# Filling complements of areas with matplotlib

I'm currently implementing something with Python and matplotlib. I know how to draw polygons and also how to fill them, but how do I fill everything except the interior of a polygon? To be clearer, I'd like to modify the result below, obtained using `axhspan`'s and `axvspan`'s, by clipping the horizontal and vertical red lines so as to obtain a red rectangle (outside which everything is hatched as it is now):

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This post asks (and answers) essentially this question. Look at 'Edit 2' in the accepted answer. It describes how to create a vector polygon the size of your plot bounds and then how to create a hole in it to match the shape you want to complement. It does this by assigning line codes that define whether or not the pen draws when it moves.

Here is the portion of the above-referenced post that is relevant to this question:

``````import numpy as np
import matplotlib.pyplot as plt

def main():
# Contour some regular (fake) data
grid = np.arange(100).reshape((10,10))
plt.contourf(grid)

# Verticies of the clipping polygon in counter-clockwise order
#  (A triange, in this case)
poly_verts = [(2, 2), (5, 2.5), (6, 8), (2, 2)]

plt.show()

"""
Plots a mask on the specified axis ("ax", defaults to plt.gca()) such that
all areas outside of the polygon specified by "poly_verts" are masked.

"poly_verts" must be a list of tuples of the verticies in the polygon in
counter-clockwise order.

Returns the matplotlib.patches.PathPatch instance plotted on the figure.
"""
import matplotlib.patches as mpatches
import matplotlib.path as mpath

if ax is None:
ax = plt.gca()

# Get current plot limits
xlim = ax.get_xlim()
ylim = ax.get_ylim()

# Verticies of the plot boundaries in clockwise order
bound_verts = [(xlim[0], ylim[0]), (xlim[0], ylim[1]),
(xlim[1], ylim[1]), (xlim[1], ylim[0]),
(xlim[0], ylim[0])]

# A series of codes (1 and 2) to tell matplotlib whether to draw a line or
# move the "pen" (So that there's no connecting line)
bound_codes = [mpath.Path.MOVETO] + (len(bound_verts) - 1) * [mpath.Path.LINETO]
poly_codes = [mpath.Path.MOVETO] + (len(poly_verts) - 1) * [mpath.Path.LINETO]

path = mpath.Path(bound_verts + poly_verts, bound_codes + poly_codes)
patch = mpatches.PathPatch(path, facecolor='white', edgecolor='none')

# Reset the plot limits to their original extents
ax.set_xlim(xlim)
ax.set_ylim(ylim)

return patch

if __name__ == '__main__':
main()
``````
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The post you refer to is about masking a 2D pixel image. Even though this could be an approximate solution to the question, the ideal solution would be through vector drawing (not pixel drawing). –  EOL Jan 27 '11 at 21:58
scroll down to 'Edid 2' of the accepted answer, You'll find a vector solution. –  Paul Jan 27 '11 at 22:02
Thanks bpowah! Indeed, the `mask_outside_polygon` function in 'Edit 2' together with some hatching did the trick. –  Anthony Labarre Jan 28 '11 at 9:11
If you only need the complement of a rectangle, you could instead draw 4 rectangles around it (like the 4 rectangles that are visible in your example image). The coordinates of the plot edges can be obtained with `xlim()` and `ylim()`.