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openmw/components/compiler/lineparser.cpp

503 lines
15 KiB
C++

#include "lineparser.hpp"
#include <memory>
#include <components/misc/strings/lower.hpp>
#include "context.hpp"
#include "declarationparser.hpp"
#include "errorhandler.hpp"
#include "extensions.hpp"
#include "generator.hpp"
#include "locals.hpp"
#include "scanner.hpp"
#include "skipparser.hpp"
namespace Compiler
{
void LineParser::parseExpression(Scanner& scanner, const TokenLoc& loc)
{
mExprParser.reset();
if (!mExplicit.empty())
{
mExprParser.parseName(mExplicit, loc, scanner);
if (mState == MemberState)
mExprParser.parseSpecial(Scanner::S_member, loc, scanner);
else
mExprParser.parseSpecial(Scanner::S_ref, loc, scanner);
}
scanner.scan(mExprParser);
char type = mExprParser.append(mCode);
mState = EndState;
switch (type)
{
case 'l':
Generator::report(mCode, mLiterals, "%d");
break;
case 'f':
Generator::report(mCode, mLiterals, "%f");
break;
default:
throw std::runtime_error("Unknown expression result type");
}
}
LineParser::LineParser(ErrorHandler& errorHandler, const Context& context, Locals& locals, Literals& literals,
std::vector<Interpreter::Type_Code>& code, bool allowExpression)
: Parser(errorHandler, context)
, mLocals(locals)
, mLiterals(literals)
, mCode(code)
, mState(BeginState)
, mReferenceMember(false)
, mButtons(0)
, mType(0)
, mExprParser(errorHandler, context, locals, literals)
, mAllowExpression(allowExpression)
{
}
bool LineParser::parseInt(int value, const TokenLoc& loc, Scanner& scanner)
{
if (mAllowExpression && mState == BeginState)
{
scanner.putbackInt(value, loc);
parseExpression(scanner, loc);
return true;
}
else if (mState == SetState)
{
// Allow ints to be used as variable names
return parseName(loc.mLiteral, loc, scanner);
}
return Parser::parseInt(value, loc, scanner);
}
bool LineParser::parseFloat(float value, const TokenLoc& loc, Scanner& scanner)
{
if (mAllowExpression && mState == BeginState)
{
scanner.putbackFloat(value, loc);
parseExpression(scanner, loc);
return true;
}
return Parser::parseFloat(value, loc, scanner);
}
bool LineParser::parseName(const std::string& name, const TokenLoc& loc, Scanner& scanner)
{
if (mState == SetState)
{
std::string name2 = Misc::StringUtils::lowerCase(name);
mName = name2;
// local variable?
char type = mLocals.getType(name2);
if (type != ' ')
{
mType = type;
mState = SetLocalVarState;
return true;
}
type = getContext().getGlobalType(name2);
if (type != ' ')
{
mType = type;
mState = SetGlobalVarState;
return true;
}
mState = SetPotentialMemberVarState;
return true;
}
if (mState == SetMemberVarState)
{
mMemberName = Misc::StringUtils::lowerCase(name);
std::pair<char, bool> type = getContext().getMemberType(mMemberName, mName);
if (type.first != ' ')
{
mState = SetMemberVarState2;
mType = type.first;
mReferenceMember = type.second;
return true;
}
getErrorHandler().error("Unknown variable", loc);
SkipParser skip(getErrorHandler(), getContext());
scanner.scan(skip);
return false;
}
if (mState == MessageState)
{
GetArgumentsFromMessageFormat processor;
processor.process(name);
std::string arguments = processor.getArguments();
if (!arguments.empty())
{
mExprParser.reset();
mExprParser.parseArguments(arguments, scanner, mCode, -1, true);
}
mName = name;
mButtons = 0;
mState = MessageButtonState;
return true;
}
if (mState == MessageButtonState)
{
Generator::pushString(mCode, mLiterals, name);
mState = MessageButtonState;
++mButtons;
return true;
}
if (mState == BeginState && getContext().isId(name))
{
