# How to make the angles in a matplotlib polar plot go clockwise with 0° at the top?

I am using matplotlib and numpy to make a polar plot. Here is some sample code:

``````import numpy as N
import matplotlib.pyplot as P

angle = N.arange(0, 360, 10, dtype=float) * N.pi / 180.0
arbitrary_data = N.abs(N.sin(angle)) + 0.1 * (N.random.random_sample(size=angle.shape) - 0.5)

P.clf()
P.polar(angle, arbitrary_data)
P.show()
``````

You will notice that 0° is at 3 o'clock on the plot, and the angles go counterclockwise. It would be more useful for my data visualization purposes to have 0° at 12 o'clock and have the angles go clockwise. Is there any way to do this besides rotating the data and manually changing the axis labels?

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 You've probably realised that rotating the data isn't quite what you want to do -- you want to reflect it across y==x. – High Performance Mark Mar 10 '10 at 15:00 Er, you're right -- but the question is still how to do it without manipulating the data at all, just the plot. – ptomato Mar 10 '10 at 16:22

I found it out -- matplotlib allows you to create custom projections. I created one that inherits from `PolarAxes`.

``````import numpy as N
import matplotlib.pyplot as P

from matplotlib.projections import PolarAxes, register_projection
from matplotlib.transforms import Affine2D, Bbox, IdentityTransform

class NorthPolarAxes(PolarAxes):
'''
A variant of PolarAxes where theta starts pointing north and goes
clockwise.
'''
name = 'northpolar'

class NorthPolarTransform(PolarAxes.PolarTransform):
def transform(self, tr):
xy   = N.zeros(tr.shape, N.float_)
t    = tr[:, 0:1]
r    = tr[:, 1:2]
x    = xy[:, 0:1]
y    = xy[:, 1:2]
x[:] = r * N.sin(t)
y[:] = r * N.cos(t)
return xy

transform_non_affine = transform

def inverted(self):
return NorthPolarAxes.InvertedNorthPolarTransform()

class InvertedNorthPolarTransform(PolarAxes.InvertedPolarTransform):
def transform(self, xy):
x = xy[:, 0:1]
y = xy[:, 1:]
r = N.sqrt(x*x + y*y)
theta = N.arctan2(y, x)
return N.concatenate((theta, r), 1)

def inverted(self):
return NorthPolarAxes.NorthPolarTransform()

def _set_lim_and_transforms(self):
PolarAxes._set_lim_and_transforms(self)
self.transProjection = self.NorthPolarTransform()
self.transData = (
self.transScale +
self.transProjection +
(self.transProjectionAffine + self.transAxes))
self._xaxis_transform = (
self.transProjection +
self.PolarAffine(IdentityTransform(), Bbox.unit()) +
self.transAxes)
self._xaxis_text1_transform = (
self._theta_label1_position +
self._xaxis_transform)
self._yaxis_transform = (
Affine2D().scale(N.pi * 2.0, 1.0) +
self.transData)
self._yaxis_text1_transform = (
self._r_label1_position +
Affine2D().scale(1.0 / 360.0, 1.0) +
self._yaxis_transform)

register_projection(NorthPolarAxes)

angle = N.arange(0, 360, 10, dtype=float) * N.pi / 180.0
arbitrary_data = (N.abs(N.sin(angle)) + 0.1 *
(N.random.random_sample(size=angle.shape) - 0.5))

P.clf()
P.subplot(1, 1, 1, projection='northpolar')
P.plot(angle, arbitrary_data)
P.show()
``````
-
Awesome, this should be included with their custom projection examples. – Mark Mar 12 '10 at 19:04
I'd recommend it be incorporated into the codebase. – Carl F. Sep 18 '11 at 17:23
Any idea how to get this working with FigureCanvasGTKAgg? – Sardathrion Jul 2 '12 at 12:41
What doesn't work? – ptomato Jul 2 '12 at 21:32

Updating this question, in Matplotlib 1.1, there are now two methods in `PolarAxes` for setting the theta direction (CW/CCW) and location for theta=0.

Specifically, see `set_theta_direction()` and `set_theta_offset()`.

Lots of people attempting to do compass-like plots it seems.

-

Where it says:

``````def transform(self, tr):
xy   = npy.zeros(tr.shape, npy.float_)
t    = tr[:, 0:1]
r    = tr[:, 1:2]
x    = xy[:, 0:1]
y    = xy[:, 1:2]
x[:] = r * npy.cos(t)
y[:] = r * npy.sin(t)
return xy
``````

Make it say:

``````def transform(self, tr):
xy   = npy.zeros(tr.shape, npy.float_)
t    = tr[:, 0:1]
r    = tr[:, 1:2]
x    = xy[:, 0:1]
y    = xy[:, 1:2]
x[:] = - r * npy.sin(t)
y[:] = r * npy.cos(t)
return xy
``````

I didn't actually try it, you may need to tweak x[:] and y[:] assignments to your taste. This change will affect all programs that use matplotlib polar plot.

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 This is ingenious, but patching the code is kind of cheating, isn't it? However, you've given me an idea. Matplotlib allows you to create axes with any kind of transformation; perhaps I can write an alternate polar() function with the transform I'm looking for. – ptomato Mar 11 '10 at 10:07

Both invert routines should use the full path to the transforms:

``````return NorthPolarAxes.InvertedNorthPolarTransform()
``````

and

``````return NorthPolarAxes.NorthPolarTransform()
``````

Now, automatically created subclasses of NorthPolarAxes such as NorthPolarAxesSubplot can access the transform functions.

Hope this helps.

-

To expand klimaat's answer with an example:

``````import math
angle=[0.,5.,10.,15.,20.,25.,30.,35.,40.,45.,50.,55.,60.,65.,70.,75.,\
80.,85.,90.,95.,100.,105.,110.,115.,120.,125.]

angle = [math.radians(a) for a in angle]

lux=[12.67,12.97,12.49,14.58,12.46,12.59,11.26,10.71,17.74,25.95,\
15.07,7.43,6.30,6.39,7.70,9.19,11.30,13.30,14.07,15.92,14.70,\
10.70,6.27,2.69,1.29,0.81]

import matplotlib.pyplot as P
import matplotlib
P.clf()
sp = P.subplot(1, 1, 1, projection='polar')
sp.set_theta_zero_location('N')
sp.set_theta_direction(-1)
P.plot(angle, lux)
P.show()
``````
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