-/*
- * Copyright (C) 1995, Index Data I/S
- * All rights reserved.
- * Sebastian Hammer, Adam Dickmeiss
- *
- * $Log: zsets.c,v $
- * Revision 1.2 1995-09-06 10:33:04 adam
- * More work on present. Some log messages removed.
- *
- * Revision 1.1 1995/09/05 15:28:40 adam
- * More work on search engine.
- *
- */
+/* $Id: zsets.c,v 1.77 2005-01-15 19:38:30 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>
+#else
#include <unistd.h>
+#endif
+
+#include "index.h"
+#include <rset.h>
+
+#define SORT_IDX_ENTRYSIZE 64
+#define ZSET_SORT_MAX_LEVEL 3
+
+struct zebra_set_term_entry {
+ int reg_type;
+ char *db;
+ int set;
+ int use;
+ char *term;
+};
+struct zebra_set {
+ char *name;
+ RSET rset;
+ NMEM nmem;
+ NMEM rset_nmem; /* for creating the rsets in */
+ zint hits;
+ int num_bases;
+ char **basenames;
+ Z_RPNQuery *rpn;
+ struct zset_sort_info *sort_info;
+ struct zebra_set_term_entry *term_entries;
+ int term_entries_max;
+ struct zebra_set *next;
+ int locked;
+
+ zint cache_position; /* last position */
+ RSFD cache_rfd; /* rfd (NULL if not existing) */
+ zint cache_psysno; /* sysno for last position */
+};
+
+struct zset_sort_entry {
+ zint sysno;
+ int score;
+ char buf[ZSET_SORT_MAX_LEVEL][SORT_IDX_ENTRYSIZE];
+};
+
+struct zset_sort_info {
+ int max_entries;
+ int num_entries;
+ struct zset_sort_entry *all_entries;
+ struct zset_sort_entry **entries;
+};
+
+static int log_level_set=0;
+static int log_level_sorting=0;
+static int log_level_searchhits=0;
+static int log_level_searchterms=0;
+static int log_level_resultsets=0;
-#include "zserver.h"
-#include <rstemp.h>
+static void loglevels()
+{
+ if (log_level_set)
+ return;
+ log_level_sorting = yaz_log_module_level("sorting");
+ log_level_searchhits = yaz_log_module_level("searchhits");
+ log_level_searchterms = yaz_log_module_level("searchterms");
+ log_level_resultsets = yaz_log_module_level("resultsets");
+ log_level_set=1;
+}
-ZServerSet *resultSetAdd (ZServerInfo *zi, const char *name, int ov, RSET rset)
+ZebraSet resultSetAddRPN (ZebraHandle zh, NMEM m,
+ Z_RPNQuery *rpn, int num_bases,
+ char **basenames,
+ const char *setname)
{
- ZServerSet *s;
+ ZebraSet zebraSet;
+ int i;
+
+ zh->errCode = 0;
+ zh->errString = NULL;
+ zh->hits = 0;
+
+ zebraSet = resultSetAdd (zh, setname, 1);
+ if (!zebraSet)
+ return 0;
+ zebraSet->locked = 1;
+ zebraSet->rpn = 0;
+ zebraSet->nmem = m;
+ zebraSet->rset_nmem=nmem_create();
+
+ zebraSet->num_bases = num_bases;
+ zebraSet->basenames =
+ nmem_malloc (zebraSet->nmem, num_bases * sizeof(*zebraSet->basenames));
+ for (i = 0; i<num_bases; i++)
+ zebraSet->basenames[i] = nmem_strdup (zebraSet->nmem, basenames[i]);
+
- for (s = zi->sets; s; s = s->next)
+ zebraSet->rset = rpn_search (zh, zebraSet->nmem, zebraSet->rset_nmem,
+ rpn, zebraSet->num_bases,
