Example #1
0
        public static HNumber DivRem(HNumber left, HNumber right, out HNumber remainder)
        {
            //Remainder = Numerator - Quotient x Denominator
            if (right.IsZero)
            {
                throw new DivideByZeroException("The Divisor is zero");
            }

            int precision = Math.Max(left.Precision, right.Precision);

            #region Division Again But with higher precision
            HNumber tmpLeft   = left;
            int     digitDiff = tmpLeft.Precision - (tmpLeft.DigitCount - right.DigitCount);
            digitDiff         = Math.Max(0, digitDiff);
            tmpLeft.Mantissa *= BigInteger.Pow(10, digitDiff);
            tmpLeft.Truncate(tmpLeft.DigitCount + tmpLeft.Exponent);
            BigInteger mantissa = BigInteger.Divide(tmpLeft.Mantissa, right.Mantissa);
            int        exponent = tmpLeft.Exponent - right.Exponent - digitDiff;
            HNumber    quotient = new HNumber(mantissa, exponent, CalculateDigitCount(mantissa), RoundingMode.PrecisionInt);
            #endregion

            HNumber qd = Multiply(quotient, right, PrecisionMode.KeepPrecision);
            remainder           = Subtract(left, qd);
            remainder.Precision = precision;
            remainder.Round(RoundingMode.PrecisionInt);
            return(quotient);
        }
Example #2
0
 public static HNumber Abs(HNumber value)
 {
     if (value.Mantissa < 0)
     {
         value.Mantissa *= -1;
     }
     return(value);
 }
Example #3
0
        public static HNumber Pow(HNumber value, int exponent)
        {
            if (exponent < 0)
            {
                throw new ArgumentOutOfRangeException();
            }
            BigInteger mantissa = BigInteger.Pow(value.Mantissa, exponent);
            int        exp      = value.Exponent * exponent;

            return(new HNumber(mantissa, exp));
        }
Example #4
0
 public static bool TryParse(string value, out HNumber result)
 {
     try
     {
         result = Parse(value);
     }
     catch (Exception)
     {
         result = HNumber.Zero;
         return(false);
     }
     return(true);
 }
Example #5
0
        static void ParseTest()
        {
            string num1Str = "8e54695";
            string num2Str = "123456e-5";

            HNumber num1 = HNumber.Parse(num1Str);
            HNumber num2 = HNumber.Parse(num2Str);

            Console.WriteLine("HugeInt Parsing {0}, result = {1}", num1Str, num1);
            Console.WriteLine("BigInteger Parsing {0}, result = {1}", num2Str, num2);

            Console.WriteLine();
        }
Example #6
0
        public static HNumber GreatestCommonDivisor(HNumber left, HNumber right)
        {
            left  = Abs(left);
            right = Abs(right);
            HNumber a = Max(left, right);
            HNumber b = Min(left, right);
            HNumber rem;

            while (true)
            {
                rem = Remainder(a, b);
                if (rem == 0)
                {
                    return(b);
                }
                a = b;
                b = rem;
            }
        }
Example #7
0
        public static HNumber Add(HNumber left, HNumber right, PrecisionMode precisionMode = PrecisionMode.UseHigher)
        {
            int precision = DEFAULT_PRECISION;

            if (precisionMode == PrecisionMode.UseHigher)
            {
                precision = Math.Max(left.Precision, right.Precision);
            }
            else if (precisionMode == PrecisionMode.UseLesser)
            {
                precision = Math.Min(left.Precision, right.Precision);
            }

            //TODO: ONLY WHEN SEMI ACCURATE RESULTS ARE REQUIRED
            int digitsTotal = left.DigitCount + right.DigitCount;

            left.Precision  = digitsTotal;
            right.Precision = digitsTotal;
            left.Round(RoundingMode.PrecisionInt);
            right.Round(RoundingMode.PrecisionInt);

            if (left.Exponent < right.Exponent)
            {
                left.Truncate(left.DigitCount - (right.Exponent - left.Exponent));
            }
            else if (left.Exponent > right.Exponent)
            {
                right.Truncate(right.DigitCount - (left.Exponent - right.Exponent));
            }

            BigInteger mantissa = left.Mantissa + right.Mantissa;
            int        exponent = Math.Max(left.Exponent, right.Exponent);

            if (precisionMode == PrecisionMode.KeepPrecision)
            {
                precision = CalculateDigitCount(mantissa);
            }