mState = PotentialExplicitState;
mExplicit = Misc::StringUtils::lowerCase(name);
return true;
}
if (mState == BeginState && mAllowExpression)
{
std::string name2 = Misc::StringUtils::lowerCase(name);
char type = mLocals.getType(name2);
if (type != ' ')
{
scanner.putbackName(name, loc);
parseExpression(scanner, loc);
return true;
}
type = getContext().getGlobalType(name2);
if (type != ' ')
{
scanner.putbackName(name, loc);
parseExpression(scanner, loc);
return true;
}
}
return Parser::parseName(name, loc, scanner);
}
bool LineParser::parseKeyword(int keyword, const TokenLoc& loc, Scanner& scanner)
{
if (mState == MessageState)
{
if (const Extensions* extensions = getContext().getExtensions())
{
std::string argumentType; // ignored
bool hasExplicit = false; // ignored
if (extensions->isInstruction(keyword, argumentType, hasExplicit))
{
// pretend this is not a keyword
std::string name = loc.mLiteral;
if (name.size() >= 2 && name[0] == '"' && name[name.size() - 1] == '"')
name = name.substr(1, name.size() - 2);
return parseName(name, loc, scanner);
}
}
}
if (mState == SetMemberVarState)
{
mMemberName = loc.mLiteral;
std::pair<char, bool> type = getContext().getMemberType(mMemberName, mName);
if (type.first != ' ')
{
mState = SetMemberVarState2;
mType = type.first;
mReferenceMember = type.second;
return true;
}
}
if (mState == SetPotentialMemberVarState && keyword == Scanner::K_to)
{
getErrorHandler().warning("Unknown variable", loc);
SkipParser skip(getErrorHandler(), getContext());
scanner.scan(skip);
return false;
}
if (mState == SetState)
{
// allow keywords to be used as variable names when assigning a value to a variable.
return parseName(loc.mLiteral, loc, scanner);
}
if (mState == BeginState || mState == ExplicitState)
{
// check for custom extensions
if (const Extensions* extensions = getContext().getExtensions())
{
std::string argumentType;
bool hasExplicit = mState == ExplicitState;
if (extensions->isInstruction(keyword, argumentType, hasExplicit))
{
if (!hasExplicit && mState == ExplicitState)
{
getErrorHandler().warning("Stray explicit reference", loc);
mExplicit.clear();
}
std::vector<Interpreter::Type_Code> code;
int optionals = mExprParser.parseArguments(argumentType, scanner, code, keyword);
mCode.insert(mCode.end(), code.begin(), code.end());
extensions->generateInstructionCode(keyword, mCode, mLiterals, mExplicit, optionals);
mState = EndState;
return true;
}
}
if (const Extensions* extensions = getContext().getExtensions())
{
char returnType;
std::string argumentType;
bool hasExplicit = mState == ExplicitState;
if (extensions->isFunction(keyword, returnType, argumentType, hasExplicit))
{
if (!hasExplicit && mState == ExplicitState)
{
getErrorHandler().warning("Stray explicit reference", loc);
mExplicit.clear();
}
if (mAllowExpression)
{
scanner.putbackKeyword(keyword, loc);
parseExpression(scanner, loc);
}
else
{
std::vector<Interpreter::Type_Code> code;
int optionals = mExprParser.parseArguments(argumentType, scanner, code, keyword);
mCode.insert(mCode.end(), code.begin(), code.end());
extensions->generateFunctionCode(keyword, mCode, mLiterals, mExplicit, optionals);
}
mState = EndState;
return true;
}
}
}
if (mState == ExplicitState)
{
// drop stray explicit reference
getErrorHandler().warning("Stray explicit reference", loc);
mState = BeginState;
mExplicit.clear();
}
if (mState == BeginState)
{
switch (keyword)
{
case Scanner::K_short:
case Scanner::K_long:
case Scanner::K_float:
{
if (!getContext().canDeclareLocals())
{
getErrorHandler().error("Local variables cannot be declared in this context", loc);