+ zebraSet->basenames, zebraSet->name,
+ zebraSet);
+ zh->hits = zebraSet->hits;
+ if (zebraSet->rset)
+ zebraSet->rpn = rpn;
+ zebraSet->locked = 0;
+ return zebraSet;
+}
+
+void resultSetAddTerm (ZebraHandle zh, ZebraSet s, int reg_type,
+ const char *db, int set,
+ int use, const char *term)
+{
+ assert(zh); /* compiler shut up */
+ if (!s->nmem)
+ s->nmem = nmem_create ();
+ if (!s->term_entries)
+ {
+ int i;
+ s->term_entries_max = 1000;
+ s->term_entries =
+ nmem_malloc (s->nmem, s->term_entries_max *
+ sizeof(*s->term_entries));
+ for (i = 0; i < s->term_entries_max; i++)
+ s->term_entries[i].term = 0;
+ }
+ if (s->hits < s->term_entries_max)
+ {
+ s->term_entries[s->hits].reg_type = reg_type;
+ s->term_entries[s->hits].db = nmem_strdup (s->nmem, db);
+ s->term_entries[s->hits].set = set;
+ s->term_entries[s->hits].use = use;
+ s->term_entries[s->hits].term = nmem_strdup (s->nmem, term);
+ }
+ (s->hits)++;
+}
+
+ZebraSet resultSetAdd (ZebraHandle zh, const char *name, int ov)
+{
+ ZebraSet s;
+ int i;
+
+ for (s = zh->sets; s; s = s->next)
if (!strcmp (s->name, name))
- {
- if (!ov)
- return NULL;
+ break;
+
+ if (!log_level_set)
+ loglevels();
+ if (s)
+ {
+ yaz_log(log_level_resultsets, "updating result set %s", name);
+ if (!ov || s->locked)
+ return NULL;
+ if (s->rset)
+ {
+ if (s->cache_rfd)
+ rset_close(s->cache_rfd);
rset_delete (s->rset);
- s->rset = rset;
- return s;
- }
- s = xmalloc (sizeof(*s));
- s->next = zi->sets;
- zi->sets = s;
- s->name = xmalloc (strlen(name)+1);
- strcpy (s->name, name);
- s->rset = rset;
+ }
+ if (s->rset_nmem)
+ nmem_destroy (s->rset_nmem);
+ if (s->nmem)
+ nmem_destroy (s->nmem);
+ }
+ else
+ {
+ const char *sort_max_str = zebra_get_resource(zh, "sortmax", "1000");
+
+ yaz_log(log_level_resultsets, "adding result set %s", name);
+ s = (ZebraSet) xmalloc (sizeof(*s));
+ s->next = zh->sets;
+ zh->sets = s;
+ s->name = (char *) xmalloc (strlen(name)+1);
+ strcpy (s->name, name);
+
+ s->sort_info = (struct zset_sort_info *)
+ xmalloc (sizeof(*s->sort_info));
+ s->sort_info->max_entries = atoi(sort_max_str);
+ if (s->sort_info->max_entries < 2)
+ s->sort_info->max_entries = 2;
+
+ s->sort_info->entries = (struct zset_sort_entry **)
+ xmalloc (sizeof(*s->sort_info->entries) *
+ s->sort_info->max_entries);
+ s->sort_info->all_entries = (struct zset_sort_entry *)
+ xmalloc (sizeof(*s->sort_info->all_entries) *
+ s->sort_info->max_entries);
+ for (i = 0; i < s->sort_info->max_entries; i++)
+ s->sort_info->entries[i] = s->sort_info->all_entries + i;
+ }
+ s->locked = 0;
+ s->term_entries = 0;
+ s->hits = 0;
+ s->rset = 0;
+ s->rset_nmem=0;
+ s->nmem = 0;
+ s->rpn = 0;
+ s->cache_position = 0;
+ s->cache_rfd = 0;
return s;
}
-ZServerSet *resultSetGet (ZServerInfo *zi, const char *name)