            HNumber result = new HNumber(mantissa, exponent, precision);

            return(result);
        }
Example #8
0
        public static HNumber ModPow(HNumber value, HNumber exponent, HNumber modulus)
        {
            if (modulus == 1)
            {
                return(0);
            }
            HNumber curPow = value % modulus;
            HNumber res    = 1;

            while (exponent > 0)
            {
                if (exponent % 2 == 1)
                {
                    res = (res * curPow) % modulus;
                }
                exponent = exponent / 2;
                curPow   = (curPow * curPow) % modulus;
            }
            return(res);
        }
Example #9
0
        public static int Compare(HNumber left, HNumber right)
        {
            if (left.Sign > right.Sign)
            {
                return(1);
            }
            else if (left.Sign < right.Sign)
            {
                return(-1);
            }

            int leftTheoreticalExponent  = left.Exponent + left.DigitCount;
            int rightTheoreticalExponent = right.Exponent + right.DigitCount;

            if (leftTheoreticalExponent == rightTheoreticalExponent)
            {
                return(BigInteger.Compare(left.Mantissa, right.Mantissa));
            }
            else
            {
                return((leftTheoreticalExponent * left.Sign) > (rightTheoreticalExponent * right.Sign) ? 1 : -1);
            }
        }
Example #10
0
        public static HNumber Multiply(HNumber left, HNumber right, PrecisionMode precisionMode = PrecisionMode.UseHigher)
        {
            int precision = DEFAULT_PRECISION;

            if (precisionMode == PrecisionMode.UseHigher)
            {
                precision = Math.Max(left.Precision, right.Precision);
            }
            else if (precisionMode == PrecisionMode.UseLesser)
            {
                precision = Math.Min(left.Precision, right.Precision);
            }

            BigInteger mantissa = left.Mantissa * right.Mantissa;
            int        exponent = left.Exponent + right.Exponent;

            if (precisionMode == PrecisionMode.KeepPrecision)
            {
                precision = CalculateDigitCount(mantissa);
            }
            HNumber result = new HNumber(mantissa, exponent, precision);

            return(result);
        }
Example #11
0
        public static HNumber Divide(HNumber left, HNumber right, PrecisionMode precisionMode = PrecisionMode.UseHigher)
        {
            int precision = DEFAULT_PRECISION;

            if (precisionMode == PrecisionMode.UseHigher)
            {
                precision = Math.Max(left.Precision, right.Precision);
            }
            else if (precisionMode == PrecisionMode.UseLesser)
            {
                precision = Math.Min(left.Precision, right.Precision);
            }

            if (right.IsZero)
            {
                throw new DivideByZeroException("The Divisor is zero");
            }

            int digitDiff = left.Precision - (left.DigitCount - right.DigitCount);

            digitDiff      = Math.Max(0, digitDiff);
            left.Mantissa *= BigInteger.Pow(10, digitDiff);
            left.Truncate(left.DigitCount + left.Exponent);

            BigInteger mantissa = BigInteger.Divide(left.Mantissa, right.Mantissa);
            int        exponent = left.Exponent - right.Exponent - digitDiff;

            if (precisionMode == PrecisionMode.KeepPrecision)
            {
                precision = CalculateDigitCount(mantissa);
            }

            HNumber result = new HNumber(mantissa, exponent, precision);

            return(result);
        }
Example #12
0
        public int CompareTo(object obj)
        {
            HNumber other = (HNumber)obj;

            return(Compare(this, other));
        }
Example #13
0
 public int CompareTo(HNumber other)
 {
     return(Compare(this, other));
 }
Example #14
0
 public static HNumber Min(HNumber left, HNumber right)
 {
     return(Compare(left, right) == -1 ? left : right);
 }
Example #15
0
 public static HNumber Negate(HNumber value)
 {
     return(new HNumber(-value.Mantissa, value.Exponent));
 }
Example #16
0
        public override bool Equals(object obj)
        {
            HNumber other = (HNumber)obj;

            return(Compare(this, other) == 0);
        }
Example #17
0
 public bool Equals(HNumber other)
 {
     return(Compare(this, other) == 0);
 }
Example #18
0
 public static double Log(HNumber value, double baseValue)
 {
     return(BigInteger.Log(value.Mantissa, baseValue) + (value.Exponent * Math.Log(10, baseValue)));
 }
Example #19
0
        static void BigIntegerCompareTest()
        {
            Random rdm = new Random(1);

            for (int i = 0; i < 1; i++)
            {
                int sign1 = rdm.Next() % 2 == 0 ? 1 : -1;
                int sign2 = rdm.Next() % 2 == 0 ? 1 : -1;

                double value1 = 12500;
                double value2 = 11300;

                int exp1 = 20;
                int exp2 = 0;

