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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-22 22:13:35 +02:00
vcmi/scripting/erm/ERMParser.cpp
Johannes Schauer Marin Rodrigues a1a5bc28c2
convert line endings from CRLF (Windows) to LF (Linux/Unix)
Mixed line endings cause problems when exporting patches with
git-format-patch and then trying to "git am" a patch with mixed and
non-matching line endings. In such a situation git will fail to apply
the patch.

This commit runs the dos2unix tools on the remaining files with CRLF
(\r\n) line endings to convert them to line-feeds (\n) only.

Files that are Windows specific like *.vcxproj and *.props files were
not converted.

Closes: #3073
2023-10-19 16:23:21 +02:00

530 lines
14 KiB
C++

/*
* ERMParser.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#include "StdInc.h"
#include "ERMParser.h"
#include <boost/spirit/include/qi.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>
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 std::variant
CERMPreprocessor::CERMPreprocessor(const std::string & source)
: sourceStream(source),
lineNo(0),
version(Version::INVALID)
{
//check header
std::string header;
getline(header);
if(header == "ZVSE")
version = Version::ERM;
else if(header == "VERM")
version = Version::VERM;
else
logGlobal->error("File %s has wrong header", fname);
}
class ParseErrorException : public std::exception
{
};
std::string CERMPreprocessor::retrieveCommandLine()
{
std::string wholeCommand;
//parse file
bool verm = false;
bool openedString = false;
int openedBraces = 0;
while(sourceStream.good())
{
std::string line ;
getline(line); //reading line
size_t dash = line.find_first_of('^');
bool inTheMiddle = openedBraces || openedString;
if(!inTheMiddle)
{
if(line.size() < 2)
continue;
if(line[0] != '!' ) //command lines must begin with ! -> otherwise treat as comment
continue;
verm = line[1] == '[';
}
if(openedString)
{
wholeCommand += "\n";
if(dash != std::string::npos)
{
wholeCommand += line.substr(0, dash + 1);
line.erase(0,dash + 1);
openedString = false;
}
else //no closing marker -> the whole line is further part of string
{
wholeCommand += line;
continue;
}
}
int i = 0;
for(; i < line.length(); i++)
{
char c = line[i];
if(!openedString)
{
if(c == '[')
openedBraces++;
else if(c == ']')
{
openedBraces--;
if(!openedBraces) //the last brace has been matched -> stop "parsing", everything else in the line is comment
{
i++;
break;
}
}
else if(c == '^')
openedString = true;
else if(c == ';' && !verm) //do not allow comments inside VExp for now
{
line.erase(i+!verm, line.length() - i - !verm); //leave ';' at the end only at ERM commands
break;
}
// else if(c == ';') // a ';' that is in command line (and not in string) ends the command -> throw away rest
// {
// line.erase(i+!verm, line.length() - i - !verm); //leave ';' at the end only at ERM commands
// break;
// }
}
else if(c == '^')
openedString = false;
}
if(verm && !openedBraces && i < line.length())
{
line.erase(i, line.length() - i);
}
if(wholeCommand.size()) //separate lines with a space
wholeCommand += " ";
wholeCommand += line;
if(!openedBraces && !openedString)
return wholeCommand;
//loop end
}
if(openedBraces || openedString)
{
logGlobal->error("Ill-formed file: %s", fname);
throw ParseErrorException();
}
return "";
}
void CERMPreprocessor::getline(std::string &ret)
{
lineNo++;