+ZebraSet resultSetGet (ZebraHandle zh, const char *name)
{
- ZServerSet *s;
+ ZebraSet s;
- for (s = zi->sets; s; s = s->next)
+ for (s = zh->sets; s; s = s->next)
if (!strcmp (s->name, name))
+ {
+ if (!s->term_entries && !s->rset && s->rpn)
+ {
+ NMEM nmem = nmem_create ();
+ yaz_log(log_level_resultsets, "research %s", name);
+ if (!s->rset_nmem)
+ s->rset_nmem=nmem_create();
+ s->rset =
+ rpn_search (zh, nmem, s->rset_nmem, s->rpn, s->num_bases,
+ s->basenames, s->name, s);
+ nmem_destroy (nmem);
+ }
return s;
+ }
return NULL;
}
-ZServerRecord *resultSetRecordGet (ZServerInfo *zi, const char *name,
- int num, int *positions)
+void resultSetInvalidate (ZebraHandle zh)
+{
+ ZebraSet s = zh->sets;
+
+ yaz_log(log_level_resultsets, "invalidating result sets");
+ for (; s; s = s->next)
+ {
+ if (s->rset)
+ {
+ if (s->cache_rfd)
+ rset_close(s->cache_rfd);
+ rset_delete (s->rset);
+ }
+ s->rset = 0;
+ s->cache_rfd = 0;
+ s->cache_position = 0;
+ if (s->rset_nmem)
+ nmem_destroy(s->rset_nmem);
+ s->rset_nmem=0;
+ }
+}
+
+void resultSetDestroy (ZebraHandle zh, int num, char **names,int *statuses)
+{
+ ZebraSet * ss = &zh->sets;
+ int i;
+
+ if (statuses)
+ for (i = 0; i<num; i++)
+ statuses[i] = Z_DeleteStatus_resultSetDidNotExist;
+ zh->errCode = 0;
+ zh->errString = NULL;
+ while (*ss)
+ {
+ int i = -1;
+ ZebraSet s = *ss;
+ if (num >= 0)
+ {
+ for (i = 0; i<num; i++)
+ if (!strcmp (s->name, names[i]))
+ {
+ if (statuses)
+ statuses[i] = Z_DeleteStatus_success;
+ i = -1;
+ break;
+ }
+ }
+ if (i < 0)
+ {
+ *ss = s->next;
+
+ xfree (s->sort_info->all_entries);
+ xfree (s->sort_info->entries);
+ xfree (s->sort_info);
+
+ if (s->nmem)
+ nmem_destroy (s->nmem);
+ if (s->rset)
+ {
+ if (s->cache_rfd)
+ rset_close(s->cache_rfd);
+ rset_delete (s->rset);
+ }
+ if (s->rset_nmem)
+ nmem_destroy(s->rset_nmem);
+ xfree (s->name);
+ xfree (s);
+ }
+ else
+ ss = &s->next;
+ }
+}
+
+ZebraMetaRecord *zebra_meta_records_create_range (ZebraHandle zh,
+ const char *name,
+ zint start, int num)
+{
+ zint pos_small[10];
+ zint *pos = pos_small;
+ ZebraMetaRecord *mr;
+ int i;
+
+ if (num > 10000 || num <= 0)
+ return 0;
+
+ if (num > 10)
+ pos = xmalloc(sizeof(*pos) * num);
+
+ for (i = 0; i<num; i++)
+ pos[i] = start+i;
+
+ mr = zebra_meta_records_create(zh, name, num, pos);
+
+ if (num > 10)
+ xfree(pos);
+ return mr;
+}
+
+ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name,
+ int num, zint *positions)
{
- ZServerSet *sset;
- ZServerRecord *sr;
+ ZebraSet sset;
+ ZebraMetaRecord *sr = 0;
RSET rset;
- int num_i = 0;
- int position = 0;
- int psysno = 0;
- struct it_key key;
+ int i;
+ struct zset_sort_info *sort_info;
- if (!(sset = resultSetGet (zi, name)))
+ if (!log_level_set)
+ loglevels();
+ if (!(sset = resultSetGet (zh, name)))
return NULL;
if (!(rset = sset->rset))
