenames, rset_nmem, &rset,
+ kc);
+ if (res != ZEBRA_OK)
+ return res;
}
- kno++;
+ else if (zs->u.simple->which == Z_Operand_resultSetId)
+ {
+ yaz_log(YLOG_DEBUG, "rpn_search_ref");
+ rset = resultSetRef(zh, zs->u.simple->u.resultSetId);
+ if (!rset)
+ {
+ zebra_setError(zh,
+ YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST,
+ zs->u.simple->u.resultSetId);
+ return ZEBRA_FAIL;
+ }
+ rset_dup(rset);
+ }
+ else
+ {
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_SEARCH, 0);
+ return ZEBRA_FAIL;
+ }
+ *num_result_sets = 1;
+ *result_sets = nmem_malloc(stream, *num_result_sets *
+ sizeof(**result_sets));
+ (*result_sets)[0] = rset;
}
- rset_close (r, rfd);
- logf (LOG_DEBUG, "%d keys, %d distinct sysnos", kno, *count);
-}
-
-int rpn_search (ZServerInfo *zi,
- Z_RPNQuery *rpn, int num_bases, char **basenames,
- const char *setname, int *hits)
-{
- RSET rset;
- oident *attrset;
- oid_value attributeSet;
-
- zlog_rpn (rpn);
-
- zi->errCode = 0;
- zi->errString = NULL;
-
- attrset = oid_getentbyoid (rpn->attributeSetId);
- attributeSet = attrset->value;
- rset = rpn_search_structure (zi, rpn->RPNStructure, attributeSet,
- num_bases, basenames);
- if (!rset)
- return zi->errCode;
- if (rset_is_volatile(rset))
- count_set_save(&rset,hits);
else
- count_set (rset, hits);
- resultSetAdd (zi, setname, 1, rset);
- if (zi->errCode)
- logf (LOG_DEBUG, "search error: %d", zi->errCode);
- return zi->errCode;
+ {
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_SEARCH, 0);
+ return ZEBRA_FAIL;
+ }
+ return ZEBRA_OK;
}
+struct scan_info_entry {
+ char *term;
+ ISAM_P isam_p;
+};
+
struct scan_info {
- struct scan_entry *list;
+ struct scan_info_entry *list;
ODR odr;
int before, after;
- ISAM isam;
char prefix[20];
};
static int scan_handle (char *name, const char *info, int pos, void *client)
{
int len_prefix, idx;
- ISAM_P isam_p;
- RSET rset;
- struct scan_info *scan_info = client;
-
- rset_isam_parms parms;
+ struct scan_info *scan_info = (struct scan_info *) client;
len_prefix = strlen(scan_info->prefix);
if (memcmp (name, scan_info->prefix, len_prefix))
return 1;
if (pos > 0)
- idx = scan_info->after - pos + scan_info->before;
+ 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);
- strcpy (scan_info->list[idx].term, name + len_prefix);
- assert (*info == sizeof(isam_p));
- memcpy (&isam_p, info+1, sizeof(isam_p));
- parms.is = scan_info->isam;
- parms.pos = isam_p;
-#if 1
- rset = rset_create (rset_kind_isam, &parms);
- count_set (rset, &scan_info->list[idx].occurrences);
- rset_delete (rset);
-#else
- scan_info->list[idx].occurrences = 1;
-#endif
- logf (LOG_DEBUG, "pos=%3d idx=%3d name=%s", pos, idx, name);
+
+ if (idx < 0)
+ return 0;
+ 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));
return 0;
}
+void zebra_term_untrans_iconv(ZebraHandle zh, NMEM stream, int reg_type,
+ char **dst, const char *src)
+{
+ char term_src[IT_MAX_WORD];
+ char term_dst[IT_MAX_WORD];
+
+ zebra_term_untrans (zh, reg_type, term_src, src);
+
+ if (zh->iconv_from_utf8 != 0)
