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I am wondering if it is possible to remove any shape that is fully covered by other shapes? I am often generating scatter plots of particles where some of them are located close to each other and since the number of particles can easily be 100k these plots become quite overwhelming.

Consider the following simple example:

    import matplotlib.pyplot as plt
    import numpy as np
    N = 10000
    x = np.random.randn(N)
    y = np.random.randn(N)
    plt.scatter(x,y)
    plt.savefig('unseen.pdf')

When using a value of N that is greater than 10000 a large majority of the circles are underneath other circles and cannot be seen. However, when opening the resulting pdf-file all circles are drawn and the time to open the file is increasing even though the number of visible circles is almost the same.

Time to open figure in pdf-viewer (doesn't matter which):

N=10000 > 5s (2.4MB)

N=20000 > 10s (4.8MB)

N=40000 > 20s (9.5MB)

A linear increase both in time and file size, just as expected when increasing the number of circles.

Does anyone have an idea on how one could get around this?

share|improve this question
2  
uhm, don't save it as a pdf? – SilentGhost Nov 1 '12 at 13:46
up vote 1 down vote accepted

I think you should save the plot as a raster image and then embed it into a pdf (cairo module works great).

In my experience, most people won't zoom so much inside a PDF so as to make a difference between vector and image. Besides, your vector stuff is heavy enough to justify the use of a higher DPI image without increasing filesize.

Also, a good tip is to plot transparent circles without borders, using ms (markersize) and mew (marker edge width) and alpha keyword parameters. The visual effect is stunning. Instead of

plt.scatter(x, y)

you can do

plt.plot(x, y, 'o', ms=3, mew=0, alpha=0.3)

try and see!

Hope this helps!

share|improve this answer
    
I agree on the transparancy. Hiding a large portion of your data is strange and hints at other visualization methods. Besides transparancy you could also try showing it as a density plot with something like np.histogram2d(), but that would remove the color dimension as a third variable. – Rutger Kassies Nov 1 '12 at 14:34
    
Thanks for the answer. That is the method I'm using now, but I really would like to be able to keep the plot in vector graphics. – user1791321 Nov 1 '12 at 14:46
    
The transparency does look great, so I might go for that if I have to save it as raster graphics anyway. – user1791321 Nov 1 '12 at 14:56
    
I can understand very well your will to keep things "vector", or more "canonical", since that's the way I think, too. But one thing to consider is that, when granularity increases too much, there is a point beyond which it is actually more canonical to use a proper DPI raster instead of vector. (imagine saving a photograph as vector, for example...). Also, if you won't require transparency, some spatial declutter algorithm could be used prior to plotting, for example something that uses scipy.spatial's KDTree and distance functions. – heltonbiker Nov 1 '12 at 16:43
    
Thanks I will look into those functions. – user1791321 Nov 5 '12 at 10:36

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