[lyx.git] / src / lyxfind.cpp

/**
 * \file lyxfind.cpp
 * This file is part of LyX, the document processor.
 * License details can be found in the file COPYING.
 *
 * \author Lars Gullik Bjønnes
 * \author John Levon
 * \author Jürgen Vigna
 * \author Alfredo Braunstein
 * \author Tommaso Cucinotta
 *
 * Full author contact details are available in file CREDITS.
 */

#include <config.h>

#include "lyxfind.h"

#include "Buffer.h"
#include "buffer_funcs.h"
#include "BufferList.h"
#include "BufferParams.h"
#include "BufferView.h"
#include "Changes.h"
#include "Cursor.h"
#include "CutAndPaste.h"
#include "FuncRequest.h"
#include "LyX.h"
#include "output_latex.h"
#include "OutputParams.h"
#include "Paragraph.h"
#include "ParIterator.h"
#include "TexRow.h"
#include "Text.h"

#include "frontends/Application.h"
#include "frontends/alert.h"

#include "mathed/InsetMath.h"
#include "mathed/InsetMathGrid.h"
#include "mathed/InsetMathHull.h"
#include "mathed/MathData.h"
#include "mathed/MathStream.h"
#include "mathed/MathSupport.h"

#include "support/convert.h"
#include "support/debug.h"
#include "support/docstream.h"
#include "support/FileName.h"
#include "support/gettext.h"
#include "support/lassert.h"
#include "support/lstrings.h"

#include "support/regex.h"
#include <map>

using namespace std;
using namespace lyx::support;

namespace lyx {

namespace {

bool parse_bool(docstring & howto)
{
        if (howto.empty())
                return false;
        docstring var;
        howto = split(howto, var, ' ');
        return var == "1";
}


class MatchString : public binary_function<Paragraph, pos_type, int>
{
public:
        MatchString(docstring const & str, bool cs, bool mw)
                : str(str), case_sens(cs), whole_words(mw)
        {}

        // returns true if the specified string is at the specified position
        // del specifies whether deleted strings in ct mode will be considered
        int operator()(Paragraph const & par, pos_type pos, bool del = true) const
        {
                return par.find(str, case_sens, whole_words, pos, del);
        }

private:
        // search string
        docstring str;
        // case sensitive
        bool case_sens;
        // match whole words only
        bool whole_words;
};


int findForward(DocIterator & cur, MatchString const & match,
                bool find_del = true)
{
        for (; cur; cur.forwardChar())
                if (cur.inTexted()) {
                        int len = match(cur.paragraph(), cur.pos(), find_del);
                        if (len > 0)
                                return len;
                }
        return 0;
}


int findBackwards(DocIterator & cur, MatchString const & match,
                  bool find_del = true)
{
        while (cur) {
                cur.backwardChar();
                if (cur.inTexted()) {
                        int len = match(cur.paragraph(), cur.pos(), find_del);
                        if (len > 0)
                                return len;
                }
        }
        return 0;
}


bool searchAllowed(docstring const & str)
{
        if (str.empty()) {
                frontend::Alert::error(_("Search error"), _("Search string is empty"));
                return false;
        }
        return true;
}


bool findOne(BufferView * bv, docstring const & searchstr,
             bool case_sens, bool whole, bool forward,
             bool find_del = true, bool check_wrap = false)
{
        if (!searchAllowed(searchstr))
                return false;

        DocIterator cur = forward
                ? bv->cursor().selectionEnd()
                : bv->cursor().selectionBegin();

        MatchString const match(searchstr, case_sens, whole);

        int match_len = forward
                ? findForward(cur, match, find_del)
                : findBackwards(cur, match, find_del);

        if (match_len > 0)
                bv->putSelectionAt(cur, match_len, !forward);
        else if (check_wrap) {
                DocIterator cur_orig(bv->cursor());
                docstring q;
                if (forward)
                        q = _("End of file reached while searching forward.\n"
                          "Continue searching from the beginning?");
                else
                        q = _("Beginning of file reached while searching backward.\n"
                          "Continue searching from the end?");
                int wrap_answer = frontend::Alert::prompt(_("Wrap search?"),
                        q, 0, 1, _("&Yes"), _("&No"));
                if (wrap_answer == 0) {
                        if (forward) {
                                bv->cursor().clear();
                                bv->cursor().push_back(CursorSlice(bv->buffer().inset()));
                        } else {
                                bv->cursor().setCursor(doc_iterator_end(&bv->buffer()));
                                bv->cursor().backwardPos();
                        }
                        bv->clearSelection();
                        if (findOne(bv, searchstr, case_sens, whole, forward, find_del, false))
                                return true;
                }
                bv->cursor().setCursor(cur_orig);
                return false;
        }

        return match_len > 0;
}


int replaceAll(BufferView * bv,
               docstring const & searchstr, docstring const & replacestr,
               bool case_sens, bool whole)
{
        Buffer & buf = bv->buffer();

        if (!searchAllowed(searchstr) || buf.isReadonly())
                return 0;

        DocIterator cur_orig(bv->cursor());

        MatchString const match(searchstr, case_sens, whole);
        int num = 0;

        int const rsize = replacestr.size();
        int const ssize = searchstr.size();

        Cursor cur(*bv);
        cur.setCursor(doc_iterator_begin(&buf));
        int match_len = findForward(cur, match, false);
        while (match_len > 0) {
                // Backup current cursor position and font.
                pos_type const pos = cur.pos();
                Font const font = cur.paragraph().getFontSettings(buf.params(), pos);
                cur.recordUndo();
                int striked = ssize -
                        cur.paragraph().eraseChars(pos, pos + match_len,
                                                   buf.params().track_changes);
                cur.paragraph().insert(pos, replacestr, font,
                                       Change(buf.params().track_changes
                                              ? Change::INSERTED
                                              : Change::UNCHANGED));
                for (int i = 0; i < rsize + striked; ++i)
                        cur.forwardChar();
                ++num;
                match_len = findForward(cur, match, false);
        }

        bv->putSelectionAt(doc_iterator_begin(&buf), 0, false);

        cur_orig.fixIfBroken();
        bv->setCursor(cur_orig);

        return num;
}


// the idea here is that we are going to replace the string that
// is selected IF it is the search string.
// if there is a selection, but it is not the search string, then
// we basically ignore it. (FIXME We ought to replace only within
// the selection.)
// if there is no selection, then:
//  (i) if some search string has been provided, then we find it.
//      (think of how the dialog works when you hit "replace" the
//      first time.)
// (ii) if no search string has been provided, then we treat the
//      word the cursor is in as the search string. (why? i have no
//      idea.) but this only works in text?
//
// returns the number of replacements made (one, if any) and
// whether anything at all was done.
pair<bool, int> replaceOne(BufferView * bv, docstring searchstr,
                           docstring const & replacestr, bool case_sens,
                           bool whole, bool forward, bool findnext)
{
        Cursor & cur = bv->cursor();
        bool found = false;
        if (!cur.selection()) {
                // no selection, non-empty search string: find it
                if (!searchstr.empty()) {
                        found = findOne(bv, searchstr, case_sens, whole, forward, true, findnext);
                        return make_pair(found, 0);
                }
                // empty search string
                if (!cur.inTexted())
                        // bail in math
                        return make_pair(false, 0);
                // select current word and treat it as the search string.
                // This causes a minor bug as undo will restore this selection,
                // which the user did not create (#8986).
                cur.innerText()->selectWord(cur, WHOLE_WORD);
                searchstr = cur.selectionAsString(false);
        }

        // if we still don't have a search string, report the error
        // and abort.
        if (!searchAllowed(searchstr))
                return make_pair(false, 0);

        bool have_selection = cur.selection();
        docstring const selected = cur.selectionAsString(false);
        bool match =
                case_sens
                ? searchstr == selected
                : compare_no_case(searchstr, selected) == 0;

        // no selection or current selection is not search word:
        // just find the search word
        if (!have_selection || !match) {
                found = findOne(bv, searchstr, case_sens, whole, forward, true, findnext);
                return make_pair(found, 0);
        }

        // we're now actually ready to replace. if the buffer is
        // read-only, we can't, though.
        if (bv->buffer().isReadonly())
                return make_pair(false, 0);

        cap::replaceSelectionWithString(cur, replacestr);
        if (forward) {
                cur.pos() += replacestr.length();
                LASSERT(cur.pos() <= cur.lastpos(),
                        cur.pos() = cur.lastpos());
        }
        if (findnext)
                findOne(bv, searchstr, case_sens, whole, forward, false, findnext);

        return make_pair(true, 1);
}

} // namespace


docstring const find2string(docstring const & search,
                            bool casesensitive, bool matchword, bool forward)
{
        odocstringstream ss;
        ss << search << '\n'
           << int(casesensitive) << ' '
           << int(matchword) << ' '
           << int(forward);
        return ss.str();
}


docstring const replace2string(docstring const & replace,
                               docstring const & search,
                               bool casesensitive, bool matchword,
                               bool all, bool forward, bool findnext)
{
        odocstringstream ss;
        ss << replace << '\n'
           << search << '\n'
           << int(casesensitive) << ' '
           << int(matchword) << ' '
           << int(all) << ' '
           << int(forward) << ' '
           << int(findnext);
        return ss.str();
}


bool lyxfind(BufferView * bv, FuncRequest const & ev)
{
        if (!bv || ev.action() != LFUN_WORD_FIND)
                return false;

        //lyxerr << "find called, cmd: " << ev << endl;

        // data is of the form
        // "<search>
        //  <casesensitive> <matchword> <forward>"
        docstring search;
        docstring howto = split(ev.argument(), search, '\n');

        bool casesensitive = parse_bool(howto);
        bool matchword     = parse_bool(howto);
        bool forward       = parse_bool(howto);

        return findOne(bv, search, casesensitive, matchword, forward, true, true);
}


bool lyxreplace(BufferView * bv,
                FuncRequest const & ev, bool has_deleted)
{
        if (!bv || ev.action() != LFUN_WORD_REPLACE)
                return false;

        // data is of the form
        // "<search>
        //  <replace>
        //  <casesensitive> <matchword> <all> <forward> <findnext>"
        docstring search;
        docstring rplc;
        docstring howto = split(ev.argument(), rplc, '\n');
        howto = split(howto, search, '\n');

        bool casesensitive = parse_bool(howto);
        bool matchword     = parse_bool(howto);
        bool all           = parse_bool(howto);
        bool forward       = parse_bool(howto);
        bool findnext      = howto.empty() ? true : parse_bool(howto);

        bool update = false;

        if (!has_deleted) {
                int replace_count = 0;
                if (all) {
                        replace_count = replaceAll(bv, search, rplc, casesensitive, matchword);
                        update = replace_count > 0;
                } else {
                        pair<bool, int> rv =
                                replaceOne(bv, search, rplc, casesensitive, matchword, forward, findnext);
                        update = rv.first;
                        replace_count = rv.second;
                }

