X-Git-Url: http://git.indexdata.com/?p=idzebra-moved-to-github.git;a=blobdiff_plain;f=index%2Fzsets.c;h=cdfc2d28b3fac33c9577a218976def6c8e5193eb;hp=9e95870baa8206f670709d4bf3f8868cbda4e834;hb=6988ba91e363565638c27a8d5895ad9afc409e75;hpb=3b98e1f4a4bed33d9ceae08db3139791078991e4 diff --git a/index/zsets.c b/index/zsets.c index 9e95870..cdfc2d2 100644 --- a/index/zsets.c +++ b/index/zsets.c @@ -1,6 +1,6 @@ -/* $Id: zsets.c,v 1.76 2005-01-07 14:44:54 adam Exp $ - Copyright (C) 1995-2005 - Index Data Aps +/* $Id: zsets.c,v 1.122 2007-08-21 11:06:47 adam Exp $ + Copyright (C) 1995-2007 + Index Data ApS This file is part of the Zebra server. @@ -15,9 +15,9 @@ 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. +along with this program; if not, write to the Free Software +Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + */ @@ -30,18 +30,19 @@ Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA #endif #include "index.h" +#include "rank.h" +#include #include -#define SORT_IDX_ENTRYSIZE 64 -#define ZSET_SORT_MAX_LEVEL 3 +#define ZSET_SORT_MAX_LEVEL 10 struct zebra_set_term_entry { int reg_type; char *db; - int set; - int use; + char *index_name; char *term; }; + struct zebra_set { char *name; RSET rset; @@ -51,21 +52,23 @@ struct zebra_set { int num_bases; char **basenames; Z_RPNQuery *rpn; + Z_SortKeySpecList *sortSpec; struct zset_sort_info *sort_info; struct zebra_set_term_entry *term_entries; int term_entries_max; struct zebra_set *next; int locked; + int estimated_hit_count; zint cache_position; /* last position */ RSFD cache_rfd; /* rfd (NULL if not existing) */ zint cache_psysno; /* sysno for last position */ + zint approx_limit; /* limit before we do approx */ }; struct zset_sort_entry { zint sysno; int score; - char buf[ZSET_SORT_MAX_LEVEL][SORT_IDX_ENTRYSIZE]; }; struct zset_sort_info { @@ -76,63 +79,113 @@ struct zset_sort_info { }; static int log_level_set=0; -static int log_level_sorting=0; +static int log_level_sort=0; static int log_level_searchhits=0; static int log_level_searchterms=0; static int log_level_resultsets=0; -static void loglevels() +static void loglevels(void) { if (log_level_set) return; - log_level_sorting = yaz_log_module_level("sorting"); + log_level_sort = 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; + log_level_set = 1; } -ZebraSet resultSetAddRPN (ZebraHandle zh, NMEM m, - Z_RPNQuery *rpn, int num_bases, - char **basenames, - const char *setname) + +static ZEBRA_RES resultSetSearch(ZebraHandle zh, NMEM nmem, NMEM rset_nmem, + Z_RPNQuery *rpn, ZebraSet sset) +{ + RSET rset = 0; + Z_SortKeySpecList *sort_sequence; + int sort_status, i; + ZEBRA_RES res = ZEBRA_OK; + + sort_sequence = (Z_SortKeySpecList *) + nmem_malloc(nmem, sizeof(*sort_sequence)); + sort_sequence->num_specs = 10; /* FIXME - Hard-coded number */ + sort_sequence->specs = (Z_SortKeySpec **) + nmem_malloc(nmem, sort_sequence->num_specs * + sizeof(*sort_sequence->specs)); + for (i = 0; inum_specs; i++) + sort_sequence->specs[i] = 0; + + rpn_get_top_approx_limit(zh, rpn->RPNStructure, &sset->approx_limit); + + res = rpn_search_top(zh, rpn->RPNStructure, rpn->attributeSetId, + nmem, rset_nmem, + sort_sequence, + sset->num_bases, sset->basenames, + &rset); + if (res != ZEBRA_OK) + { + sset->rset = 