I have two lists of fractions;
A = [ 1/212, 5/212, 3/212, ... ]
B = [ 4/143, 7/143, 2/143, ... ].
If we define
A' = a * a * a * ... and
B' = b * b * b * ...
I want to calculate a normalised value of A' and B'
ie specifically the values of
A' / (A'+B') and
B' / (A'+B')
My trouble is A are B are both quite long and each value is small so calculating the product causes numerical underflow very quickly...
I understand turning the product into a sum through logarithms can help me determine which of A' or B' is greater
max( log(a)+log(a)+..., log(b)+log(b)+... )
and that using logs I can calculate the value of
A' / B' but how do I do
A' / A'+B'
My best bet to date is to keep the number representations as fractions, ie
A = [ [1,212], [5,212], [3,212], ... ] and implement my own arithmetic but it's getting clumsy and I have a feeling there is a (simple) way of logarithms I'm just missing....
The numerators for A and B don't come from a sequence. They might as well be random for the purpose of this question. If it helps the denominators for all values in A are the same, as are all the denominators for B.
Any ideas most welcome!
( ps. I asked a similar question 24 hours ago regarding the ratio
A'/B' but it was actually the wrong question to ask. I'm actually after
A'/(A'+B'). Sorry, my mistake. )