Files
core/ASCOfficeOdfFile/formulasconvert/formulasconvert_oox.cpp

837 lines
24 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* (c) Copyright Ascensio System SIA 2010-2016
*
* This program is a free software product. You can redistribute it and/or
* modify it under the terms of the GNU Affero General Public License (AGPL)
* version 3 as published by the Free Software Foundation. In accordance with
* Section 7(a) of the GNU AGPL its Section 15 shall be amended to the effect
* that Ascensio System SIA expressly excludes the warranty of non-infringement
* of any third-party rights.
*
* This program is distributed WITHOUT ANY WARRANTY; without even the implied
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For
* details, see the GNU AGPL at: http://www.gnu.org/licenses/agpl-3.0.html
*
* You can contact Ascensio System SIA at Lubanas st. 125a-25, Riga, Latvia,
* EU, LV-1021.
*
* The interactive user interfaces in modified source and object code versions
* of the Program must display Appropriate Legal Notices, as required under
* Section 5 of the GNU AGPL version 3.
*
* Pursuant to Section 7(b) of the License you must retain the original Product
* logo when distributing the program. Pursuant to Section 7(e) we decline to
* grant you any rights under trademark law for use of our trademarks.
*
* All the Product's GUI elements, including illustrations and icon sets, as
* well as technical writing content are licensed under the terms of the
* Creative Commons Attribution-ShareAlike 4.0 International. See the License
* terms at http://creativecommons.org/licenses/by-sa/4.0/legalcode
*
*/
#include "formulasconvert.h"
#include <boost/algorithm/string.hpp>
#include <boost/regex.hpp>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
namespace cpdoccore {
namespace formulasconvert {
class oox2odf_converter::Impl
{
public:
std::wstring convert(const std::wstring& expr);
std::wstring convert_formula(const std::wstring& expr);
std::wstring convert_conditional_formula(const std::wstring& expr);
std::wstring convert_chart_distance(const std::wstring& expr);
static void replace_cells_range(std::wstring& expr);
static void replace_semicolons(std::wstring& expr);
static void replace_vertical(std::wstring& expr);
static void replace_space(std::wstring& expr);
static std::wstring replace_cells_range_formater1(boost::wsmatch const & what);
static std::wstring replace_cells_range_formater2(boost::wsmatch const & what);
static std::wstring replace_arguments(boost::wsmatch const & what);
static std::wstring convert_scobci(boost::wsmatch const & what);
std::wstring replace_arguments1(std::wstring & workstr);
void replace_named_ref(std::wstring & expr);
std::wstring find_base_cell(const std::wstring & expr);
// bool find_first_ref(std::wstring const & expr, std::wstring & table, std::wstring & ref);
//bool find_first_last_ref(std::wstring const & expr, std::wstring & table, std::wstring & ref_first,std::wstring & ref_last);
};
////Table!.$A$1:$A2 -> ref $A$1 -> ref $A$2
//bool oox2odf_converter::Impl::find_first_last_ref(std::wstring const & expr, std::wstring & table,std::wstring & ref_first,std::wstring & ref_last)
//{
// std::vector< std::wstring > splitted;
//
// boost::algorithm::split(splitted, expr, boost::algorithm::is_any_of(L".:"), boost::algorithm::token_compress_on);
//
// if (splitted.size()>2)
// {
// table = splitted[0];
// ref_first = splitted[1];
// ref_last = splitted[2];
// return true;
// }
// return false;
//}
// // =[.A1]+[.B1] -> table = ""; ref = "A1"
// // of:=['Sheet2 A'.B2] -> table= "Sheet2 A"; ref = "B2"