0; + return res; + } + for (i = 0; sort_sequence->specs[i]; i++) + ; + sort_sequence->num_specs = i; + rset->hits_limit = sset->approx_limit; + if (!i) + { + res = resultSetRank (zh, sset, rset, rset_nmem); + } + else + { + res = resultSetSortSingle (zh, nmem, sset, rset, + sort_sequence, &sort_status); + } + sset->rset = rset; + return res; +} + + +ZEBRA_RES resultSetAddRPN(ZebraHandle zh, NMEM m, Z_RPNQuery *rpn, + int num_bases, char **basenames, + const char *setname, + zint *hits, int *estimated_hit_count) { ZebraSet zebraSet; int i; + ZEBRA_RES res; - zh->errCode = 0; - zh->errString = NULL; - zh->hits = 0; + *hits = 0; + *estimated_hit_count = 0; - zebraSet = resultSetAdd (zh, setname, 1); + zebraSet = resultSetAdd(zh, setname, 1); if (!zebraSet) - return 0; + return ZEBRA_FAIL; zebraSet->locked = 1; zebraSet->rpn = 0; zebraSet->nmem = m; - zebraSet->rset_nmem=nmem_create(); + zebraSet->rset_nmem = nmem_create(); zebraSet->num_bases = num_bases; zebraSet->basenames = nmem_malloc (zebraSet->nmem, num_bases * sizeof(*zebraSet->basenames)); for (i = 0; ibasenames[i] = nmem_strdup (zebraSet->nmem, basenames[i]); + zebraSet->basenames[i] = nmem_strdup(zebraSet->nmem, basenames[i]); + res = resultSetSearch(zh, zebraSet->nmem, zebraSet->rset_nmem, + rpn, zebraSet); + *hits = zebraSet->hits; + if (zebraSet->estimated_hit_count) + *estimated_hit_count = 1; - 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; + if (!zebraSet->rset) + return ZEBRA_FAIL; + return res; } -void resultSetAddTerm (ZebraHandle zh, ZebraSet s, int reg_type, - const char *db, int set, - int use, const char *term) +void resultSetAddTerm(ZebraHandle zh, ZebraSet s, int reg_type, + const char *db, const char *index_name, + const char *term) { assert(zh); /* compiler shut up */ if (!s->nmem) @@ -151,14 +204,13 @@ void resultSetAddTerm (ZebraHandle zh, ZebraSet s, int reg_type, { 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->term_entries[s->hits].index_name = nmem_strdup(s->nmem, index_name); + s->term_entries[s->hits].term = nmem_strdup(s->nmem, term); } (s->hits)++; } -ZebraSet resultSetAdd (ZebraHandle zh, const char *name, int ov) +ZebraSet resultSetAdd(ZebraHandle zh, const char *name, int ov) { ZebraSet s; int i; @@ -215,15 +267,18 @@ ZebraSet resultSetAdd (ZebraHandle zh, const char *name, int ov) s->term_entries = 0; s->hits = 0; s->rset = 0; - s->rset_nmem=0; + s->rset_nmem = 0; s->nmem = 0; s->rpn = 0; + s->sortSpec = 0; s->cache_position = 0; s->cache_rfd = 0; + s->approx_limit = zh->approx_limit; + s->estimated_hit_count = 0; return s; } -ZebraSet resultSetGet (ZebraHandle zh, const char *name) +ZebraSet resultSetGet(ZebraHandle zh, const char *name) { ZebraSet s; @@ -236,9 +291,14 @@ ZebraSet resultSetGet (ZebraHandle zh, const char *name) 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); + resultSetSearch(zh, nmem, s->rset_nmem, s->rpn, s); + if (s->rset && s->sortSpec) + { + int sort_status; + yaz_log(log_level_resultsets, "resort %s", name); + resultSetSortSingle (zh, nmem, s, s->rset, s->sortSpec, + &sort_status); + } nmem_destroy (nmem); } return s; @@ -268,7 +328,7 @@ void resultSetInvalidate (ZebraHandle zh) } } -void resultSetDestroy (ZebraHandle zh, int num, char **names,int *statuses) +void