In python, I would like to find the roots of equations of the form:
-x*log(x) + (1-x)*log(n) - (1-x)*log(1 - x) - k = 0
where n and k are parameters that will be specified.
An additional constraint on the roots is that x >= (1-x)/n. So just for what it's worth, I'll be filtering out roots that don't satisfy that.
My first attempt was to use scipy.optimize.fsolve (note that I'm just setting k and n to be 0 and 1 respectively):
def f(x): return -x*log(x) + (1-x)*log(1) - (1-x)*log(1-x) fsolve(f, 1)
Using math.log, I got value-errors because I was supplying bad input to log. Using numpy.log gave me some divide by zeros and invalid values in multiply.
I adjusted f as so, just to see what it would do:
def f(x): if x <= 0: return 1000 if x >= 1: return 2000 return -x*log(x) + (1-x)*log(1) - (1-x)*log(1-x)
Now I get
/usr/lib/python2.7/dist-packages/scipy/optimize/minpack.py:221: RuntimeWarning: The iteration is not making good progress, as measured by the improvement from the last ten iterations. warnings.warn(msg, RuntimeWarning)
Using python, how can I solve for x for various n and k parameters in the original equation?