I am attempting to draw a neural network diagram in python, so far I have been able to work with this script.

import matplotlib.pyplot as plt

def draw_neural_net(ax, left, right, bottom, top, layer_sizes):
    Draw a neural network cartoon using matplotilb.
        >>> fig = plt.figure(figsize=(12, 12))
        >>> draw_neural_net(fig.gca(), .1, .9, .1, .9, [4, 7, 2])
        - ax : matplotlib.axes.AxesSubplot
            The axes on which to plot the cartoon (get e.g. by plt.gca())
        - left : float
            The center of the leftmost node(s) will be placed here
        - right : float
            The center of the rightmost node(s) will be placed here
        - bottom : float
            The center of the bottommost node(s) will be placed here
        - top : float
            The center of the topmost node(s) will be placed here
        - layer_sizes : list of int
            List of layer sizes, including input and output dimensionality
    n_layers = len(layer_sizes)
    v_spacing = (top - bottom)/float(max(layer_sizes))
    h_spacing = (right - left)/float(len(layer_sizes) - 1)
    # Nodes
    for n, layer_size in enumerate(layer_sizes):
        layer_top = v_spacing*(layer_size - 1)/2. + (top + bottom)/2.
        for m in xrange(layer_size):
            circle = plt.Circle((n*h_spacing + left, layer_top - m*v_spacing), v_spacing/4.,
                                color='w', ec='k', zorder=4)
    # Edges
    for n, (layer_size_a, layer_size_b) in enumerate(zip(layer_sizes[:-1], layer_sizes[1:])):
        layer_top_a = v_spacing*(layer_size_a - 1)/2. + (top + bottom)/2.
        layer_top_b = v_spacing*(layer_size_b - 1)/2. + (top + bottom)/2.
        for m in xrange(layer_size_a):
            for o in xrange(layer_size_b):
                line = plt.Line2D([n*h_spacing + left, (n + 1)*h_spacing + left],
                                  [layer_top_a - m*v_spacing, layer_top_b - o*v_spacing], c='k')

fig = plt.figure(figsize=(12, 12))
ax = fig.gca()
draw_neural_net(ax, .1, .9, .1, .9, [4, 7, 2])

enter image description here

what I want to do is to replicate the hidden layer in the diagram below, to split the the hidden & output layer nodes into two to represent the inner and activation states of the nodes.

Is there a way to split plt.circle or add join two semicircles to obtain such a representation?

enter image description here

  • Just wondering, can't you draw a 2D line in the middle of the circle?
    – Thymen
    Apr 27, 2021 at 9:58
  • @Thymen yes its possible to do it that way too but I do not know how to manipulate the current code. Do you have any leads ?
    – user157522
    Apr 27, 2021 at 11:36
  • At this moment I am otherwise occupied, but I can take a look tomorrow, if it hasn't been answered before then. Just to be sure, I assume that you want to get that center line in all hidden layers?
    – Thymen
    Apr 27, 2021 at 13:20
  • @Thymen Thanks a lot Ideally that's what I want to accomplish, however, it would be much better from my goals if two semicircles could be joined to form a circle, then I would be able to control the two halves independently such as manipulate their colour or values.
    – user157522
    Apr 27, 2021 at 13:47

1 Answer 1


So testing around a bit, and the solution is relatively simple. In matplotlib there is the Wedge patch, which can create semicircles.

For the solution I only had to update the Nodes sections, and I used the following code

Side note I am using python 3.9, therefore I changed the xrange to range.

# Nodes
for n, layer_size in enumerate(layer_sizes):
    layer_top = v_spacing * (layer_size - 1) / 2. + (top + bottom) / 2.

    for m in range(layer_size):
        center = (n * h_spacing + left, layer_top - m * v_spacing)
        radius = v_spacing / 4.

        if n > 0:
            # Hidden Layers
            wedge_left = Wedge(center, r=radius, theta1=90, theta2=270, color='w', fc='g', ec='k', zorder=4)
            wedge_right = Wedge(center, r=radius, theta1=270, theta2=90, color='w', fc='r', ec='k', zorder=4)

            # None hidden layers
            circle = plt.Circle(center, radius, color='w', ec='k', zorder=4)

This generates two separate semicircles (Wedges), one facing left and one facing right. In order to distinguish them I gave them the facecolor green and red respectively. Running your original code, would result in the following image:

enter image description here

  • You are welcome! Would like to see the end result when you are done :).
    – Thymen
    Apr 28, 2021 at 13:52

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