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vcmi/lib/ERMParser.cpp
Ivan Savenko 407acce4c6 - gcc 4.5 / boost 1.46 compilation fixes
- configure will accept CXXFLAGS parameter correctly
- boost version check in ERMParser - to skip compilation with old boost
2011-03-29 17:16:10 +00:00

887 lines
22 KiB
C++

#include "ERMParser.h"
#include <boost/version.hpp>
//To make compilation with older boost versions possible
//Don't know exact version - 1.46 works while 1.42 not
#if BOOST_VERSION >= 104600
#include <boost/spirit/include/qi.hpp>
#include <boost/bind.hpp>
#include <boost/spirit/include/phoenix_core.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>
#include <boost/spirit/include/phoenix_fusion.hpp>
#include <boost/spirit/include/phoenix_stl.hpp>
#include <boost/spirit/include/phoenix_object.hpp>
#include <boost/fusion/include/adapt_struct.hpp>
#include <fstream>
namespace spirit = boost::spirit;
namespace qi = boost::spirit::qi;
namespace ascii = spirit::ascii;
namespace phoenix = boost::phoenix;
//Greenspun's Tenth Rule of Programming:
//Any sufficiently complicated C or Fortran program contains an ad hoc, informally-specified,
//bug-ridden, slow implementation of half of Common Lisp.
//actually these macros help in dealing with boost::variant
#define BEGIN_TYPE_CASE(LinePrinterVisitor) struct LinePrinterVisitor : boost::static_visitor<> \
{
#define FOR_TYPE(TYPE, VAR) void operator()(TYPE const& VAR) const
#define DO_TYPE_CASE(LinePrinterVisitor, VAR) } ___UN; boost::apply_visitor(___UN, VAR);
ERMParser::ERMParser(std::string file)
:srcFile(file)
{}
void ERMParser::parseFile()
{
std::ifstream file(srcFile.c_str());
if(!file.is_open())
{
tlog1 << "File " << srcFile << " not found or unable to open\n";
return;
}
//check header
char header[5];
file.getline(header, ARRAY_COUNT(header));
if(std::string(header) != "ZVSE")
{
tlog1 << "File " << srcFile << " has wrong header\n";
return;
}
//parse file
char lineBuf[1024];
parsedLine = 1;
std::string wholeLine; //used for buffering multiline lines
bool inString = false;
while(file.good())
{
//reading line
file.getline(lineBuf, ARRAY_COUNT(lineBuf));
if(file.gcount() == ARRAY_COUNT(lineBuf))
{
tlog1 << "Encountered a problem during parsing " << srcFile << " too long line (" << parsedLine << ")\n";
}
switch(classifyLine(lineBuf, inString))
{
case ERMParser::COMMAND_FULL:
case ERMParser::COMMENT:
{
repairEncoding(lineBuf, ARRAY_COUNT(lineBuf));
parseLine(lineBuf);
}
break;
case ERMParser::UNFINISHED_STRING:
{
if(!inString)
wholeLine = "";
inString = true;
wholeLine += lineBuf;
}
break;
case ERMParser::END_OF_STRING:
{
inString = false;
wholeLine += lineBuf;
repairEncoding(wholeLine);
parseLine(wholeLine);
}
break;
}
//loop end
++parsedLine;
}
}
void callme(char const& i)
{
std::cout << "fd";
}
namespace ERM
{
struct TStringConstant
{
std::string str;
};
struct TMacroUsage
{
std::string macro;
};
//macro with '?', for write only
struct TQMacroUsage
{
std::string qmacro;
};
//definition of a macro
struct TMacroDef
{
std::string macro;
};
typedef std::string TCmdName;
struct TVarExpNotMacro
{
typedef boost::optional<int> Tval;
boost::optional<char> questionMark;
std::string varsym;
Tval val;
};
typedef boost::variant<TVarExpNotMacro, TMacroUsage> TVarExp;
//write-only variable expression
