# Is there any function in python similar to fzero in matlab?

I want to solve the following equation in python.

It can be implemented in Matlab by fzero function as follows:

``````    K=5;
H=6;
u=100;
fun=@(x) -(K*(-H+log(1+H/x)*(x+H)))/(log(2)*x^2*(log2((x+H)/x))^2*(x+H))+u;
xx=fzero(fun,[1e-3,1])
``````

However, I can't find a suitable function in python. `scipy.optimize.fsolve` needs the initial value. Moreover, it is always with unexplained errors. Could you please tell me how to implement it in python?

The python code is as follows:

``````import math
from scipy.optimize import fsolve
K=5
H=6
u=100
def func(x,K,H,u):
return (-(K*(-H+math.log(1+H/x)*(x+H)))/(math.log(2)*(x**2)*(math.log((x+H)/x,2))**2*(x+H))+u)
print(fsolve(func,0.5,args=(K,H,u)))
``````

The error is as follows: return (-(K*(-H+math.log(1+H/x)(x+H)))/(math.log(2)(x**2)*(math.log((x+H)/x,2))*2(x+H))+u) ValueError: math domain error

• "unexplained errors"? We like to explain errors - provided you give us enough information. Oct 21, 2020 at 18:28
• The error is as follows: return (-(K*(-H+math.log(1+H/x)*(x+H)))/(math.log(2)*(x**2)*(math.log((x+H)/x,2))**2*(x+H))+u) ValueError: math domain error Oct 21, 2020 at 18:47
• Sounds like a `math.log` is getting a negative argument. Oct 21, 2020 at 20:02
• So you can debug it your self by divide and conquer: break the complicated statement down into smaller elements and find out which term is giving the error. Oct 21, 2020 at 21:29
• Thank you for your kind reply. The input of math.log() is positive. I tried to change the smaller elements that I can change, but the error still exists. Oct 22, 2020 at 1:16

The problem you have is linked to the initial guess of your root and how it affects the stability of the implementation of the algortihm. For example, if you swap 0.5 by 1e-3, fsolve converges. I propose below an alternative script which makes use of a bracket algorithm and which converges without problems, provided that the root lies within the bracket and that the images of each end of the bracket are of opposite sign. If any of the latter conditions are not enforced, then the algorithm will let you know about it.

``````from numpy import log, log2
from scipy.optimize import root_scalar

def func(x, K, H, u):
return (u - K * (log(1 + H / x) * (x + H) - H)
/ log(2) / x ** 2 / log2((x + H) / x) ** 2 / (x + H))

sol = root_scalar(func, args=(5, 6, 100), method='toms748', bracket=[1e-3, 1])
print(sol.root, func(sol.root, 5, 6, 100))
# 0.0784837307625566 4.263256414560601e-14
``````
• It works! Thank you very much for your help, which solves my urgent need. Oct 22, 2020 at 18:09