+ {
+ int len;
+ char *inbuf = term_src;
+ size_t inleft = strlen(term_src);
+ char *outbuf = term_dst;
+ size_t outleft = sizeof(term_dst)-1;
+ size_t ret;
+
+ ret = yaz_iconv (zh->iconv_from_utf8, &inbuf, &inleft,
+ &outbuf, &outleft);
+ if (ret == (size_t)(-1))
+ len = 0;
+ else
+ len = outbuf - term_dst;
+ *dst = nmem_malloc(stream, len + 1);
+ if (len > 0)
+ memcpy (*dst, term_dst, len);
+ (*dst)[len] = '\0';
+ }
+ else
+ *dst = nmem_strdup(stream, term_src);
+}
-static int dummy_handle (char *name, const char *info, void *p)
+static void count_set(ZebraHandle zh, RSET rset, zint *count)
{
- return 0;
+ zint psysno = 0;
+ struct it_key key;
+ RSFD rfd;
+
+ yaz_log(YLOG_DEBUG, "count_set");
+
+ rset->hits_limit = zh->approx_limit;
+
+ *count = 0;
+ rfd = rset_open(rset, RSETF_READ);
+ while (rset_read(rfd, &key,0 /* never mind terms */))
+ {
+ if (key.mem[0] != psysno)
+ {
+ psysno = key.mem[0];
+ if (rfd->counted_items >= rset->hits_limit)
+ break;
+ }
+ }
+ rset_close (rfd);
+ *count = rset->hits_count;
}
-int rpn_scan (ZServerInfo *zi, Z_AttributesPlusTerm *zapt,
- int num_bases, char **basenames,
- int *position, int *num_entries, struct scan_entry **list,
- int *status)
+ZEBRA_RES rpn_scan(ZebraHandle zh, ODR stream, Z_AttributesPlusTerm *zapt,
+ oid_value attributeset,
+ int num_bases, char **basenames,
+ int *position, int *num_entries, ZebraScanEntry **list,
+ int *is_partial, RSET limit_set, int return_zero)
{
- int i, j, sizez, max_pos;
+ int i;
int pos = *position;
int num = *num_entries;
int before;
int after;
+ int base_no;
char termz[IT_MAX_WORD+20];
AttrType use;
int use_value;
- Z_Term *term = zapt->term;
- struct scan_info scan_info;
-
- logf (LOG_DEBUG, "scan, position = %d, num = %d", pos, num);
-
- if (num_bases != 1)
- return 111;
- scan_info.before = before = pos-1;
- scan_info.after = after = 1+num-pos;
- scan_info.odr = zi->odr;
+ const char *use_string = 0;
+ struct scan_info *scan_info_array;
+ ZebraScanEntry *glist;
+ int ords[32], ord_no = 0;
+ int ptr[32];
+
+ int bases_ok = 0; /* no of databases with OK attribute */
+ int errCode = 0; /* err code (if any is not OK) */
+ char *errString = 0; /* addinfo */
+
+ unsigned reg_id;
+ char *search_type = NULL;
+ char rank_type[128];
+ int complete_flag;
+ int sort_flag;
+ NMEM rset_nmem = NULL;
+ struct rset_key_control *kc = 0;
+
+ *list = 0;
+ *is_partial = 0;
+
+ if (attributeset == VAL_NONE)
+ attributeset = VAL_BIB1;
+
+ if (!limit_set)
+ {
+ AttrType termset;
+ int termset_value_numeric;
+ const char *termset_value_string;
+ attr_init(&termset, zapt, 8);
+ termset_value_numeric =
+ attr_find_ex(&termset, NULL, &termset_value_string);
+ if (termset_value_numeric != -1)
+ {
+ char resname[32];
+ const char *termset_name = 0;
+
+ if (termset_value_numeric != -2)
+ {
+
+ sprintf(resname, "%d", termset_value_numeric);
+ termset_name = resname;
+ }
+ else
+ termset_name = termset_value_string;
+
+ limit_set = resultSetRef (zh, termset_name);
+ }
+ }
+
+ yaz_log(YLOG_DEBUG, "position = %d, num = %d set=%d",