//
//bool oox2odf_converter::Impl::find_first_ref(std::wstring const & expr, std::wstring & table, std::wstring & ref)
//{
// boost::wregex re(L"\\[(?:\\$)?([^\\.]+?){0,1}\\.([a-zA-Z\\$]+\\d+)(?::\\.([a-zA-Z]+\\d+)){0,1}\\]");
// boost::wsmatch result;
// bool b = boost::regex_search(expr, result, re);
//
// size_t sz = result.size();
// if (sz == 4 && !result[1].matched)
// {
// table = L"";
// ref = result[2].str();
// return true;
// }
// else if (sz == 4 && result[1].matched)
// {
// table = result[1].str();
// boost::algorithm::replace_all(table, L"$", L"");
// boost::algorithm::replace_all(table, L"'", L"");
// ref = result[2].str();
// return true;
// }
// return false;
//}
//
//namespace
//{
//
//std::wstring replace_cell_range_formater(boost::wsmatch const & what)
//{
// const size_t sz = what.size();
// if (sz == 4 && !what[1].matched)
// {
// const std::wstring c1 = what[2].str();
// const std::wstring c2 = what[3].str();
// const std::wstring s = c1 + (c2.empty() ? L"" : (L":" + c2) );
// return s;
// }
// else if (sz == 4 && what[1].matched)
// {
// std::wstring sheet1 = what[1].str();
// boost::algorithm::replace_all(sheet1, L"$", L"");
//
// const std::wstring c1 = what[2].str();
// const std::wstring c2 = what[3].str();
// const std::wstring s = sheet1 + L"!" + c1 + (c2.empty() ? L"" : (L":" + c2) );
// return s;
// }
// return L"";
//}
//
//}
//
// заменяем формат адресации ячеек НАОБОРОТ
// [.A1] -> A1
// [.A1:.B5] -> A1:B5
// [Sheet2.A1:B5] -> Sheet2!A1:B5
// [Sheet2.A1] -> Sheet2!A1
// [$'Sheet2 A'.$B2] -> 'Sheet2 A'!$B2
void oox2odf_converter::Impl::replace_cells_range(std::wstring& expr)
{
boost::wregex re(L"([:$!])+");
boost::wsmatch result;
bool b = boost::regex_search(expr, result, re);
if (b)
{
boost::wregex re1(L"(\\$?\\w+\\!)?([a-zA-Z$]+\\d{1,})\\:?([a-zA-Z$]+\\d{1,})?");
// $ Sheet2 ! $ A1 : $ B5
std::wstring workstr = expr;
std::wstring res = boost::regex_replace(
workstr,
re1,
&replace_cells_range_formater1,
boost::match_default | boost::format_all);
expr = res;
}
else
{
}
return;
}
std::wstring oox2odf_converter::Impl::replace_cells_range_formater1(boost::wsmatch const & what)
{
const size_t sz = what.size();
if (sz>3)
{
std::wstring sheet1 = what[1].matched ? what[1].str() : L"";
boost::algorithm::replace_all(sheet1, L"!", L"");
std::wstring c1 = what[2].str();
std::wstring c2 = what[3].str();
int res=0;
if (sheet1.length() > 0 && (res = c1.find(L"$")) >=0) sheet1 = L"$" + sheet1;
const std::wstring s = std::wstring(L"[") + sheet1 + L"." +
c1 +
(c2.empty() ? L"" : (L":" + sheet1 + L"." + c2) ) + std::wstring(L"]");
return s;
}
else
{
const std::wstring c1 = what[1].str();
const std::wstring c2 = what[2].str();
const std::wstring s = std::wstring(L"[.") + c1 + (c2.empty() ? L"" : (L":." + c2) ) + std::wstring(L"]");
return s;
}
return L"";
}
std::wstring oox2odf_converter::Impl::replace_cells_range_formater2(boost::wsmatch const & what)
{
const size_t sz = what.size();
if (sz>2)
{
const std::wstring c1 = what[1].str();
const std::wstring c2 = what[2].str();
const std::wstring s = std::wstring(L"[.") + c1 + (c2.empty() ? L"" : (L":." + c2) ) + std::wstring(L"]");
return s;
}
return L"";
}
//namespace {
//
//std::wstring replace_named_ref_formater(boost::wsmatch const & what)
//{
// const size_t sz = what.size();
//
// if (sz == 4 && !what[1].matched)
// {
// const std::wstring c1 = what[2].str();
// const std::wstring c2 = what[3].str();
// const std::wstring s = c1 + (c2.empty() ? L"" : (L":" + c2) );
// return s;
// }
// else if (sz == 4 && what[1].matched)