                Buffer const & buf = bv->buffer();
                if (!update) {
                        // emit message signal.
                        buf.message(_("String not found."));
                } else {
                        if (replace_count == 0) {
                                buf.message(_("String found."));
                        } else if (replace_count == 1) {
                                buf.message(_("String has been replaced."));
                        } else {
                                docstring const str =
                                        bformat(_("%1$d strings have been replaced."), replace_count);
                                buf.message(str);
                        }
                }
        } else if (findnext) {
                // if we have deleted characters, we do not replace at all, but
                // rather search for the next occurence
                if (findOne(bv, search, casesensitive, matchword, forward, true, findnext))
                        update = true;
                else
                        bv->message(_("String not found."));
        }
        return update;
}


bool findNextChange(BufferView * bv, Cursor & cur, bool const check_wrap)
{
        for (; cur; cur.forwardPos())
                if (cur.inTexted() && cur.paragraph().isChanged(cur.pos()))
                        return true;

        if (check_wrap) {
                DocIterator cur_orig(bv->cursor());
                docstring q = _("End of file reached while searching forward.\n"
                          "Continue searching from the beginning?");
                int wrap_answer = frontend::Alert::prompt(_("Wrap search?"),
                        q, 0, 1, _("&Yes"), _("&No"));
                if (wrap_answer == 0) {
                        bv->cursor().clear();
                        bv->cursor().push_back(CursorSlice(bv->buffer().inset()));
                        bv->clearSelection();
                        cur.setCursor(bv->cursor().selectionBegin());
                        if (findNextChange(bv, cur, false))
                                return true;
                }
                bv->cursor().setCursor(cur_orig);
        }

        return false;
}


bool findPreviousChange(BufferView * bv, Cursor & cur, bool const check_wrap)
{
        for (cur.backwardPos(); cur; cur.backwardPos()) {
                if (cur.inTexted() && cur.paragraph().isChanged(cur.pos()))
                        return true;
        }

        if (check_wrap) {
                DocIterator cur_orig(bv->cursor());
                docstring q = _("Beginning of file reached while searching backward.\n"
                          "Continue searching from the end?");
                int wrap_answer = frontend::Alert::prompt(_("Wrap search?"),
                        q, 0, 1, _("&Yes"), _("&No"));
                if (wrap_answer == 0) {
                        bv->cursor().setCursor(doc_iterator_end(&bv->buffer()));
                        bv->cursor().backwardPos();
                        bv->clearSelection();
                        cur.setCursor(bv->cursor().selectionBegin());
                        if (findPreviousChange(bv, cur, false))
                                return true;
                }
                bv->cursor().setCursor(cur_orig);
        }

        return false;
}


bool selectChange(Cursor & cur, bool forward)
{
        if (!cur.inTexted() || !cur.paragraph().isChanged(cur.pos()))
                return false;
        Change ch = cur.paragraph().lookupChange(cur.pos());

        CursorSlice tip1 = cur.top();
        for (; tip1.pit() < tip1.lastpit() || tip1.pos() < tip1.lastpos(); tip1.forwardPos()) {
                Change ch2 = tip1.paragraph().lookupChange(tip1.pos());
                if (!ch2.isSimilarTo(ch))
                        break;
        }
        CursorSlice tip2 = cur.top();
        for (; tip2.pit() > 0 || tip2.pos() > 0;) {
                tip2.backwardPos();
                Change ch2 = tip2.paragraph().lookupChange(tip2.pos());
                if (!ch2.isSimilarTo(ch)) {
                        // take a step forward to correctly set the selection
                        tip2.forwardPos();
                        break;
                }
        }
        if (forward)
                swap(tip1, tip2);
        cur.top() = tip1;
        cur.bv().mouseSetCursor(cur, false);
        cur.top() = tip2;
        cur.bv().mouseSetCursor(cur, true);
        return true;
}


namespace {


bool findChange(BufferView * bv, bool forward)
{
        Cursor cur(*bv);
        cur.setCursor(forward ? bv->cursor().selectionEnd()
                      : bv->cursor().selectionBegin());
        forward ? findNextChange(bv, cur, true) : findPreviousChange(bv, cur, true);
        return selectChange(cur, forward);
}

} // namespace

bool findNextChange(BufferView * bv)
{
        return findChange(bv, true);
}


bool findPreviousChange(BufferView * bv)
{
        return findChange(bv, false);
}



namespace {

typedef vector<pair<string, string> > Escapes;

/// A map of symbols and their escaped equivalent needed within a regex.
/// @note Beware of order
Escapes const & get_regexp_escapes()
{
        typedef std::pair<std::string, std::string> P;

        static Escapes escape_map;
        if (escape_map.empty()) {
                escape_map.push_back(P("$", "_x_$"));
                escape_map.push_back(P("{", "_x_{"));
                escape_map.push_back(P("}", "_x_}"));
                escape_map.push_back(P("[", "_x_["));
                escape_map.push_back(P("]", "_x_]"));
                escape_map.push_back(P("(", "_x_("));
                escape_map.push_back(P(")", "_x_)"));
                escape_map.push_back(P("+", "_x_+"));
                escape_map.push_back(P("*", "_x_*"));
                escape_map.push_back(P(".", "_x_."));
                escape_map.push_back(P("\\", "(?:\\\\|\\\\backslash)"));
                escape_map.push_back(P("~", "(?:\\\\textasciitilde|\\\\sim)"));
                escape_map.push_back(P("^", "(?:\\^|\\\\textasciicircum\\{\\}|\\\\textasciicircum|\\\\mathcircumflex)"));
                escape_map.push_back(P("_x_", "\\"));
        }
        return escape_map;
}

/// A map of lyx escaped strings and their unescaped equivalent.
Escapes const & get_lyx_unescapes()
{
        typedef std::pair<std::string, std::string> P;

        static Escapes escape_map;
        if (escape_map.empty()) {
                escape_map.push_back(P("\\%", "%"));
                escape_map.push_back(P("\\mathcircumflex ", "^"));
                escape_map.push_back(P("\\mathcircumflex", "^"));
                escape_map.push_back(P("\\backslash ", "\\"));
                escape_map.push_back(P("\\backslash", "\\"));
                escape_map.push_back(P("\\\\{", "_x_<"));
                escape_map.push_back(P("\\\\}", "_x_>"));
                escape_map.push_back(P("\\sim ", "~"));
                escape_map.push_back(P("\\sim", "~"));
        }
        return escape_map;
}

/// A map of escapes turning a regexp matching text to one matching latex.
Escapes const & get_regexp_latex_escapes()
{
        typedef std::pair<std::string, std::string> P;

        static Escapes escape_map;
        if (escape_map.empty()) {
                escape_map.push_back(P("\\\\", "(?:\\\\\\\\|\\\\backslash|\\\\textbackslash\\{\\}|\\\\textbackslash)"));
                escape_map.push_back(P("(<?!\\\\\\\\textbackslash)\\{", "\\\\\\{"));
                escape_map.push_back(P("(<?!\\\\\\\\textbackslash\\\\\\{)\\}", "\\\\\\}"));
                escape_map.push_back(P("\\[", "\\{\\[\\}"));
                escape_map.push_back(P("\\]", "\\{\\]\\}"));
                escape_map.push_back(P("\\^", "(?:\\^|\\\\textasciicircum\\{\\}|\\\\textasciicircum|\\\\mathcircumflex)"));
                escape_map.push_back(P("%", "\\\\\\%"));
        }
        return escape_map;
}

/** @todo Probably the maps need to be migrated to regexps, in order to distinguish if
 ** the found occurrence were escaped.
 **/
string apply_escapes(string s, Escapes const & escape_map)
{
        LYXERR(Debug::FIND, "Escaping: '" << s << "'");
        Escapes::const_iterator it;
        for (it = escape_map.begin(); it != escape_map.end(); ++it) {
//              LYXERR(Debug::FIND, "Escaping " << it->first << " as " << it->second);
                unsigned int pos = 0;
                while (pos < s.length() && (pos = s.find(it->first, pos)) < s.length()) {
                        s.replace(pos, it->first.length(), it->second);
                        LYXERR(Debug::FIND, "After escape: " << s);
                        pos += it->second.length();
//                      LYXERR(Debug::FIND, "pos: " << pos);
                }
        }
        LYXERR(Debug::FIND, "Escaped : '" << s << "'");
        return s;
}


/// Within \regexp{} apply get_lyx_unescapes() only (i.e., preserve regexp semantics of the string),
/// while outside apply get_lyx_unescapes()+get_regexp_escapes().
/// If match_latex is true, then apply regexp_latex_escapes() to \regexp{} contents as well.
string escape_for_regex(string s, bool match_latex)
{
        size_t pos = 0;
        while (pos < s.size()) {
                size_t new_pos = s.find("\\regexp{", pos);
                if (new_pos == string::npos)
                        new_pos = s.size();
                LYXERR(Debug::FIND, "new_pos: " << new_pos);
                string t = apply_escapes(s.substr(pos, new_pos - pos), get_lyx_unescapes());
                LYXERR(Debug::FIND, "t [lyx]: " << t);
                t = apply_escapes(t, get_regexp_escapes());
                LYXERR(Debug::FIND, "t [rxp]: " << t);
                s.replace(pos, new_pos - pos, t);
                new_pos = pos + t.size();
                LYXERR(Debug::FIND, "Regexp after escaping: " << s);
                LYXERR(Debug::FIND, "new_pos: " << new_pos);
                if (new_pos == s.size())
                        break;
                // Might fail if \\endregexp{} is preceeded by unexpected stuff (weird escapes)
                size_t end_pos = s.find("\\endregexp{}}", new_pos + 8);
                LYXERR(Debug::FIND, "end_pos: " << end_pos);
                t = s.substr(new_pos + 8, end_pos - (new_pos + 8));
                LYXERR(Debug::FIND, "t in regexp      : " << t);
                t = apply_escapes(t, get_lyx_unescapes());
                LYXERR(Debug::FIND, "t in regexp [lyx]: " << t);
                if (match_latex) {
                        t = apply_escapes(t, get_regexp_latex_escapes());
                        LYXERR(Debug::FIND, "t in regexp [ltx]: " << t);
                }
                if (end_pos == s.size()) {
                        s.replace(new_pos, end_pos - new_pos, t);
                        LYXERR(Debug::FIND, "Regexp after \\regexp{} removal: " << s);
                        break;
                }
                s.replace(new_pos, end_pos + 13 - new_pos, t);
                LYXERR(Debug::FIND, "Regexp after \\regexp{...\\endregexp{}} removal: " << s);
                pos = new_pos + t.size();
                LYXERR(Debug::FIND, "pos: " << pos);
        }
        return s;
}


/// Wrapper for lyx::regex_replace with simpler interface
bool regex_replace(string const & s, string & t, string const & searchstr,
                   string const & replacestr)
{
        lyx::regex e(searchstr, regex_constants::ECMAScript);
        ostringstream oss;
        ostream_iterator<char, char> it(oss);
        lyx::regex_replace(it, s.begin(), s.end(), e, replacestr);
        // tolerate t and s be references to the same variable
        bool rv = (s != oss.str());
        t = oss.str();
        return rv;
}


/** Checks if supplied string segment is well-formed from the standpoint of matching open-closed braces.
 **
 ** Verify that closed braces exactly match open braces. This avoids that, for example,
 ** \frac{.*}{x} matches \frac{x+\frac{y}{x}}{z} with .* being 'x+\frac{y'.
 **
 ** @param unmatched
 ** Number of open braces that must remain open at the end for the verification to succeed.
 **/
bool braces_match(string::const_iterator const & beg,
                  string::const_iterator const & end,
                  int unmatched = 0)
{
        int open_pars = 0;
        string::const_iterator it = beg;
        LYXERR(Debug::FIND, "Checking " << unmatched << " unmatched braces in '" << string(beg, end) << "'");
        for (; it != end; ++it) {
                // Skip escaped braces in the count
                if (*it == '\\') {
                        ++it;
                        if (it == end)
                                break;
                } else if (*it == '{') {
                        ++open_pars;
                } else if (*it == '}') {
                        if (open_pars == 0) {
                                LYXERR(Debug::FIND, "Found unmatched closed brace");
                                return false;
                        } else
                                --open_pars;
                }
        }
        if (open_pars != unmatched) {
                LYXERR(Debug::FIND, "Found " << open_pars
                       << " instead of " << unmatched
                       << " unmatched open braces at the end of count");
                return false;
        }
        LYXERR(Debug::FIND, "Braces match as expected");
        return true;
}


/** The class performing a match between a position in the document and the FindAdvOptions.
 **/
class MatchStringAdv {
public:
        MatchStringAdv(lyx::Buffer & buf, FindAndReplaceOptions const & opt);