struct TVarpExp
{
typedef boost::variant<TVarExpNotMacro, TQMacroUsage> Tvartype;
Tvartype var;
};
//i-expression (identifier expression) - an integral constant, variable symbol or array symbol
typedef boost::variant<TVarExp, int> TIexp;
struct TArithmeticOp
{
TIexp lhs, rhs;
char opcode;
};
struct TVRLogic
{
char opcode;
TIexp var;
};
struct TVRArithmetic
{
char opcode;
TIexp rhs;
};
struct TSemiCompare
{
std::string compSign;
TIexp rhs;
};
struct TCurriedString
{
TIexp iexp;
TStringConstant string;
};
struct TVarConcatString
{
TVarExp var;
TStringConstant string;
};
typedef boost::variant<TVarConcatString, TStringConstant, TCurriedString, TSemiCompare, TMacroUsage, TMacroDef, TIexp, TVarpExp, qi::unused_type> TBodyOptionItem;
typedef std::vector<TBodyOptionItem> TNormalBodyOptionList;
struct TNormalBodyOption
{
char optionCode;
TNormalBodyOptionList params;
};
typedef boost::variant<TVRLogic, TVRArithmetic, TNormalBodyOption> TBodyOption;
typedef boost::variant<TIexp, TArithmeticOp > TIdentifierInternal;
typedef std::vector< TIdentifierInternal > Tidentifier;
struct TComparison
{
std::string compSign;
TIexp lhs, rhs;
};
struct Tcondition;
typedef
boost::optional<
boost::recursive_wrapper<Tcondition>
>
TconditionNode;
struct Tcondition
{
typedef boost::variant<
TComparison,
int>
Tcond; //comparison or condition flag
char ctype;
Tcond cond;
TconditionNode rhs;
};
struct Ttrigger
{
TCmdName name;
boost::optional<Tidentifier> identifier;
boost::optional<Tcondition> condition;
};
//a dirty workaround for preprocessor magic that prevents the use types with comma in it in BOOST_FUSION_ADAPT_STRUCT
//see http://comments.gmane.org/gmane.comp.lib.boost.user/62501 for some info
//
//moreover, I encountered a quite serious bug in boost: http://boost.2283326.n4.nabble.com/container-hpp-111-error-C2039-value-type-is-not-a-member-of-td3352328.html
//not sure how serious it is...
//typedef boost::variant<char, TStringConstant, TMacroUsage, TMacroDef> bodyItem;
typedef std::vector<TBodyOption> Tbody;
struct Tinstruction
{
TCmdName name;
boost::optional<Tidentifier> identifier;
boost::optional<Tcondition> condition;
Tbody body;
};
struct Treceiver
{
TCmdName name;
boost::optional<Tidentifier> identifier;
boost::optional<Tcondition> condition;
boost::optional<Tbody> body;
};
struct TPostTrigger
{
TCmdName name;
boost::optional<Tidentifier> identifier;
boost::optional<Tcondition> condition;
};
struct Tcommand
{
typedef boost::variant<
Ttrigger,
Tinstruction,
Treceiver,
TPostTrigger
>
Tcmd;
Tcmd cmd;
std::string comment;
};
typedef boost::variant<Tcommand, std::string, qi::unused_type> Tline;
//console printer
struct VarPrinterVisitor : boost::static_visitor<>
{
void operator()(TVarExpNotMacro const& val) const
{
tlog2 << val.varsym;
if(val.val.is_initialized())
{
tlog2 << val.val.get();
}
}
void operator()(TMacroUsage const& val) const
{
tlog2 << "$" << val.macro << "&";
}
};
void varPrinter(const TVarExp & var)
{
boost::apply_visitor(VarPrinterVisitor(), var);
}
struct IExpPrinterVisitor : boost::static_visitor<>
{
void operator()(int const & constant) const
{
tlog2 << constant;
}
void operator()(TVarExp const & var) const
{
varPrinter(var);
}
};
void iexpPrinter(const TIexp & exp)
{
boost::apply_visitor(IExpPrinterVisitor(), exp);
}
struct IdentifierPrinterVisitor : boost::static_visitor<>