// {
// std::wstring sheet1 = what[1].str();
// boost::algorithm::replace_all(sheet1, L"$", L"");
//
// const std::wstring c1 = what[2].str();
// const std::wstring c2 = what[3].str();
// const std::wstring s = sheet1 + L"!" + c1 + (c2.empty() ? L"" : (L":" + c2) );
// return s;
// }
// return L"";
//}
//
//}
// Лист1!$A$1 -> $Лист1.$A$1
void oox2odf_converter::Impl::replace_named_ref(std::wstring & expr)
{
std::wstring workstr = expr, out;
replace_vertical(workstr);
replace_semicolons(workstr);
std::vector<std::wstring> distance;
boost::algorithm::split(distance,workstr, boost::algorithm::is_any_of(L";"), boost::algorithm::token_compress_on);
BOOST_FOREACH(std::wstring &d, distance)
{
boost::algorithm::replace_all(d, L"(", L"SCOBCAIN");
boost::algorithm::replace_all(d, L")", L"SCOBCAOUT");
boost::algorithm::replace_all(d, L" ", L"PROBEL");
boost::algorithm::replace_all(d, L"'", L"APOSTROF");
boost::algorithm::replace_all(d, L"\"", L"KAVYCHKA");
replace_cells_range(d);
boost::algorithm::replace_all(d, L"SCOBCAIN", L"(");
boost::algorithm::replace_all(d, L"SCOBCAOUT", L")");
boost::algorithm::replace_all(d, L"PROBEL", L" ");
boost::algorithm::replace_all(d, L"APOSTROF", L"'");
boost::algorithm::replace_all(d, L"KAVYCHKA", L"\"");
out = out + d + std::wstring(L";");
}
if (out.length()>0) expr = out.substr(0,out.length()-1);
}
std::wstring oox2odf_converter::Impl::find_base_cell(const std::wstring & expr)
{
std::vector< std::wstring > splitted;
boost::algorithm::split(splitted, expr, boost::algorithm::is_any_of(L"!"), boost::algorithm::token_compress_on);
if (splitted.size()>1)
{
return splitted[0] + L".$A$1";
}
else return L"";
}
namespace
{
std::wstring replace_semicolons_formater(boost::wsmatch const & what)
{
if (what[1].matched)
return L";";
else if (what[2].matched)
return what[2].str();
else if (what[3].matched)
return what[3].str();
//else if (what[4].matched)
// return what[4].str();
else
return L"";
}
}
// TODO
// заменить запятые на точки с запятой во всех вхождениях кроме находящихся в кавычках --*и в фигурных скобках*--
// TODO: проверить как сохраняются кавычки в строке
void oox2odf_converter::Impl::replace_semicolons(std::wstring& expr)
{
const std::wstring res = boost::regex_replace(
expr,
//boost::wregex(L"(;)|(?:\".*?\")|(?:'.*?')"),
boost::wregex(L"(,)|(\".*?\")|('.*?')"),
&replace_semicolons_formater,
boost::match_default | boost::format_all);
expr = res;
}
namespace
{
std::wstring replace_vertical_formater(boost::wsmatch const & what)
{
if (what[1].matched)
{
std::wstring inner = what[1].str();
boost::algorithm::replace_all(inner, L";", L"|");
return L"{" + inner + L"}";
}
else if (what[2].matched)
return what[2].str();
else if (what[3].matched)
return what[3].str();
}
std::wstring replace_space_formater(boost::wsmatch const & what)
{
if (what[1].matched)
{
std::wstring inner = what[1].str();
boost::algorithm::replace_all(inner, L",", L" ");
return inner;
}
else if (what[2].matched)
return what[2].str();
else if (what[3].matched)
return what[3].str();
}
}
std::wstring forbidden_formulas1[] =
{
L"NULLFORMULA()"
/*
L"BETADIST",
L"CEILING",
L"FLOOR",
L"RANK",
L"ROUND",
L"ROUNDDOWN",
L"ROUNDUP",
L"SUBTOTAL",
L"FORMULA",
L"ISREF"*/
};
bool is_forbidden1(const std::wstring & formula)
{
BOOST_FOREACH(const std::wstring & s, forbidden_formulas1)
{
if (boost::algorithm::contains(formula, s))
return true;
}
return false;
}
//void oox2odf_converter::Impl::split_(std::wstring& expr)
//{
// const std::wstring res = boost::regex_split(
// expr,