        /** Tests if text starting at the supplied position matches with the one provided to the MatchStringAdv
         ** constructor as opt.search, under the opt.* options settings.
         **
         ** @param at_begin
         **     If set, then match is searched only against beginning of text starting at cur.
         **     If unset, then match is searched anywhere in text starting at cur.
         **
         ** @return
         ** The length of the matching text, or zero if no match was found.
         **/
        int operator()(DocIterator const & cur, int len = -1, bool at_begin = true) const;

public:
        /// buffer
        lyx::Buffer * p_buf;
        /// first buffer on which search was started
        lyx::Buffer * const p_first_buf;
        /// options
        FindAndReplaceOptions const & opt;

private:
        /// Auxiliary find method (does not account for opt.matchword)
        int findAux(DocIterator const & cur, int len = -1, bool at_begin = true) const;

        /** Normalize a stringified or latexified LyX paragraph.
         **
         ** Normalize means:
         ** <ul>
         **   <li>if search is not casesensitive, then lowercase the string;
         **   <li>remove any newline at begin or end of the string;
         **   <li>replace any newline in the middle of the string with a simple space;
         **   <li>remove stale empty styles and environments, like \emph{} and \textbf{}.
         ** </ul>
         **
         ** @todo Normalization should also expand macros, if the corresponding
         ** search option was checked.
         **/
        string normalize(docstring const & s, bool hack_braces) const;
        // normalized string to search
        string par_as_string;
        // regular expression to use for searching
        lyx::regex regexp;
        // same as regexp, but prefixed with a ".*"
        lyx::regex regexp2;
        // leading format material as string
        string lead_as_string;
        // par_as_string after removal of lead_as_string
        string par_as_string_nolead;
        // unmatched open braces in the search string/regexp
        int open_braces;
        // number of (.*?) subexpressions added at end of search regexp for closing
        // environments, math mode, styles, etc...
        int close_wildcards;
        // Are we searching with regular expressions ?
        bool use_regexp;
};


static docstring buffer_to_latex(Buffer & buffer)
{
        OutputParams runparams(&buffer.params().encoding());
        odocstringstream ods;
        otexstream os(ods);
        runparams.nice = true;
        runparams.flavor = OutputParams::LATEX;
        runparams.linelen = 80; //lyxrc.plaintext_linelen;
        // No side effect of file copying and image conversion
        runparams.dryrun = true;
        runparams.for_search = true;
        pit_type const endpit = buffer.paragraphs().size();
        for (pit_type pit = 0; pit != endpit; ++pit) {
                TeXOnePar(buffer, buffer.text(), pit, os, runparams);
                LYXERR(Debug::FIND, "searchString up to here: " << ods.str());
        }
        return ods.str();
}


static docstring stringifySearchBuffer(Buffer & buffer, FindAndReplaceOptions const & opt)
{
        docstring str;
        if (!opt.ignoreformat) {
                str = buffer_to_latex(buffer);
        } else {
                OutputParams runparams(&buffer.params().encoding());
                runparams.nice = true;
                runparams.flavor = OutputParams::LATEX;
                runparams.linelen = 100000; //lyxrc.plaintext_linelen;
                runparams.dryrun = true;
                runparams.for_search = true;
                for (pos_type pit = pos_type(0); pit < (pos_type)buffer.paragraphs().size(); ++pit) {
                        Paragraph const & par = buffer.paragraphs().at(pit);
                        LYXERR(Debug::FIND, "Adding to search string: '"
                               << par.asString(pos_type(0), par.size(),
                                               AS_STR_INSETS | AS_STR_SKIPDELETE | AS_STR_PLAINTEXT,
                                               &runparams)
                               << "'");
                        str += par.asString(pos_type(0), par.size(),
                                            AS_STR_INSETS | AS_STR_SKIPDELETE | AS_STR_PLAINTEXT,
                                            &runparams);
                }
        }
        return str;
}


/// Return separation pos between the leading material and the rest
static size_t identifyLeading(string const & s)
{
        string t = s;
        // @TODO Support \item[text]
        // Kornel: Added textsl, textsf, textit, texttt and noun
        // + allow to seach for colored text too
        while (regex_replace(t, t, REGEX_BOS "\\\\(((emph|noun|text(bf|sl|sf|it|tt))|((textcolor|foreignlanguage)\\{[a-z]+\\})|(u|uu)line|(s|x)out|uwave)|((sub)?(((sub)?section)|paragraph)|part)\\*?)\\{", "")
               || regex_replace(t, t, REGEX_BOS "\\$", "")
               || regex_replace(t, t, REGEX_BOS "\\\\\\[ ", "")
               || regex_replace(t, t, REGEX_BOS "\\\\item ", "")
               || regex_replace(t, t, REGEX_BOS "\\\\begin\\{[a-zA-Z_]*\\*?\\} ", ""))
               ;
        LYXERR(Debug::FIND, "  after removing leading $, \\[ , \\emph{, \\textbf{, etc.: '" << t << "'");
        return s.find(t);
}

/*
 * Given a latexified string, retrieve some handled features
 * The features of the regex will later be compared with the features
 * of the searched text. If the regex features are not a
 * subset of the analized, then, in not format ignoring search
 * we can early stop the search in the relevant inset.
 */
typedef map<string, bool> Features;

static Features identifyFeatures(string const & s)
{
        static regex const feature("\\\\(([a-z]+(\\{([a-z]+)\\}|\\*)?))\\{");
        static regex const valid("^(((emph|noun|text(bf|sl|sf|it|tt)|(textcolor|foreignlanguage)\\{[a-z]+\\})|item |(u|uu)line|(s|x)out|uwave)|((sub)?(((sub)?section)|paragraph)|part)\\*?)$");
        smatch sub;
        bool displ = true;
        Features info;

        for (sregex_iterator it(s.begin(), s.end(), feature), end; it != end; ++it) {
                sub = *it;
                if (displ) {
                        if (sub.str(1).compare("regexp") == 0) {
                                displ = false;
                                continue;
                        }
                        string token = sub.str(1);
                        smatch sub2;
                        if (regex_match(token, sub2, valid)) {
                                info[token] = true;
                        }
                        else {
                                // ignore
                        }
                }
                else {
                        if (sub.str(1).compare("endregexp") == 0) {
                                displ = true;
                                continue;
                        }
                }
        }
        return(info);
}

/*
 * Faster search for the related closing parenthesis
 */
 static int findclosing(string p, int start, int end)
{
        int skip = 0;
        int depth = 0;
        int lastunclosed = start-1;
        for (int i = start; i < end; i += 1 + skip) {
                char c;
                c = p[i];
                skip = 0;
                if (c == '\\') skip = 1;
                else if (c == '{') {
                  depth++;
                  lastunclosed = i;
                }
                else if (c == '}') {
                        if (depth == 0) return(i);
                        --depth;
                }
        }
        return(0 - lastunclosed);
}

/*
 * defines values features of a key "\\[a-z]+{"
 */
class KeyInfo {
 public:
  enum KeyType {
    isChar,
    isSectioning,
    isMain,                             /* for \\foreignlanguage */
    isRegex,
    isMath,
    isStandard,
    isSize,
    invalid,
    doRemove,
    isIgnored                           /* to be ignored by creating infos */
  };
 KeyInfo()
   : keytype(invalid),
    head(""),
    parenthesiscount(1),
    disabled(false)
  {};
 KeyInfo(KeyType type, int parcount, bool disable)
   : keytype(type),
    parenthesiscount(parcount),
    disabled(disable) {};
  KeyType keytype;
  string head;
  int _tokensize;
  int _tokenstart;
  int _dataStart;
  int _dataEnd;
  int parenthesiscount;
  bool disabled;
};

class Border {
 public:
 Border(int l=0, int u=0) : low(l), upper(u) {};
  int low;
  int upper;
};

#define MAXOPENED 30
class Intervall {
 public:
 Intervall() : ignoreidx(-1), actualdeptindex(0) {};
  string par;
  int ignoreidx;
  int depts[MAXOPENED];
  int closes[MAXOPENED];
  int actualdeptindex;
  Border borders[2*MAXOPENED];
  // int previousNotIgnored(int);
  int nextNotIgnored(int);
  void handleOpenP(int i);
  void handleCloseP(int i, bool closingAllowed);
  void resetOpenedP(int openPos);
  void addIntervall(int upper);
  void addIntervall(int low, int upper); /* if explicit */
  void setForDefaultLang(int upTo);
  int findclosing(int start, int end);
  void handleParentheses(int lastpos, bool closingAllowed);
  void output(ostringstream &os, int lastpos);
  // string show(int lastpos);
};

void Intervall::setForDefaultLang(int upTo)
{
  // Enable the use of first token again
  if (ignoreidx >= 0) {
    if (borders[0].low < upTo)
      borders[0].low = upTo;
    if (borders[0].upper < upTo)
      borders[0].upper = upTo;
  }
}

static void checkDepthIndex(int val)
{
  static int maxdepthidx = MAXOPENED-2;
  if (val > maxdepthidx) {
    maxdepthidx = val;
    LYXERR0("maxdepthidx now " << val);
  }
}

static void checkIgnoreIdx(int val)
{
  static int maxignoreidx = 2*MAXOPENED - 4;
  if (val > maxignoreidx) {
    maxignoreidx = val;
    LYXERR0("maxignoreidx now " << val);
  }
}

/*
 * Expand the region of ignored parts of the input latex string
 * The region is only relevant in output()
 */
void Intervall::addIntervall(int low, int upper)
{
  int idx;
  if (low == upper) return;
  for (idx = ignoreidx+1; idx > 0; --idx) {
    if (low > borders[idx-1].upper) {
      break;
    }
  }
  Border br(low, upper);
  if (idx > ignoreidx) {
    borders[idx] = br;
    ignoreidx = idx;
    checkIgnoreIdx(ignoreidx);
    return;
  }
  else {
    // Expand only if one of the new bound is inside the interwall
    // We know here that br.low > borders[idx-1].upper
    if (br.upper < borders[idx].low) {
      // We have to insert at this pos
      for (int i = ignoreidx+1; i > idx; --i) {
        borders[i] = borders[i-1];
      }
      borders[idx] = br;
      ignoreidx += 1;
      checkIgnoreIdx(ignoreidx);
      return;
    }
    // Here we know, that we are overlapping
    if (br.low > borders[idx].low)
      br.low = borders[idx].low;
    // check what has to be concatenated
    int count = 0;
    for (int i = idx; i <= ignoreidx; i++) {
      if (br.upper >= borders[i].low) {
        count++;
        if (br.upper < borders[i].upper)
          br.upper = borders[i].upper;
      }
      else {
        break;
      }
    }
    // count should be >= 1 here
    borders[idx] = br;
    if (count > 1) {
      for (int i = idx + count; i <= ignoreidx; i++) {
        borders[i-count+1] = borders[i];
      }
      ignoreidx -= count - 1;
      return;
    }
  }
}

void Intervall::handleOpenP(int i)
{
  actualdeptindex++;
  depts[actualdeptindex] = i+1;
  closes[actualdeptindex] = -1;
  checkDepthIndex(actualdeptindex);
}

void Intervall::handleCloseP(int i, bool closingAllowed)
{
  if (actualdeptindex <= 0) {
    if (! closingAllowed)
      LYXERR(Debug::FIND, "Bad closing parenthesis in latex");  /* should not happen, but the latex input may be wrong */
    // if we are at the very end
    addIntervall(i, i+1);
  }
  else {
    closes[actualdeptindex] = i+1;
    actualdeptindex--;
  }
}

void Intervall::resetOpenedP(int openPos)
{
  // Used as initializer for foreignlanguage entry
  actualdeptindex = 1;
  depts[1] = openPos+1;
  closes[1] = -1;
}