                //double value1 = rdm.Next() * sign1;
                //double value2 = rdm.Next() * sign2;

                //int exp1 = rdm.Next() % 100;
                //int exp2 = rdm.Next() % 100;

                HNumber huge1 = new HNumber(value1, exp1);
                HNumber huge2 = new HNumber(value2, exp2);

                BigInteger big1 = new BigInteger(value1);
                BigInteger big2 = new BigInteger(value2);
                big1 *= BigInteger.Pow(10, exp1);
                big2 *= BigInteger.Pow(10, exp2);


                //Console.WriteLine("HugeInt");
                //Console.WriteLine("Value1: {0} , Value2: {1}", huge1, huge2);
                //Console.WriteLine("BigInt");
                //Console.WriteLine("Value1: {0} , Value2: {1}", big1, big2);
                //Console.WriteLine();


                HNumber    remainder1 = huge1 % huge2;
                BigInteger remainder2 = big1 % big2;

                HNumber    quotient1 = huge1 / huge2;
                BigInteger quotient2 = big1 / big2;

                HNumber    mul1 = huge1 * huge2;
                BigInteger mul2 = big1 * big2;

                HNumber    add1 = huge1 + huge2;
                BigInteger add2 = big1 + big2;

                HNumber    sub1 = huge1 - huge2;
                BigInteger sub2 = big1 - big2;

                //HNumber gcd1 = HNumber.GreatestCommonDivisor(huge1, huge2);
                //BigInteger gcd2 = BigInteger.GreatestCommonDivisor(big1, big2);

                Console.WriteLine("HugeInt Remainder: ");
                Console.WriteLine("{0} % {1} = {2}", huge1, huge2, remainder1);
                Console.WriteLine("BigInteger Remainder: ");
                Console.WriteLine("{0} % {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(remainder2, 0, remainder1.DigitCount + 2));
                Console.WriteLine();

                Console.WriteLine("HugeInt Divide: ");
                Console.WriteLine("{0} / {1} = {2}", huge1, huge2, quotient1);
                Console.WriteLine("BigInt Divide: ");
                Console.WriteLine("{0} / {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(quotient2, 0, quotient1.DigitCount + 2));
                Console.WriteLine();

                Console.WriteLine("HugeInt Multiply: ");
                Console.WriteLine("{0} * {1} = {2}", huge1, huge2, mul1);
                Console.WriteLine("BigInt Divide: ");
                Console.WriteLine("{0} * {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(mul2, 0, mul1.DigitCount + 2));
                Console.WriteLine();

                Console.WriteLine("HugeInt Add: ");
                Console.WriteLine("{0} + {1} = {2}", huge1, huge2, add1);
                Console.WriteLine("BigInt Add: ");
                Console.WriteLine("{0} + {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(add2, 0, add1.DigitCount + 2));
                Console.WriteLine();

                Console.WriteLine("HugeInt Subtract: ");
                Console.WriteLine("{0} - {1} = {2}", huge1, huge2, sub1);
                Console.WriteLine("BigInt Subtract: ");
                Console.WriteLine("{0} - {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(sub2, 0, sub1.DigitCount + 2));
                Console.WriteLine();

                //Console.WriteLine("HugeInt GCD: ");
                //Console.WriteLine("{0}  {1} = {2}", huge1, huge2, gcd1);
                //Console.WriteLine("BigInt GCD: ");
                //Console.WriteLine("{0}  {1} = {2}", new HNumber(big1, 0, 10), new HNumber(big2, 0, 10), new HNumber(gcd2, 0, gcd1.DigitCount+2));
                //Console.WriteLine();

                Console.WriteLine("------");
            }
        }
Example #20
0
 public static double Log10(HNumber value)
 {
     return(BigInteger.Log10(value.Mantissa) + (value.Exponent * Math.Log10(10)));
 }