I'm trying to plot a 2-dimensional function (specifically, a 2-d Laplace solution). I defined my function and it returns the right value when I put in specific numbers, but when I try running through an array of values (x,y below), it still returns only one number. I tried with a random function of x and y (e.g., f(x,y) = x^2 + y^2) and it gives me an array of values.

def V_func(x,y):
    a = 5
    b = 4
    Vo = 4
    n = np.arange(1,100,2)
    sum_list = []

    for indx in range(len(n)):
        sum_term = (1/n[indx])*(np.cosh(n[indx]*np.pi*x/a))/(np.cosh(n[indx]*np.pi*b/a))*np.sin(n[indx]*np.pi*y/a)
        sum_list = np.append(sum_list,sum_term)

    summation = np.sum(sum_list)
    V = 4*Vo/np.pi * summation

    return V

x = np.linspace(-4,4,50)
y = np.linspace(0,5,50)
V_func(x,y)

Out: 53.633709914177224

  • sum_list starts as a list []. sum_term looks like it would produce an array the same size as x and y. Then you append this to sum_list using np.append (why not sum_list.append?). So sum_list ends up a 1d array (read the np.append docs). Then you np.sum that reducing it to one number (read its docs). It isn't clear where the 2d is supposed to come from? From x, y, n or some outer product? – hpaulj Nov 9 at 5:04
  • From x and y, the summation is just a part of the function. Basically, I want to get a single number as an outcome but when I input an array, I'd like for it to return an array. For example, if the function z = x2 + y2 was given the same values for x and y as above, it returns an array. – user10476896 Nov 9 at 9:28
  • does that simpler function produce a 1d or 2d array? – hpaulj Nov 9 at 15:11
  • 1d, then I used the meshgrid function to get a 2d array. – user10476896 Nov 9 at 17:42

Try this:

def V_func(x,y):
  a = 5
  b = 4
  Vo = 4
  n = np.arange(1,100,2)
  # sum_list = []
  sum_list = np.zeros(50)

  for indx in range(len(n)):
      sum_term = (1/n[indx])*(np.cosh(n[indx]*np.pi*x/a))/(np.cosh(n[indx]*np.pi*b/a))*np.sin(n[indx]*np.pi*y/a)
      # sum_list = np.append(sum_list,sum_term)
      sum_list += sum_term

  # summation = np.sum(sum_list)
  # V = 4*Vo/np.pi * summation
  V = 4*Vo/np.pi * sum_list

  return V
  • When I do that, I end up with an array of 2500 instead of 50. I'm having trouble incorporating the summation of terms for n=1,3,5... in the function. – user10476896 Nov 9 at 2:54
  • Ah! I see, edited. Is that better? – mjhm Nov 9 at 3:07
  • Wow, I see now! Thanks so much, I guess np.sum was messing up the output. – user10476896 Nov 9 at 20:05

Define a pair of arrays:

In [6]: x = np.arange(3); y = np.arange(10,13)
In [7]: x,y
Out[7]: (array([0, 1, 2]), array([10, 11, 12]))

Try a simple function of the 2

In [8]: x + y
Out[8]: array([10, 12, 14])

Since they have the same size, they can be summed (or otherwise combined) elementwise. The result has the same shape as the 2 inputs.

Now try 'broadcasting'. x[:,None] has shape (3,1)

In [9]: x[:,None] + y
Out[9]: 
array([[10, 11, 12],
       [11, 12, 13],
       [12, 13, 14]])

The result is (3,3), the first 3 from the reshaped x, the second from y.

I can generate the pair of arrays with meshgrid:

In [10]: I,J = np.meshgrid(x,y,sparse=True, indexing='ij')
In [11]: I
Out[11]: 
array([[0],
       [1],
       [2]])
In [12]: J
Out[12]: array([[10, 11, 12]])
In [13]: I + J
Out[13]: 
array([[10, 11, 12],
       [11, 12, 13],
       [12, 13, 14]])

Note the added parameters in meshgrid. So that's how we go about generating 2d values from a pair of 1d arrays.

Now look at what sum does. As you use it in the function:

In [14]: np.sum(I + J)
Out[14]: 108

the result is a scalar. See the docs. If I specify an axis I get an array.

In [15]: np.sum(I + J, axis=0)
Out[15]: array([33, 36, 39])

If you gave V_func the right x and y, sum_list could be a 3d array. That axis-less sum reduces it to a scalar.

In code like this you need to keep track of array shapes. Include test prints if needed; don't just assume anything; test it. Pay attention to how dimensions grow and shrink as they pass through various operations.

  • Thanks so much, I figured it out. – user10476896 Nov 9 at 20:05

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