#if 0
int Intervall::previousNotIgnored(int start)
{
    int idx = 0;                          /* int intervalls */
    for (idx = ignoreidx; idx >= 0; --idx) {
      if (start > borders[idx].upper)
        return(start);
      if (start >= borders[idx].low)
        start = borders[idx].low-1;
    }
    return start;
}
#endif

int Intervall::nextNotIgnored(int start)
{
    int idx = 0;                          /* int intervalls */
    for (idx = 0; idx <= ignoreidx; idx++) {
      if (start < borders[idx].low)
        return(start);
      if (start < borders[idx].upper)
        start = borders[idx].upper;
    }
    return start;
}

typedef map<string, KeyInfo> KeysMap;
typedef vector< KeyInfo> Entries;
static KeysMap keys = map<string, KeyInfo>();

class LatexInfo {
 private:
  int entidx;
  Entries entries;
  KeyInfo analyze(string key);
  Intervall interval;
  void buildKeys();
  void buildEntries();
  void makeKey(const string &, KeyInfo);
  void processRegion(int start, int region_end); /*  remove {} parts */
  void removeHead(KeyInfo&, int count=0);
 public:
 LatexInfo(string par) {
    interval.par = par;
    buildKeys();
    entries = vector<KeyInfo>();
    buildEntries();
  };
  int getFirstKey() {
    entidx = 0;
    if (entries.empty()) {
      return (-1);
    }
    return 0;
  };
  int getNextKey() {
    entidx++;
    if (int(entries.size()) > entidx) {
      return entidx;
    }
    else {
      return (-1);
    }
  };
  bool setNextKey(int idx) {
    if ((idx == entidx) && (entidx >= 0)) {
      entidx--;
      return true;
    }
    else
      return(false);
  };
  int process(ostringstream &os, KeyInfo &actual);
  int dispatch(ostringstream &os, int previousStart, KeyInfo &actual);
  // string show(int lastpos) { return interval.show(lastpos);};
  int nextNotIgnored(int start) { return interval.nextNotIgnored(start);};
  KeyInfo &getKeyInfo(int keyinfo) {
    static KeyInfo invalidInfo = KeyInfo();
    if ((keyinfo < 0) || ( keyinfo >= int(entries.size())))
      return invalidInfo;
    else
      return entries[keyinfo];
  };
  void setForDefaultLang(int upTo) {interval.setForDefaultLang(upTo);};

};


int Intervall::findclosing(int start, int end)
{
  int skip = 0;
  int depth = 0;
  for (int i = start; i < end; i += 1 + skip) {
    char c;
    c = par[i];
    skip = 0;
    if (c == '\\') skip = 1;
    else if (c == '{') {
      depth++;
    }
    else if (c == '}') {
      if (depth == 0) return(i);
      --depth;
    }
  }
  return(end);
}

void LatexInfo::buildEntries()
{
  static regex const rmath("\\\\(begin|end)\\{((eqnarray|equation|flalign|gather|multiline|align)\\*?)\\}");
  static regex const rkeys("\\\\((([a-z]+\\*?)(\\{([a-z]+\\*?)\\})?))");
  smatch sub, submath;
  bool evaluatingRegexp = false;
  KeyInfo found;
  bool math_end_waiting = false;
  size_t math_pos = 10000;
  int math_size = 0;
  int math_end_pos = -1;
  string math_end;

  for (sregex_iterator itmath(interval.par.begin(), interval.par.end(), rmath), end; itmath != end; ++itmath) {
    submath = *itmath;
    if (math_end_waiting) {
      if ((submath.str(1).compare("end") == 0) &&
          (submath.str(2).compare(math_end) == 0)) {
        math_size = submath.position(0) + submath.str(0).length() - math_pos;
        math_end_waiting = false;
      }
    }
    else {
      if (submath.str(1).compare("begin") == 0) {
        math_end_waiting = true;
        math_end = submath.str(2);
        math_pos = submath.position(0);
      }
    }
  }
  for (sregex_iterator it(interval.par.begin(), interval.par.end(), rkeys), end; it != end; ++it) {
    sub = *it;
    if (evaluatingRegexp) {
      if (sub.str(1).compare("endregexp") == 0) {
        evaluatingRegexp = false;
        // found._tokenstart already set
        found._dataEnd = sub.position(0) + 13;
        found._dataStart = found._dataEnd;
        found._tokensize = found._dataEnd - found._tokenstart;
        found.parenthesiscount = 0;
      }
    }
    else {
      if (keys.find(sub.str(3)) == keys.end()) {
        LYXERR(Debug::FIND, "Found unknown key " << sub.str(0));
        continue;
      }
      found = keys[sub.str(3)];
      if (sub.str(3).compare("regexp") == 0) {
        evaluatingRegexp = true;
        found._tokenstart = sub.position(0);
        found._tokensize = 0;
        continue;
      }
    }
    // Handle the other params of key
    if (found.keytype == KeyInfo::isIgnored)
      continue;
    else if (found.keytype == KeyInfo::isMath) {
      if (size_t(sub.position(0)) == math_pos) {
        found = keys[sub.str(3)];
        found._tokenstart = sub.position(0);
        found._tokensize = math_size;
        found._dataEnd = found._tokenstart + found._tokensize;
        found._dataStart = found._dataEnd;
        found.parenthesiscount = 0;
        math_end_pos = found._dataEnd;
      }
      else
        continue;
    }
    else if (found.keytype != KeyInfo::isRegex) {
      found._tokenstart = sub.position(0);
      if (found._tokenstart < math_end_pos) {
        // Ignore if we are inside math equation
        continue;
      }
      if (found.parenthesiscount == 0) {
        // Probably to be discarded
        if (interval.par[sub.position(0) + sub.str(3).length() + 1] == ' ')
          found.head = "\\" + sub.str(3) + " ";
        else
          found.head = "\\" + sub.str(3);
        found._tokensize = found.head.length();
        found._dataEnd = found._tokenstart + found._tokensize;
        found._dataStart = found._dataEnd;
      }
      else {
        if (found.parenthesiscount == 1) {
          found.head = "\\" + sub.str(3) + "{";
        }
        else if (found.parenthesiscount == 2) {
          found.head = sub.str(0) + "{";
          found._tokensize = found.head.length();
        }
        found._tokensize = found.head.length();
        found._dataStart = found._tokenstart + found.head.length();
        found._dataEnd = interval.findclosing(found._dataStart, interval.par.length());
      }
    }
    entries.push_back(found);
  }
}

void LatexInfo::makeKey(const string &keysstring, KeyInfo keyI)
{
  stringstream s(keysstring);
  string key;
  KeyInfo keyII(keyI);
  const char delim = '|';
  while (getline(s, key, delim)) {
    keys[key] = keyII;
  }
}

void LatexInfo::buildKeys()
{
  static bool keysBuilt        = false;
  static bool ignoreFamily     = false;
  static bool ignoreSeries     = false;
  static bool ignoreShape      = false;
  static bool ignoreUnderline  = false;
  static bool ignoreMarkUp     = false;
  static bool ignoreStrikeOut  = false;
  static bool ignoreSectioning = false;
  static bool ignoreColor      = false;
  static bool ignoreLanguage   = false;

  if (keysBuilt) return;

  // Know statdard keys with 1 parameter.
  // Split is done, if not at start of region
  makeKey("textsf|textss|texttt", KeyInfo(KeyInfo::isStandard, 1, ignoreFamily));
  makeKey("textbf",               KeyInfo(KeyInfo::isStandard, 1, ignoreSeries));
  makeKey("textit|textsc|textsl", KeyInfo(KeyInfo::isStandard, 1, ignoreShape));
  makeKey("uuline|uline|uwave",   KeyInfo(KeyInfo::isStandard, 1, ignoreUnderline));
  makeKey("emph|noun",            KeyInfo(KeyInfo::isStandard, 1, ignoreMarkUp));
  makeKey("sout|xout",            KeyInfo(KeyInfo::isStandard, 1, ignoreStrikeOut));


  makeKey("section|subsection|subsubsection|paragraph|subparagraph",
          KeyInfo(KeyInfo::isSectioning, 1, ignoreSectioning));
  makeKey("section*|subsection*|subsubsection*",
          KeyInfo(KeyInfo::isSectioning, 1, ignoreSectioning));
  makeKey("title|part|part*", KeyInfo(KeyInfo::isSectioning, 1, ignoreSectioning));

  // Regex
  makeKey("regexp", KeyInfo(KeyInfo::isRegex, 1, false));

  // Split is done, if not at start of region
  makeKey("textcolor", KeyInfo(KeyInfo::isStandard, 2, ignoreColor));

  // Split is done always.
  makeKey("foreignlanguage", KeyInfo(KeyInfo::isMain, 2, ignoreLanguage));

  // Know charaters
  // No split
  makeKey("backslash|textbackslash", KeyInfo(KeyInfo::isChar, 1, false));

  // Known macros to remove (including their parameter)
  // No split
  makeKey("inputencoding|shortcut", KeyInfo(KeyInfo::doRemove, 1, false));

  // Macros to remove, but let the parameter survive
  // No split
  makeKey("url|href|menuitem|footnote|code", KeyInfo(KeyInfo::isStandard, 1, true));

  // Same effect as previous, parameter will survive (because there is no one anyway)
  // No split
  makeKey("noindent", KeyInfo(KeyInfo::isStandard, 0, true));
  // like ('tiny{}' or '\tiny ' ... }
  makeKey("footnotesize|tiny|scriptsize|small|large|Large|LARGE|huge|Huge", KeyInfo(KeyInfo::isSize, 0, true));

  // Survives, like known character
  makeKey("lyx", KeyInfo(KeyInfo::isIgnored, 0, false));

  makeKey("begin", KeyInfo(KeyInfo::isMath, 1, false));
  makeKey("end", KeyInfo(KeyInfo::isMath, 1, false));

  makeKey("par", KeyInfo(KeyInfo::doRemove, 0, true));

  keysBuilt = true;
}

/*
 * Keep the list of actual opened parentheses actual
 * (e.g. depth == 4 means there are 4 '{' not processed yet)
 */
void Intervall::handleParentheses(int lastpos, bool closingAllowed)
{
  int skip = 0;
  for (int i = depts[actualdeptindex]; i < lastpos; i+= 1 + skip) {
    char c;
    c = par[i];
    skip = 0;
    if (c == '\\') skip = 1;
    else if (c == '{') {
      handleOpenP(i);
    }
    else if (c == '}') {
      handleCloseP(i, closingAllowed);
    }
  }
}