{
void operator()(TIexp const& iexp) const
{
iexpPrinter(iexp);
}
void operator()(TArithmeticOp const& arop) const
{
iexpPrinter(arop.lhs);
tlog2 << " " << arop.opcode << " ";
iexpPrinter(arop.rhs);
}
};
void identifierPrinter(const boost::optional<Tidentifier> & id)
{
if(id.is_initialized())
{
tlog2 << "identifier: ";
BOOST_FOREACH(TIdentifierInternal x, id.get())
{
tlog2 << "#";
boost::apply_visitor(IdentifierPrinterVisitor(), x);
}
}
}
struct ConditionCondPrinterVisitor : boost::static_visitor<>
{
void operator()(TComparison const& cmp) const
{
iexpPrinter(cmp.lhs);
tlog2 << " " << cmp.compSign << " ";
iexpPrinter(cmp.rhs);
}
void operator()(int const& flag) const
{
tlog2 << "condflag " << flag;
}
};
void conditionPrinter(const boost::optional<Tcondition> & cond)
{
if(cond.is_initialized())
{
Tcondition condp = cond.get();
tlog2 << " condition: ";
boost::apply_visitor(ConditionCondPrinterVisitor(), condp.cond);
tlog2 << " cond type: " << condp.ctype;
//recursive call
if(condp.rhs.is_initialized())
{
tlog2 << "rhs: ";
boost::optional<Tcondition> rhsc = condp.rhs.get().get();
conditionPrinter(rhsc);
}
else
{
tlog2 << "no rhs; ";
}
}
}
struct BodyVarpPrinterVisitor : boost::static_visitor<>
{//<TVarExpNotMacro, TQMacroUsage>
void operator()(TVarExpNotMacro const& cmp) const
{
if(cmp.questionMark.is_initialized())
{
tlog2 << cmp.questionMark.get();
}
if(cmp.val.is_initialized())
{
tlog2 << "val:" << cmp.val.get();
}
tlog2 << "varsym: |" << cmp.varsym << "|";
}
void operator()(TQMacroUsage const& cmp) const
{
tlog2 << "???$$" << cmp.qmacro << "$$";
}
};
struct BodyOptionItemPrinterVisitor : boost::static_visitor<>
{
//, , , , , , , , qi::unused_type
void operator()(TVarConcatString const& cmp) const
{
tlog2 << "+concat\"";
varPrinter(cmp.var);
tlog2 << " with " << cmp.string.str;
}
void operator()(TStringConstant const& cmp) const
{
tlog2 << " \"" << cmp.str << "\" ";
}
void operator()(TCurriedString const& cmp) const
{
tlog2 << "cs: ";
iexpPrinter(cmp.iexp);
tlog2 << " '" << cmp.string.str << "' ";
}
void operator()(TSemiCompare const& cmp) const
{
tlog2 << cmp.compSign << "; rhs: ";
iexpPrinter(cmp.rhs);
}
void operator()(TMacroUsage const& cmp) const
{
tlog2 << "$$" << cmp.macro << "$$";
}
void operator()(TMacroDef const& cmp) const
{
tlog2 << "@@" << cmp.macro << "@@";
}
void operator()(TIexp const& cmp) const
{
iexpPrinter(cmp);
}
void operator()(TVarpExp const& cmp) const
{
tlog2 << "varp";
boost::apply_visitor(BodyVarpPrinterVisitor(), cmp.var);
}
void operator()(qi::unused_type const& cmp) const
{
tlog2 << "nothing";
}
};
struct BodyOptionVisitor : boost::static_visitor<>
{
void operator()(TVRLogic const& cmp) const
{
tlog2 << cmp.opcode << " ";
iexpPrinter(cmp.var);
}
void operator()(TVRArithmetic const& cmp) const
{
tlog2 << cmp.opcode << " ";
iexpPrinter(cmp.rhs);
}
void operator()(TNormalBodyOption const& cmp) const
{
tlog2 << cmp.optionCode << "~";
BOOST_FOREACH(TBodyOptionItem optList, cmp.params)
{
boost::apply_visitor(BodyOptionItemPrinterVisitor(), optList);
}
}
};
void bodyPrinter(const Tbody & body)
{
tlog2 << " body items: ";
BOOST_FOREACH(TBodyOption bi, body)
{
tlog2 << " (";
apply_visitor(BodyOptionVisitor(), bi);
tlog2 << ") ";
}
}
struct CommandPrinterVisitor : boost::static_visitor<>
{
