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A class for operations with Large Integer Numbers

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26 May 2003 5  
Presenting some algorithms for operations with large integer numbers in a C++ class using the STL vector container

The full code of the class is contained in the article's associated project LargeNumber.zip. Here I present only the interface of the class:

class CLargeNumber
{
public:
  //Default Constructor

  CLargeNumber() : m_cSign(1) { m_oNumber.push_back(0); }

  //Copy Constructor - Default OK

  //CLargeNumber(CLargeNumber const& rcoLargeNumber) : 

  //	m_cSign(rcoLargeNumber.m_cSign), m_oNumber(rcoLargeNumber.m_oNumber) {}


  //Constructor From a Number

  CLargeNumber(int iNumber);
  //Constructor From a String

  CLargeNumber(string const& rostrNumber);
  //Constructor From Members

  CLargeNumber(char cSign, vector<char> const& rcoNumber) : 
  	m_cSign(cSign), m_oNumber(rcoNumber) {}

  //Assignment Operator - Default OK

  //CLargeNumber& operator=(CLargeNumber const& roLN);


protected:
  //Auxiliary class Functions:

  //Build from unsigned long

  static void Build(unsigned uN, vector<char>& rvN);
  //Build from string

  static void Build(string const& rostrNumber, vector<char>& rvN);
  //Cleaning

  static void Clean(vector<char>& rvN);
  //Comparison Function

  static int Compare(vector<char> const& rcvN1, vector<char> const& rcvN2);
  //Addition

  static void Add(vector<char> const& rcvN1, vector<char> const& rcvN2, 
vector<char>& rvNRes); //Subtraction static void Subtract(vector<char> const& rcvN1, vector<char> const& rcvN2,
vector<char>& rvNRes); //Product with one digit static void Multiply(vector<char> const& rcvN, char c, vector<char>& rvNRes); //Shift Left static void ShiftLeft(vector<char>& rvN, int iLeft); //Multiplication static void Multiply(vector<char> const& rcvN1, vector<char> const& rcvN2,
vector<char>& rvNRes); //Get the Position of the most significant Digit static int Position(vector<char> const& rcvN); //Compute a Power of 10 static void Pow10(unsigned uPow, vector<char>& rvNRes); //Division static void Divide(vector<char> const& rcvN1, vector<char> const& rcvN2, vector<char>& rvQ, vector<char>& rvR); public: //Transform to a string string ToString() const; //Operators //Equality Operator bool operator==(CLargeNumber const& roLN); //Inequality Operator bool operator!=(CLargeNumber const& roLN); CLargeNumber& operator-(); bool operator<(CLargeNumber const& roLN) const; bool operator>(CLargeNumber const& roLN) const; bool operator<=(CLargeNumber const& roLN) const; bool operator>=(CLargeNumber const& roLN) const; CLargeNumber operator+(CLargeNumber const& roLN) const; CLargeNumber operator-(CLargeNumber const& roLN) const; CLargeNumber operator*(CLargeNumber const& roLN) const; CLargeNumber operator/(CLargeNumber const& roLN) const; CLargeNumber operator%(CLargeNumber const& roLN) const; CLargeNumber& operator+=(CLargeNumber const& roLN); CLargeNumber& operator-=(CLargeNumber const& roLN); CLargeNumber& operator*=(CLargeNumber const& roLN); CLargeNumber& operator/=(CLargeNumber const& roLN); CLargeNumber& operator%=(CLargeNumber const& roLN); //Convertion operator operator int() const; //Square Root CLargeNumber SquareRoot() const; private: //-1 - Negative, +1 - Positive or zero char m_cSign; vector<char> m_oNumber; };

I am using the STL vector<char> container m_oNumber to keep the decimal digits of the number. The digits are stored in the order from lowest to highest. The sign of the number is kept in the char m_cSign field. The operations for positive large numbers are implemented in some auxiliary static functions. I prefered to use static functions because these auxiliary functions are not dependent on the class's field members. The operations for signed large numbers are implemented using extensive operator overloading and are using internally the auxiliary static functions. Some examples of how to use the class:

Addition

CLargeNumber oLN1("1111111434311111");
CLargeNumber oLN2("2222222233422222");
cout << (oLN1+oLN2).ToString() << endl;

Subtraction

CLargeNumber oLN1("12323523664");
CLargeNumber oLN2("325454361234");
cout << (oLN1-oLN2).ToString() << endl;

Multiplication

CLargeNumber oLN1("123456834333466");
CLargeNumber oLN2(1000);
cout << (oLN1*oLN2).ToString() << endl;

Division

This will throw an exception for division by 0

try
{
  CLargeNumber oLN1("1234655123667");
  CLargeNumber oLN2(500);
  cout << (oLN1/oLN2).ToString() << endl;
  cout << (oLN1%oLN2).ToString() << endl;
}
catch(exception& roEx)
{
  cout << roEx.what() << endl;
}

Square Root

This will throw an exception for negative numbers

try
{
  CLargeNumber oLN1("1000000000000000000");
  cout << oLN1.SquareRoot().ToString() << endl;
}
catch(exception& roEx)
{
  cout << roEx.what() << endl;
}

Factorial

In the testing program I also have implemented a small function for factorial calculation:

CLargeNumber Factorial(int iNumber)
{
  CLargeNumber oLN("1");
  if(iNumber > 1)
  {
    for(int i=2; i<=iNumber; i++)
      oLN *= i;
  }
  return oLN;
}

Example

As an example I give the 158 digits of 100!:

9332621544394415268169923885626670049071596826438162146859296389521759999322991
5608941463976156518286253697920827223758251185210916864000000000000000000000000

I hope you will have some fun playing with this class!

License

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