示例#1
0
CAstDesignator* CParser::qualident(CAstScope *s)
{
  //
  // qualident ::= ident { "[" expression "]" }
  //
  CToken t;

  // qualident -> ident ...
  CAstDesignator *id = ident(s);

  t = _scanner->Peek();
  if (t.GetType() != tLBrak)
    return id;

  const CToken saveToken = id->GetToken();
  const CSymbol* saveSymbol = id->GetSymbol();
  CAstArrayDesignator *arrayId = new CAstArrayDesignator(saveToken, saveSymbol);

  if (!arrayId->GetType() || !arrayId->GetType()->IsArray()) {
    SetError(t, "access with index which is actually not an array");
    return id;
  }

  free(id);

  while (t.GetType() == tLBrak) {
    // qualident -> ... "[" ...
    Consume(tLBrak);

    // qualident -> ... expression ...
    arrayId->AddIndex(expression(s));

    // qualident -> ... "]" ...
    Consume(tRBrak);
    t = _scanner->Peek();
  }

  arrayId->IndicesComplete();
  return arrayId;
}
示例#2
0
CAstStatAssign* CParser::assignment(CAstScope *s, CToken ident) {
  //
  // assignment ::= qualident ":=" expression.
  // qualident ::= ident { "[" expression "]" }.
  //
  
  CToken t;
  CAstDesignator *lhs = NULL;
  CSymtab *symtab = s->GetSymbolTable();

  if(_scanner->Peek().GetType() == tAssign) { // non-array case.
    const CSymbol *tmpsym = symtab->FindSymbol(ident.GetValue(), sLocal);

    if(tmpsym == NULL && symtab->FindSymbol(ident.GetValue(), sGlobal) != NULL) {
      // Check if symbol is procedure.
      if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(ident.GetValue(), sGlobal)) != NULL) {
        SetError(ident, "designator expected.");
      }

      lhs = new CAstDesignator(ident, symtab->FindSymbol(ident.GetValue(), sGlobal));
    }
    else if(tmpsym != NULL) {
      // Check if symbol is procedure.
      if(dynamic_cast<const CSymProc *>(tmpsym) != NULL) {
        SetError(ident, "designator expected.");
      }
        
      lhs = new CAstDesignator(ident, symtab->FindSymbol(ident.GetValue(), sLocal));
    }
    else
      SetError(ident, "undefined identifier.");
    
    assert(lhs != NULL);
  }
  else if(_scanner->Peek().GetType() == tLSBrak) { // array case.
    const CSymbol *tmpsym = symtab->FindSymbol(ident.GetValue(), sLocal);
    CAstArrayDesignator *arraylhs;

    if(tmpsym == NULL && symtab->FindSymbol(ident.GetValue(), sGlobal) != NULL) {
      // Check if symbol is procedure.
      if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(ident.GetValue(), sGlobal)) != NULL) {
        SetError(ident, "designator expected.");
      }

      arraylhs = new CAstArrayDesignator(ident, symtab->FindSymbol(ident.GetValue(), sGlobal));
    }
    else if(tmpsym != NULL) {
      // Check if symbol is procedure.
      if(dynamic_cast<const CSymProc *>(tmpsym) != NULL) {
        SetError(ident, "designator expected.");
      }

      arraylhs = new CAstArrayDesignator(ident, symtab->FindSymbol(ident.GetValue(), sLocal));
    }
    else
      SetError(ident, "undefined identifier.");
  
    // multiple index.
    while(_scanner->Peek().GetType() == tLSBrak) {
      Consume(tLSBrak);

      CAstExpression *expr = expression(s);
      assert(expr != NULL);
      arraylhs->AddIndex(expr);

      Consume(tRSBrak);
    }
    arraylhs->IndicesComplete();

    lhs = dynamic_cast<CAstDesignator *>(arraylhs);
    assert(lhs != NULL);
  }

  CToken k;
  Consume(tAssign, &k);

  CAstExpression *rhs = expression(s);
  assert(rhs != NULL);

  return new CAstStatAssign(k, lhs, rhs);
}
示例#3
0
CAstExpression* CParser::factor(CAstScope *s) {
  //
  // factor ::= qualident | number | boolean | char | string | "(" expression ")" | subroutineCall | "!" factor.
  // FIRST(factor) = { tIdent, tNumber, tTrue, tFalse, tCharacter, tString, tLBrak, tEMark }.
  //
  
  CToken t;
  EToken tt = _scanner->Peek().GetType();
  CTypeManager *tm = CTypeManager::Get();
  CAstExpression *n = NULL;
  CSymtab *symtab = s->GetSymbolTable();

  switch(tt) {
    case tTrue:
      Consume(tTrue, &t);
      n = new CAstConstant(t, tm->GetBool(), 1);
      break;

    case tFalse:
      Consume(tFalse, &t);
      n = new CAstConstant(t, tm->GetBool(), 0);
      break;

    case tNumber:
    {
      Consume(tNumber, &t);
      errno = 0;
      long long v = strtoll(t.GetValue().c_str(), NULL, 10);
      if (errno != 0) SetError(t, "invalid number.");

      // integer range validation check.
      if(v > 2147483648)
        SetError(t, "integer constant outside valid range.");

      n = new CAstConstant(t, tm->GetInt(), v);
      break;
    }

    case tIdent:
    {
      Consume(tIdent, &t);

      if(_scanner->Peek().GetType() == tLBrak) { // subroutineCall
        Consume(tLBrak);
        CAstFunctionCall *f;