void operator()(Ttrigger const& trig) const
{
tlog2 << "trigger: " << trig.name << " ";
identifierPrinter(trig.identifier);
conditionPrinter(trig.condition);
}
void operator()(Tinstruction const& trig) const
{
tlog2 << "instruction: " << trig.name << " ";
identifierPrinter(trig.identifier);
conditionPrinter(trig.condition);
bodyPrinter(trig.body);
}
void operator()(Treceiver const& trig) const
{
tlog2 << "receiver: " << trig.name << " ";
identifierPrinter(trig.identifier);
conditionPrinter(trig.condition);
if(trig.body.is_initialized())
bodyPrinter(trig.body.get());
}
void operator()(TPostTrigger const& trig) const
{
tlog2 << "post trigger: " << trig.name << " ";
identifierPrinter(trig.identifier);
conditionPrinter(trig.condition);
}
};
struct LinePrinterVisitor : boost::static_visitor<>
{
void operator()(Tcommand const& cmd) const
{
CommandPrinterVisitor un;
boost::apply_visitor(un, cmd.cmd);
std::cout << "Line comment: " << cmd.comment << std::endl;
}
void operator()(std::string const& comment) const
{
}
void operator()(qi::unused_type const& nothing) const
{
}
};
void printLineAST(const Tline & ast)
{
tlog2 << "";
boost::apply_visitor(LinePrinterVisitor(), ast);
}
}
BOOST_FUSION_ADAPT_STRUCT(
ERM::TStringConstant,
(std::string, str)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TMacroUsage,
(std::string, macro)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TQMacroUsage,
(std::string, qmacro)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TMacroDef,
(std::string, macro)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVarExpNotMacro,
(boost::optional<char>, questionMark)
(std::string, varsym)
(ERM::TVarExpNotMacro::Tval, val)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TArithmeticOp,
(ERM::TIexp, lhs)
(char, opcode)
(ERM::TIexp, rhs)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVarpExp,
(ERM::TVarpExp::Tvartype, var)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVRLogic,
(char, opcode)
(ERM::TIexp, var)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVRArithmetic,
(char, opcode)
(ERM::TIexp, rhs)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TNormalBodyOption,
(char, optionCode)
(ERM::TNormalBodyOptionList, params)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Ttrigger,
(ERM::TCmdName, name)
(boost::optional<ERM::Tidentifier>, identifier)
(boost::optional<ERM::Tcondition>, condition)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TComparison,
(ERM::TIexp, lhs)
(std::string, compSign)
(ERM::TIexp, rhs)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TSemiCompare,
(std::string, compSign)
(ERM::TIexp, rhs)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TCurriedString,
(ERM::TIexp, iexp)
(ERM::TStringConstant, string)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVarConcatString,
(ERM::TVarExp, var)
(ERM::TStringConstant, string)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Tcondition,
(char, ctype)
(ERM::Tcondition::Tcond, cond)
(ERM::TconditionNode, rhs)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Tinstruction,
(ERM::TCmdName, name)
(boost::optional<ERM::Tidentifier>, identifier)
(boost::optional<ERM::Tcondition>, condition)
(ERM::Tbody, body)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Treceiver,
(ERM::TCmdName, name)
(boost::optional<ERM::Tidentifier>, identifier)