- return NULL;
- logf (LOG_DEBUG, "resultSetRecordGet");
- sr = xmalloc (sizeof(*sr) * num);
- rset_open (rset, 0);
- while (rset_read (rset, &key))
{
- if (key.sysno != psysno)
+ if (!sset->term_entries)
+ return 0;
+ sr = (ZebraMetaRecord *) xmalloc (sizeof(*sr) * num);
+ for (i = 0; i<num; i++)
{
- psysno = key.sysno;
- position++;
- if (position == positions[num_i])
- {
- FILE *inf;
- char fname[SYS_IDX_ENTRY_LEN];
+ sr[i].sysno = 0;
+ sr[i].score = -1;
+ sr[i].term = 0;
+ sr[i].db = 0;
- sr[num_i].buf = NULL;
- if (lseek (zi->sys_idx_fd, psysno * SYS_IDX_ENTRY_LEN,
- SEEK_SET) == -1)
- {
- logf (LOG_FATAL|LOG_ERRNO, "lseek of sys_idx");
- exit (1);
- }
- if (read (zi->sys_idx_fd, fname, SYS_IDX_ENTRY_LEN) == -1)
+ if (positions[i] <= sset->term_entries_max)
+ {
+ sr[i].term = sset->term_entries[positions[i]-1].term;
+ sr[i].db = sset->term_entries[positions[i]-1].db;
+ }
+ }
+ }
+ else
+ {
+ sr = (ZebraMetaRecord *) xmalloc (sizeof(*sr) * num);
+ for (i = 0; i<num; i++)
+ {
+ sr[i].sysno = 0;
+ sr[i].score = -1;
+ sr[i].term = 0;
+ sr[i].db = 0;
+ }
+ sort_info = sset->sort_info;
+ if (sort_info)
+ {
+ zint position;
+
+ for (i = 0; i<num; i++)
+ {
+ position = positions[i];
+ if (position > 0 && position <= sort_info->num_entries)
{
- logf (LOG_FATAL|LOG_ERRNO, "read of sys_idx");
- exit (1);
+ yaz_log(log_level_sorting, "got pos=" ZINT_FORMAT
+ " (sorted)", position);
+ sr[i].sysno = sort_info->entries[position-1]->sysno;
+ sr[i].score = sort_info->entries[position-1]->score;
}
- if (!(inf = fopen (fname, "r")))
- logf (LOG_WARN, "fopen: %s", fname);
- else
+ }
+ }
+ /* did we really get all entries using sort ? */
+ for (i = 0; i<num; i++)
+ {
+ if (!sr[i].sysno)
+ break;
+ }
+ if (i < num) /* nope, get the rest, unsorted - sorry */
+ {
+ zint position = 0;
+ int num_i = 0;
+ zint psysno = 0;
+ RSFD rfd;
+ struct it_key key;
+
+ if (sort_info)
+ position = sort_info->num_entries;
+ while (num_i < num && positions[num_i] < position)
+ num_i++;
+
+ if (sset->cache_rfd &&
+ num_i < num && positions[num_i] > sset->cache_position)
+ {
+ position = sset->cache_position;
+ rfd = sset->cache_rfd;
+ psysno = sset->cache_psysno;
+ }
+ else
+ {
+ if (sset->cache_rfd)
+ rset_close(sset->cache_rfd);
+ rfd = rset_open (rset, RSETF_READ);
+ }
+ while (num_i < num && rset_read (rfd, &key, 0))
+ {
+ zint this_sys = key.mem[0];
+ if (this_sys != psysno)
{
- long size;
-
- fseek (inf, 0L, SEEK_END);
- size = ftell (inf);
- fseek (inf, 0L, SEEK_SET);
- logf (LOG_DEBUG, "get sysno=%d, fname=%s, size=%ld",
- psysno, fname, (long) size);
- sr[num_i].buf = xmalloc (size+1);
- sr[num_i].size = size;
- sr[num_i].buf[size] = '\0';
- if (fread (sr[num_i].buf, size, 1, inf) != 1)
+ psysno = this_sys;
+ if (sort_info)
{
- logf (LOG_FATAL|LOG_ERRNO, "fread %s", fname);