        // If subroutineCall calls undefined procedure/function, then set error.
        if(symtab->FindSymbol(t.GetValue(),sLocal) == NULL && symtab->FindSymbol(t.GetValue(), sGlobal) != NULL) {
          // Check if symbol is procedure.
          if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sGlobal)) == NULL)
            SetError(t, "invalid procedure/function identifier.");

          f = new CAstFunctionCall(t, dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sGlobal)));
        }
        else if(symtab->FindSymbol(t.GetValue(), sLocal) != NULL) {
          // Check if symbol is procedure.
          if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sLocal)) == NULL)
            SetError(t, "invalid procedure/function identifier.");

          f = new CAstFunctionCall(t, dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sLocal)));
        }
        else
          SetError(t, "undefined identifier.");

        assert(f != NULL);

        if(isExpr(_scanner->Peek())) {
          CAstExpression *expr = expression(s);
          assert(expr != NULL);
 
          // If array, then addressed.
          if(expr->GetType()->IsArray())
            expr = new CAstSpecialOp(expr->GetToken(), opAddress, expr, NULL);

          f->AddArg(expr);

          while(_scanner->Peek().GetType() == tComma) {
            Consume(tComma);
            expr = expression(s);
            assert(expr != NULL);
 
            // If array, then addressed.
            if(expr->GetType()->IsArray())
              expr = new CAstSpecialOp(expr->GetToken(), opAddress, expr, NULL);

            f->AddArg(expr);
          }
        }
        Consume(tRBrak);

        n = f;
      }
      else { // qualident
        if(_scanner->Peek().GetType() == tLSBrak) { // It means array
          CAstArrayDesignator *f;

          if(symtab->FindSymbol(t.GetValue(), sLocal) == NULL && symtab->FindSymbol(t.GetValue(), sGlobal) != NULL) {
            // Check if symbol is procedure.
            if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sGlobal)) != NULL)
              SetError(t, "designator expected.");

            f = new CAstArrayDesignator(t, symtab->FindSymbol(t.GetValue(), sGlobal));
          }
          else if(symtab->FindSymbol(t.GetValue(), sLocal) != NULL) {
            // Check if symbol is procedure.
            if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sLocal)) != NULL)
              SetError(t, "designator expected");

            f = new CAstArrayDesignator(t, symtab->FindSymbol(t.GetValue(), sLocal));
          }
          else {
            SetError(t, "undefined identifier.");
          }
          
          while(_scanner->Peek().GetType() == tLSBrak) {
            Consume(tLSBrak);

            CAstExpression *expr = expression(s);
            assert(expr != NULL);
            f->AddIndex(expr);

            Consume(tRSBrak);
          }

          f->IndicesComplete();

          n = f;
        } // non-array case.
        else {
          if(symtab->FindSymbol(t.GetValue(), sLocal) == NULL && symtab->FindSymbol(t.GetValue(), sGlobal) != NULL) {
            // Check if symbol is procedure.
            if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sGlobal)) != NULL) {
              SetError(t, "designator expected.");
            }
            n = new CAstDesignator(t, symtab->FindSymbol(t.GetValue(), sGlobal));
          }
          else if(symtab->FindSymbol(t.GetValue(), sLocal) != NULL) {
            // Check if symbol is procedure.
            if(dynamic_cast<const CSymProc *>(symtab->FindSymbol(t.GetValue(), sLocal)) != NULL) {
              SetError(t, "designator expected.");
            }
            n = new CAstDesignator(t, symtab->FindSymbol(t.GetValue(), sLocal));
          }
          else
            SetError(t, "undefined identifier.");
        }
      }
      break;
    }

    case tString:
      Consume(tString, &t);
      n = new CAstStringConstant(t, t.GetValue(), s);
      break;

    case tCharacter:
    {
      Consume(tCharacter, &t);
      char res;

      // If character length is 0, it means character is '\0' because invalid character cases are handled in scanner.
      if(t.GetValue().length() == 0)
        res = '\0';
      else if(t.GetValue().length() == 1) {
        if(t.GetValue().at(0) != '\\')
          res = t.GetValue().at(0);
        else SetError(t, "wrong character");
      }
      // unescape.
      else if(t.GetValue().length() == 2) {
        if(t.GetValue().at(0) == '\\') {
          if(t.GetValue().at(1) == 'n') {
            res = '\n';
          }
          else if(t.GetValue().at(1) == 't') {
            res = '\t';
          }
          else if(t.GetValue().at(1) == '"') {
            res = '"';
          }
          else if(t.GetValue().at(1) == '\'') {
            res = '\'';
          }
          else if(t.GetValue().at(1) == '\\') {
            res = '\\';
          }
          else if(t.GetValue().at(1) == '0') {
            res = '\0';
          }
          else
            SetError(t, "wrong character");
        }
      }
      else SetError(t, "wrong character");

      n = new CAstConstant(t, tm->GetChar(), (long long)res);
      break;
    }

    case tLBrak:
      Consume(tLBrak);
      n = expression(s);
      Consume(tRBrak);
      break;

    case tEMark:
      Consume(tEMark, &t);
      n = new CAstUnaryOp(t, opNot, factor(s));
      break;

    default:
//      cout << "got " << _scanner->Peek() << endl;
      SetError(_scanner->Peek(), "factor expected.");
      break;
  }

  return n;
}