(boost::optional<ERM::Tcondition>, condition)
(boost::optional<ERM::Tbody>, body)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TPostTrigger,
(ERM::TCmdName, name)
(boost::optional<ERM::Tidentifier>, identifier)
(boost::optional<ERM::Tcondition>, condition)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Tcommand,
(ERM::Tcommand::Tcmd, cmd)
(std::string, comment)
)
namespace ERM
{
template<typename Iterator>
struct ERM_grammar : qi::grammar<Iterator, Tline(), ascii::space_type>
{
ERM_grammar() : ERM_grammar::base_type(rline, "ERM script line")
{
//do not build too complicated expressions, e.g. (a >> b) | c, qi has problems with them
macroUsage %= qi::lexeme[qi::lit('$') >> *(qi::char_ - '$') >> qi::lit('$')];
macroDef %= qi::lexeme[qi::lit('@') >> *(qi::char_ - '@') >> qi::lit('@')];
varExpNotMacro %= -qi::char_("?") >> (+(qi::char_("a-z") - 'u')) >> -qi::int_;
qMacroUsage %= qi::lexeme[qi::lit("?$") >> *(qi::char_ - '$') >> qi::lit('$')];
varExp %= varExpNotMacro | macroUsage;
iexp %= varExp | qi::int_;
varp %=/* qi::lit("?") >> */(varExpNotMacro | qMacroUsage);
comment %= *qi::char_;
commentLine %= (~qi::char_('!') >> comment | (qi::char_('!') >> (~qi::char_("?!$#")) >> comment ));
cmdName %= qi::lexeme[qi::repeat(2)[qi::char_]];
arithmeticOp %= iexp >> qi::char_ >> iexp;
//identifier is usually a vector of i-expressions but VR receiver performs arithmetic operations on it
identifier %= (iexp | arithmeticOp) % qi::lit('/');
comparison %= iexp >> (*qi::char_("<=>")) >> iexp;
condition %= qi::char_("&|X/") >> (comparison | qi::int_) >> -condition;
trigger %= cmdName >> -identifier >> -condition > qi::lit(";"); /////
string %= qi::lexeme['^' >> *(qi::char_ - '^') >> '^'];
VRLogic %= qi::char_("&|X") >> iexp;
VRarithmetic %= qi::char_("+*:/%-") >> iexp;
semiCompare %= *qi::char_("<=>") >> iexp;
curStr %= iexp >> string;
varConcatString %= varExp >> qi::lit("+") >> string;
bodyOptionItem %= varConcatString | curStr | string | semiCompare | macroUsage | macroDef | varp | iexp | qi::eps;
exactBodyOptionList %= (bodyOptionItem % qi::lit("/"));
normalBodyOption = qi::char_("A-Z+") > exactBodyOptionList;
bodyOption %= VRLogic | VRarithmetic | normalBodyOption;
body %= qi::lit(":") >> +(bodyOption) > qi::lit(";");
instruction %= cmdName >> -identifier >> -condition >> body;
receiver %= cmdName >> -identifier >> -condition >> -body; //receiver without body exists... change needed
postTrigger %= cmdName >> -identifier >> -condition > qi::lit(";");
command %= (qi::lit("!") >>
(
(qi::lit("?") >> trigger) |
(qi::lit("!") >> receiver) |
(qi::lit("#") >> instruction) |
(qi::lit("$") >> postTrigger)
) >> comment
);
rline %=
(
command | commentLine | spirit::eps
) > spirit::eoi;
//error handling
string.name("string constant");
iexp.name("i-expression");
comment.name("comment");
commentLine.name("comment line");
cmdName.name("name of a command");
identifier.name("identifier");
condition.name("condition");
trigger.name("trigger");
body.name("body");
instruction.name("instruction");
receiver.name("receiver");
postTrigger.name("post trigger");
command.name("command");
rline.name("script line");
qi::on_error<qi::fail>
(
rline
, std::cout //or phoenix::ref(std::count), is there any difference?
<< phoenix::val("Error! Expecting ")
<< qi::_4 // what failed?