- exit (1);
+ /* determine we alreay have this in our set */
+ for (i = sort_info->num_entries; --i >= 0; )
+ if (psysno == sort_info->entries[i]->sysno)
+ break;
+ if (i >= 0)
+ continue;
+ }
+ position++;
+ assert (num_i < num);
+ if (position == positions[num_i])
+ {
+ sr[num_i].sysno = psysno;
+ yaz_log(log_level_sorting, "got pos=" ZINT_FORMAT " (unsorted)", position);
+ sr[num_i].score = -1;
+ num_i++;
}
- fclose (inf);
}
- num_i++;
- if (num_i == num)
- break;
}
+ sset->cache_position = position;
+ sset->cache_psysno = psysno;
+ sset->cache_rfd = rfd;
}
}
- rset_close (rset);
- while (num_i < num)
+ return sr;
+}
+
+void zebra_meta_records_destroy (ZebraHandle zh, ZebraMetaRecord *records,
+ int num)
+{
+ assert(zh); /* compiler shut up about unused arg */
+ xfree (records);
+}
+
+struct sortKeyInfo {
+ int relation;
+ int attrUse;
+ int numerical;
+};
+
+void resultSetInsertSort (ZebraHandle zh, ZebraSet sset,
+ struct sortKeyInfo *criteria, int num_criteria,
+ zint sysno)
+{
+ struct zset_sort_entry this_entry;
+ struct zset_sort_entry *new_entry = NULL;
+ struct zset_sort_info *sort_info = sset->sort_info;
+ int i, j;
+
+ sortIdx_sysno (zh->reg->sortIdx, sysno);
+ for (i = 0; i<num_criteria; i++)
{
- sr[num_i].buf = NULL;
- sr[num_i].size = 0;
- num_i++;
+ sortIdx_type (zh->reg->sortIdx, criteria[i].attrUse);
+ sortIdx_read (zh->reg->sortIdx, this_entry.buf[i]);
}
- return sr;
+ i = sort_info->num_entries;
+ while (--i >= 0)
+ {
+ int rel = 0;
+ for (j = 0; j<num_criteria; j++)
+ {
+ if (criteria[j].numerical)
+ {
+ double diff = atof(this_entry.buf[j]) -
+ atof(sort_info->entries[i]->buf[j]);
+ rel = 0;
+ if (diff > 0.0)
+ rel = 1;
+ else if (diff < 0.0)
+ rel = -1;
+ }
+ else
+ {
+ rel = memcmp (this_entry.buf[j], sort_info->entries[i]->buf[j],
+ SORT_IDX_ENTRYSIZE);
+ }
+ if (rel)
+ break;
+ }
+ if (!rel)
+ break;
+ if (criteria[j].relation == 'A')
+ {
+ if (rel > 0)
+ break;
+ }
+ else if (criteria[j].relation == 'D')
+ {
+ if (rel < 0)
+ break;
+ }
+ }
+ ++i;
+ j = sort_info->max_entries;
+ if (i == j)
+ return;
+
+ if (sort_info->num_entries == j)
+ --j;
+ else
+ j = (sort_info->num_entries)++;
+ new_entry = sort_info->entries[j];
+ while (j != i)
+ {
+ sort_info->entries[j] = sort_info->entries[j-1];
+ --j;
+ }
+ sort_info->entries[i] = new_entry;
+ assert (new_entry);
+ for (i = 0; i<num_criteria; i++)
+ memcpy (new_entry->buf[i], this_entry.buf[i], SORT_IDX_ENTRYSIZE);
+ new_entry->sysno = sysno;
+ new_entry->score = -1;
}
-void resultSetRecordDel (ZServerInfo *zi, ZServerRecord *records, int num)
+void resultSetInsertRank (ZebraHandle zh, struct zset_sort_info *sort_info,
+ zint sysno, int score, int relation)
+{
+ struct zset_sort_entry *new_entry = NULL;
+ int i, j;
+ assert(zh); /* compiler shut up about unused arg */
