#ifndef lint
static char rcsid[] = "@(#$Id: rclquery.cpp,v 1.11 2008-12-19 09:55:36 dockes Exp $ (C) 2008 J.F.Dockes";
#endif
#include <stdlib.h>
#include <string.h>
#include <list>
#include <vector>
#include "xapian/sorter.h"
#include "rcldb.h"
#include "rcldb_p.h"
#include "rclquery.h"
#include "rclquery_p.h"
#include "debuglog.h"
#include "conftree.h"
#include "smallut.h"
#include "searchdata.h"
#include "rclconfig.h"
#ifndef NO_NAMESPACES
namespace Rcl {
#endif
class FilterMatcher : public Xapian::MatchDecider {
public:
FilterMatcher(const string &topdir)
: m_topdir(topdir)
{}
virtual ~FilterMatcher() {}
virtual
#if XAPIAN_MAJOR_VERSION < 1
int
#else
bool
#endif
operator()(const Xapian::Document &xdoc) const
{
// Parse xapian document's data and populate doc fields
string data = xdoc.get_data();
ConfSimple parms(&data);
// The only filtering for now is on file path (subtree)
string url;
parms.get(Doc::keyurl, url);
LOGDEB2(("FilterMatcher topdir [%s] url [%s]\n",
m_topdir.c_str(), url.c_str()));
if (url.find(m_topdir, 7) == 7) {
return true;
} else {
return false;
}
}
private:
string m_topdir;
};
// Sort helper class
class QSorter : public Xapian::Sorter {
public:
QSorter(const string& f) : m_fld(docfToDatf(f) + "=") {}
virtual std::string operator()(const Xapian::Document& xdoc) const {
string data = xdoc.get_data();
// It would be simpler to do the record->Rcl::Doc thing, but
// hand-doing this will be faster. It makes more assumptions
// about the format than a ConfTree though:
string::size_type i1, i2;
i1 = data.find(m_fld);
if (i1 == string::npos)
return string();
i1 += m_fld.length();
if (i1 >= data.length())
return string();
i2 = data.find_first_of("\n\r", i1);
if (i2 == string::npos)
return string();
return data.substr(i1, i2-i1);
}
private:
string m_fld;
};
Query::Query(Db *db)
: m_nq(new Native(this)), m_db(db), m_sorter(0), m_sortAscending(true)
{
}
Query::~Query()
{
deleteZ(m_nq);
if (m_sorter) {
delete (QSorter*)m_sorter;
m_sorter = 0;
}
}
string Query::getReason() const
{
return m_reason;
}
Db *Query::whatDb()
{
return m_db;
}
void Query::setSortBy(const string& fld, bool ascending) {
m_sortField = m_db->getConf()->fieldCanon(fld);
m_sortAscending = ascending;
LOGDEB0(("RclQuery::setSortBy: [%s] %s\n", m_sortField.c_str(),
m_sortAscending ? "ascending" : "descending"));
}
//#define ISNULL(X) (X).isNull()
#define ISNULL(X) !(X)
// Prepare query out of user search data
bool Query::setQuery(RefCntr<SearchData> sdata)
{
LOGDEB(("Query::setQuery:\n"));
if (!m_db || ISNULL(m_nq)) {
LOGERR(("Query::setQuery: not initialised!\n"));
return false;
}
m_reason.erase();
m_filterTopDir = sdata->getTopdir();
m_nq->clear();
if (!m_filterTopDir.empty()) {
#if XAPIAN_FILTERING
m_nq->decider =
#else
m_nq->postfilter =
#endif
new FilterMatcher(m_filterTopDir);
}
Xapian::Query xq;
if (!sdata->toNativeQuery(*m_db, &xq)) {
m_reason += sdata->getReason();
return false;
}
m_nq->query = xq;
string ermsg;
string d;
try {
m_nq->enquire = new Xapian::Enquire(m_db->m_ndb->db);
m_nq->enquire->set_query(m_nq->query);
if (!m_sortField.empty()) {
if (m_sorter) {
delete (QSorter*)m_sorter;
m_sorter = 0;
}
m_sorter = new QSorter(m_sortField);
// It really seems there is a xapian bug about sort order, we
// invert here.