resultSetDestroy(ZebraHandle zh, int num, char **names,int *statuses) { ZebraSet * ss = &zh->sets; int i; @@ -276,8 +336,6 @@ void resultSetDestroy (ZebraHandle zh, int num, char **names,int *statuses) if (statuses) for (i = 0; ierrCode = 0; - zh->errString = NULL; while (*ss) { int i = -1; @@ -319,9 +377,9 @@ void resultSetDestroy (ZebraHandle zh, int num, char **names,int *statuses) } } -ZebraMetaRecord *zebra_meta_records_create_range (ZebraHandle zh, - const char *name, - zint start, int num) +ZebraMetaRecord *zebra_meta_records_create_range(ZebraHandle zh, + const char *name, + zint start, int num) { zint pos_small[10]; zint *pos = pos_small; @@ -344,14 +402,18 @@ ZebraMetaRecord *zebra_meta_records_create_range (ZebraHandle zh, return mr; } -ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name, - int num, zint *positions) +ZebraMetaRecord *zebra_meta_records_create(ZebraHandle zh, const char *name, + int num, zint *positions) { ZebraSet sset; ZebraMetaRecord *sr = 0; RSET rset; int i; struct zset_sort_info *sort_info; + size_t sysno_mem_index = 0; + + if (zh->m_staticrank) + sysno_mem_index = 1; if (!log_level_set) loglevels(); @@ -396,7 +458,7 @@ ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name, position = positions[i]; if (position > 0 && position <= sort_info->num_entries) { - yaz_log(log_level_sorting, "got pos=" ZINT_FORMAT + yaz_log(log_level_sort, "got pos=" ZINT_FORMAT " (sorted)", position); sr[i].sysno = sort_info->entries[position-1]->sysno; sr[i].score = sort_info->entries[position-1]->score; @@ -419,7 +481,7 @@ ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name, if (sort_info) position = sort_info->num_entries; - while (num_i < num && positions[num_i] < position) + while (num_i < num && positions[num_i] <= position) num_i++; if (sset->cache_rfd && @@ -437,7 +499,7 @@ ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name, } while (num_i < num && rset_read (rfd, &key, 0)) { - zint this_sys = key.mem[0]; + zint this_sys = key.mem[sysno_mem_index]; if (this_sys != psysno) { psysno = this_sys; @@ -455,7 +517,7 @@ ZebraMetaRecord *zebra_meta_records_create (ZebraHandle zh, const char *name, if (position == positions[num_i]) { sr[num_i].sysno = psysno; - yaz_log(log_level_sorting, "got pos=" ZINT_FORMAT " (unsorted)", position); + yaz_log(log_level_sort, "got pos=" ZINT_FORMAT " (unsorted)", position); sr[num_i].score = -1; num_i++; } @@ -478,24 +540,30 @@ void zebra_meta_records_destroy (ZebraHandle zh, ZebraMetaRecord *records, struct sortKeyInfo { int relation; - int attrUse; + int ord; int numerical; + int index_type; }; -void resultSetInsertSort (ZebraHandle zh, ZebraSet sset, - struct sortKeyInfo *criteria, int num_criteria, - zint sysno) +void resultSetInsertSort(ZebraHandle zh, ZebraSet sset, + struct sortKeyInfo *criteria, int num_criteria, + zint sysno, + char *cmp_buf[], char *tmp_cmp_buf[]) { - 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); + zebra_sort_sysno(zh->reg->sort_index, sysno); for (i = 0; ireg->sortIdx, criteria[i].attrUse); - sortIdx_read (zh->reg->sortIdx, this_entry.buf[i]); + char *this_entry_buf = tmp_cmp_buf[i]; + memset(this_entry_buf, '\0', SORT_IDX_ENTRYSIZE); + if (criteria[i].ord != -1) + { + zebra_sort_type(zh->reg->sort_index, criteria[i].ord); + zebra_sort_read(zh->reg->sort_index, this_entry_buf); + } } i = sort_info->num_entries; while (--i >= 0) @@ -503,20 +571,32 @@ void resultSetInsertSort (ZebraHandle zh, ZebraSet sset, int rel = 0; for (j = 0; jentries[i]->buf[j]); - rel = 0; + char this_entry_org[1024]; + char other_entry_org[1024]; + double diff; + int index_type = criteria[j].index_type; + zebra_term_untrans(zh, index_type, this_entry_org, + this_entry_buf); + zebra_term_untrans(zh, index_type, other_entry_org, + other_entry_buf); + diff = atof(this_entry_org) - atof(other_entry_org); + if (diff > 0.0) rel = 1; else if (diff < 0.0) rel = -1; + else + rel = 0; } else { - rel = memcmp (this_entry.buf[j], sort_info->entries[i]->buf[j], - SORT_IDX_ENTRYSIZE); + rel = memcmp(this_entry_buf, other_entry_buf, + SORT_IDX_ENTRYSIZE); } if (rel) break; @@ -546,19 +626,30 @@ void resultSetInsertSort (ZebraHandle zh, ZebraSet sset, new_entry = sort_info->entries[j]; while (j != i) { + int k; + for (k = 0; kentries[j] = sort_info->entries[j-1]; --j; } sort_info->entries[i] = new_entry; assert (new_entry); for (i = 0; ibuf[i], this_entry.buf[i], SORT_IDX_ENTRYSIZE); + { + char *new_entry_buf = cmp_buf[i] + j * SORT_IDX_ENTRYSIZE; + char *this_entry_buf = tmp_cmp_buf[i]; + memcpy(new_entry_buf, this_entry_buf, SORT_IDX_ENTRYSIZE); + } new_entry->sysno = sysno; new_entry->score = -1; } -void resultSetInsertRank (ZebraHandle zh, struct zset_sort_info *sort_info, - zint sysno, int score, int relation) +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; @@ -604,65 +695,141 @@ void resultSetInsertRank (ZebraHandle zh, struct zset_sort_info *sort_info, 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) +static Z_RPNQuery *copy_RPNQuery(Z_RPNQuery *src, NMEM nmem) +{ + Z_RPNQuery *dst = 0; + ODR encode = odr_createmem(ODR_ENCODE); + ODR decode = odr_createmem(ODR_DECODE); + + if (z_RPNQuery(encode, &src, 0, 0)) + { + int len; + char *buf = odr_getbuf(encode, &len, 0); + + if (buf) + { + odr_setbuf(decode, buf, len, 0); + z_RPNQuery(decode, &dst, 0, 0); + } + } + nmem_transfer(nmem, decode->mem); + odr_destroy(encode); + odr_destroy(decode); + return dst; +} + +static Z_SortKeySpecList *copy_SortKeySpecList(Z_SortKeySpecList *src, NMEM nmem) +{ + Z_SortKeySpecList *dst = 0; + ODR encode = odr_createmem(ODR_ENCODE); + ODR decode = odr_createmem(ODR_DECODE); + + if (z_SortKeySpecList(encode, &src, 0, 0)) + { + int len; + char *buf = odr_getbuf(encode, &len, 0); + + if (buf) + { + odr_setbuf(decode, buf, len, 0); + z_SortKeySpecList(decode, &dst, 0, 0); + } + } + nmem_transfer(nmem, decode->mem); + odr_destroy(encode); + odr_destroy(decode); + return dst; +} + +ZebraSet resultSetClone(ZebraHandle zh, const char *setname, + ZebraSet rset) +{ + ZebraSet nset; + int i; + + nset = resultSetAdd(zh, setname, 1); + if (!nset) + return 0; + + nset->nmem = nmem_create(); + + nset->num_bases = rset->num_bases; + nset->basenames = + nmem_malloc (nset->nmem, nset->num_bases * sizeof(*rset->basenames)); + for (i = 0; inum_bases; i++) + nset->basenames[i] = nmem_strdup(nset->nmem, rset->basenames[i]); + + if (rset->rset) + nset->rset = rset_dup(rset->rset); + if (rset->rpn) + nset->rpn = copy_RPNQuery(rset->rpn, nset->nmem); + return nset; +} + +ZEBRA_RES 