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I've created a function, potential(x,K,B,N), where x,K,B are numpy arrays and N is an integer. I'm trying to test the function in iPython but I keep getting the error "global name 'sqrt' not defined".

Here's a look at my code:

def potential(x,K,B,N):

    x = x.reshape((3,N),order='F')

U_b = 0.0
for i in xrange(0,N-1):
    for j in xrange(i+1,N):
        if K[i,j] == 1.0:
            U_b += sum((x[:,i]-x[:,j])**2)
U_b = 0.5*U_b

U_a = 0.0
for i in xrange(0,N-2):
    for j in xrange(i+1,N-1):
        for l in xrange(j+1,N):
            if B[i,j,l] == 1.0:
                U_a += B[i,j,l]*sum((x[:,i]-x[:,j])*(x[:,j]-x[:,l]))/(sqrt(sum((x[:,i]-x[:,j])**2))*sqrt(sum((x[:,j]-x[:,l])**2)))
U_a = -U_a

U_r = 0.0
d = 0.0
for i in xrange(0,N-1):
    for j in xrange(i+1,N):
        d = sqrt(sum((x[:,i]-x[:,j])**2))
        if d > sqrt(0.2):
            U_r += (1.0/6.0)*(1/(d**6))
            U_r += -0.2**(-7.0/2.0)*d + (7.0/6.0)*(0.2)**(-3)

return U_b + U_a + U_r

I've tried using from math import * but that doesn't seem to help. Any suggestions would be greatly appreciated!

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4 Answers 4

Since you tagged numpy,

import numpy as np

Then use np.sqrt instead of sqrt. Always works.

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I did that before I posted this. My apologies for not stating that in the beginning. –  user3758890 Jun 21 at 7:39
from math import sqrt

is all that's missing

I've tried using from math import * but that doesn't seem to help.

(Possibly you did that after defining the function. Anyway, fuhgeddaboutit, just reload the code in a clean session, it will work.)

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just add.

from math import sqrt
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I also did this before posting –  user3758890 Jun 21 at 7:39

You have a couple of options here:

Additional libraries: e.g., NumPy

import numpy as np

and then use np.sqrt(9)


from numpy import sqrt

Or Standard Library and in-built solutions:

1) 9**0.5


import math


from math import sqrt

For the latter part, I'd prefer the math function for performance reasons. I did this benchmark here:

enter image description here

Why is the math module more efficient? The math module uses the C implementations of the square root

The code for my benchmark can be found here:


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