#if (0)
string Intervall::show(int lastpos)
{
  int idx = 0;                          /* int intervalls */
  int count = 0;
  string s;
  int i = 0;
  for (idx = 0; idx <= ignoreidx; idx++) {
    while (i < lastpos) {
      int printsize;
      if (i <= borders[idx].low) {
        if (borders[idx].low > lastpos)
          printsize = lastpos - i;
        else
          printsize = borders[idx].low - i;
        s += par.substr(i, printsize);
        i += printsize;
        if (i >= borders[idx].low)
          i = borders[idx].upper;
      }
      else {
        i = borders[idx].upper;
        break;
      }
    }
  }
  if (lastpos > i) {
    s += par.substr(i, lastpos-i);
  }
  return (s);
}
#endif

void Intervall::output(ostringstream &os, int lastpos)
{
  // get number of chars to output
  int idx = 0;                          /* int intervalls */
  int i = 0;
  for (idx = 0; idx <= ignoreidx; idx++) {
    if (i < lastpos) {
      int printsize;
      if (i <= borders[idx].low) {
        if (borders[idx].low > lastpos)
          printsize = lastpos - i;
        else
          printsize = borders[idx].low - i;
        os << par.substr(i, printsize);
        i += printsize;
        handleParentheses(i, false);
        if (i >= borders[idx].low)
          i = borders[idx].upper;
      }
      else {
        i = borders[idx].upper;
      }
    }
    else
      break;
  }
  if (lastpos > i) {
    os << par.substr(i, lastpos-i);
  }
  handleParentheses(lastpos, false);
  for (int i = actualdeptindex; i > 0; --i) {
    os << "}";
  }
  handleParentheses(lastpos, true); /* extra closings '}' allowed here */
}

void LatexInfo::processRegion(int start, int region_end)
{
  while (start < region_end) {
    if (interval.par[start] == '{') {
      // Closing is allowed past the region
      int closing = interval.findclosing(start+1, interval.par.length());
      interval.addIntervall(start, start+1);
      interval.addIntervall(closing, closing+1);
    }
    start = interval.nextNotIgnored(start+1);
  }
}

void LatexInfo::removeHead(KeyInfo &actual, int count)
{
  if (actual.parenthesiscount == 0) {
    // "{\tiny{} ...}" ==> "{{} ...}"
    interval.addIntervall(actual._tokenstart-count, actual._tokenstart + actual._tokensize);
  }
  else {
    // Remove header hull, that is "\url{abcd}" ==> "abcd"
    interval.addIntervall(actual._tokenstart, actual._dataStart);
    interval.addIntervall(actual._dataEnd, actual._dataEnd+1);
  }
}

int LatexInfo::dispatch(ostringstream &os, int previousStart, KeyInfo &actual)
{
  int nextKeyIdx;
  switch (actual.keytype)
    {
    case KeyInfo::isChar: {
      nextKeyIdx = getNextKey();
      break;
    }
    case KeyInfo::isSize: {
      if (actual.disabled) {
        // Allways disabled
        processRegion(actual._dataEnd, actual._dataEnd+1); /* remove possibly following {} */
        interval.addIntervall(actual._tokenstart, actual._dataEnd+1);
        nextKeyIdx = getNextKey();
      } else {
        // Split on this key if not at start
        int start = interval.nextNotIgnored(previousStart);
        if (start < actual._tokenstart) {
          interval.output(os, actual._tokenstart);
          interval.addIntervall(start, actual._tokenstart);
        }
        // discard entry if at end of actual
        nextKeyIdx = process(os, actual);
      }
      break;
    }
    case KeyInfo::isStandard: {
      if (actual.disabled) {
        removeHead(actual);
        processRegion(actual._dataStart, actual._dataStart+1);
        nextKeyIdx = getNextKey();
      } else {
        // Split on this key if not at start
        int start = interval.nextNotIgnored(previousStart);
        if (start < actual._tokenstart) {
          interval.output(os, actual._tokenstart);
          interval.addIntervall(start, actual._tokenstart);
        }
        // discard entry if at end of actual
        nextKeyIdx = process(os, actual);
      }
      break;
    }
    case KeyInfo::doRemove: {
      // Remove the key with all parameters
      interval.addIntervall(actual._tokenstart, actual._dataEnd+1);
      nextKeyIdx = getNextKey();
      break;
    }
    case KeyInfo::isSectioning: {
      // Discard space before _tokenstart
      int count;
      for (count = 0; count < actual._tokenstart; count++) {
        if (interval.par[actual._tokenstart-count-1] != ' ')
          break;
      }
      if (actual.disabled) {
        removeHead(actual, count);
        nextKeyIdx = getNextKey();
      } else {
        interval.addIntervall(actual._tokenstart-count, actual._tokenstart);
        nextKeyIdx = process(os, actual);
      }
      break;
    }
    case KeyInfo::isMath: {
      // Same as regex, use the content unchanged
      nextKeyIdx = getNextKey();
      break;
    }
    case KeyInfo::isRegex: {
      // DO NOT SPLIT ON REGEX
      // Do not disable
      nextKeyIdx = getNextKey();
      break;
    }
    case KeyInfo::isIgnored: {
      // Treat like a character for now
      nextKeyIdx = getNextKey();
      break;
    }
    case KeyInfo::isMain: {
      if (actual.disabled) {
        removeHead(actual);
        interval.resetOpenedP(actual._dataStart-1);
      }
      else {
        if (actual._tokenstart == 0) {
          // for the first (and maybe dummy) language
          interval.setForDefaultLang(actual._tokenstart + actual._tokensize);
        }
        interval.resetOpenedP(actual._dataStart-1);
      }
      break;
    }
    case KeyInfo::invalid:
      // This cannot happen, already handled
      // fall through
    default: {
      // LYXERR0("Unhandled keytype");
      nextKeyIdx = getNextKey();
      break;
    }
    }
  return(nextKeyIdx);
}

int LatexInfo::process(ostringstream &os, KeyInfo &actual )
{
  int end = interval.nextNotIgnored(actual._dataEnd);
  int oldStart = actual._dataStart;
  int nextKeyIdx = getNextKey();
  while (true) {
    if ((nextKeyIdx < 0) ||
        (entries[nextKeyIdx]._tokenstart >= actual._dataEnd) ||
        (entries[nextKeyIdx].keytype == KeyInfo::invalid)) {
      if (oldStart <= end) {
        processRegion(oldStart, end);
        oldStart = end+1;
      }
      break;
    }
    KeyInfo &nextKey = getKeyInfo(nextKeyIdx);

    if (nextKey.keytype == KeyInfo::isMain) {
      (void) dispatch(os, actual._dataStart, nextKey);
      end = nextKey._tokenstart;
      break;
    }
    processRegion(oldStart, nextKey._tokenstart);
    nextKeyIdx = dispatch(os, actual._dataStart, nextKey);

    oldStart = nextKey._dataEnd+1;
  }
  // now nextKey is either invalid or is outside of actual._dataEnd
  // output the remaining and discard myself
  if (oldStart <= end) {
    processRegion(oldStart, end);
  }
  if (interval.par[end] == '}') {
    end += 1;
    // This is the normal case.
    // But if using the firstlanguage, the closing may be missing
  }
  // get minimum of 'end' and  'actual._dataEnd' in case that the nextKey.keytype was 'KeyInfo::isMain'
  int output_end;
  if (actual._dataEnd < end)
    output_end = interval.nextNotIgnored(actual._dataEnd);
  else
    output_end = interval.nextNotIgnored(end);
  if (interval.nextNotIgnored(actual._dataStart) < output_end)
    interval.output(os, output_end);
  interval.addIntervall(actual._tokenstart, end);
  return nextKeyIdx;
}

string splitOnKnownMacros(string par) {
  ostringstream os;
  LatexInfo li(par);
  KeyInfo DummyKey = KeyInfo(KeyInfo::KeyType::isMain, 2, true);
  DummyKey.head = "";
  DummyKey._tokensize = 0;
  DummyKey._tokenstart = 0;
  DummyKey._dataStart = 0;
  DummyKey._dataEnd = par.length();
  DummyKey.disabled = true;
  int firstkeyIdx = li.getFirstKey();
  string s;
  if (firstkeyIdx >= 0) {
    KeyInfo firstKey = li.getKeyInfo(firstkeyIdx);
    int nextkeyIdx;
    if ((firstKey.keytype != KeyInfo::isMain) || firstKey.disabled) {
      // Create dummy firstKey
      firstKey = DummyKey;
      (void) li.setNextKey(firstkeyIdx);
    }
    nextkeyIdx = li.process(os, firstKey);
    while (nextkeyIdx >= 0) {
      // Check for a possible gap between the last
      // entry and this one
      int datastart = li.nextNotIgnored(firstKey._dataStart);
      KeyInfo &nextKey = li.getKeyInfo(nextkeyIdx);
      if ((nextKey._tokenstart > datastart)) {
        // Handle the gap
        firstKey._dataStart = datastart;
        firstKey._dataEnd = par.length();
        (void) li.setNextKey(nextkeyIdx);
        if (firstKey._tokensize > 0)
          li.setForDefaultLang(firstKey._tokensize);
        // Fake the last opened parenthesis
        nextkeyIdx = li.process(os, firstKey);
      }
      else {
        if (nextKey.keytype != KeyInfo::isMain) {
          firstKey._dataStart = datastart;
          firstKey._dataEnd = nextKey._dataEnd+1;
          (void) li.setNextKey(nextkeyIdx);
          if (firstKey._tokensize > 0)
            li.setForDefaultLang(firstKey._tokensize);
          nextkeyIdx = li.process(os, firstKey);
        }
        else {
          nextkeyIdx = li.process(os, nextKey);
        }
      }
    }
    // Handle the remaining
    firstKey._dataStart = li.nextNotIgnored(firstKey._dataStart);
    firstKey._dataEnd = par.length();
    if (firstKey._dataStart < firstKey._dataEnd)
      (void) li.process(os, firstKey);
    s = os.str();
  }
  else
    s = "";                        /* found end */
  return s;
}

/*
 * Try to unify the language specs in the latexified text.
 * Resulting modified string is set to "", if
 * the searched tex does not contain all the features in the search pattern
 */
static string correctlanguagesetting(string par, bool from_regex, bool withformat)
{
        static Features regex_f;
        static int missed = 0;
        static bool regex_with_format = false;

        int parlen = par.length();

        while ((parlen > 0) && (par[parlen-1] == '\n')) {
                parlen--;
        }
        string result;
        if (withformat) {
                // Split the latex input into pieces which
                // can be digested by our search engine
                LYXERR(Debug::FIND, "input: \"" << par << "\"");
                result = splitOnKnownMacros(par);
                LYXERR(Debug::FIND, "After split: \"" << result << "\"");
        }
        else
                result = par.substr(0, parlen);
        bool handle_colors = false;
        if (from_regex) {
                missed = 0;
                if (withformat) {
                        regex_f = identifyFeatures(result);
                        string features = "";
                        for (auto it = regex_f.cbegin(); it != regex_f.cend(); ++it) {
                                string a = it->first;
                                regex_with_format = true;
                                if (a.compare(0,10,"textcolor{") == 0)
                                  handle_colors = true;
                                features += " " + a;
                                // LYXERR0("Identified regex format:" << a);
                        }
                        LYXERR(Debug::FIND, "Identified Features" << features);

                }
        } else if (regex_with_format) {
                Features info = identifyFeatures(result);
                for (auto it = regex_f.cbegin(); it != regex_f.cend(); ++it) {
                        string a = it->first;
                        bool b = it->second;
                        if (b && ! info[a]) {
                                missed++;
                                LYXERR(Debug::FIND, "Missed(" << missed << " " << a <<", srclen = " << parlen );
                                return("");
                        }
                        else if (a.compare(0,10,"textcolor{") == 0)
                                handle_colors = true;
                }
        }
        else {
                // LYXERR0("No regex formats");
        }
        // remove possible disturbing macros
        while (regex_replace(result, result, "\\\\(noindent )", ""))
                ;
        // Either not found language spec,or is single and closed spec or empty
        // to be removed
        // [a-z+]par
        static regex const parreg("((\\n)?\\\\[a-z]+par)\\{");

        list <string> pars;
        smatch sub;
        for (sregex_iterator it(result.begin(), result.end(), parreg), end; it != end; ++it) {
                sub = *it;
                string token = sub.str(1);
                pars.push_back(token);
        }
        for (list<string>::const_iterator li = pars.begin(); li != pars.end(); ++li) {
                string token = *li;
                int ti = result.find(token);
                int tokensize = token.size() + 1;
                if (ti >= 0) {
                        int tc = findclosing(result, ti + tokensize, result.size());
                        if (tc > 0)
                                result = result.substr(0, ti) + result.substr(ti + tokensize, tc - ti -tokensize) + result.substr(tc+1);

