When I have a
BigInteger whose size exceeds 2 gigabits (that's ¼ gigabyte; I found this threshold by trial and error), the logarithm method gives a wrong answer. This simple code illustrates:
byte bb; bb = new byte; bb = 1; // sets most significant byte to one var i1 = new BigInteger(bb); double log1 = BigInteger.Log(i1); Console.WriteLine(log1); // OK, writes 831776616.671934 bb = new byte; bb = 1; // sets most significant byte to one var i2 = new BigInteger(bb); double log2 = BigInteger.Log(i2); Console.WriteLine(log2); // Broken, gives negative number, should be twice 831776616.671934
Of course we must have a positive log for a number exceeding
1, a zero log for the number
1, and a negative log for a number between
1 (no integers there). My numbers
i2 above are greater than
1 since, by convention, when the most significant byte is between
127, that means positive
Now, if you read the documentation for
BigInteger.Log, they claim it might throw if the logarithm "is out of range of the Double data type". Now, clearly that would require a computer with a memory storage of more than
1E+300 bytes, and the observable universe is much too small to contain such a computer, so I guess that will never happen.
So why doesn't this work?
PS! Size over
2 ^^ 31 bits means that the actual value of the
BigInteger is over
2 ^^ (2 ^^ 31), or approximately
UPDATE: I sent in a bug report to Microsoft Connect. After having read the discussions I have also become aware that because of the design of
BigInteger and the upper limit of 2 gigabyte for the size of one single object, a
BigInteger can never be over 2 gigabyte (no matter how much memory you have). This bug happens, therefore, when the
BigInteher is between ¼ and 2 gigabytes.