+ pos, num, attributeset);
+
+ attr_init(&use, zapt, 1);
+ use_value = attr_find_ex(&use, &attributeset, &use_string);
- logf (LOG_DEBUG, "scan, before = %d, after = %d", before, after);
-
- scan_info.isam = zi->wordIsam;
- scan_info.list = odr_malloc (zi->odr, (before+after)*
- sizeof(*scan_info.list));
- for (j = 0; j<before+after; j++)
- scan_info.list[j].term = NULL;
- attr_init (&use, zapt, 1);
- use_value = attr_find (&use, NULL);
- logf (LOG_DEBUG, "use value %d", use_value);
+ if (zebra_maps_attr(zh->reg->zebra_maps, zapt, ®_id, &search_type,
+ rank_type, &complete_flag, &sort_flag))
+ {
+ *num_entries = 0;
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_ATTRIBUTE_TYPE, 0);
+ return ZEBRA_FAIL;
+ }
+ yaz_log(YLOG_DEBUG, "use_value = %d", use_value);
if (use_value == -1)
use_value = 1016;
- i = index_word_prefix (termz, 1, use_value, *basenames);
-
- dict_lookup_grep (zi->wordDict, termz, 0, NULL, &max_pos,
- dummy_handle);
- if (max_pos <= strlen(*basenames))
+ for (base_no = 0; base_no < num_bases && ord_no < 32; base_no++)
{
- zi->errString = *basenames;
- return zi->errCode = 109; /* Database unavailable */
+ data1_local_attribute *local_attr;
+ attent attp;
+ int ord;
+
+ if (zebraExplain_curDatabase (zh->reg->zei, basenames[base_no]))
+ {
+ zebra_setError(zh, YAZ_BIB1_DATABASE_UNAVAILABLE,
+ basenames[base_no]);
+ *num_entries = 0;
+ return ZEBRA_FAIL;
+ }
+
+ if (use_string &&
+ (ord = zebraExplain_lookup_attr_str(zh->reg->zei, reg_id,
+ use_string)) >= 0)
+ {
+ /* we have a match for a raw string attribute */
+ if (ord > 0)
+ ords[ord_no++] = ord;
+ attp.local_attributes = 0; /* no more attributes */
+ }
+ else
+ {
+ int r;
+
+ if ((r = att_getentbyatt (zh, &attp, attributeset, use_value,
+ use_string)))
+ {
+ yaz_log(YLOG_DEBUG, "att_getentbyatt fail. set=%d use=%d",
+ attributeset, use_value);
+ if (r == -1)
+ {
+ errCode = YAZ_BIB1_UNSUPP_USE_ATTRIBUTE;
+ if (use_string)
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_string);
+ else
+ zebra_setError_zint(zh, YAZ_BIB1_UNSUPP_USE_ATTRIBUTE,
+ use_value);
+ }
+ else
+ {
+ zebra_setError(zh, YAZ_BIB1_UNSUPP_ATTRIBUTE_SET, 0);
+ }
+ continue;
+ }
+ }
+ bases_ok++;
+ for (local_attr = attp.local_attributes; local_attr && ord_no < 32;
+ local_attr = local_attr->next)
+ {
+ ord = zebraExplain_lookup_attr_su(zh->reg->zei, reg_id,
+ attp.attset_ordinal,
+ local_attr->local);
+ if (ord > 0)
+ ords[ord_no++] = ord;
+ }
}
- strcpy (scan_info.prefix, termz);
- sizez = term->u.general->len;
- if (sizez > IT_MAX_WORD)
- sizez = IT_MAX_WORD;
- for (j = 0; j<sizez; j++)
- termz[j+i] = index_char_cvt (term->u.general->buf[j]);
- termz[j+i] = '\0';
-
- dict_scan (zi->wordDict, termz, &before, &after, &scan_info, scan_handle);
+ if (!bases_ok && errCode)
+ {
+ zebra_setError(zh, errCode, errString);
+ *num_entries = 0;
+ return ZEBRA_FAIL;
+ }
+ if (ord_no == 0)
+ {
+ *num_entries = 0;
+ return ZEBRA_OK;
+ }
+ /* prepare dictionary scanning */
+ if (num < 1)
+ {
+ *num_entries = 0;