                }
        }
        if (handle_colors) {
          while (regex_replace(result, result, "(\\{\\\\textcolor\\{[a-z]+\\}\\{)\\s*\\{\\}\\s*", "$1"));
          while (regex_replace(result, result, "\\{\\\\textcolor\\{[a-z]+\\}\\{\\s*\\}\\s*\\}", ""));
        }
        return(result);
}


// Remove trailing closure of math, macros and environments, so to catch parts of them.
static int identifyClosing(string & t)
{
        int open_braces = 0;
        do {
                LYXERR(Debug::FIND, "identifyClosing(): t now is '" << t << "'");
                if (regex_replace(t, t, "(.*[^\\\\])\\$" REGEX_EOS, "$1"))
                        continue;
                if (regex_replace(t, t, "(.*[^\\\\]) \\\\\\]" REGEX_EOS, "$1"))
                        continue;
                if (regex_replace(t, t, "(.*[^\\\\]) \\\\end\\{[a-zA-Z_]*\\*?\\}" REGEX_EOS, "$1"))
                        continue;
                if (regex_replace(t, t, "(.*[^\\\\])\\}" REGEX_EOS, "$1")) {
                        ++open_braces;
                        continue;
                }
                break;
        } while (true);
        return open_braces;
}


MatchStringAdv::MatchStringAdv(lyx::Buffer & buf, FindAndReplaceOptions const & opt)
        : p_buf(&buf), p_first_buf(&buf), opt(opt)
{
        Buffer & find_buf = *theBufferList().getBuffer(FileName(to_utf8(opt.find_buf_name)), true);
        docstring const & ds = stringifySearchBuffer(find_buf, opt);
        use_regexp = lyx::to_utf8(ds).find("\\regexp{") != std::string::npos;
        // When using regexp, braces are hacked already by escape_for_regex()
        par_as_string = normalize(ds, !use_regexp);
        open_braces = 0;
        close_wildcards = 0;

        size_t lead_size = 0;
        // correct the language settings
        par_as_string = correctlanguagesetting(par_as_string, true, !opt.ignoreformat);
        if (opt.ignoreformat) {
                if (!use_regexp) {
                        // if par_as_string_nolead were emty,
                        // the following call to findAux will always *find* the string
                        // in the checked data, and thus always using the slow
                        // examining of the current text part.
                        par_as_string_nolead = par_as_string;
                }
        } else {
                lead_size = identifyLeading(par_as_string);
                LYXERR(Debug::FIND, "Lead_size: " << lead_size);
                lead_as_string = par_as_string.substr(0, lead_size);
                par_as_string_nolead = par_as_string.substr(lead_size, par_as_string.size() - lead_size);
        }

        if (!use_regexp) {
                open_braces = identifyClosing(par_as_string);
                identifyClosing(par_as_string_nolead);
                LYXERR(Debug::FIND, "Open braces: " << open_braces);
                LYXERR(Debug::FIND, "Built MatchStringAdv object: par_as_string = '" << par_as_string << "'");
        } else {
                string lead_as_regexp;
                if (lead_size > 0) {
                        // @todo No need to search for \regexp{} insets in leading material
                        lead_as_regexp = escape_for_regex(par_as_string.substr(0, lead_size), !opt.ignoreformat);
                        par_as_string = par_as_string_nolead;
                        LYXERR(Debug::FIND, "lead_as_regexp is '" << lead_as_regexp << "'");
                        LYXERR(Debug::FIND, "par_as_string now is '" << par_as_string << "'");
                }
                par_as_string = escape_for_regex(par_as_string, !opt.ignoreformat);
                // Insert (.*?) before trailing closure of math, macros and environments, so to catch parts of them.
                LYXERR(Debug::FIND, "par_as_string now is '" << par_as_string << "'");
                if (
                        // Insert .* before trailing '\$' ('$' has been escaped by escape_for_regex)
                        regex_replace(par_as_string, par_as_string, "(.*[^\\\\])(\\\\\\$)\\'", "$1(.*?)$2")
                        // Insert .* before trailing '\\\]' ('\]' has been escaped by escape_for_regex)
                        || regex_replace(par_as_string, par_as_string, "(.*[^\\\\])( \\\\\\\\\\\\\\])\\'", "$1(.*?)$2")
                        // Insert .* before trailing '\\end\{...}' ('\end{...}' has been escaped by escape_for_regex)
                        || regex_replace(par_as_string, par_as_string,
                                         "(.*[^\\\\])( \\\\\\\\end\\\\\\{[a-zA-Z_]*)(\\\\\\*)?(\\\\\\})\\'", "$1(.*?)$2$3$4")
                        // Insert .* before trailing '\}' ('}' has been escaped by escape_for_regex)
                        || regex_replace(par_as_string, par_as_string, "(.*[^\\\\])(\\\\\\})\\'", "$1(.*?)$2")
                        ) {
                        ++close_wildcards;
                }
                if (!opt.ignoreformat) {
                        // Remove extra '\}' at end
                        while ( regex_replace(par_as_string, par_as_string, "(.*)\\\\}$", "$1")) {
                                open_braces++;
                        }
                        // save '\.'
                        regex_replace(par_as_string, par_as_string, "\\\\\\.", "_xxbdotxx_");
                        // handle '.' -> '[^]', replace later as '[^\}\{\\]'
                        regex_replace(par_as_string, par_as_string, "\\.", "[^]");
                        // replace '[^...]' with '[^...\}\{\\]'
                        regex_replace(par_as_string, par_as_string, "\\[\\^([^\\\\\\]]*)\\]", "_xxbrlxx_$1\\}\\{\\\\_xxbrrxx_");
                        regex_replace(par_as_string, par_as_string, "_xxbrlxx_", "[^");
                        regex_replace(par_as_string, par_as_string, "_xxbrrxx_", "]");
                        // restore '\.'
                        regex_replace(par_as_string, par_as_string, "_xxbdotxx_", "\\.");
                }
                LYXERR(Debug::FIND, "par_as_string now is '" << par_as_string << "'");
                LYXERR(Debug::FIND, "Open braces: " << open_braces);
                LYXERR(Debug::FIND, "Close .*?  : " << close_wildcards);
                LYXERR(Debug::FIND, "Replaced text (to be used as regex): " << par_as_string);

                // If entered regexp must match at begin of searched string buffer
                // Kornel: Added parentheses to use $1 for size of the leading string
                string regexp_str;
                string regexp2_str;
                {
                        // TODO: Adapt '\[12345678]' in par_as_string to acount for the first '()
                        // Unfortunately is '\1', '\2', etc not working for strings with extra format
                        // so the convert has no effect in that case
                        for (int i = 8; i > 0; --i) {
                                string orig = "\\\\" + std::to_string(i);
                                string dest = "\\" + std::to_string(i+1);
                                while (regex_replace(par_as_string, par_as_string, orig, dest));
                        }
                        regexp_str = "(" + lead_as_regexp + ")" + par_as_string;
                        regexp2_str = "(" + lead_as_regexp + ").*" + par_as_string;
                }
                LYXERR(Debug::FIND, "Setting regexp to : '" << regexp_str << "'");
                regexp = lyx::regex(regexp_str);

                LYXERR(Debug::FIND, "Setting regexp2 to: '" << regexp2_str << "'");
                regexp2 = lyx::regex(regexp2_str);
        }
}


int MatchStringAdv::findAux(DocIterator const & cur, int len, bool at_begin) const
{
        if (at_begin &&
                (opt.restr == FindAndReplaceOptions::R_ONLY_MATHS && !cur.inMathed()) )
                return 0;

        docstring docstr = stringifyFromForSearch(opt, cur, len);
        string str = normalize(docstr, true);
        if (!opt.ignoreformat) {
                str = correctlanguagesetting(str, false, !opt.ignoreformat);
        }
        if (str.empty()) return(-1);
        LYXERR(Debug::FIND, "Matching against     '" << lyx::to_utf8(docstr) << "'");
        LYXERR(Debug::FIND, "After normalization: '" << str << "'");

        if (use_regexp) {
                LYXERR(Debug::FIND, "Searching in regexp mode: at_begin=" << at_begin);
                regex const *p_regexp;
                regex_constants::match_flag_type flags;
                if (at_begin) {
                        flags = regex_constants::match_continuous;
                        p_regexp = &regexp;
                } else {
                        flags = regex_constants::match_default;
                        p_regexp = &regexp2;
                }
                sregex_iterator re_it(str.begin(), str.end(), *p_regexp, flags);
                if (re_it == sregex_iterator())
                        return 0;
                match_results<string::const_iterator> const & m = *re_it;

                if (0) { // Kornel Benko: DO NOT CHECKK
                        // Check braces on the segment that matched the entire regexp expression,
                        // plus the last subexpression, if a (.*?) was inserted in the constructor.
                        if (!braces_match(m[0].first, m[0].second, open_braces))
                                return 0;
                }

                // Check braces on segments that matched all (.*?) subexpressions,
                // except the last "padding" one inserted by lyx.
                for (size_t i = 1; i < m.size() - 1; ++i)
                        if (!braces_match(m[i].first, m[i].second, open_braces))
                                return 0;

                // Exclude from the returned match length any length
                // due to close wildcards added at end of regexp
                // and also the length of the leading (e.g. '\emph{')
                //
                // Whole found string, including the leading: m[0].second - m[0].first
                // Size of the leading string: m[1].second - m[1].first
                int leadingsize = 0;
                if (m.size() > 1)
                        leadingsize = m[1].second - m[1].first;
                int result;
                for (size_t i = 0; i < m.size(); i++) {
                  LYXERR(Debug::FIND, "Match " << i << " is " << m[i].second - m[i].first << " long");
                }
                if (close_wildcards == 0)
                        result = m[0].second - m[0].first;

                else
                        result =  m[m.size() - close_wildcards].first - m[0].first;

                if (result > leadingsize)
                        result -= leadingsize;
                else
                        result = 0;
                return(result);
        }

        // else !use_regexp: but all code paths above return
        LYXERR(Debug::FIND, "Searching in normal mode: par_as_string='"
                                 << par_as_string << "', str='" << str << "'");
        LYXERR(Debug::FIND, "Searching in normal mode: lead_as_string='"
                                 << lead_as_string << "', par_as_string_nolead='"
                                 << par_as_string_nolead << "'");

        if (at_begin) {
                LYXERR(Debug::FIND, "size=" << par_as_string.size()
                                         << ", substr='" << str.substr(0, par_as_string.size()) << "'");
                if (str.substr(0, par_as_string.size()) == par_as_string)
                        return par_as_string.size();
        } else {
                size_t pos = str.find(par_as_string_nolead);
                if (pos != string::npos)
                        return par_as_string.size();
        }
        return 0;
}


int MatchStringAdv::operator()(DocIterator const & cur, int len, bool at_begin) const
{
        int res = findAux(cur, len, at_begin);
        LYXERR(Debug::FIND,
               "res=" << res << ", at_begin=" << at_begin
               << ", matchword=" << opt.matchword
               << ", inTexted=" << cur.inTexted());
        if (res == 0 || !at_begin || !opt.matchword || !cur.inTexted())
                return res;
        Paragraph const & par = cur.paragraph();
        bool ws_left = (cur.pos() > 0)
                ? par.isWordSeparator(cur.pos() - 1)
                : true;
        bool ws_right = (cur.pos() + res < par.size())
                ? par.isWordSeparator(cur.pos() + res)
                : true;
        LYXERR(Debug::FIND,
               "cur.pos()=" << cur.pos() << ", res=" << res
               << ", separ: " << ws_left << ", " << ws_right
               << endl);
        if (ws_left && ws_right)
                return res;
        return 0;
}


