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As I'm lazy I don't want to define function for optimizing this way:

f = lambda x, a, b, ...: a * x + c + ...

but I want to do such thing:

f = lambda x, p: p[0] * x + p[1] + ...

where p is array of initial parameters. The problem is - I don't know how to implement it. I tried

popt = optimize.curve_fit(f, x, y, p)

and even

popt = optimize.curve_fit(f, x, y, *p)

but such thing doesn't work - python interpreter yells about arguments' number mismatch. So is there any way to implement my idea?

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2 Answers 2

up vote 1 down vote accepted

You almost had it: you can use *p (see f(xdata, *params) in the docs):

>>> from scipy import optimize
>>> import numpy as np
>>> 
>>> x = np.arange(1, 4)
>>> y = x * 3 + 1
>>> 
>>> f = lambda x, *p: p[0] * x + p[1]
>>> popt, pcov = optimize.curve_fit(f, x, y, [1,-4])
>>> popt
array([ 3.,  1.])
>>> pcov
array([[  9.86076132e-32,  -1.97215226e-31],
       [ -1.97215226e-31,   4.60168861e-31]])
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Oh, why when I ask questions I find solution myself? The solution is:

f = lambda x, *p: p[0] * x + p[1] + ...
popt = optimize.curve_fit(f, x, y, p0=p)
share|improve this answer
    
This problem-solving technique is called talking to the bear :) –  unutbu Dec 15 '12 at 14:08
    
AKA rubber ducking –  pv. Dec 17 '12 at 9:26

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