/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2012 Artem Pavlenko * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * *****************************************************************************/ // mapnik #include #include #include #include #if _MSC_VER #define snprintf _snprintf #endif #define BOOST_SPIRIT_AUTO(domain_, name, expr) \ typedef boost::proto::result_of:: \ deep_copy::type name##_expr_type; \ BOOST_SPIRIT_ASSERT_MATCH( \ boost::spirit::domain_::domain, name##_expr_type); \ BOOST_AUTO(name, boost::proto::deep_copy(expr)); \ // karma is used by default unless // the boost version is too old #define MAPNIK_KARMA_TO_STRING #ifdef MAPNIK_KARMA_TO_STRING #include #if BOOST_VERSION < 104500 #undef MAPNIK_KARMA_TO_STRING #else #include #endif #endif namespace mapnik { namespace util { using namespace boost::spirit; BOOST_SPIRIT_AUTO(qi, INTEGER, qi::int_) #ifdef BIGINT BOOST_SPIRIT_AUTO(qi, LONGLONG, qi::long_long) #endif BOOST_SPIRIT_AUTO(qi, FLOAT, qi::float_) BOOST_SPIRIT_AUTO(qi, DOUBLE, qi::double_) struct bool_symbols : qi::symbols { bool_symbols() { add("true",true) ("false",false) ("yes",true) ("no",false) ("on",true) ("off",false) ("1",true) ("0",false); } }; bool string2bool(const char * iter, const char * end, bool & result) { using boost::spirit::qi::no_case; bool r = qi::phrase_parse(iter,end, no_case[bool_symbols()] ,ascii::space,result); return r && (iter == end); } bool string2bool(std::string const& value, bool & result) { using boost::spirit::qi::no_case; std::string::const_iterator str_beg = value.begin(); std::string::const_iterator str_end = value.end(); bool r = qi::phrase_parse(str_beg,str_end,no_case[bool_symbols()],ascii::space,result); return r && (str_beg == str_end); } bool string2int(const char * iter, const char * end, int & result) { bool r = qi::phrase_parse(iter,end,INTEGER,ascii::space,result); return r && (iter == end); } bool string2int(std::string const& value, int & result) { std::string::const_iterator str_beg = value.begin(); std::string::const_iterator str_end = value.end(); bool r = qi::phrase_parse(str_beg,str_end,INTEGER,ascii::space,result); return r && (str_beg == str_end); } #ifdef BIGINT bool string2int(const char * iter, const char * end, mapnik::value_integer & result) { bool r = qi::phrase_parse(iter,end,LONGLONG,ascii::space,result); return r && (iter == end); } bool string2int(std::string const& value, mapnik::value_integer & result) { std::string::const_iterator str_beg = value.begin(); std::string::const_iterator str_end = value.end(); bool r = qi::phrase_parse(str_beg,str_end,LONGLONG,ascii::space,result); return r && (str_beg == str_end); } #endif bool string2double(std::string const& value, double & result) { std::string::const_iterator str_beg = value.begin(); std::string::const_iterator str_end = value.end(); bool r = qi::phrase_parse(str_beg,str_end,DOUBLE,ascii::space,result); return r && (str_beg == str_end); } bool string2double(const char * iter, const char * end, double & result) { bool r = qi::phrase_parse(iter,end,DOUBLE,ascii::space,result); return r && (iter == end); } bool string2float(std::string const& value, float & result) { std::string::const_iterator str_beg = value.begin(); std::string::const_iterator str_end = value.end(); bool r = qi::phrase_parse(str_beg,str_end,FLOAT,ascii::space,result); return r && (str_beg == str_end); } bool string2float(const char * iter, const char * end, float & result) { bool r = qi::phrase_parse(iter,end,FLOAT,ascii::space,result); return r && (iter == end); } // double conversion - here we use sprintf over karma to work // around https://github.com/mapnik/mapnik/issues/1741 bool to_string(std::string & s, double val) { s.resize(s.capacity()); while (true) { size_t n2 = static_cast(snprintf(&s[0], s.size()+1, "%g", val)); if (n2 <= s.size()) { s.resize(n2); break; } s.resize(n2); } return true; } #ifdef MAPNIK_KARMA_TO_STRING bool to_string(std::string & str, int value) { namespace karma = boost::spirit::karma; std::back_insert_iterator sink(str); return karma::generate(sink, value); } #ifdef BIGINT bool to_string(std::string & str, mapnik::value_integer value) { namespace karma = boost::spirit::karma; std::back_insert_iterator sink(str); return karma::generate(sink, value); } #endif bool to_string(std::string & str, unsigned value) { namespace karma = boost::spirit::karma; std::back_insert_iterator sink(str); return karma::generate(sink, value); } bool to_string(std::string & str, bool value) { namespace karma = boost::spirit::karma; std::back_insert_iterator sink(str); return karma::generate(sink, value); } #else bool to_string(std::string & s, int val) { s.resize(s.capacity()); while (true) { size_t n2 = static_cast(snprintf(&s[0], s.size()+1, "%d", val)); if (n2 <= s.size()) { s.resize(n2); break; } s.resize(n2); } return true; } #ifdef BIGINT bool to_string(std::string & s, mapnik::value_integer val) { s.resize(s.capacity()); while (true) { size_t n2 = static_cast(snprintf(&s[0], s.size()+1, "%lld", val)); if (n2 <= s.size()) { s.resize(n2); break; } s.resize(n2); } return true; } #endif bool to_string(std::string & s, unsigned val) { s.resize(s.capacity()); while (true) { size_t n2 = static_cast(snprintf(&s[0], s.size()+1, "%u", val)); if (n2 <= s.size()) { s.resize(n2); break; } s.resize(n2); } return true; } bool to_string(std::string & s, bool val) { if (val) s = "true"; else s = "false"; return true; } #endif } // end namespace util }