string MatchStringAdv::normalize(docstring const & s, bool hack_braces) const
{
        string t;
        if (! opt.casesensitive)
                t = lyx::to_utf8(lowercase(s));
        else
                t = lyx::to_utf8(s);
        // Remove \n at begin
        while (!t.empty() && t[0] == '\n')
                t = t.substr(1);
        // Remove \n at end
        while (!t.empty() && t[t.size() - 1] == '\n')
                t = t.substr(0, t.size() - 1);
        size_t pos;
        // Replace all other \n with spaces
        while ((pos = t.find("\n")) != string::npos)
                t.replace(pos, 1, " ");
        // Remove stale empty \emph{}, \textbf{} and similar blocks from latexify
        // Kornel: Added textsl, textsf, textit, texttt and noun
        // + allow to seach for colored text too
        LYXERR(Debug::FIND, "Removing stale empty \\emph{}, \\textbf{}, \\*section{} macros from: " << t);
        while (regex_replace(t, t, "\\\\(emph|noun|text(bf|sl|sf|it|tt)|(u|uu)line|(s|x)out|uwave)(\\{(\\{\\})?\\})+", ""))
                LYXERR(Debug::FIND, "  further removing stale empty \\emph{}, \\textbf{} macros from: " << t);
        while (regex_replace(t, t, "\\\\((sub)?(((sub)?section)|paragraph)|part)\\*?(\\{(\\{\\})?\\})+", ""))
                LYXERR(Debug::FIND, "  further removing stale empty \\emph{}, \\textbf{} macros from: " << t);

        while (regex_replace(t, t, "\\\\(foreignlanguage|textcolor)\\{[a-z]+\\}(\\{(\\\\item |\\{\\})?\\})+", ""));
        // FIXME - check what preceeds the brace
        if (hack_braces) {
                if (opt.ignoreformat)
                        while (regex_replace(t, t, "\\{", "_x_<")
                               || regex_replace(t, t, "\\}", "_x_>"))
                                LYXERR(Debug::FIND, "After {} replacement: '" << t << "'");
                else
                        while (regex_replace(t, t, "\\\\\\{", "_x_<")
                               || regex_replace(t, t, "\\\\\\}", "_x_>"))
                                LYXERR(Debug::FIND, "After {} replacement: '" << t << "'");
        }

        return t;
}


docstring stringifyFromCursor(DocIterator const & cur, int len)
{
        LYXERR(Debug::FIND, "Stringifying with len=" << len << " from cursor at pos: " << cur);
        if (cur.inTexted()) {
                Paragraph const & par = cur.paragraph();
                // TODO what about searching beyond/across paragraph breaks ?
                // TODO Try adding a AS_STR_INSERTS as last arg
                pos_type end = ( len == -1 || cur.pos() + len > int(par.size()) ) ?
                        int(par.size()) : cur.pos() + len;
                OutputParams runparams(&cur.buffer()->params().encoding());
                runparams.nice = true;
                runparams.flavor = OutputParams::LATEX;
                runparams.linelen = 100000; //lyxrc.plaintext_linelen;
                // No side effect of file copying and image conversion
                runparams.dryrun = true;
                LYXERR(Debug::FIND, "Stringifying with cur: "
                       << cur << ", from pos: " << cur.pos() << ", end: " << end);
                return par.asString(cur.pos(), end,
                        AS_STR_INSETS | AS_STR_SKIPDELETE | AS_STR_PLAINTEXT,
                        &runparams);
        } else if (cur.inMathed()) {
                docstring s;
                CursorSlice cs = cur.top();
                MathData md = cs.cell();
                MathData::const_iterator it_end =
                        (( len == -1 || cs.pos() + len > int(md.size()))
                         ? md.end()
                         : md.begin() + cs.pos() + len );
                for (MathData::const_iterator it = md.begin() + cs.pos();
                     it != it_end; ++it)
                        s = s + asString(*it);
                LYXERR(Debug::FIND, "Stringified math: '" << s << "'");
                return s;
        }
        LYXERR(Debug::FIND, "Don't know how to stringify from here: " << cur);
        return docstring();
}


/** Computes the LaTeX export of buf starting from cur and ending len positions
 * after cur, if len is positive, or at the paragraph or innermost inset end
 * if len is -1.
 */
docstring latexifyFromCursor(DocIterator const & cur, int len)
{
        LYXERR(Debug::FIND, "Latexifying with len=" << len << " from cursor at pos: " << cur);
        LYXERR(Debug::FIND, "  with cur.lastpost=" << cur.lastpos() << ", cur.lastrow="
               << cur.lastrow() << ", cur.lastcol=" << cur.lastcol());
        Buffer const & buf = *cur.buffer();

        odocstringstream ods;
        otexstream os(ods);
        OutputParams runparams(&buf.params().encoding());
        runparams.nice = false;
        runparams.flavor = OutputParams::LATEX;
        runparams.linelen = 8000; //lyxrc.plaintext_linelen;
        // No side effect of file copying and image conversion
        runparams.dryrun = true;
        runparams.for_search = true;

        if (cur.inTexted()) {
                // @TODO what about searching beyond/across paragraph breaks ?
                pos_type endpos = cur.paragraph().size();
                if (len != -1 && endpos > cur.pos() + len)
                        endpos = cur.pos() + len;
                TeXOnePar(buf, *cur.innerText(), cur.pit(), os, runparams,
                          string(), cur.pos(), endpos);
                string s = lyx::to_utf8(ods.str());
                LYXERR(Debug::FIND, "Latexified +modified text: '" << s << "'");
                return(lyx::from_utf8(s));
        } else if (cur.inMathed()) {
                // Retrieve the math environment type, and add '$' or '$[' or others (\begin{equation}) accordingly
                for (int s = cur.depth() - 1; s >= 0; --s) {
                        CursorSlice const & cs = cur[s];
                        if (cs.asInsetMath() && cs.asInsetMath()->asHullInset()) {
                                WriteStream ws(os);
                                cs.asInsetMath()->asHullInset()->header_write(ws);
                                break;
                        }
                }

                CursorSlice const & cs = cur.top();
                MathData md = cs.cell();
                MathData::const_iterator it_end =
                        ((len == -1 || cs.pos() + len > int(md.size()))
                         ? md.end()
                         : md.begin() + cs.pos() + len);
                for (MathData::const_iterator it = md.begin() + cs.pos();
                     it != it_end; ++it)
                        ods << asString(*it);

                // Retrieve the math environment type, and add '$' or '$]'
                // or others (\end{equation}) accordingly
                for (int s = cur.depth() - 1; s >= 0; --s) {
                        CursorSlice const & cs2 = cur[s];
                        InsetMath * inset = cs2.asInsetMath();
                        if (inset && inset->asHullInset()) {
                                WriteStream ws(os);
                                inset->asHullInset()->footer_write(ws);
                                break;
                        }
                }
                LYXERR(Debug::FIND, "Latexified math: '" << lyx::to_utf8(ods.str()) << "'");
        } else {
                LYXERR(Debug::FIND, "Don't know how to stringify from here: " << cur);
        }
        return ods.str();
}


/** Finalize an advanced find operation, advancing the cursor to the innermost
 ** position that matches, plus computing the length of the matching text to
 ** be selected
 **/
int findAdvFinalize(DocIterator & cur, MatchStringAdv const & match)
{
        // Search the foremost position that matches (avoids find of entire math
        // inset when match at start of it)
        size_t d;
        DocIterator old_cur(cur.buffer());
        do {
                LYXERR(Debug::FIND, "Forwarding one step (searching for innermost match)");
                d = cur.depth();
                old_cur = cur;
                cur.forwardPos();
        } while (cur && cur.depth() > d && match(cur) > 0);
        cur = old_cur;
        if (match(cur) <= 0) return 0;
        LYXERR(Debug::FIND, "Ok");

        // Compute the match length
        int len = 1;
        if (cur.pos() + len > cur.lastpos())
                return 0;
        LYXERR(Debug::FIND, "verifying unmatch with len = " << len);
        while (cur.pos() + len <= cur.lastpos() && match(cur, len) <= 0) {
                ++len;
                LYXERR(Debug::FIND, "verifying unmatch with len = " << len);
        }
        // Length of matched text (different from len param)
        int old_len = match(cur, len);
        if (old_len < 0) old_len = 0;
        int new_len;
        // Greedy behaviour while matching regexps
        while ((new_len = match(cur, len + 1)) > old_len) {
                ++len;
                old_len = new_len;
                LYXERR(Debug::FIND, "verifying   match with len = " << len);
        }
        return len;
}


/// Finds forward
int findForwardAdv(DocIterator & cur, MatchStringAdv & match)
{
        if (!cur)
                return 0;
        while (!theApp()->longOperationCancelled() && cur) {
                LYXERR(Debug::FIND, "findForwardAdv() cur: " << cur);
                int match_len = match(cur, -1, false);
                LYXERR(Debug::FIND, "match_len: " << match_len);
                if (match_len > 0) {
                        int match_len_zero_count = 0;
                        for (; !theApp()->longOperationCancelled() && cur; cur.forwardPos()) {
                                LYXERR(Debug::FIND, "Advancing cur: " << cur);
                                int match_len2 = match(cur);
                                LYXERR(Debug::FIND, "match_len2: " << match_len2);
                                if (match_len2 > 0) {
                                        // Sometimes in finalize we understand it wasn't a match
                                        // and we need to continue the outest loop
                                        int len = findAdvFinalize(cur, match);
                                        if (len > 0) {
                                                return len;
                                        }
                                }
                                if (match_len2 >= 0) {
                                        if (match_len2 == 0)
                                                match_len_zero_count++;
                                        else
                                                match_len_zero_count = 0;
                                }
                                else {
                                        if (++match_len_zero_count > 3) {
                                                LYXERR(Debug::FIND, "match_len2_zero_count: " << match_len_zero_count << ", match_len was " << match_len);
                                                match_len_zero_count = 0;
                                        }
                                        break;
                                }
                        }
                        if (!cur)
                                return 0;
                }
                if (match_len >= 0 && cur.pit() < cur.lastpit()) {
                        LYXERR(Debug::FIND, "Advancing par: cur=" << cur);
                        cur.forwardPar();
                } else {
                        // This should exit nested insets, if any, or otherwise undefine the currsor.
                        cur.pos() = cur.lastpos();
                        LYXERR(Debug::FIND, "Advancing pos: cur=" << cur);
                        cur.forwardPos();
                }
        }
        return 0;
}


/// Find the most backward consecutive match within same paragraph while searching backwards.
int findMostBackwards(DocIterator & cur, MatchStringAdv const & match)
{
        DocIterator cur_begin = doc_iterator_begin(cur.buffer());
        DocIterator tmp_cur = cur;
        int len = findAdvFinalize(tmp_cur, match);
        Inset & inset = cur.inset();
        for (; cur != cur_begin; cur.backwardPos()) {
                LYXERR(Debug::FIND, "findMostBackwards(): cur=" << cur);
                DocIterator new_cur = cur;
                new_cur.backwardPos();
                if (new_cur == cur || &new_cur.inset() != &inset || !match(new_cur))
                        break;
                int new_len = findAdvFinalize(new_cur, match);
                if (new_len == len)
                        break;
                len = new_len;
        }
        LYXERR(Debug::FIND, "findMostBackwards(): exiting with cur=" << cur);
        return len;
}


/// Finds backwards
int findBackwardsAdv(DocIterator & cur, MatchStringAdv & match)
{
        if (! cur)
                return 0;
        // Backup of original position
        DocIterator cur_begin = doc_iterator_begin(cur.buffer());
        if (cur == cur_begin)
                return 0;
        cur.backwardPos();
        DocIterator cur_orig(cur);
        bool pit_changed = false;
        do {
                cur.pos() = 0;
                bool found_match = match(cur, -1, false);

                if (found_match) {
                        if (pit_changed)
                                cur.pos() = cur.lastpos();
                        else
                                cur.pos() = cur_orig.pos();
                        LYXERR(Debug::FIND, "findBackAdv2: cur: " << cur);
                        DocIterator cur_prev_iter;
                        do {
                                found_match = match(cur);
                                LYXERR(Debug::FIND, "findBackAdv3: found_match="
                                       << found_match << ", cur: " << cur);
                                if (found_match)
                                        return findMostBackwards(cur, match);