+
+ i = sort_info->num_entries;
+ while (--i >= 0)
+ {
+ int rel = 0;
+
+ rel = score - sort_info->entries[i]->score;
+
+ if (relation == 'D')
+ {
+ if (rel >= 0)
+ break;
+ }
+ else if (relation == 'A')
+ {
+ if (rel <= 0)
+ break;
+ }
+ }
+ ++i;
+ j = sort_info->max_entries;
+ if (i == j)
+ return;
+
+ if (sort_info->num_entries == j)
+ --j;
+ else
+ j = (sort_info->num_entries)++;
+
+ new_entry = sort_info->entries[j];
+ while (j != i)
+ {
+ sort_info->entries[j] = sort_info->entries[j-1];
+ --j;
+ }
+ sort_info->entries[i] = new_entry;
+ assert (new_entry);
+ new_entry->sysno = sysno;
+ new_entry->score = score;
+}
+
+void resultSetSort (ZebraHandle zh, NMEM nmem,
+ int num_input_setnames, const char **input_setnames,
+ const char *output_setname,
+ Z_SortKeySpecList *sort_sequence, int *sort_status)
+{
+ ZebraSet sset;
+ RSET rset;
+
+ if (num_input_setnames == 0)
+ {
+ zh->errCode = 208;
+ return ;
+ }
+ if (num_input_setnames > 1)
+ {
+ zh->errCode = 230;
+ return;
+ }
+ if (!log_level_set)
+ loglevels();
+ yaz_log(log_level_sorting, "result set sort input=%s output=%s",
+ *input_setnames, output_setname);
+ sset = resultSetGet (zh, input_setnames[0]);
+ if (!sset)
+ {
+ zh->errCode = 30;
+ zh->errString = nmem_strdup (nmem, input_setnames[0]);
+ return;
+ }
+ if (!(rset = sset->rset))
+ {
+ zh->errCode = 30;
+ zh->errString = nmem_strdup (nmem, input_setnames[0]);
+ return;
+ }
+ if (strcmp (output_setname, input_setnames[0]))
+ {
+ rset = rset_dup (rset);
+ sset = resultSetAdd (zh, output_setname, 1);
+ sset->rset = rset;
+ }
+ resultSetSortSingle (zh, nmem, sset, rset, sort_sequence, sort_status);
+}
+
+void resultSetSortSingle (ZebraHandle zh, NMEM nmem,
+ ZebraSet sset, RSET rset,
+ Z_SortKeySpecList *sort_sequence, int *sort_status)
{
int i;
+ int n = 0;
+ zint kno = 0;
+ zint psysno = 0;
+ struct it_key key;
+ struct sortKeyInfo sort_criteria[3];
+ int num_criteria;
+ RSFD rfd;
+ TERMID termid;
+ TERMID *terms;
+ int numTerms = 0;
- for (i = 0; i<num; i++)
- free (records[i].buf);
- free (records);
+ assert(nmem); /* compiler shut up about unused param */
+ sset->sort_info->num_entries = 0;
+
+ rset_getterms(rset, 0, 0, &n);
+ terms = (TERMID *) nmem_malloc(nmem, sizeof(*terms)*n);
+ rset_getterms(rset, terms, n, &numTerms);
+
+ sset->hits = 0;
+ num_criteria = sort_sequence->num_specs;
+ if (num_criteria > 3)
+ num_criteria = 3;
+ for (i = 0; i < num_criteria; i++)
+ {
+ Z_SortKeySpec *sks = sort_sequence->specs[i];
+ Z_SortKey *sk;
+
+ if (*sks->sortRelation == Z_SortKeySpec_ascending)
+ sort_criteria[i].relation = 'A';
+ else if (*sks->sortRelation == Z_SortKeySpec_descending)
+ sort_criteria[i].relation = 'D';
+ else
+ {
+ zh->errCode = 214;
+ return;
+ }
+ if (sks->sortElement->which == Z_SortElement_databaseSpecific)