// boost::wregex(L"(?:(?:\\{)([^\\}]*?)(?:\\}))|(\".*?\")|('.*?')"),
// &replace_vertical_formater,
// boost::match_default | boost::format_all);
// expr = res;
//}
// заменить вертикальную черту во всех вхождениях в фигурных скобках, но не внутри строк
void oox2odf_converter::Impl::replace_vertical(std::wstring& expr)
{
const std::wstring res = boost::regex_replace(
expr,
boost::wregex(L"(?:(?:\\{)([^\\}]*?)(?:\\}))|(\".*?\")|('.*?')"),
&replace_vertical_formater,
boost::match_default | boost::format_all);
expr = res;
}
// заменить запятую во всех вхождениях на пробел
void oox2odf_converter::Impl::replace_space(std::wstring& expr)
{
const std::wstring res = boost::regex_replace(
expr,
boost::wregex(L"(?:(?:\\{)([^\\}]*?)(?:\\}))|(\".*?\")|('.*?')"),
&replace_space_formater,
boost::match_default | boost::format_all);
expr = res;
}
std::wstring replace_(boost::wsmatch const & what)
{
if (what[1].matched)
{
std::wstring inner = what[1].str();
boost::algorithm::replace_all(inner, L",", L" ");
return inner;
}
else if (what[2].matched)
return what[2].str();
else if (what[3].matched)
return what[3].str();
}
std::wstring oox2odf_converter::Impl::replace_arguments1(std::wstring & workstr1)
{
std::wstring out;
std::wstring workstr = workstr1;
replace_vertical(workstr);
replace_semicolons(workstr);
std::vector<std::wstring> distance;
boost::algorithm::split(distance,workstr, boost::algorithm::is_any_of(L";"), boost::algorithm::token_compress_on);
BOOST_FOREACH(std::wstring &d, distance)
{
replace_cells_range(d);
out = out + d + std::wstring(L";");
}
if (out.length()>0) out = out.substr(0,out.length()-1);
return out ;
}
std::wstring oox2odf_converter::Impl::convert_scobci(boost::wsmatch const & what)
{
if (what[1].matched)
{
std::wstring inner = what[1].str();
boost::algorithm::replace_all(inner, L"(", L"SCOBCAIN");
boost::algorithm::replace_all(inner, L")", L"SCOBCAOUT");
boost::algorithm::replace_all(inner, L" ", L"PROBEL");
boost::algorithm::replace_all(inner, L"'", L"APOSTROF");
return inner;
}
else if (what[2].matched)
{
std::wstring inner = what[2].str();
boost::algorithm::replace_all(inner, L"(", L"SCOBCAIN");
boost::algorithm::replace_all(inner, L")", L"SCOBCAOUT");
boost::algorithm::replace_all(inner, L" ", L"PROBEL");
boost::algorithm::replace_all(inner, L"\"", L"KAVYCHKA");
return inner;
}
else if (what[3].matched)
return what[3].str();
}
std::wstring oox2odf_converter::Impl::replace_arguments(boost::wsmatch const & what)
{
std::wstring out;
int sz = what.size();
std::wstring c1= what[1].str();
std::wstring c2= what[2].str();
std::wstring c3= what[3].str();
if (what[1].matched)
{
std::wstring workstr = what[1].str();
replace_vertical(workstr);
replace_semicolons(workstr);
std::vector<std::wstring> distance;
boost::algorithm::split(distance,workstr, boost::algorithm::is_any_of(L";"), boost::algorithm::token_compress_on);
BOOST_FOREACH(std::wstring &d, distance)
{
replace_cells_range(d);
out = out + d + std::wstring(L";");
}
if (out.length()>0) out = out.substr(0,out.length()-1);
}
else if (what[2].matched)
out = what[2].str();
else if (what[3].matched)
out = what[3].str();
return out ;
}
std::wstring oox2odf_converter::Impl::convert(const std::wstring& expr)
{
if (is_forbidden1(expr))
return L"NULLFORMULA";
std::wstring workstr = expr;
replace_cells_range(workstr);
replace_vertical(workstr);
replace_semicolons(workstr);
return workstr;
}
// of:=(Formula) -> (Formula)
std::wstring oox2odf_converter::Impl::convert_formula(const std::wstring & expr)
{
std::wstring workstr = expr;
std::wstring res1 = boost::regex_replace(
workstr,