                                // Stop if begin of document reached
                                if (cur == cur_begin)
                                        break;
                                cur_prev_iter = cur;
                                cur.backwardPos();
                        } while (true);
                }
                if (cur == cur_begin)
                        break;
                if (cur.pit() > 0)
                        --cur.pit();
                else
                        cur.backwardPos();
                pit_changed = true;
        } while (!theApp()->longOperationCancelled());
        return 0;
}


} // namespace


docstring stringifyFromForSearch(FindAndReplaceOptions const & opt,
                                 DocIterator const & cur, int len)
{
        if (cur.pos() < 0 || cur.pos() > cur.lastpos())
                return docstring();
        if (!opt.ignoreformat)
                return latexifyFromCursor(cur, len);
        else
                return stringifyFromCursor(cur, len);
}


FindAndReplaceOptions::FindAndReplaceOptions(
        docstring const & find_buf_name, bool casesensitive,
        bool matchword, bool forward, bool expandmacros, bool ignoreformat,
        docstring const & repl_buf_name, bool keep_case,
        SearchScope scope, SearchRestriction restr)
        : find_buf_name(find_buf_name), casesensitive(casesensitive), matchword(matchword),
          forward(forward), expandmacros(expandmacros), ignoreformat(ignoreformat),
          repl_buf_name(repl_buf_name), keep_case(keep_case), scope(scope), restr(restr)
{
}


namespace {


/** Check if 'len' letters following cursor are all non-lowercase */
static bool allNonLowercase(Cursor const & cur, int len)
{
        pos_type beg_pos = cur.selectionBegin().pos();
        pos_type end_pos = cur.selectionBegin().pos() + len;
        if (len > cur.lastpos() + 1 - beg_pos) {
                LYXERR(Debug::FIND, "This should not happen, more debug needed");
                len = cur.lastpos() + 1 - beg_pos;
                end_pos = beg_pos + len;
        }
        for (pos_type pos = beg_pos; pos != end_pos; ++pos)
                if (isLowerCase(cur.paragraph().getChar(pos)))
                        return false;
        return true;
}


/** Check if first letter is upper case and second one is lower case */
static bool firstUppercase(Cursor const & cur)
{
        char_type ch1, ch2;
        pos_type pos = cur.selectionBegin().pos();
        if (pos >= cur.lastpos() - 1) {
                LYXERR(Debug::FIND, "No upper-case at cur: " << cur);
                return false;
        }
        ch1 = cur.paragraph().getChar(pos);
        ch2 = cur.paragraph().getChar(pos + 1);
        bool result = isUpperCase(ch1) && isLowerCase(ch2);
        LYXERR(Debug::FIND, "firstUppercase(): "
               << "ch1=" << ch1 << "(" << char(ch1) << "), ch2="
               << ch2 << "(" << char(ch2) << ")"
               << ", result=" << result << ", cur=" << cur);
        return result;
}


/** Make first letter of supplied buffer upper-case, and the rest lower-case.
 **
 ** \fixme What to do with possible further paragraphs in replace buffer ?
 **/
static void changeFirstCase(Buffer & buffer, TextCase first_case, TextCase others_case)
{
        ParagraphList::iterator pit = buffer.paragraphs().begin();
        LASSERT(pit->size() >= 1, /**/);
        pos_type right = pos_type(1);
        pit->changeCase(buffer.params(), pos_type(0), right, first_case);
        right = pit->size();
        pit->changeCase(buffer.params(), pos_type(1), right, others_case);
}

} // namespace

///
static void findAdvReplace(BufferView * bv, FindAndReplaceOptions const & opt, MatchStringAdv & matchAdv)
{
        Cursor & cur = bv->cursor();
        if (opt.repl_buf_name == docstring()
            || theBufferList().getBuffer(FileName(to_utf8(opt.repl_buf_name)), true) == 0
            || theBufferList().getBuffer(FileName(to_utf8(opt.find_buf_name)), true) == 0)
                return;

        DocIterator sel_beg = cur.selectionBegin();
        DocIterator sel_end = cur.selectionEnd();
        if (&sel_beg.inset() != &sel_end.inset()
            || sel_beg.pit() != sel_end.pit()
            || sel_beg.idx() != sel_end.idx())
                return;
        int sel_len = sel_end.pos() - sel_beg.pos();
        LYXERR(Debug::FIND, "sel_beg: " << sel_beg << ", sel_end: " << sel_end
               << ", sel_len: " << sel_len << endl);
        if (sel_len == 0)
                return;
        LASSERT(sel_len > 0, return);

        if (!matchAdv(sel_beg, sel_len))
                return;

        // Build a copy of the replace buffer, adapted to the KeepCase option
        Buffer & repl_buffer_orig = *theBufferList().getBuffer(FileName(to_utf8(opt.repl_buf_name)), true);
        ostringstream oss;
        repl_buffer_orig.write(oss);
        string lyx = oss.str();
        Buffer repl_buffer("", false);
        repl_buffer.setUnnamed(true);
        LASSERT(repl_buffer.readString(lyx), return);
        if (opt.keep_case && sel_len >= 2) {
                LYXERR(Debug::FIND, "keep_case true: cur.pos()=" << cur.pos() << ", sel_len=" << sel_len);
                if (cur.inTexted()) {
                        if (firstUppercase(cur))
                                changeFirstCase(repl_buffer, text_uppercase, text_lowercase);
                        else if (allNonLowercase(cur, sel_len))
                                changeFirstCase(repl_buffer, text_uppercase, text_uppercase);
                }
        }
        cap::cutSelection(cur, false);
        if (cur.inTexted()) {
                repl_buffer.changeLanguage(
                        repl_buffer.language(),
                        cur.getFont().language());
                LYXERR(Debug::FIND, "Replacing by pasteParagraphList()ing repl_buffer");
                LYXERR(Debug::FIND, "Before pasteParagraphList() cur=" << cur << endl);
                cap::pasteParagraphList(cur, repl_buffer.paragraphs(),
                                        repl_buffer.params().documentClassPtr(),
                                        bv->buffer().errorList("Paste"));
                LYXERR(Debug::FIND, "After pasteParagraphList() cur=" << cur << endl);
                sel_len = repl_buffer.paragraphs().begin()->size();
        } else if (cur.inMathed()) {
                odocstringstream ods;
                otexstream os(ods);
                OutputParams runparams(&repl_buffer.params().encoding());
                runparams.nice = false;
                runparams.flavor = OutputParams::LATEX;
                runparams.linelen = 8000; //lyxrc.plaintext_linelen;
                runparams.dryrun = true;
                TeXOnePar(repl_buffer, repl_buffer.text(), 0, os, runparams);
                //repl_buffer.getSourceCode(ods, 0, repl_buffer.paragraphs().size(), false);
                docstring repl_latex = ods.str();
                LYXERR(Debug::FIND, "Latexified replace_buffer: '" << repl_latex << "'");
                string s;
                (void)regex_replace(to_utf8(repl_latex), s, "\\$(.*)\\$", "$1");
                (void)regex_replace(s, s, "\\\\\\[(.*)\\\\\\]", "$1");
                repl_latex = from_utf8(s);
                LYXERR(Debug::FIND, "Replacing by insert()ing latex: '" << repl_latex << "' cur=" << cur << " with depth=" << cur.depth());
                MathData ar(cur.buffer());
                asArray(repl_latex, ar, Parse::NORMAL);
                cur.insert(ar);
                sel_len = ar.size();
                LYXERR(Debug::FIND, "After insert() cur=" << cur << " with depth: " << cur.depth() << " and len: " << sel_len);
        }
        if (cur.pos() >= sel_len)
                cur.pos() -= sel_len;
        else
                cur.pos() = 0;
        LYXERR(Debug::FIND, "After pos adj cur=" << cur << " with depth: " << cur.depth() << " and len: " << sel_len);
        bv->putSelectionAt(DocIterator(cur), sel_len, !opt.forward);
        bv->processUpdateFlags(Update::Force);
}


/// Perform a FindAdv operation.
bool findAdv(BufferView * bv, FindAndReplaceOptions const & opt)
{
        DocIterator cur;
        int match_len = 0;

        // e.g., when invoking word-findadv from mini-buffer wither with
        //       wrong options syntax or before ever opening advanced F&R pane
        if (theBufferList().getBuffer(FileName(to_utf8(opt.find_buf_name)), true) == 0)
                return false;

        try {
                MatchStringAdv matchAdv(bv->buffer(), opt);
                int length = bv->cursor().selectionEnd().pos() - bv->cursor().selectionBegin().pos();
                if (length > 0)
                        bv->putSelectionAt(bv->cursor().selectionBegin(), length, !opt.forward);
                findAdvReplace(bv, opt, matchAdv);
                cur = bv->cursor();
                if (opt.forward)
                        match_len = findForwardAdv(cur, matchAdv);
                else
                        match_len = findBackwardsAdv(cur, matchAdv);
        } catch (...) {
                // This may only be raised by lyx::regex()
                bv->message(_("Invalid regular expression!"));
                return false;
        }

        if (match_len == 0) {
                bv->message(_("Match not found!"));
                return false;
        }

        bv->message(_("Match found!"));

        LYXERR(Debug::FIND, "Putting selection at cur=" << cur << " with len: " << match_len);
        bv->putSelectionAt(cur, match_len, !opt.forward);

        return true;
}


ostringstream & operator<<(ostringstream & os, FindAndReplaceOptions const & opt)
{
        os << to_utf8(opt.find_buf_name) << "\nEOSS\n"
           << opt.casesensitive << ' '
           << opt.matchword << ' '
           << opt.forward << ' '
           << opt.expandmacros << ' '
           << opt.ignoreformat << ' '
           << to_utf8(opt.repl_buf_name) << "\nEOSS\n"
           << opt.keep_case << ' '
           << int(opt.scope) << ' '
           << int(opt.restr);

        LYXERR(Debug::FIND, "built: " << os.str());

        return os;
}


istringstream & operator>>(istringstream & is, FindAndReplaceOptions & opt)
{
        LYXERR(Debug::FIND, "parsing");
        string s;
        string line;
        getline(is, line);
        while (line != "EOSS") {
                if (! s.empty())
                        s = s + "\n";
                s = s + line;
                if (is.eof())   // Tolerate malformed request
                        break;
                getline(is, line);
        }
        LYXERR(Debug::FIND, "file_buf_name: '" << s << "'");
        opt.find_buf_name = from_utf8(s);
        is >> opt.casesensitive >> opt.matchword >> opt.forward >> opt.expandmacros >> opt.ignoreformat;
        is.get();       // Waste space before replace string
        s = "";
        getline(is, line);
        while (line != "EOSS") {
                if (! s.empty())
                        s = s + "\n";
                s = s + line;
                if (is.eof())   // Tolerate malformed request
                        break;
                getline(is, line);
        }
        LYXERR(Debug::FIND, "repl_buf_name: '" << s << "'");
        opt.repl_buf_name = from_utf8(s);
        is >> opt.keep_case;
        int i;
        is >> i;
        opt.scope = FindAndReplaceOptions::SearchScope(i);
        is >> i;
        opt.restr = FindAndReplaceOptions::SearchRestriction(i);

        LYXERR(Debug::FIND, "parsed: " << opt.casesensitive << ' ' << opt.matchword << ' ' << opt.forward << ' '
               << opt.expandmacros << ' ' << opt.ignoreformat << ' ' << opt.keep_case << ' '
               << opt.scope << ' ' << opt.restr);
        return is;
}

} // namespace lyx