m_nq->enquire->set_sort_by_key((QSorter*)m_sorter,
!m_sortAscending);
}
m_nq->mset = Xapian::MSet();
// Get the query description and trim the "Xapian::Query"
d = m_nq->query.get_description();
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGDEB(("Query::SetQuery: xapian error %s\n", ermsg.c_str()));
return false;
}
if (d.find("Xapian::Query") == 0)
d.erase(0, strlen("Xapian::Query"));
if (!m_filterTopDir.empty()) {
d += string(" [dir: ") + m_filterTopDir + "]";
}
sdata->setDescription(d);
LOGDEB(("Query::SetQuery: Q: %s\n", sdata->getDescription().c_str()));
return true;
}
bool Query::getQueryTerms(list<string>& terms)
{
if (ISNULL(m_nq))
return false;
terms.clear();
Xapian::TermIterator it;
string ermsg;
try {
for (it = m_nq->query.get_terms_begin();
it != m_nq->query.get_terms_end(); it++) {
terms.push_back(*it);
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("getQueryTerms: xapian error: %s\n", ermsg.c_str()));
return false;
}
return true;
}
bool Query::getMatchTerms(const Doc& doc, list<string>& terms)
{
if (ISNULL(m_nq) || !m_nq->enquire) {
LOGERR(("Query::getMatchTerms: no query opened\n"));
return -1;
}
terms.clear();
Xapian::TermIterator it;
Xapian::docid id = Xapian::docid(doc.xdocid);
string ermsg;
try {
for (it=m_nq->enquire->get_matching_terms_begin(id);
it != m_nq->enquire->get_matching_terms_end(id); it++) {
terms.push_back(*it);
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("getQueryTerms: xapian error: %s\n", ermsg.c_str()));
return false;
}
return true;
}
// Mset size
static const int qquantum = 30;
int Query::getResCnt()
{
if (ISNULL(m_nq) || !m_nq->enquire) {
LOGERR(("Query::getResCnt: no query opened\n"));
return -1;
}
string ermsg;
if (m_nq->mset.size() <= 0) {
try {
m_nq->mset = m_nq->enquire->get_mset(0, qquantum,
0, m_nq->decider);
} catch (const Xapian::DatabaseModifiedError &error) {
m_db->m_ndb->db.reopen();
m_nq->mset = m_nq->enquire->get_mset(0, qquantum,
0, m_nq->decider);
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("enquire->get_mset: exception: %s\n", ermsg.c_str()));
return -1;
}
}
int ret = -1;
try {
ret = m_nq->mset.get_matches_lower_bound();
} catch (...) {}
return ret;
}
// Get document at rank i in query (i is the index in the whole result
// set, as in the enquire class. We check if the current mset has the
// doc, else ask for an other one. We use msets of 10 documents. Don't
// know if the whole thing makes sense at all but it seems to work.
//
// If there is a postquery filter (ie: file names), we have to
// maintain a correspondance from the sequential external index
// sequence to the internal Xapian hole-y one (the holes being the documents
// that dont match the filter).
bool Query::getDoc(int exti, Doc &doc)
{
LOGDEB1(("Query::getDoc: exti %d\n", exti));
if (ISNULL(m_nq) || !m_nq->enquire) {
LOGERR(("Query::getDoc: no query opened\n"));
return false;
}
int xapi;
if (m_nq->postfilter) {
// There is a postquery filter, does this fall in already known area ?
if (exti >= (int)m_nq->m_dbindices.size()) {
// Have to fetch xapian docs and filter until we get
// enough or fail
m_nq->m_dbindices.reserve(exti+1);
// First xapian doc we fetch is the one after last stored
int first = m_nq->m_dbindices.size() > 0 ?
