There's no easy way to get it to divide the way you want, but you can detect the rounding and correct for it. Since the `decimal`

's mantissa is 96 bits you cannot hold it in a `long`

or `double`

, so I use a .Net 4 `BigInteger`

object. I just multiply the mantissas of the denominator and quotient and compare it against the numerator (adjusted for the exponent of the result of the multiplication). If the result is greater than the numerator then the division must have rounded away from zero, so I just have to subtract a 1 in the least significant position from the quotient. To do this I create a decimal with 1 for a mantissa and the quotient's exponent for its exponent.

```
using System;
using System.Numerics;
using System.Collections.Generic;
namespace DivTest
{
class Divide
{
public static decimal MyDivide(decimal numerator, decimal denominator)
{
var quotient = numerator / denominator;
// turn decimals into mantissas (BigInts) and exponents
int nExp, dExp, qExp;
var nMan = MantissaOfDecimal(num, out nExp);
var dMan = MantissaOfDecimal(denom, out dExp);
var qMan = MantissaOfDecimal(quotient, out qExp);
// multiply quotient times denominator and compare with numerator
if (dMan * qMan > nMan * BigInteger.Pow(10, dExp + qExp - nExp))
{
// quotient was rounded away from zero, so subtract LSB
// to round back toward zero
quotient -= new decimal(1, 0, 0, quotient < 0, (byte)qExp);
}
return quotient;
}
static BigInteger MantissaOfDecimal(decimal d, out int exponent)
{
var ints = decimal.GetBits(d);
exponent = (ints[3] >> 16) & 0xFF;
var bytes = new List<byte>(13);
// create a BigInteger containing the mantissa of the decimal value
bytes.AddRange(BitConverter.GetBytes(ints[0]));
bytes.AddRange(BitConverter.GetBytes(ints[1]));
bytes.AddRange(BitConverter.GetBytes(ints[2]));
bytes.Add(0); // avoid high bits being interpreted as negative
return new BigInteger(bytes.ToArray());
}
static void Main()
{
decimal num = 2m, denom = 3m;
Console.WriteLine("Divide: " + num / denom);
Console.WriteLine("MyDivide: " + MyDivide(num, denom));
}
}
}
```

The output of the above program is:

Divide: 0.6666666666666666666666666667
MyDivide: 0.6666666666666666666666666666