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I'm trying to plot some data in polar coordinates, but I don't want the standard ticks, labels, axes, etc. that you get with the Matplotlib polar() function. All I want is the raw plot and nothing else, as I'm handling everything with manually drawn patches and lines.

Here are the options I've considered:

1) Drawing the data with polar(), hiding the superfluous stuff (with ax.axes.get_xaxis().set_visible(False), etc.) and then drawing my own axes (with Line2D, Circle, etc.). The problem is when I call polar() and subsequently add a Circle patch, it's drawn in polar coordinates and ends up looking like an infinity symbol. Also zooming doesn't seem to work with the polar() function.

2) Skip the polar() function and somehow make my own polar plot manually using Line2D. The problem is I don't know how to make Line2D draw in polar coordinates and haven't figured out how to use a transform to do that.

Any idea how I should proceed?

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3 Answers

up vote 1 down vote accepted

Your option #2 is probably the simplest, given what you want to do. You would thus stay in rectangular coordinates, modify your function from polar to rectangular coordinates, and plot it with plot() (which is easier than using `Line2D').

The transformation of your polar function into a rectangular one can be done with:

def polar_to_rect(theta, r):
    return (r*cos(theta), r*sin(theta))

and the plotting can be done with:

def my_polar(theta, r, *args, **kwargs):
    """
    theta, r -- NumPy arrays with polar coordinates.
    """
    rect_coords = polar_to_rect(theta, r)
    pyplot.plot(rect_coords[0], rect_coords[1], *args, **kwargs)
    # You can customize the plot with additional arguments, or use `Line2D` on the points in rect_coords.
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That indeed works, thanks.Out of curiosity though, anyone know how I could use Matplotlib's transform support to avoid the manual polar conversion? –  Roger Jan 8 '11 at 16:37
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Regarding your comment about using the matplotlib transforms...I used the following method to translate a polar plot into a polygon that I could draw on my cartesian/rectangular axes.

import matplotlib.pyplot as plt

polarPlot = plt.subplot(111, polar = True)
# Create some dummy polar plot data
polarData = np.ones((360,2))
polarData[:,0] = np.arange(0, np.pi, np.pi/360) * polarData[:,0]
# Use the polar plot axes transformation into cartesian coordinates
cartesianData = polarPlot.transProjection.transform(polarData)
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To remove the ticks and the labels, try using

`matplotlib.pyplot.tick_params(axis='both', which='both', length=0, width=0, labelbottom = False, labeltop = False, labelleft = False, labelright = False)`

From http://matplotlib.sourceforge.net/api/pyplot_api.html#matplotlib.pyplot.polar

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