Open Source Projects Europe

/*
 *   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 _SEARCHDATA_H_INCLUDED_
#define _SEARCHDATA_H_INCLUDED_
/* @(#$Id: searchdata.h,v 1.21 2008-10-14 07:50:13 dockes Exp $  (C) 2004 J.F.Dockes */

/** 
 * Structures to hold data coming almost directly from the gui
 * and handle its translation to Xapian queries.
 * This is not generic code, it reflects the choices made for the user 
 * interface, and it also knows some specific of recoll's usage of Xapian 
 * (ie: term prefixes)
 */
#include <string>
#include <vector>

#include "rcldb.h"
#include "refcntr.h"

#ifndef NO_NAMESPACES
using std::vector;
using std::string;
namespace Rcl {
#endif // NO_NAMESPACES

/** Search clause types */
enum SClType {
    SCLT_AND, 
    SCLT_OR, SCLT_EXCL, SCLT_FILENAME, SCLT_PHRASE, SCLT_NEAR,
    SCLT_SUB
};

class SearchDataClause;

/** 
  Data structure representing a Recoll user query, for translation
  into a Xapian query tree. This could probably better called a 'question'.

  This is a list of search clauses combined through either OR or AND.

  Clauses either reflect user entry in a query field: some text, a
  clause type (AND/OR/NEAR etc.), possibly a distance, or points to
  another SearchData representing a subquery.

  The content of each clause when added may not be fully parsed yet
  (may come directly from a gui field). It will be parsed and may be
  translated to several queries in the Xapian sense, for exemple
  several terms and phrases as would result from 
  ["this is a phrase"  term1 term2] . 

  This is why the clauses also have an AND/OR/... type. 

  A phrase clause could be added either explicitely or using double quotes:
  {SCLT_PHRASE, [this is a phrase]} or as {SCLT_XXX, ["this is a phrase"]}

 */
class SearchData {
public:
    SearchData(SClType tp) : m_tp(tp), m_haveWildCards(false) {}
    ~SearchData() {erase();}

    /** Make pristine */
    void erase();

    /** Is there anything but a file name search in here ? */
    bool fileNameOnly();

    /** Do we have wildcards anywhere apart from filename searches ? */
    bool haveWildCards() {return m_haveWildCards;}

    /** Translate to Xapian query. rcldb knows about the void*  */
    bool toNativeQuery(Rcl::Db &db, void *);

    /** We become the owner of cl and will delete it */
    bool addClause(SearchDataClause *cl);

    /** Retrieve error description */
    string getReason() {return m_reason;}

    /** Get terms and phrase/near groups. Used in the GUI for highlighting 
     * The groups and gslks vectors are parallel and hold the phrases/near
     * string groups and their associated slacks (distance in excess of group
     * size)
     */
    bool getTerms(vector<string>& terms, 
		  vector<vector<string> >& groups, vector<int>& gslks) const;
    /** 
     * Get/set the description field which is retrieved from xapian after
     * initializing the query. It is stored here for usage in the GUI.
     */
    string getDescription() {return m_description;}
    void setDescription(const string& d) {m_description = d;}
    /** Get/set top subdirectory for filtering results */
    string getTopdir() {return m_topdir;}
    void setTopdir(const string& t) {m_topdir = t;}
    /** Add file type for filtering results */
    void addFiletype(const string& ft) {m_filetypes.push_back(ft);}
    void setStemlang(const string& lang = "english") {m_stemlang = lang;}
private:
    SClType                   m_tp; // Only SCLT_AND or SCLT_OR here
    vector<SearchDataClause*> m_query;
    vector<string>            m_filetypes; // Restrict to filetypes if set.
    string                    m_topdir; // Restrict to subtree.
    // Printable expanded version of the complete query, retrieved/set
    // from rcldb after the Xapian::setQuery() call
    string m_description; 
    string m_reason;
    bool   m_haveWildCards;
    string m_stemlang;
    /* Copyconst and assignment private and forbidden */
    SearchData(const SearchData &) {}
    SearchData& operator=(const SearchData&) {return *this;};
};

class SearchDataClause {
public:
    enum Modifier {SDCM_NONE=0, SDCM_NOSTEMMING=1};

