bool E34::transition(Automate& automate, Symbole* symbole) throw(std::pair<int, string>) {
switch (symbole->getType())
{
case(VG) :
automate.decalageTerminal(symbole, new E35);
return true;
case(PVG) :
automate.decalageTerminal(symbole, new E39);
return true;
case(ID) :
Symbole* symboleAnticipe = new Symbole();
symboleAnticipe->setType(VG);
automate.decalageAnticipe(symboleAnticipe, new E35);
std::pair<int, string> p = std::make_pair(0, "Erreur syntaxique symbole \",\" attendu");
throw(p);
return true;
}
Symbole* symboleAnticipe = new Symbole();
symboleAnticipe->setType(PVG);
automate.decalageAnticipe(symboleAnticipe, new E39);
std::pair<int, string> p = std::make_pair(0, "Erreur syntaxique symbole \";\" attendu");
throw(p);
return true;
}
void Etat28::transition(Automate* a, Symbole* s)
{
#ifdef MAP
std::cout << "Etat28" << std::endl;
#endif
switch(*s){
case Symbole::OPERATEUR_MUL:
a->pushSymbole(s);
//~ a->pushEtat(new Etat29());
a->pushEtat(Etat29::getInstance());
a->decaler();
break;
case Symbole::POINT_VIR:
case Symbole::PARENTHESE_FER:
case Symbole::OPERATEUR_ADD:
{
Symbole* symbole = a->topSymbole();
symbole->setType(Symbole::EXPRESSION);
a->popEtat();
a->etatCourant()->transition(a, symbole);
}
break;
default:
throw ExceptionSymbole(s, ExceptionSymbole::symbole_non_attendu);
break;
}
}
void Etat24::transition(Automate* a, Symbole* ) //réduction règle 17
{
#ifdef MAP
std::cout << "Etat24" << std::endl;
#endif
Symbole* terme = a->topSymbole();
terme->setType(Symbole::TERME);
a->popEtat();
a->etatCourant()->transition(a, terme);
}
Symbole* Lexer::getSymbole()
{
if(getSymbole(next).compare("const")==0)
{
//cout << "CONST" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(CONST);
return toReturn;
}
else if(getSymbole(next).compare("var")==0)
{
//cout << "VAR" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(VAR);
return toReturn;
}
else if(getSymbole(next).compare("ecrire") == 0)
{
//cout << "ECRIRE" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(ECRIRE);
return toReturn;
}
else if (getSymbole(next).compare("lire") == 0)
{
//cout << "LIRE" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(LIRE);
return toReturn;
}
else if (getSymbole(next).compare(";") == 0)
{
//cout << "PVG" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(PVG);
return toReturn;
}
else if (getSymbole(next).compare(",") == 0)
{
//cout << "VG" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(VG);
return toReturn;
}
else if (getSymbole(next).compare("=") == 0)
{
//cout << "EG" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(EG);
return toReturn;
}
else if (getSymbole(next).compare("(") == 0)
{
//cout << "PARG" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(PARG);
return toReturn;
}
else if (getSymbole(next).compare(")") == 0)
{
//cout << "PARD" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(PARD);
return toReturn;
}
else if (getSymbole(next).compare(":=") == 0)
{
//cout << "AF" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(AF);
return toReturn;
}
else if (getSymbole(next).compare("+") == 0)
{
//cout << "PLUS" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(PLUS);
return toReturn;
}
else if (getSymbole(next).compare("-") == 0)
{
//cout << "MOINS" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(MOINS);
return toReturn;
}
else if (getSymbole(next).compare("*") == 0)
{
//cout << "MULT" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(MULT);
return toReturn;
}
else if (getSymbole(next).compare("/") == 0)
{
//cout << "DIV" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(DIV);
return toReturn;
}
else if (testRegex(getSymbole(next), NB))
{
//cout << "NB" << endl;
Nombre* toReturn = new Nombre(stoi(getSymbole(next)));
toReturn->setType(NB);
return toReturn;
}
else if(testRegex(getSymbole(next), ID))
{
//cout << "ID" << endl;
Variable* toReturn = new Variable();
toReturn->setID(getSymbole(next));
toReturn->setType(ID);
return toReturn;
}
else if (getSymbole(next).compare("$") == 0)
{
//cout << "DOL" << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(DOL);
return toReturn;
}
else
{
cerr << "Erreur lexicale caractere "<< getSymbole(next) << endl;
Symbole* toReturn = new Symbole();
toReturn->setType(ERR);
return toReturn;
}
//next++;
return NULL;
}