+ {
+ zh->errCode = 210;
+ return;
+ }
+ else if (sks->sortElement->which != Z_SortElement_generic)
+ {
+ zh->errCode = 237;
+ return;
+ }
+ sk = sks->sortElement->u.generic;
+ switch (sk->which)
+ {
+ case Z_SortKey_sortField:
+ yaz_log(log_level_sorting, "Sort: key %d is of type sortField", i+1);
+ zh->errCode = 207;
+ return;
+ case Z_SortKey_elementSpec:
+ yaz_log(log_level_sorting, "Sort: key %d is of type elementSpec", i+1);
+ zh->errCode = 207;
+ return;
+ case Z_SortKey_sortAttributes:
+ yaz_log(log_level_sorting, "Sort: key %d is of type sortAttributes", i+1);
+ sort_criteria[i].attrUse =
+ zebra_maps_sort (zh->reg->zebra_maps,
+ sk->u.sortAttributes,
+ &sort_criteria[i].numerical);
+ yaz_log(log_level_sorting, "use value = %d", sort_criteria[i].attrUse);
+ if (sort_criteria[i].attrUse == -1)
+ {
+ zh->errCode = 116;
+ return;
+ }
+ if (sortIdx_type (zh->reg->sortIdx, sort_criteria[i].attrUse))
+ {
+ zh->errCode = 207;
+ return;
+ }
+ break;
+ }
+ }
+ rfd = rset_open (rset, RSETF_READ);
+ while (rset_read (rfd, &key, &termid))
+ /* FIXME - pass a TERMID *, and use it for something below !! */
+ {
+ zint this_sys = key.mem[0];
+ kno++;
+ if (this_sys != psysno)
+ {
+ (sset->hits)++;
+ psysno = this_sys;
+ resultSetInsertSort (zh, sset,
+ sort_criteria, num_criteria, psysno);
+ }
+ }
+ rset_close (rfd);
+ yaz_log(log_level_sorting, ZINT_FORMAT " keys, " ZINT_FORMAT " sysnos, sort",
+ kno, sset->hits);
+ for (i = 0; i < numTerms; i++)
+ yaz_log(log_level_sorting, "term=\"%s\" type=%s count=" ZINT_FORMAT,
+ terms[i]->name, terms[i]->flags, rset_count(terms[i]->rset));
+ *sort_status = Z_SortResponse_success;
+}
+
+RSET resultSetRef (ZebraHandle zh, const char *resultSetId)
+{
+ ZebraSet s;
+
+ if ((s = resultSetGet (zh, resultSetId)))
+ return s->rset;
+ return NULL;
+}
+
+void resultSetRank (ZebraHandle zh, ZebraSet zebraSet, RSET rset, NMEM nmem)
+{
+ zint kno = 0;
+ struct it_key key;
+ RSFD rfd;
+ TERMID termid;
+ TERMID *terms;
+ int numTerms = 0;
+ int n = 0;
+ int i;
+ ZebraRankClass rank_class;
+ struct rank_control *rc;
+ struct zset_sort_info *sort_info;
+ const char *rank_handler_name = res_get_def(zh->res, "rank", "rank-1");
+ double cur,tot;
+ zint est=-2; /* -2 not done, -1 can't do, >0 actual estimate*/
+ zint esthits;
+ double ratio;
+
+ if (!log_level_set)
+ loglevels();
+ sort_info = zebraSet->sort_info;
+ sort_info->num_entries = 0;
+ zebraSet->hits = 0;
+ rset_getterms(rset, 0, 0, &n);
+ terms = (TERMID *) nmem_malloc(nmem, sizeof(*terms)*n);
+ rset_getterms(rset, terms, n, &numTerms);
+
+ rfd = rset_open (rset, RSETF_READ);
+
+ rank_class = zebraRankLookup (zh, rank_handler_name);
+ if (!rank_class)
+ {
+ yaz_log(YLOG_WARN, "No such rank handler: %s", rank_handler_name);
+ return;
+ }
+ rc = rank_class->control;