SkipParser skip(getErrorHandler(), getContext());
scanner.scan(skip);
return true;
}
DeclarationParser declaration(getErrorHandler(), getContext(), mLocals);
if (declaration.parseKeyword(keyword, loc, scanner))
scanner.scan(declaration);
return false;
}
case Scanner::K_set:
mState = SetState;
return true;
case Scanner::K_messagebox:
mState = MessageState;
scanner.enableStrictKeywords();
return true;
case Scanner::K_return:
Generator::exit(mCode);
mState = EndState;
return true;
case Scanner::K_else:
getErrorHandler().warning("Stray else", loc);
mState = EndState;
return true;
case Scanner::K_endif:
getErrorHandler().warning("Stray endif", loc);
mState = EndState;
return true;
case Scanner::K_begin:
getErrorHandler().warning("Stray begin", loc);
mState = EndState;
return true;
}
}
else if (mState == SetLocalVarState && keyword == Scanner::K_to)
{
mExprParser.reset();
scanner.scan(mExprParser);
std::vector<Interpreter::Type_Code> code;
char type = mExprParser.append(code);
Generator::assignToLocal(mCode, mLocals.getType(mName), mLocals.getIndex(mName), code, type);
mState = EndState;
return true;
}
else if (mState == SetGlobalVarState && keyword == Scanner::K_to)
{
mExprParser.reset();
scanner.scan(mExprParser);
std::vector<Interpreter::Type_Code> code;
char type = mExprParser.append(code);
Generator::assignToGlobal(mCode, mLiterals, mType, mName, code, type);
mState = EndState;
return true;
}
else if (mState == SetMemberVarState2 && keyword == Scanner::K_to)
{
mExprParser.reset();
scanner.scan(mExprParser);
std::vector<Interpreter::Type_Code> code;
char type = mExprParser.append(code);
Generator::assignToMember(mCode, mLiterals, mType, mMemberName, mName, code, type, !mReferenceMember);
mState = EndState;
return true;
}
return Parser::parseKeyword(keyword, loc, scanner);
}
bool LineParser::parseSpecial(int code, const TokenLoc& loc, Scanner& scanner)
{
if (mState == EndState && code == Scanner::S_open)
{
getErrorHandler().warning("Stray '[' or '(' at the end of the line", loc);
return true;
}
if (code == Scanner::S_newline && (mState == EndState || mState == BeginState))
return false;
if (code == Scanner::S_ref && mState == SetPotentialMemberVarState)
{
getErrorHandler().warning("Stray explicit reference", loc);
mState = SetState;
return true;
}
if (code == Scanner::S_ref && mState == PotentialExplicitState)
{
mState = ExplicitState;
return true;
}
if (code == Scanner::S_member && mState == PotentialExplicitState && mAllowExpression)
{
mState = MemberState;
parseExpression(scanner, loc);
mState = EndState;
return true;
}
if (code == Scanner::S_newline && mState == MessageButtonState)
{
Generator::message(mCode, mLiterals, mName, mButtons);
return false;
}
if (code == Scanner::S_member && mState == SetPotentialMemberVarState)
{
mState = SetMemberVarState;
return true;
}
if (mAllowExpression && mState == BeginState
&& (code == Scanner::S_open || code == Scanner::S_minus || code == Scanner::S_plus))
{
scanner.putbackSpecial(code, loc);
parseExpression(scanner, loc);
mState = EndState;
return true;
}
return Parser::parseSpecial(code, loc, scanner);
}
void LineParser::reset()
{
mState = BeginState;
mName.clear();
mExplicit.clear();
}
void GetArgumentsFromMessageFormat::visitedPlaceholder(
Placeholder placeholder, char /*padding*/, int /*width*/, int /*precision*/, Notation /*notation*/)
{
switch (placeholder)
{
case StringPlaceholder:
mArguments += 'S';
break;
case IntegerPlaceholder:
mArguments += 'l';
break;
case FloatPlaceholder:
mArguments += 'f';
break;
default:
break;
}
}
}