Just to expand on DSM's correct answer. By default, plots have more pixels along one axis over the other. When you add a circle, it's traditionally added in data units. If your axes have a symmetric range, that means one step along the x axis will involve a different number of pixels than one step along your y axis. So a symmetric circle in data units is asymmetric in your Pixel units (what you actually see).

As DSM correctly pointed out, you can force the x and y axes to have equal number of pixels per data unit. This is done using the `plt.axis("equal")`

or `ax.axis("equal")`

methods (where `ax`

is an instance of an `Axes`

).

You can also draw an `Ellipse`

such that it is appropriately scaled to look like a circle on your plot. Here's an example of such a case:

```
import matplotlib.pyplot as plt
from matplotlib.patches import Ellipse, Circle
fig = plt.figure()
ax1 = fig.add_subplot(211)
# calculate asymmetry of x and y axes:
x0, y0 = ax1.transAxes.transform((0, 0)) # lower left in pixels
x1, y1 = ax1.transAxes.transform((1, 1)) # upper right in pixes
dx = x1 - x0
dy = y1 - y0
maxd = max(dx, dy)
width = .15 * maxd / dx
height = .15 * maxd / dy
# a circle you expect to be a circle, but it is not
ax1.add_artist(Circle((.5, .5), .15))
# an ellipse you expect to be an ellipse, but it's a circle
ax1.add_artist(Ellipse((.75, .75), width, height))
ax2 = fig.add_subplot(212)
ax2.axis('equal')
# a circle you expect to be a circle, and it is
ax2.add_artist(Circle((.5, .5), .15))
# an ellipse you expect to be an ellipse, and it is
ax2.add_artist(Ellipse((.75, .75), width, height))
fig.savefig('perfectCircle1.png')
```

resulting in this figure:

Alternatively, you can adjust your figure so that the `Axes`

are square:

```
# calculate dimensions of axes 1 in figure units
x0, y0, dx, dy = ax1.get_position().bounds
maxd = max(dx, dy)
width = 6 * maxd / dx
height = 6 * maxd / dy
fig.set_size_inches((width, height))
fig.savefig('perfectCircle2.png')
```

resulting in:

Notice how the second axes, which has the `axis("equal")`

option, now has the same range for the x and y axes. The figure has been scaled so that the date units of each are represented by the same number of pixels.

You can also adjust your axes to be square, even if the figure is not. Or you can change the default transform for the Circle to `None`

, which means the units used are pixels. I'm having difficulty successfully doing this at the moment (the circle is a circle, but not where I want it to be).