<< phoenix::val(" here: \"")
<< phoenix::construct<std::string>(qi::_3, qi::_2) // iterators to error-pos, end
<< phoenix::val("\"")
<< std::endl
);
}
qi::rule<Iterator, TStringConstant(), ascii::space_type> string;
qi::rule<Iterator, TMacroUsage(), ascii::space_type> macroUsage;
qi::rule<Iterator, TQMacroUsage(), ascii::space_type> qMacroUsage;
qi::rule<Iterator, TMacroDef(), ascii::space_type> macroDef;
qi::rule<Iterator, TVarExpNotMacro(), ascii::space_type> varExpNotMacro;
qi::rule<Iterator, TVarExp(), ascii::space_type> varExp;
qi::rule<Iterator, TIexp(), ascii::space_type> iexp;
qi::rule<Iterator, TVarpExp(), ascii::space_type> varp;
qi::rule<Iterator, TArithmeticOp(), ascii::space_type> arithmeticOp;
qi::rule<Iterator, std::string(), ascii::space_type> comment;
qi::rule<Iterator, std::string(), ascii::space_type> commentLine;
qi::rule<Iterator, TCmdName(), ascii::space_type> cmdName;
qi::rule<Iterator, Tidentifier(), ascii::space_type> identifier;
qi::rule<Iterator, TComparison(), ascii::space_type> comparison;
qi::rule<Iterator, Tcondition(), ascii::space_type> condition;
qi::rule<Iterator, TVRLogic(), ascii::space_type> VRLogic;
qi::rule<Iterator, TVRArithmetic(), ascii::space_type> VRarithmetic;
qi::rule<Iterator, TSemiCompare(), ascii::space_type> semiCompare;
qi::rule<Iterator, TCurriedString(), ascii::space_type> curStr;
qi::rule<Iterator, TVarConcatString(), ascii::space_type> varConcatString;
qi::rule<Iterator, TBodyOptionItem(), ascii::space_type> bodyOptionItem;
qi::rule<Iterator, TNormalBodyOptionList(), ascii::space_type> exactBodyOptionList;
qi::rule<Iterator, TNormalBodyOption(), ascii::space_type> normalBodyOption;
qi::rule<Iterator, TBodyOption(), ascii::space_type> bodyOption;
qi::rule<Iterator, Ttrigger(), ascii::space_type> trigger;
qi::rule<Iterator, Tbody(), ascii::space_type> body;
qi::rule<Iterator, Tinstruction(), ascii::space_type> instruction;
qi::rule<Iterator, Treceiver(), ascii::space_type> receiver;
qi::rule<Iterator, TPostTrigger(), ascii::space_type> postTrigger;
qi::rule<Iterator, Tcommand(), ascii::space_type> command;
qi::rule<Iterator, Tline(), ascii::space_type> rline;
};
};
void ERMParser::parseLine( const std::string & line )
{
std::string::const_iterator beg = line.begin(),
end = line.end();
ERM::ERM_grammar<std::string::const_iterator> ERMgrammar;
ERM::Tline AST;
// bool r = qi::phrase_parse(beg, end, ERMgrammar, ascii::space, AST);
// if(!r || beg != end)
// {
// tlog1 << "Parse error for line (" << parsedLine << ") : " << line << std::endl;
// tlog1 << "\tCannot parse: " << std::string(beg, end) << std::endl;
// }
// else
// {
// //parsing succeeded
// tlog2 << line << std::endl;
// ERM::printLineAST(AST);
// }
}
ERMParser::ELineType ERMParser::classifyLine( const std::string & line, bool inString ) const
{
ERMParser::ELineType ret;
if(line[0] == '!')
{
if(countHatsBeforeSemicolon(line) % 2 == 1)
{
ret = ERMParser::UNFINISHED_STRING;
}
else
{
ret = ERMParser::COMMAND_FULL;
}
}
else
{
if(inString)
{
if(countHatsBeforeSemicolon(line) % 2 == 1)
{
ret = ERMParser::END_OF_STRING;
}
else
{
ret = ERMParser::UNFINISHED_STRING;
}
}
else
{
ret = ERMParser::COMMENT;
}
}
return ret;
}
int ERMParser::countHatsBeforeSemicolon( const std::string & line ) const
{
//CHECK: omit macros? or anything else?
int numOfHats = 0; //num of '^' before ';'
//check for unmatched ^
BOOST_FOREACH(char c, line)
{
if(c == ';')
break;
if(c == '^')
++numOfHats;
}
return numOfHats;
}
void ERMParser::repairEncoding( std::string & str ) const
{
for(int g=0; g<str.size(); ++g)
if(str[g] & 0x80)
str[g] = '|';
}
void ERMParser::repairEncoding( char * str, int len ) const
{
for(int g=0; g<len; ++g)
if(str[g] & 0x80)
str[g] = '|';
}
#else
ERMParser::ERMParser(std::string file){}
void ERMParser::parseFile(){}
#endif