+ return ZEBRA_OK;
+ }
+ before = pos-1;
+ if (before < 0)
+ before = 0;
+ after = 1+num-pos;
+ if (after < 0)
+ after = 0;
+ yaz_log(YLOG_DEBUG, "rpn_scan pos=%d num=%d before=%d "
+ "after=%d before+after=%d",
+ pos, num, before, after, before+after);
+ 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;
+ int before_tmp = before, after_tmp = after;
+ struct scan_info *scan_info = scan_info_array + i;
+ struct rpn_char_map_info rcmi;
+
+ rpn_char_map_prepare (zh->reg, reg_id, &rcmi);
+
+ scan_info->before = before;
+ scan_info->after = after;
+ scan_info->odr = stream;
+
+ 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;
+
+ prefix_len += key_SU_encode (ords[i], termz + prefix_len);
+ termz[prefix_len] = 0;
+ strcpy(scan_info->prefix, termz);
+
+ if (trans_scan_term(zh, zapt, termz+prefix_len, reg_id) == ZEBRA_FAIL)
+ return ZEBRA_FAIL;
+
+ dict_scan(zh->reg->dict, termz, &before_tmp, &after_tmp,
+ scan_info, scan_handle);
+ }
+ glist = (ZebraScanEntry *)
+ odr_malloc(stream, (before+after)*sizeof(*glist));
- *status = BEND_SCAN_SUCCESS;
+ rset_nmem = nmem_create();
+ kc = zebra_key_control_create(zh);
- for (i = 0; i<scan_info.after; i++)
- if (scan_info.list[scan_info.before+scan_info.after-i-1].term)
- break;
- *num_entries -= i;
- if (i)
- *status = BEND_SCAN_PARTIAL;
-
- for (i = 0; i<scan_info.before; i++)
- if (scan_info.list[i].term)
- break;
+ /* consider terms after main term */
+ for (i = 0; i < ord_no; i++)
+ ptr[i] = before;
+
+ *is_partial = 0;
+ for (i = 0; i<after; i++)
+ {
+ int j, j0 = -1;
+ const char *mterm = NULL;
+ const char *tst;
+ RSET rset = 0;
+ int lo = i + pos-1; /* offset in result list */
+
+ /* find: j0 is the first of the minimal values */
+ for (j = 0; j < ord_no; j++)
+ {
+ if (ptr[j] < before+after && ptr[j] >= 0 &&
+ (tst = scan_info_array[j].list[ptr[j]].term) &&
+ (!mterm || strcmp (tst, mterm) < 0))
+ {
+ j0 = j;
+ mterm = tst;
+ }
+ }
+ if (j0 == -1)
+ break; /* no value found, stop */
+
+ /* get result set for first one , but only if it's within bounds */
+ if (lo >= 0)
+ {
+ /* get result set for first term */
+ zebra_term_untrans_iconv(zh, stream->mem, reg_id,
+ &glist[lo].term, mterm);
+ rset = rset_trunc(zh, &scan_info_array[j0].list[ptr[j0]].isam_p, 1,
+ glist[lo].term, strlen(glist[lo].term),
+ NULL, 0, zapt->term->which, rset_nmem,
+ kc, kc->scope, 0, reg_id, 0 /* hits_limit */,
+ 0 /* term_ref_id_str */);
+ }
+ ptr[j0]++; /* move index for this set .. */
+ /* get result set for remaining scan terms */
+ for (j = j0+1; j<ord_no; j++)
+ {
+ if (ptr[j] < before+after && ptr[j] >= 0 &&
+ (tst = scan_info_array[j].list[ptr[j]].term) &&
+ !strcmp (tst, mterm))
+ {
+ if (lo >= 0)
+ {
+ RSET rsets[2];
+
+ rsets[0] = rset;
+ rsets[1] =
+ rset_trunc(
+ zh, &scan_info_array[j].list[ptr[j]].isam_p, 1,
+ glist[lo].term,
+ strlen(glist[lo].term), NULL, 0,
+ zapt->term->which,rset_nmem,
+ kc, kc->scope, 0, reg_id, 0 /* hits_limit */,
+ 0 /* term_ref_id_str */ );
+ rset = rsmulti_or_create(rset_nmem, kc,
+ kc->scope, 0 /* termid */,