boost::wregex(L"('.*?')|(\".*?\")"),
&oox2odf_converter::Impl::convert_scobci, boost::match_default | boost::format_all);
std::wstring res = boost::regex_replace(
res1,
boost::wregex(L"(?:(?=[()])(.*?)(?=[)]))"),
&oox2odf_converter::Impl::replace_arguments, boost::match_default | boost::format_all);
if (res1 == res)
{
boost::algorithm::replace_all(res1, L"KAVYCHKA", L"\""); //IMCONJUGATE_emb.xlsx
res = boost::regex_replace(
res1,
boost::wregex(L"(\\$?\\w+\\!)?([a-zA-Z$]+\\d{1,})\\:?([a-zA-Z$]+\\d{1,})?"),
&replace_cells_range_formater1,
boost::match_default | boost::format_all);
replace_vertical(res);
replace_semicolons(res);
}
boost::algorithm::replace_all(res, L"SCOBCAIN", L"(");
boost::algorithm::replace_all(res, L"SCOBCAOUT", L")");
boost::algorithm::replace_all(res, L"PROBEL", L" ");
boost::algorithm::replace_all(res, L"APOSTROF", L"'");
boost::algorithm::replace_all(res, L"KAVYCHKA", L"\"");
return std::wstring(L"of:=") + res;
}
std::wstring oox2odf_converter::Impl::convert_conditional_formula(const std::wstring & expr)
{
std::wstring workstr = expr;
std::wstring res1 = boost::regex_replace(
workstr,
boost::wregex(L"('.*?')|(\".*?\")"),
&oox2odf_converter::Impl::convert_scobci,boost::match_default | boost::format_all);
std::wstring res = boost::regex_replace(
res1,
boost::wregex(L"(?:(?=[()])(.*?)(?=[)]))"),
&oox2odf_converter::Impl::replace_arguments,boost::match_default | boost::format_all);
if (res1 == res)
{
res = boost::regex_replace(res1,
boost::wregex(L"(\\$?\\w+\\!)?([a-zA-Z$]+\\d{1,})\\:?([a-zA-Z$]+\\d{1,})?"),
&replace_cells_range_formater1,
boost::match_default | boost::format_all);
replace_vertical(res);
replace_semicolons(res);
}
boost::algorithm::replace_all(res, L"SCOBCAIN", L"(");
boost::algorithm::replace_all(res, L"SCOBCAOUT", L")");
boost::algorithm::replace_all(res, L"PROBEL", L" ");
boost::algorithm::replace_all(res, L"APOSTROF", L"'");
boost::algorithm::replace_all(res, L"KAVYCHKA", L"\"");
return res;
}
//Sheet2!C3:C19,Sheet2!L27:L34
//в
//Sheet2.C3:Sheet2.C19 Sheet2.L29:Sheet2.L36
//todooo
std::wstring oox2odf_converter::Impl::convert_chart_distance(const std::wstring& expr1)
{
std::wstring expr = expr1;
int res = expr.find(L"(");
if (res ==0) expr = expr.substr(res + 1, expr.size()-1);
res= expr.rfind(L")");
if (res ==expr.size()-2) expr = expr.substr(0, res);
//распарсить по диапазонам - одф-пробел, ик-эль-запятая
std::vector<std::wstring> distance_inp;
std::vector<std::wstring> distance_out;
boost::algorithm::split(distance_inp,expr, boost::algorithm::is_any_of(L","), boost::algorithm::token_compress_on);
for (int i = 0; i < distance_inp.size(); i++)
{
std::wstring sheet;
std::vector<std::wstring> range;
std::vector<std::wstring> cells;
boost::algorithm::split(range, distance_inp[i], boost::algorithm::is_any_of(L":"), boost::algorithm::token_compress_on);
for (int j = 0 ; j < range.size(); j++)
{
int pos = range[j].find('!');
if (0 <= pos)
{
if (sheet.empty())
sheet = range[j].substr(0, pos);
}
cells.push_back(range[j].substr(pos + 1));
}
std::wstring cells_out;
for (int c = 0; c < cells.size(); c++)
{
if (!sheet.empty())
cells_out += sheet + L".";
cells_out += cells[c];
cells_out += L":";
}
int res1 = sheet.find(L"-");
int res2 = sheet.find(L"'");
if (res1 >= 0 && !(res2 == 0))
{
sheet = L"'" + sheet + L"'";
}
distance_out.push_back(cells_out.substr(0, cells_out.size()-1));
}
std::wstring result;
for (int i = 0 ; i < distance_out.size(); i++)
{
result += distance_out[i];
result += L" ";
}
return result.substr(0, result.size()-1);
}