m_nq->m_dbindices.back() + 1 : 0;
// Loop until we get enough docs
while (exti >= (int)m_nq->m_dbindices.size()) {
LOGDEB(("Query::getDoc: fetching %d starting at %d\n",
qquantum, first));
try {
m_nq->mset = m_nq->enquire->get_mset(first, qquantum);
} catch (const Xapian::DatabaseModifiedError &error) {
m_db->m_ndb->db.reopen();
m_nq->mset = m_nq->enquire->get_mset(first, qquantum);
} catch (const Xapian::Error & error) {
LOGERR(("enquire->get_mset: exception: %s\n",
error.get_msg().c_str()));
abort();
}
if (m_nq->mset.empty()) {
LOGDEB(("Query::getDoc: got empty mset\n"));
return false;
}
first = m_nq->mset.get_firstitem();
for (unsigned int i = 0; i < m_nq->mset.size() ; i++) {
LOGDEB(("Query::getDoc: [%d]\n", i));
Xapian::Document xdoc = m_nq->mset[i].get_document();
if ((*m_nq->postfilter)(xdoc)) {
m_nq->m_dbindices.push_back(first + i);
}
}
first = first + m_nq->mset.size();
}
}
xapi = m_nq->m_dbindices[exti];
} else {
xapi = exti;
}
// From there on, we work with a xapian enquire item number. Fetch it
int first = m_nq->mset.get_firstitem();
int last = first + m_nq->mset.size() -1;
if (!(xapi >= first && xapi <= last)) {
LOGDEB(("Fetching for first %d, count %d\n", xapi, qquantum));
try {
m_nq->mset = m_nq->enquire->get_mset(xapi, qquantum,
0, m_nq->decider);
} catch (const Xapian::DatabaseModifiedError &error) {
m_db->m_ndb->db.reopen();
m_nq->mset = m_nq->enquire->get_mset(xapi, qquantum,
0, m_nq->decider);
} catch (const Xapian::Error & error) {
LOGERR(("enquire->get_mset: exception: %s\n",
error.get_msg().c_str()));
abort();
}
if (m_nq->mset.empty())
return false;
first = m_nq->mset.get_firstitem();
last = first + m_nq->mset.size() -1;
}
LOGDEB1(("Query::getDoc: Qry [%s] win [%d-%d] Estimated results: %d",
m_nq->query.get_description().c_str(),
first, last,
m_nq->mset.get_matches_lower_bound()));
Xapian::Document xdoc = m_nq->mset[xapi-first].get_document();
Xapian::docid docid = *(m_nq->mset[xapi-first]);
int pc = m_nq->mset.convert_to_percent(m_nq->mset[xapi-first]);
// Parse xapian document's data and populate doc fields
string data = xdoc.get_data();
return m_db->m_ndb->dbDataToRclDoc(docid, data, doc, pc);
}
list<string> Query::expand(const Doc &doc)
{
list<string> res;
if (ISNULL(m_nq) || !m_nq->enquire) {
LOGERR(("Query::expand: no query opened\n"));
return res;
}
string ermsg;
for (int tries = 0; tries < 2; tries++) {
try {
Xapian::RSet rset;
rset.add_document(Xapian::docid(doc.xdocid));
// We don't exclude the original query terms.
Xapian::ESet eset = m_nq->enquire->get_eset(20, rset, false);
LOGDEB(("ESet terms:\n"));
// We filter out the special terms
for (Xapian::ESetIterator it = eset.begin();
it != eset.end(); it++) {
LOGDEB((" [%s]\n", (*it).c_str()));
if ((*it).empty() || ((*it).at(0)>='A' && (*it).at(0)<='Z'))
continue;
res.push_back(*it);
if (res.size() >= 10)
break;
}
} catch (const Xapian::DatabaseModifiedError &error) {
continue;
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("Query::expand: xapian error %s\n", ermsg.c_str()));
res.clear();
}
break;
}
return res;
}
}