+
+ if (rset_read (rfd, &key, &termid))
+ {
+ zint psysno = key.mem[0];
+ int score;
+ void *handle =
+ (*rc->begin) (zh->reg, rank_class->class_handle, rset, nmem,
+ terms, numTerms);
+ (zebraSet->hits)++;
+ esthits = atoi(res_get_def(zh->res, "estimatehits","0"));
+ if (!esthits)
+ est = -1; /* can not do */
+ do
+ {
+ zint this_sys = key.mem[0]; /* FIXME - assumes scope==2 */
+ zint seqno = key.mem[key.len-1]; /* FIXME - assumes scope==2 */
+ kno++;
+ key_logdump_txt(log_level_searchhits,&key," Got hit");
+ if (this_sys != psysno)
+ {
+ score = (*rc->calc) (handle, psysno);
+
+ resultSetInsertRank (zh, sort_info, psysno, score, 'A');
+ (zebraSet->hits)++;
+ psysno = this_sys;
+ }
+ (*rc->add) (handle, seqno, termid);
+
+ if ((est==-2) && (zebraSet->hits==esthits))
+ { /* time to estimate the hits */
+ rset_pos(rfd,&cur,&tot);
+ if (tot>0) {
+ ratio = cur/tot;
+ est = (zint)(0.5+zebraSet->hits/ratio);
+ yaz_log(log_level_searchhits, "Estimating hits (%s) "
+ "%0.1f->" ZINT_FORMAT
+ "; %0.1f->" ZINT_FORMAT,
+ rset->control->desc,
+ cur, zebraSet->hits,
+ tot, est);
+ i = 0; /* round to 3 significant digits */
+ while (est>1000) {
+ est /= 10;
+ i++;
+ }
+ while (i--)
+ est *= 10;
+ zebraSet->hits = est;
+ }
+ }
+ }
+ while (rset_read (rfd, &key,&termid) && (est<0) );
+ score = (*rc->calc)(handle, psysno);
+ resultSetInsertRank(zh, sort_info, psysno, score, 'A');
+ (*rc->end) (zh->reg, handle);
+ }
+ rset_close (rfd);
+
+ yaz_log(log_level_searchterms, ZINT_FORMAT " keys, " ZINT_FORMAT " sysnos, rank",
+ kno, zebraSet->hits);
+ for (i = 0; i < numTerms; i++)
+ {
+ yaz_log(log_level_searchterms, "term=\"%s\" type=%s count=" ZINT_FORMAT,
+ terms[i]->name, terms[i]->flags, rset_count(terms[i]->rset));
+ }
+}
+
+ZebraRankClass zebraRankLookup (ZebraHandle zh, const char *name)
+{
+ ZebraRankClass p = zh->reg->rank_classes;
+ while (p && strcmp (p->control->name, name))
+ p = p->next;
+ if (p && !p->init_flag)
+ {
+ if (p->control->create)
+ p->class_handle = (*p->control->create)(zh);
+ p->init_flag = 1;
+ }
+ return p;
+}
+
+void zebraRankInstall (struct zebra_register *reg, struct rank_control *ctrl)
+{
+ ZebraRankClass p = (ZebraRankClass) xmalloc (sizeof(*p));
+ p->control = (struct rank_control *) xmalloc (sizeof(*p->control));
+ memcpy (p->control, ctrl, sizeof(*p->control));
+ p->control->name = xstrdup (ctrl->name);
+ p->init_flag = 0;
+ p->next = reg->rank_classes;
+ reg->rank_classes = p;
+}
+
+void zebraRankDestroy (struct zebra_register *reg)
+{
+ ZebraRankClass p = reg->rank_classes;
+ while (p)
+ {
+ ZebraRankClass p_next = p->next;
+ if (p->init_flag && p->control->destroy)
+ (*p->control->destroy)(reg, p->class_handle);
+ xfree(p->control->name);
+ xfree(p->control);
+ xfree(p);
+ p = p_next;
+ }
+ reg->rank_classes = NULL;
}