+ 2, rsets);
+ }
+ ptr[j]++;
+ }
+ }
+ if (lo >= 0)
+ {
+ zint count;
+ /* merge with limit_set if given */
+ if (limit_set)
+ {
+ RSET rsets[2];
+ rsets[0] = rset;
+ rsets[1] = rset_dup(limit_set);
+
+ rset = rsmulti_and_create(rset_nmem, kc,
+ kc->scope,
+ 2, rsets);
+ }
+ /* count it */
+ count_set(zh, rset, &count);
+ glist[lo].occurrences = count;
+ rset_delete(rset);
+ }
+ }
+ if (i < after)
+ {
+ *num_entries -= (after-i);
+ *is_partial = 1;
+ if (*num_entries < 0)
+ {
+ (*kc->dec)(kc);
+ nmem_destroy(rset_nmem);
+ *num_entries = 0;
+ return ZEBRA_OK;
+ }
+ }
+ /* consider terms before main term */
+ for (i = 0; i<ord_no; i++)
+ ptr[i] = 0;
+
+ for (i = 0; i<before; i++)
+ {
+ int j, j0 = -1;
+ const char *mterm = NULL;
+ const char *tst;
+ RSET rset;
+ int lo = before-1-i; /* offset in result list */
+ zint count;
+
+ for (j = 0; j <ord_no; j++)
+ {
+ if (ptr[j] < before && ptr[j] >= 0 &&
+ (tst = scan_info_array[j].list[before-1-ptr[j]].term) &&
+ (!mterm || strcmp (tst, mterm) > 0))
+ {
+ j0 = j;
+ mterm = tst;
+ }
+ }
+ if (j0 == -1)
+ break;
+
+ zebra_term_untrans_iconv(zh, stream->mem, reg_id,
+ &glist[lo].term, mterm);
+
+ rset = rset_trunc
+ (zh, &scan_info_array[j0].list[before-1-ptr[j0]].isam_p, 1,
+ glist[lo].term, strlen(glist[lo].term),
+ NULL, 0, zapt->term->which, rset_nmem,
+ kc, kc->scope, 0, reg_id, 0 /* hits_limit */,
+ 0 /* term_ref_id_str */);
+
+ ptr[j0]++;
+
+ for (j = j0+1; j<ord_no; j++)
+ {
+ if (ptr[j] < before && ptr[j] >= 0 &&
+ (tst = scan_info_array[j].list[before-1-ptr[j]].term) &&
+ !strcmp (tst, mterm))
+ {
+ RSET rsets[2];
+
+ rsets[0] = rset;
+ rsets[1] = rset_trunc(
+ zh,
+ &scan_info_array[j].list[before-1-ptr[j]].isam_p, 1,
+ glist[lo].term,
+ strlen(glist[lo].term), NULL, 0,
+ zapt->term->which, rset_nmem,
+ kc, kc->scope, 0, reg_id, 0 /* hits_limit */,
+ 0 /* term_ref_id_str */);
+ rset = rsmulti_or_create(rset_nmem, kc,
+ kc->scope, 0 /* termid */, 2, rsets);
+
+ ptr[j]++;
+ }
+ }
+ if (limit_set)
+ {
+ RSET rsets[2];
+ rsets[0] = rset;
+ rsets[1] = rset_dup(limit_set);
+
+ rset = rsmulti_and_create(rset_nmem, kc,
+ kc->scope, 2, rsets);
+ }
+ count_set(zh, rset, &count);
+ glist[lo].occurrences = count;
+ rset_delete (rset);
+ }
+ (*kc->dec)(kc);
+ nmem_destroy(rset_nmem);
+ i = before-i;
if (i)
- *status = BEND_SCAN_PARTIAL;
- *position -= i;
- *num_entries -= i;
-
- *list = scan_info.list+i; /* list is set to first 'real' entry */
-
- if (*num_entries == 0) /* signal 'unsupported use-attribute' */
- zi->errCode = 114; /* if no entries was found */
- logf (LOG_DEBUG, "position = %d, num_entries = %d",
- *position, *num_entries);
- if (zi->errCode)
- logf (LOG_DEBUG, "scan error: %d", zi->errCode);
- return 0;
+ {
+ *is_partial = 1;
+ *position -= i;
+ *num_entries -= i;
+ if (*num_entries <= 0)
+ {
+ *num_entries = 0;
+ return ZEBRA_OK;
+ }
+ }
+
+ *list = glist + i; /* list is set to first 'real' entry */
+
+ yaz_log(YLOG_DEBUG, "position = %d, num_entries = %d",
+ *position, *num_entries);
+ return ZEBRA_OK;
}
-
-