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/* Copyright (C) 2011 J.F.Dockes
* This program 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 of the License, or
* (at your option) any later version.
*
* This program 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 this program; if not, write to the
* Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef _TERMPROC_H_INCLUDED_
#define _TERMPROC_H_INCLUDED_
#include <vector>
#include <string>
#include "textsplit.h"
#include "stoplist.h"
#include "smallut.h"
namespace Rcl {
/**
* Termproc objects take term tokens as input and do something
* with them: transform to lowercase, filter out stop words, generate n-grams,
* finally index or generate search clauses, etc. They are chained and can
* be arranged to form different pipelines depending on the desired processing
* steps: for example, optional stoplist or commongram processing.
*
* Shared processing steps are defined in this file. The first and last steps
* are usually defined in the specific module.
* - The front TermProc is typically chained from a TextSplit object
* which generates the original terms, and calls takeword() from its
* own takeword() method.
* - The last TermProc does something with the finalized terms, e.g. adds
* them to the index.
*/
/**
* The base class takes care of chaining: all derived classes call its
* takeword() and flush() methods to ensure that terms go through the pipe.
*/
class TermProc {
public:
TermProc(TermProc* next) : m_next(next) {}
virtual ~TermProc() {}
virtual bool takeword(const string &term, int pos, int bs, int be)
{
if (m_next)
return m_next->takeword(term, pos, bs, be);
else
return true;
}
// newpage() is like takeword(), but for page breaks.
virtual void newpage(int pos)
{
if (m_next)
m_next->newpage(pos);
}
virtual bool flush()
{
if (m_next)
return m_next->flush();
else
return true;
}
private:
TermProc *m_next;
/* Copyconst and assignment private and forbidden */
TermProc(const TermProc &) {}
TermProc& operator=(const TermProc &) {
return *this;
};
};
/**
* Helper specialized TextSplit class, feeds the pipeline:
* - The takeword() method calls a TermProc->takeword().
* - The text_to_words() method also takes care of flushing.
* Both methods can be further specialized by the user (they should then call
* the base methods when they've done the local processing).
*/
class TextSplitP : public TextSplit {
public:
TextSplitP(TermProc *prc, Flags flags = Flags(TXTS_NONE))
: TextSplit(flags), m_prc(prc) {}
virtual bool text_to_words(const string &in) {
bool ret = TextSplit::text_to_words(in);
if (m_prc && !m_prc->flush())
return false;
return ret;
}
virtual bool takeword(const string& term, int pos, int bs, int be) {
if (m_prc)
return m_prc->takeword(term, pos, bs, be);
else
return true;
}
virtual void newpage(int pos) {
if (m_prc)
return m_prc->newpage(pos);
}
private:
TermProc *m_prc;
};
/** Unaccent and lowercase term. If the index is
* not case/diac-sensitive, this is usually the first step in the pipeline
*/
class TermProcPrep : public TermProc {
public:
TermProcPrep(TermProc *nxt)
: TermProc(nxt), m_totalterms(0), m_unacerrors(0)
{
}
virtual bool takeword(const string& itrm, int pos, int bs, int be)
{
m_totalterms++;
string otrm;
if (!unacmaybefold(itrm, otrm, "UTF-8", UNACOP_UNACFOLD)) {
LOGDEB(("splitter::takeword: unac [%s] failed\n", itrm.c_str()));
m_unacerrors++;
// We don't generate a fatal error because of a bad term,
// but one has to put the limit somewhere
if (m_unacerrors > 500 &&
(double(m_totalterms) / double(m_unacerrors)) < 2.0) {
// More than 1 error for every other term
LOGERR(("splitter::takeword: too many unac errors %d/%d\n",
m_unacerrors, m_totalterms));
return false;
}
return true;
}
if (otrm.empty()) {
// It may happen in some weird cases that the output from
// unac is empty (if the word actually consisted entirely
// of diacritics ...) The consequence is that a phrase
// search won't work without addional slack.