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 ; + zebra_setError(zh, YAZ_BIB1_NO_RESULT_SET_NAME_SUPPLIED_ON_SORT, 0); + return ZEBRA_FAIL; } if (num_input_setnames > 1) { - zh->errCode = 230; - return; + zebra_setError(zh, YAZ_BIB1_SORT_TOO_MANY_INPUT_RESULTS, 0); + return ZEBRA_FAIL; } if (!log_level_set) loglevels(); - yaz_log(log_level_sorting, "result set sort input=%s output=%s", + yaz_log(log_level_sort, "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; + zebra_setError(zh, YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST, + input_setnames[0]); + return ZEBRA_FAIL; } if (!(rset = sset->rset)) { - zh->errCode = 30; - zh->errString = nmem_strdup (nmem, input_setnames[0]); - return; + zebra_setError(zh, YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST, + input_setnames[0]); + return ZEBRA_FAIL; } 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); + sset = resultSetClone(zh, output_setname, sset); + sset->sortSpec = copy_SortKeySpecList(sort_sequence, sset->nmem); + return 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) +ZEBRA_RES 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]; + struct sortKeyInfo sort_criteria[ZSET_SORT_MAX_LEVEL]; + char *cmp_buf[ZSET_SORT_MAX_LEVEL]; + char *tmp_cmp_buf[ZSET_SORT_MAX_LEVEL]; int num_criteria; RSFD rfd; TERMID termid; TERMID *terms; int numTerms = 0; + size_t sysno_mem_index = 0; + + if (zh->m_staticrank) + sysno_mem_index = 1; assert(nmem); /* compiler shut up about unused param */ sset->sort_info->num_entries = 0; @@ -673,87 +840,132 @@ void resultSetSortSingle (ZebraHandle zh, NMEM nmem, sset->hits = 0; num_criteria = sort_sequence->num_specs; - if (num_criteria > 3) - num_criteria = 3; + if (num_criteria > ZSET_SORT_MAX_LEVEL) + num_criteria = ZSET_SORT_MAX_LEVEL; for (i = 0; i < num_criteria; i++) { Z_SortKeySpec *sks = sort_sequence->specs[i]; Z_SortKey *sk; + ZEBRA_RES res; + sort_criteria[i].ord = -1; + sort_criteria[i].numerical = 0; + + if (sks->which == Z_SortKeySpec_missingValueData) + { + zebra_setError(zh, YAZ_BIB1_UNSUPP_MISSING_DATA_ACTION, 0); + return ZEBRA_FAIL; + } 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; + zebra_setError(zh, YAZ_BIB1_ILLEGAL_SORT_RELATION, 0); + return ZEBRA_FAIL; } if (sks->sortElement->which == Z_SortElement_databaseSpecific) { - zh->errCode = 210; - return; + zebra_setError(zh, YAZ_BIB1_DATABASE_SPECIFIC_SORT_UNSUPP, 0); + return ZEBRA_FAIL; } else if (sks->sortElement->which != Z_SortElement_generic) { - zh->errCode = 237; - return; + zebra_setError(zh, YAZ_BIB1_SORT_ILLEGAL_SORT, 0); + return ZEBRA_FAIL; } 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) + yaz_log(log_level_sort, "key %d is of type sortField", + i+1); + sort_criteria[i].numerical = 0; + sort_criteria[i].ord = + zebraExplain_lookup_attr_str(zh->reg->zei, + zinfo_index_category_sort, + -1, sk->u.sortField); + if (sks->which != Z_SortKeySpec_null + && sort_criteria[i].ord == -1) { - zh->errCode = 116; - return; - } - if (sortIdx_type (zh->reg->sortIdx, sort_criteria[i].attrUse)) - { - zh->errCode = 207; - return; + zebra_setError(zh, + YAZ_BIB1_CANNOT_SORT_ACCORDING_TO_SEQUENCE, 0); + return ZEBRA_FAIL; } break; + case Z_SortKey_elementSpec: + yaz_log(log_level_sort, "key %d is of type