std::getline(sourceStream, ret);
boost::trim(ret); //get rid of wspace
}
ERMParser::ERMParser()
{
ERMgrammar = std::make_shared<ERM::ERM_grammar<std::string::const_iterator>>();
}
ERMParser::~ERMParser() = default;
std::vector<LineInfo> ERMParser::parseFile(CERMPreprocessor & preproc)
{
std::vector<LineInfo> ret;
try
{
while(1)
{
std::string command = preproc.retrieveCommandLine();
if(command.length() == 0)
break;
repairEncoding(command);
LineInfo li;
li.realLineNum = preproc.getCurLineNo();
li.tl = parseLine(command, li.realLineNum);
ret.push_back(li);
}
}
catch (ParseErrorException & e)
{
logGlobal->error("ERM Parser Error. File: '%s' Line: %d Exception: '%s'"
, preproc.getCurFileName(), preproc.getCurLineNo(), e.what());
throw;
}
return ret;
}
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,
(std::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::TVarExp, 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)
(std::optional<ERM::TNormalBodyOptionList>, params)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Ttrigger,
(ERM::TCmdName, name)
(std::optional<ERM::Tidentifier>, identifier)
(std::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)
(std::optional<ERM::Tidentifier>, identifier)
(std::optional<ERM::Tcondition>, condition)
(ERM::Tbody, body)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::Treceiver,
(ERM::TCmdName, name)
(std::optional<ERM::Tidentifier>, identifier)
(std::optional<ERM::Tcondition>, condition)
(std::optional<ERM::Tbody>, body)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TPostTrigger,
(ERM::TCmdName, name)
(std::optional<ERM::Tidentifier>, identifier)
(std::optional<ERM::Tcondition>, condition)
)
//BOOST_FUSION_ADAPT_STRUCT(
// ERM::Tcommand,
// (ERM::Tcommand::Tcmd, cmd)
// (std::string, comment)
// )
BOOST_FUSION_ADAPT_STRUCT(
ERM::Tcommand,
(ERM::Tcommand::Tcmd, cmd)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TVExp,
(std::vector<ERM::TVModifier>, modifier)
(std::vector<ERM::TVOption>, children)
)
BOOST_FUSION_ADAPT_STRUCT(
ERM::TSymbol,
(std::vector<ERM::TVModifier>, symModifier)
(std::string, sym)
)
namespace ERM
{
template<typename Iterator>
struct ERM_grammar : qi::grammar<Iterator, TLine(), ascii::space_type>
{
ERM_grammar() : ERM_grammar::base_type(vline, "VERM script line")
{
//do not build too complicated expressions, e.g. (a >> b) | c, qi has problems with them
ERMmacroUsage %= qi::lexeme[qi::lit('$') >> *(qi::char_ - '$') >> qi::lit('$')];
ERMmacroDef %= qi::lexeme[qi::lit('@') >> *(qi::char_ - '@') >> qi::lit('@')];
varExpNotMacro %= -qi::char_("?") >> (+(qi::char_("a-z") - 'u')) >> -qi::int_;
//TODO: mixed var/macro expressions like in !!HE-1&407:Id$cost$; [script 13]
/*qERMMacroUsage %= qi::lexeme[qi::lit("?$") >> *(qi::char_ - '$') >> qi::lit('$')];*/
varExp %= varExpNotMacro | ERMmacroUsage;
iexp %= varExp | qi::int_;
varp %= qi::lit("?") >> varExp;
comment %= *qi::char_;
commentLine %= (~qi::char_("!") >> comment | (qi::char_('!') >> (~qi::char_("?!$#[")) >> comment ));
cmdName %= qi::lexeme[qi::repeat(2)[qi::char_]];
arithmeticOp %= iexp >> qi::char_ >> iexp;
//???
//identifier is usually a vector of i-expressions but VR receiver performs arithmetic operations on it
//identifier %= (iexp | arithmeticOp) % qi::lit('/');
identifier %= iexp % qi::lit('/');
comparison %= iexp >> (*qi::char_("<=>")) >> iexp;
condition %= qi::char_("&|/") >> (comparison | qi::int_) >> -condition;