    SearchDataClause(SClType tp) 
	: m_tp(tp), m_parentSearch(0), m_haveWildCards(0), 
	  m_modifiers(SDCM_NONE)
    {}
    virtual ~SearchDataClause() {}
    virtual bool toNativeQuery(Rcl::Db &db, void *, const string&) = 0;
    bool isFileName() const {return m_tp == SCLT_FILENAME ? true: false;}
    virtual string getReason() const {return m_reason;}
    virtual bool getTerms(vector<string>&, vector<vector<string> >&,
			  vector<int>&) const = 0;
    //    {return true;}
    SClType getTp() {return m_tp;}
    void setParent(SearchData *p) {m_parentSearch = p;}
    virtual void setModifiers(Modifier mod) {m_modifiers = mod;}

    friend class SearchData;

protected:
    string      m_reason;
    SClType     m_tp;
    SearchData *m_parentSearch;
    bool        m_haveWildCards;
    Modifier    m_modifiers;
private:
    SearchDataClause(const SearchDataClause&) {}
    SearchDataClause& operator=(const SearchDataClause&) {
	return *this;
    }
};
    
/**
 * "Simple" data clause with user-entered query text. This can include 
 * multiple phrases and words, but no specified distance.
 */
class SearchDataClauseSimple : public SearchDataClause {
public:
    SearchDataClauseSimple(SClType tp, const string& txt, 
			   const string& fld = string())
	: SearchDataClause(tp), m_text(txt), m_field(fld), m_slack(0) {
	m_haveWildCards = (txt.find_first_of("*?[") != string::npos);
    }

    virtual ~SearchDataClauseSimple() {}

    /** Translate to Xapian query */
    virtual bool toNativeQuery(Rcl::Db &db, void *, const string& stemlang);

    /** Retrieve query terms and term groups. This is used for highlighting */
    virtual bool getTerms(vector<string>& terms, /* Single terms */
			  vector<vector<string> >& groups, /* Prox grps */
			  vector<int>& gslks) const        /* Prox slacks */
    {
	terms.insert(terms.end(), m_terms.begin(), m_terms.end());
	groups.insert(groups.end(), m_groups.begin(), m_groups.end());
	gslks.insert(gslks.end(), m_groups.size(), m_slack);
	return true;
    }

protected:
    string  m_text;  // Raw user entry text.
    string  m_field; // Field specification if any
    // Single terms and phrases resulting from breaking up m_text;
    // valid after toNativeQuery() call
    vector<string>          m_terms;
    vector<vector<string> > m_groups; 
    // Declare m_slack here. Always 0, but allows getTerms to work for
    // SearchDataClauseDist
    int m_slack;
};

/** Filename search clause. This is special because term expansion is only
 * performed against the XSFN terms (it's performed against the main index
 * for all other fields). Else we could just use a "filename:" field
 * This doesn't really make sense (either). I think we could either expand
 * filenames against all terms and then select the XSFN ones, or always perform
 * expansion only against the field's terms ? Anyway this doesn't hurt
 * much either. 
 *
 * There is a big advantage though in expanding only against the
 * field, especially for file names, because this makes searches for
 * "*xx" much faster (no need to scan the whole main index).
 */
class SearchDataClauseFilename : public SearchDataClauseSimple {
public:
    SearchDataClauseFilename(const string& txt)
	: SearchDataClauseSimple(SCLT_FILENAME, txt) {
	// File name searches don't count when looking for wild cards.
	m_haveWildCards = false;
    }
    virtual ~SearchDataClauseFilename() {}
    virtual bool toNativeQuery(Rcl::Db &db, void *, const string& stemlang);
};

/** 
 * A clause coming from a NEAR or PHRASE entry field. There is only one 
 * string group, and a specified distance, which applies to it.
 */
class SearchDataClauseDist : public SearchDataClauseSimple {
public:
    SearchDataClauseDist(SClType tp, const string& txt, int slack, 
			 const string& fld = string())
	: SearchDataClauseSimple(tp, txt, fld) {m_slack = slack;}
    virtual ~SearchDataClauseDist() {}

    virtual bool toNativeQuery(Rcl::Db &db, void *, const string& stemlang);

    // m_slack is declared in SearchDataClauseSimple
};

/** Subquery */
class SearchDataClauseSub : public SearchDataClause {
public:
    // We take charge of the SearchData * and will delete it.
    SearchDataClauseSub(SClType tp, RefCntr<SearchData> sub) 
	: SearchDataClause(tp), m_sub(sub) {}
    virtual ~SearchDataClauseSub() {}
    virtual bool toNativeQuery(Rcl::Db &db, void *, const string& stemlang);
    virtual bool getTerms(vector<string>&, vector<vector<string> >&,
			  vector<int>&) const;
protected:
    RefCntr<SearchData> m_sub;
};

} // Namespace Rcl
#endif /* _SEARCHDATA_H_INCLUDED_ */