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I have a dateset of around 60000 shapes (with lat/lon coordinates of each corner) which I want to draw on a map using matplotlib and basemap.

This is the way I am doing it at the moment:

for ii in range(len(data)):
    lons = np.array([data['lon1'][ii],data['lon3'][ii],data['lon4'][ii],data['lon2'][ii]],'f2')
    lats = np.array([data['lat1'][ii],data['lat3'][ii],data['lat4'][ii],data['lat2'][ii]],'f2')
    x,y = m(lons,lats)
    poly = Polygon(zip(x,y),facecolor=colorval[ii],edgecolor='none')
    plt.gca().add_patch(poly)

However, this takes around 1.5 minutes on my machine and I was thinking whether it is possible to speed things up a little. Is there a more efficient way to draw polygons and add them to the map?

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2 Answers 2

up vote 15 down vote accepted

You could consider creating Collections of polygons instead of individual polygons.

The relevant docs can be found here: http://matplotlib.org/api/collections_api.html With a example worth picking appart here: http://matplotlib.org/examples/api/collections_demo.html

As an example:

import numpy as np
import matplotlib.pyplot as plt
from matplotlib.collections import PolyCollection
import matplotlib as mpl

# Generate data. In this case, we'll make a bunch of center-points and generate
# verticies by subtracting random offsets from those center-points
numpoly, numverts = 100, 4
centers = 100 * (np.random.random((numpoly,2)) - 0.5)
offsets = 10 * (np.random.random((numverts,numpoly,2)) - 0.5)
verts = centers + offsets
verts = np.swapaxes(verts, 0, 1)

# In your case, "verts" might be something like:
# verts = zip(zip(lon1, lat1), zip(lon2, lat2), ...)
# If "data" in your case is a numpy array, there are cleaner ways to reorder
# things to suit.

# Color scalar...
# If you have rgb values in your "colorval" array, you could just pass them
# in as "facecolors=colorval" when you create the PolyCollection
z = np.random.random(numpoly) * 500

fig, ax = plt.subplots()

# Make the collection and add it to the plot.
coll = PolyCollection(verts, array=z, cmap=mpl.cm.jet, edgecolors='none')
ax.add_collection(coll)
ax.autoscale_view()

# Add a colorbar for the PolyCollection
fig.colorbar(coll, ax=ax)
plt.show()

enter image description here

HTH,

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11  
Hope it's alright that I added the example! –  Joe Kington Oct 14 '12 at 16:30
    
Thx, nice example! I think PolyCollection is the key. However, I am confused how to turn my lons/lats into polygons. In your case "verts". –  HyperCube Oct 15 '12 at 10:07
    
@JoeKington : Great addition. Unfortunately I will get the credit for all of your hard work... –  pelson Oct 15 '12 at 10:37

I adjusted my code and now it is working flawlessly :)

Here is the working example:

lons = np.array([data['lon1'],data['lon3'],data['lon4'],data['lon2']])
lats = np.array([data['lat1'],data['lat3'],data['lat4'],data['lat2']])
x,y = m(lons,lats)
pols = zip(x,y)
pols = np.swapaxes(pols,0,2)
pols = np.swapaxes(pols,1,2)
coll = PolyCollection(pols,facecolor=colorval,cmap=jet,edgecolor='none',zorder=2)
plt.gca().add_collection(coll)
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1  
Flawlessly and fast? How much time did you save from the original 1.5 minutes? –  pelson Oct 17 '12 at 18:15
2  
Now it takes 32 seconds, so it really speeds thing up! –  HyperCube Oct 18 '12 at 18:40
1  
what is m? Adding the imports/definitions would be nice. –  Skylar Saveland Apr 30 '14 at 19:00
    
@SkylarSaveland m is a Basemap object(in module mpl_toolkits.basemap). It can convert longitude and latitude into axes units for plotting a map. –  Sub Struct Aug 22 '14 at 10:45

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