elementSpec", + i+1); + zebra_setError(zh, YAZ_BIB1_CANNOT_SORT_ACCORDING_TO_SEQUENCE, 0); + return ZEBRA_FAIL; + case Z_SortKey_sortAttributes: + yaz_log(log_level_sort, "key %d is of type sortAttributes", i+1); + res = zebra_sort_get_ord(zh, sk->u.sortAttributes, + + &sort_criteria[i].ord, + &sort_criteria[i].numerical); + if (sks->which != Z_SortKeySpec_null && res != ZEBRA_OK) + return ZEBRA_FAIL; + break; + } + if (zebraExplain_lookup_ord(zh->reg->zei, sort_criteria[i].ord, + &sort_criteria[i].index_type, + 0, 0)) + { + zebra_setError(zh, YAZ_BIB1_CANNOT_SORT_ACCORDING_TO_SEQUENCE, 0); + return ZEBRA_FAIL; } } + /* allocate space for each cmpare buf + one extra for tmp comparison */ + for (i = 0; isort_info->max_entries + * SORT_IDX_ENTRYSIZE); + tmp_cmp_buf[i] = xmalloc(SORT_IDX_ENTRYSIZE); + } 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]; + zint this_sys = key.mem[sysno_mem_index]; + if (log_level_searchhits) + key_logdump_txt(log_level_searchhits, &key, termid->name); kno++; if (this_sys != psysno) { + if ((sset->hits & 255) == 0 && zh->break_handler_func) + { + if (zh->break_handler_func(zh->break_handler_data)) + { + rset_set_hits_limit(rset, 0); + break; + } + } (sset->hits)++; psysno = this_sys; - resultSetInsertSort (zh, sset, - sort_criteria, num_criteria, psysno); + resultSetInsertSort(zh, sset, + sort_criteria, num_criteria, psysno, cmp_buf, + tmp_cmp_buf); } } rset_close (rfd); - yaz_log(log_level_sorting, ZINT_FORMAT " keys, " ZINT_FORMAT " sysnos, sort", - kno, sset->hits); + + for (i = 0; ihits); 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)); + yaz_log(log_level_sort, "term=\"%s\" type=%s count=" ZINT_FORMAT, + terms[i]->name, terms[i]->flags, terms[i]->rset->hits_count); *sort_status = Z_SortResponse_success; + return ZEBRA_OK; } -RSET resultSetRef (ZebraHandle zh, const char *resultSetId) +RSET resultSetRef(ZebraHandle zh, const char *resultSetId) { ZebraSet s; @@ -762,111 +974,117 @@ RSET resultSetRef (ZebraHandle zh, const char *resultSetId) return NULL; } -void resultSetRank (ZebraHandle zh, ZebraSet zebraSet, RSET rset, NMEM nmem) +ZEBRA_RES resultSetRank(ZebraHandle zh, ZebraSet zebraSet, + RSET rset, NMEM nmem) { - zint kno = 0; struct it_key key; - RSFD rfd; TERMID termid; TERMID *terms; + zint kno = 0; 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; + size_t sysno_mem_index = 0; + + if (zh->m_staticrank) + sysno_mem_index = 1; if (!log_level_set) loglevels(); sort_info = zebraSet->sort_info; sort_info->num_entries = 0; zebraSet->hits = 0; + zebraSet->estimated_hit_count = 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); + rank_class = zebraRankLookup(zh, rank_handler_name); if (!rank_class) { yaz_log(YLOG_WARN, "No such rank handler: %s", rank_handler_name); - return; + zebra_setError(zh, YAZ_BIB1_UNSUPP_SEARCH, "Cannot find rank handler"); + return ZEBRA_FAIL; } - rc = rank_class->control; - - if (rset_read (rfd, &key, &termid)) + else { - 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++; + RSFD rfd = rset_open(rset, RSETF_READ); + struct rank_control *rc = rank_class->control; + int score; + zint count = 0; + void *handle = (*rc->begin) (zh->reg, rank_class->class_handle, rset, + nmem, terms, numTerms); + zint psysno = 0; /* previous doc id / sys no */ + zint pstaticrank = 0; /* previous static rank */ + int stop_flag = 0; + while (rset_read(rfd, &key, &termid)) + { + zint this_sys = key.mem[sysno_mem_index]; + + zint seqno = key.mem[key.len-1]; + kno++; + if (log_level_searchhits) + key_logdump_txt(log_level_searchhits, &key, termid->name); + if (this_sys != psysno) + { /* new record .. */ + if (!