trigger %= cmdName >> -identifier >> -condition > qi::lit(";"); /////
string %= qi::lexeme['^' >> *(qi::char_ - '^') >> '^'];
VRLogic %= qi::char_("&|") >> iexp;
VRarithmetic %= qi::char_("+*:/%-") >> iexp;
semiCompare %= +qi::char_("<=>") >> iexp;
curStr %= iexp >> string;
varConcatString %= varExp >> qi::lit("+") >> string;
bodyOptionItem %= varConcatString | curStr | string | semiCompare | ERMmacroDef | varp | iexp ;
exactBodyOptionList %= (bodyOptionItem % qi::lit("/"));
normalBodyOption = qi::char_("A-Z") > -(exactBodyOptionList);
bodyOption %= VRLogic | VRarithmetic | normalBodyOption;
body %= qi::lit(":") >> *(bodyOption) > qi::lit(";");
instruction %= cmdName >> -identifier >> -condition >> body;
receiver %= cmdName >> -identifier >> -condition >> body;
postTrigger %= cmdName >> -identifier >> -condition > qi::lit(";");
command %= (qi::lit("!") >>
(
(qi::lit("?") >> trigger) |
(qi::lit("!") >> receiver) |
(qi::lit("#") >> instruction) |
(qi::lit("$") >> postTrigger)
) //>> comment
);
rline %=
(
command | commentLine | spirit::eps
);
vmod %= qi::string("`") | qi::string(",!") | qi::string(",") | qi::string("#'") | qi::string("'");
vsym %= *vmod >> qi::lexeme[+qi::char_("+*/$%&_=<>~a-zA-Z0-9-")];
qi::real_parser<double, qi::strict_real_policies<double> > strict_double;
vopt %= qi::lexeme[(qi::lit("!") >> qi::char_ >> qi::lit("!"))] | qi::lexeme[strict_double] | qi::lexeme[qi::int_] | command | vexp | string | vsym;
vexp %= *vmod >> qi::lit("[") >> *(vopt) >> qi::lit("]");
vline %= (( qi::lit("!") >>vexp) | rline ) > spirit::eoi;
//error handling
string.name("string constant");
ERMmacroUsage.name("macro usage");
/*qERMMacroUsage.name("macro usage with ?");*/
ERMmacroDef.name("macro definition");
varExpNotMacro.name("variable expression (not macro)");
varExp.name("variable expression");
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("ERM script line");
vsym.name("V symbol");
vopt.name("V option");
vexp.name("V expression");
vline.name("VERM line");
qi::on_error<qi::fail>
(
vline
, 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("\"")
);
}
qi::rule<Iterator, TStringConstant(), ascii::space_type> string;
qi::rule<Iterator, TMacroUsage(), ascii::space_type> ERMmacroUsage;
/*qi::rule<Iterator, TQMacroUsage(), ascii::space_type> qERMMacroUsage;*/
qi::rule<Iterator, TMacroDef(), ascii::space_type> ERMmacroDef;
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, TERMline(), ascii::space_type> rline;
qi::rule<Iterator, TSymbol(), ascii::space_type> vsym;
qi::rule<Iterator, TVModifier(), ascii::space_type> vmod;
qi::rule<Iterator, TVOption(), ascii::space_type> vopt;
qi::rule<Iterator, TVExp(), ascii::space_type> vexp;
qi::rule<Iterator, TLine(), ascii::space_type> vline;
};
}
ERM::TLine ERMParser::parseLine(const std::string & line, int realLineNo)
{
try
{
return parseLine(line);
}
catch(...)
{
//logGlobal->error("Parse error occurred in file %s (line %d): %s", fname, realLineNo, line);
throw;
}
}
ERM::TLine ERMParser::parseLine(const std::string & line)
{
auto beg = line.begin();
auto end = line.end();
ERM::TLine AST;
bool r = qi::phrase_parse(beg, end, *ERMgrammar.get(), ascii::space, AST);
if(!r || beg != end)
{
logGlobal->error("Parse error: cannot parse: %s", std::string(beg, end));
throw ParseErrorException();
}
return AST;
}
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] = '|';
}