# Fixed user size in scatter plot

I am using python to make a scatter plot. I would like my point to be represented as squares, whose size is fixed. The coordinates of my points span the range (0,1) and I would like them to have size of 0.1

This my attempt to the solution

``````  from pylab import *
from numpy import *

x = random.randn(60)
y = random.randn(60)

x=abs(x)/max(x)
y=abs(y)/max(y)

dx=ones(len(x))*0.2
fig = figure()
dx_in_points = np.diff(ax.transData.transform(zip([0]*len(dx), dx)))
scatter(x,y,c=x,s=dx_in_points**2.0,marker='s', edgecolors='none')
xlim(0,1)
ylim(0,1)
``````

My squares don't have a size equal to 0.2. Besides the size is always the same if I zoom in. I would like my square to be bigger when zooming in, with a size always equal to 0.2

Is that possible?

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The size is the area, in points^2, of a circle just big enough to contain each marker. (Yes, really.) I don't think it can be made to stay fixed relative to the values on the axes.

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I edited the question, but still my square width is not 0.2 as I want. Try running the script. –  Matteo Apr 27 '12 at 10:34
The units are points, which are physical units on the screen, rather than being relative to the values on your axes. As I said, I don't think you can make the marker size be fixed relative to your axis values. (You could plot polygons explicitly, though.) –  Gareth McCaughan Apr 27 '12 at 12:33
It must be possible. It's really easy to do it in IDL I don't understand why it's so hard with python though. –  Matteo Apr 27 '12 at 12:57
Your calculation of `dx_in_points` is incorrect; you're transforming points (0,0.2) in data-space into points (x,y) in display-space and then computing y-x. What you actually need to do is to transform (0,0.2) and (0,0) and subtract their y-coordinates. This still doesn't address your wish to have the sizes fixed in data-space (so to speak), and I repeat that I don't think you can make scatterplot markers do this in matplotlib/pylab. If you explicitly draw a polygon for each point instead, then they will scale the way you want, but that's more work. Sorry. –  Gareth McCaughan Apr 27 '12 at 13:57