(rfd->counted_items & 255) && zh->break_handler_func) + { + if (zh->break_handler_func(zh->break_handler_data)) + { + yaz_log(YLOG_LOG, "Aborted search"); + stop_flag = 1; } - 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); + if (rfd->counted_items > rset->hits_limit) + stop_flag = 1; + if (psysno) + { /* only if we did have a previous record */ + score = (*rc->calc) (handle, psysno, pstaticrank, + &stop_flag); + /* insert the hit. A=Ascending */ + resultSetInsertRank (zh, sort_info, psysno, score, 'A'); + count++; + } + if (stop_flag) + { + zebraSet->estimated_hit_count = 1; + rset_set_hits_limit(rset, 0); + break; + } + psysno = this_sys; + if (zh->m_staticrank) + pstaticrank = key.mem[0]; + } + (*rc->add) (handle, CAST_ZINT_TO_INT(seqno), termid); + } + /* no more items */ + if (psysno) + { /* we had - at least - one record */ + score = (*rc->calc)(handle, psysno, pstaticrank, &stop_flag); + /* insert the hit. A=Ascending */ + resultSetInsertRank(zh, sort_info, psysno, score, 'A'); + count++; + } + (*rc->end) (zh->reg, handle); + rset_close (rfd); } - rset_close (rfd); + zebraSet->hits = rset->hits_count; - yaz_log(log_level_searchterms, ZINT_FORMAT " keys, " ZINT_FORMAT " sysnos, rank", - kno, zebraSet->hits); + 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)); + yaz_log(log_level_searchterms, "term=\"%s\" type=%s count=" + ZINT_FORMAT, + terms[i]->name, terms[i]->flags, terms[i]->rset->hits_count); } + return ZEBRA_OK; } -ZebraRankClass zebraRankLookup (ZebraHandle zh, const char *name) +ZebraRankClass zebraRankLookup(ZebraHandle zh, const char *name) { ZebraRankClass p = zh->reg->rank_classes; while (p && strcmp (p->control->name, name)) @@ -880,7 +1098,7 @@ ZebraRankClass zebraRankLookup (ZebraHandle zh, const char *name) return p; } -void zebraRankInstall (struct zebra_register *reg, struct rank_control *ctrl) +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)); @@ -891,7 +1109,7 @@ void zebraRankInstall (struct zebra_register *reg, struct rank_control *ctrl) reg->rank_classes = p; } -void zebraRankDestroy (struct zebra_register *reg) +void zebraRankDestroy(struct zebra_register *reg) { ZebraRankClass p = reg->rank_classes; while (p) @@ -906,3 +1124,174 @@ void zebraRankDestroy (struct zebra_register *reg) } reg->rank_classes = NULL; } + +static int trav_rset_for_termids(RSET rset, TERMID *termid_array, + zint *hits_array, int *approx_array) +{ + int no = 0; + int i; + for (i = 0; ino_children; i++) + no += trav_rset_for_termids(rset->children[i], + (termid_array ? termid_array + no : 0), + (hits_array ? hits_array + no : 0), + (approx_array ? approx_array + no : 0)); + if (rset->term) + { + if (termid_array) + termid_array[no] = rset->term; + if (hits_array) + hits_array[no] = rset->hits_count; + if (approx_array) + approx_array[no] = rset->hits_approx; +#if 0 + yaz_log(YLOG_LOG, "rset=%p term=%s limit=" ZINT_FORMAT + " count=" ZINT_FORMAT, + rset, rset->term->name, rset->hits_limit, rset->hits_count); +#endif + no++; + } + return no; +} + +ZEBRA_RES zebra_result_set_term_no(ZebraHandle zh, const char *setname, + int *num_terms) +{ + ZebraSet sset = resultSetGet(zh, setname); + *num_terms = 0; + if (sset) + { + *num_terms = trav_rset_for_termids(sset->rset, 0, 0, 0); + return ZEBRA_OK; + } + return ZEBRA_FAIL; +} + +ZEBRA_RES zebra_result_set_term_info(ZebraHandle zh, const char *setname, + int no, zint *count, int *approx, + char *termbuf, size_t *termlen, + const char **term_ref_id) +{ + ZebraSet sset = resultSetGet(zh, setname); + if (sset) + { + int num_terms = trav_rset_for_termids(sset->rset, 0, 0, 0); + if (no >= 0 && no < num_terms) + { + TERMID *term_array = xmalloc(num_terms * sizeof(*term_array)); + zint *hits_array = xmalloc(num_terms * sizeof(*hits_array)); + int *approx_array = xmalloc(num_terms * sizeof(*approx_array)); + + trav_rset_for_termids(sset->rset, term_array, + hits_array, approx_array); + + if (count) + *count = hits_array[no]; + if (approx) + *approx = approx_array[no]; + if (termbuf) + { + char *inbuf = term_array[no]->name; + size_t inleft = strlen(inbuf); + size_t outleft = *termlen - 1; + + if (zh->iconv_from_utf8 != 0) + { + char *outbuf = termbuf; + size_t ret; + + ret = yaz_iconv(zh->iconv_from_utf8, &inbuf, &inleft, + &outbuf, &outleft); + if (ret == (size_t)(-1)) + *termlen = 0; + else + { + yaz_iconv(zh->iconv_from_utf8, 0, 0, + &outbuf, &outleft); + *termlen = outbuf - termbuf; + } + } + else + { + if (inleft > outleft) + inleft = outleft; + *termlen = inleft; + memcpy(termbuf, inbuf, *termlen); + } + termbuf[*termlen] = '\0'; + } + if (term_ref_id) + *term_ref_id = term_array[no]->ref_id; + + xfree(term_array); + xfree(hits_array); + xfree(approx_array); + return ZEBRA_OK; + } + } + return ZEBRA_FAIL; +} + +ZEBRA_RES zebra_snippets_hit_vector(ZebraHandle zh, const char *setname, + zint sysno, zebra_snippets *snippets) +{ + ZebraSet sset = resultSetGet(zh, setname); + yaz_log(YLOG_DEBUG, "zebra_get_hit_vector setname=%s zysno=" ZINT_FORMAT, + setname, sysno); + if (!sset) + return ZEBRA_FAIL; + else + { + struct rset_key_control *kc = zebra_key_control_create(zh); + NMEM nmem = nmem_create(); + struct it_key key; + RSET rsets[2], rset_comb; + RSET rset_temp = rset_create_temp(nmem, kc, kc->scope, + res_get (zh->res, "setTmpDir"),0 ); + + TERMID termid; + RSFD rsfd = rset_open(rset_temp, RSETF_WRITE); + + key.mem[0] = sysno; + key.mem[1] = 0; + key.mem[2] = 0; + key.mem[3] = 0; + key.len = 2; + rset_write (rsfd, &key); + rset_close (rsfd); + + rsets[0] = rset_temp; + rsets[1] = rset_dup(sset->rset); + + rset_comb = rset_create_and(nmem, kc, kc->scope, 2, rsets); + + rsfd = rset_open(rset_comb, RSETF_READ); + + while (rset_read(rsfd, &key, &termid)) + { + if (termid) + { + struct ord_list *ol; + for (ol = termid->ol; ol; ol = ol->next) + { + zebra_snippets_append(snippets, key.mem[key.len-1], 0, + ol->ord, termid->name); + } + } + } + rset_close(rsfd); + + rset_delete(rset_comb); + nmem_destroy(nmem); + kc->dec(kc); + } + return ZEBRA_OK; +} + +/* + * Local variables: + * c-basic-offset: 4 + * indent-tabs-mode: nil + * End: + * vim: shiftwidth=4 tabstop=8 expandtab + */ +