return true;
}
// It may also occur that unac introduces spaces in the string
// (when removing isolated accents, may happen for Greek
// for example). This is a pathological situation. We
// index all the resulting terms at the same pos because
// the surrounding code is not designed to handle a pos
// change in here. This means that phrase searches and
// snippets will be wrong, but at least searching for the
// terms will work.
bool hasspace = false;
for (string::const_iterator it = otrm.begin();it < otrm.end();it++) {
if (*it == ' ') {
hasspace=true;
break;
}
}
if (hasspace) {
std::vector<std::string> terms;
stringToTokens(otrm, terms, " ", true);
for (std::vector<std::string>::const_iterator it = terms.begin();
it < terms.end(); it++) {
if (!TermProc::takeword(*it, pos, bs, be)) {
return false;
}
}
return true;
} else {
return TermProc::takeword(otrm, pos, bs, be);
}
}
virtual bool flush()
{
m_totalterms = m_unacerrors = 0;
return TermProc::flush();
}
private:
int m_totalterms;
int m_unacerrors;
};
/** Compare to stop words list and discard if match found */
class TermProcStop : public TermProc {
public:
TermProcStop(TermProc *nxt, const Rcl::StopList& stops)
: TermProc(nxt), m_stops(stops)
{
}
virtual bool takeword(const string& term, int pos, int bs, int be)
{
if (m_stops.isStop(term)) {
return true;
}
return TermProc::takeword(term, pos, bs, be);
}
private:
const Rcl::StopList& m_stops;
};
/** Handle common-gram generation: combine frequent terms with neighbours to
* shorten the positions lists for phrase searches.
* NOTE: This does not currently work because of bad interaction with the
* spans (ie john@domain.com) generation in textsplit. Not used, kept for
* testing only
*/
class TermProcCommongrams : public TermProc {
public:
TermProcCommongrams(TermProc *nxt, const Rcl::StopList& stops)
: TermProc(nxt), m_stops(stops), m_onlygrams(false)
{
}
virtual bool takeword(const string& term, int pos, int bs, int be)
{
LOGDEB1(("TermProcCom::takeword: pos %d %d %d [%s]\n",
pos, bs, be, term.c_str()));
bool isstop = m_stops.isStop(term);
bool twogramemit = false;
if (!m_prevterm.empty() && (m_prevstop || isstop)) {
// create 2-gram. space unnecessary but improves
// the readability of queries
string twogram;
twogram.swap(m_prevterm);
twogram.append(1, ' ');
twogram += term;
// When emitting a complex term we set the bps to 0. This may
// be used by our clients
if (!TermProc::takeword(twogram, m_prevpos, 0, 0))
return false;
twogramemit = true;
#if 0
if (m_stops.isStop(twogram)) {
firstword = twogram;
isstop = false;
}
#endif
}
m_prevterm = term;
m_prevstop = isstop;
m_prevpos = pos;
m_prevsent = false;
m_prevbs = bs;
m_prevbe = be;
// If flags allow, emit the bare term at the current pos.
if (!m_onlygrams || (!isstop && !twogramemit)) {
if (!TermProc::takeword(term, pos, bs, be))
return false;
m_prevsent = true;
}
return true;
}
virtual bool flush()
{
if (!m_prevsent && !m_prevterm.empty())
if (!TermProc::takeword(m_prevterm, m_prevpos, m_prevbs, m_prevbe))
return false;
m_prevterm.clear();
m_prevsent = true;
return TermProc::flush();
}
void onlygrams(bool on)
{
m_onlygrams = on;
}
private:
// The stoplist we're using
const Rcl::StopList& m_stops;
// Remembered data for the last processed term
string m_prevterm;
bool m_prevstop;
int m_prevpos;
int m_prevbs;
int m_prevbe;
bool m_prevsent;
// If this is set, we only emit longest grams
bool m_onlygrams;
};
} // End namespace Rcl
#endif /* _TERMPROC_H_INCLUDED_ */