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How do I find the maximum of a function in Python? I could try to hack together a derivative function and find the zero of that, but is there a method in numpy (or other library) that can do it for me?

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Look into golden section search. en.wikipedia.org/wiki/Golden_section_search –  wberry Apr 13 '12 at 21:31
@EMS that's generally what I do, but I'm not always on SO. You gotta give people some time :P –  Nick T Apr 14 '12 at 4:11
Sorry, I didn't mean to sound persnickety. A lot go unaccepted, so I generally write a reminder note like ~1 day later, before I forget that I even answered that specific question. –  Mr. F Apr 14 '12 at 4:12

5 Answers 5

up vote 7 down vote accepted

You can use scipy.optimize.fmin on the negative of your function.

def f(x): return -2 * x**2 + 4 * x
max_x = scipy.optimize.fmin(lambda x: -f(x), 0)
# array([ 1.])
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But please note, that you really need to pay attention to numerical analysis issues here. It's often a red flag of impending error when someone says "how can a library solve this for me?" Make sure that you really understand what the library function is doing. That's true even if you've been doing numerical work for a long time. I recently suffered a similar problem with scipy.stats. –  Mr. F Apr 13 '12 at 19:24

If your function is solvable analytically try SymPy. I'll use EMS's example above.

In [1]: from sympy import *
In [2]: x = Symbol('x', real=True)

In [3]: f = -2 * x**2 + 4*x

In [4]: fprime = f.diff(x)
In [5]: fprime
Out[5]: -4*x + 4

In [6]: solve(fprime, x) # solve fprime = 0 with respect to x
Out[6]: [1]

Of course, you'll still need to check that 1 is a maximizer and not a minimizer of f

In [7]: f.diff(x).diff(x) < 0
Out[7]: True
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You could try SymPy. SymPy might be able to provide you with the derivative symbolically, find its zeros, and so on.

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I think scipy.optimize.minimize_scalar and scipy.optimize.minimize are the preferred ways now, that give you access to the range of techniques, e.g.

solution = scipy.optimize.minimize_scalar(lambda x: -f(x), bounds=[0,1], method='bounded')

for a single variable function that must lie between 0 and 1.

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Maximum of a function with parameters.

import scipy.optimize as opt

def get_function_max(f, *args):
    >>> round(get_function_max(lambda x, *a: 3.0-2.0*(x**2)), 2)

    >>> round(get_function_max(lambda x, *a: 3.0-2.0*(x**2)-2.0*x), 2)

    >>> round(get_function_max(lambda x, *a: a[0]-a[1]*(x**2)-a[1]*x, 3.0, 2.0), 2)
    def func(x, *arg):
        return -f(x, *arg)
    return f(opt.fmin(func, 0, args=args, disp=False)[0], *args)
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