oox2odf_converter::oox2odf_converter(): impl_(new oox2odf_converter::Impl)
{
}
oox2odf_converter::~oox2odf_converter()
{
}
std::wstring oox2odf_converter::convert(const std::wstring& expr)
{
return impl_->convert(expr);
}
std::wstring oox2odf_converter::convert_conditional_formula(const std::wstring& expr)
{
return impl_->convert_conditional_formula(expr);
}
std::wstring oox2odf_converter::convert_formula(const std::wstring& expr)
{
return impl_->convert_formula(expr);
}
std::wstring oox2odf_converter::convert_chart_distance(const std::wstring& expr)
{
return impl_->convert_chart_distance(expr);
}
std::wstring oox2odf_converter::convert_named_ref(const std::wstring& expr)
{
std::wstring workstr = expr;
impl_->replace_named_ref(workstr);
return workstr;
}
std::wstring oox2odf_converter::find_base_cell(const std::wstring& expr)
{
return impl_->find_base_cell(expr);
}
std::wstring oox2odf_converter::convert_ref(std::wstring const & expr)
{
std::wstring workstr = expr;
impl_->replace_cells_range(workstr);
return workstr;
}
std::wstring oox2odf_converter::convert_spacechar(std::wstring expr)
{
while(true)
{
int pos = expr.find(L"%20");
if (pos <0)break;
expr.replace(pos,3,L" ");
}
return expr;
}
size_t getColAddressInv(const std::wstring & a_)
{
std::wstring a = a_;
::boost::algorithm::to_upper(a);
static const size_t r = (L'Z' - L'A' + 1);
size_t mul = 1;
bool f = true;
size_t res = 0;
BOOST_REVERSE_FOREACH(const wchar_t c, a)
{
size_t v = c - L'A';
if (f)
f = false;
else
v += 1;
res += v * mul;
mul *= r;
}
return res;
}
size_t getRowAdderssInv(const std::wstring & a_)
{
int sz = a_.length();
if (a_.length()>0)
{
return boost::lexical_cast<size_t>(a_)-1;
}
else
return 0;
}
void splitCellAddress(const std::wstring & a_, std::wstring & col, std::wstring & row)
{
std::wstring a = a_;
std::reverse(a.begin(), a.end());
::boost::algorithm::replace_all(a, L"$", L"");
//::boost::algorithm::replace_all(a, L"'", L"");
::boost::algorithm::to_upper(a);
BOOST_FOREACH(wchar_t c, a)
{
if (c >= L'0' && c <= L'9')
row +=c;
else
col += c;
}
std::reverse(col.begin(), col.end());
std::reverse(row.begin(), row.end());
}
void getCellAddressInv(const std::wstring & a_, int & col, int & row)
{
std::wstring colStr=L"", rowStr=L"";
splitCellAddress(a_, colStr, rowStr);
col = getColAddressInv(colStr);
row = getRowAdderssInv(rowStr);
}
int oox2odf_converter::get_count_value_points(std::wstring expr)
{
int count =0;
std::vector< std::wstring > splitted;
boost::algorithm::replace_all(expr, L"(", L"");
boost::algorithm::replace_all(expr, L")", L"");
boost::algorithm::split(splitted, expr, boost::algorithm::is_any_of(L","), boost::algorithm::token_compress_on);
for (long i=0; i < splitted.size(); i++)
{
int res = splitted[i].find(L"!");
if (res > 0) splitted[i] = splitted[i].substr(res+1, splitted[i].size()-res);
std::vector< std::wstring >cells;
boost::algorithm::split(cells, splitted[i], boost::algorithm::is_any_of(L":"), boost::algorithm::token_compress_on);
if (cells.size() >1)
{
int col_1, row_1, col_2, row_2;
getCellAddressInv(cells[0],col_1,row_1);
getCellAddressInv(cells[1],col_2,row_2);
count += std::max(col_2-col_1+1, row_2-row_1+1);
}
else count ++;
}
return count;
}
//bool oox2odf_converter::find_first_ref(std::wstring const & expr, std::wstring & table, std::wstring & ref)
//{
// return impl_->find_first_ref(expr, table, ref);
//}
//bool oox2odf_converter::find_first_last_ref(std::wstring const & expr, std::wstring & table, std::wstring & ref_first,std::wstring & ref_last)
//{
// return impl_->find_first_last_ref(expr, table, ref_first,ref_last);
//}
}
}