std::vector<ExpressionItem*> CalculateSequenceForPriority(const std::vector<ExpressionItem*> i_sequence,
                                                             OperatorPriority i_priority)
  {
    assert(i_sequence.size() != 0);
    std::vector<ExpressionItem*> result;

    size_t currentLoc = 0;
    while (currentLoc < i_sequence.size())
    {
      switch (i_sequence[currentLoc]->Type())
      {
      case ExpressionItemTypeOperand:
      {
        Operand* operand = dynamic_cast<Operand*>(i_sequence[currentLoc]);
        result.push_back(new Operand(operand->GetValue(), operand->NestingLevel(), 0));
        currentLoc++;
        break;
      }
      case ExpressionItemTypeBinaryOperator:
      {
        BinaryOperator* bOperator = dynamic_cast<BinaryOperator*>(i_sequence[currentLoc]);
        if (bOperator->Priority() == i_priority)
        {
          assert(result.size() != 0);
          assert(result.back()->Type() == ExpressionItemTypeOperand);
          assert(currentLoc < i_sequence.size() - 1);
          assert(i_sequence[currentLoc + 1]->Type() == ExpressionItemTypeOperand);
          Operand* left = dynamic_cast<Operand*>(result.back());
          Operand* right = dynamic_cast<Operand*>(i_sequence[currentLoc + 1]);
          double value = bOperator->CalculateResultForOperands(*left, *right);
          delete left;
          result.back() = new Operand(value, right->NestingLevel(), 0);
          currentLoc += 2;
        }
        else
        {
          result.push_back(BinaryOperator::Copy(bOperator));
          currentLoc++;
        }
        break;
      }
      default:
        assert(false);
      }
    }

    return result;
  }
int OperatorFactory::Priority(char p)
{    
	BinaryOperator* protoType = GetOperatorPrototype(p);

    return (protoType!=0)?protoType->Priority():0;
}