# How to “draw” a geometric shape on a 2-D meshgrid?

I want to do a simulation on Fraunhofer diffraction and for that purpose I chose to use numpy and matplotlib. What I need to do, is to specify a 2D aperture function and for that I can create a meshgrid of x and y values and assign a function z(x,y), which in this case should be complex. All this does not sound too complicated, but here's where I bump into a problem.

How do you define a rectangular, or a triangular piece inside a meshgrid, such that inside the geometric figure z=1 and outside z=0?

Minimal working example, where to begin:

``````#! /bin/usr/env python

# Import environment
import numpy as np

x_ = np.linspace(0,1,255)
y_ = np.linspace(0,1,255)
x,y = np.meshgrid(x_,y_)
``````

what to do next?

I tried to solve the problem differently:

• draw a figure using matplotlib
• encode the values of z by using different colours
• save the figure as a png
• import the png as a numpy array and decode the colours.

However, this puts severe restrictions on the values taken by the function z, which is the main reason I am searching for a different approach.

Thanks very much for anybody who can help me.

-

The two easiest options are to either use `matplotlib.nxutils.points_inside_poly` or to use `mahotas.polygon.fill_polygon`. The latter is a bit faster, but requires installing `mahotas`.

As an example of the first option:

``````import numpy as np
from matplotlib.nxutils import points_inside_poly

nx, ny = 10, 10
poly_verts = [(1,1), (5,1), (5,9),(3,2),(1,1)]

# Create vertex coordinates for each grid cell...
# (<0,0> is at the top left of the grid in this system)
x, y = np.meshgrid(np.arange(nx), np.arange(ny))
x, y = x.flatten(), y.flatten()

points = np.vstack((x,y)).T

grid = points_inside_poly(points, poly_verts)
grid = grid.reshape((ny,nx))

print grid
``````

Which yields (a boolean numpy array):

``````[[False False False False False False False False False False]
[False  True  True  True  True False False False False False]
[False False False  True  True False False False False False]
[False False False False  True False False False False False]
[False False False False  True False False False False False]
[False False False False  True False False False False False]
[False False False False False False False False False False]
[False False False False False False False False False False]
[False False False False False False False False False False]
[False False False False False False False False False False]]
``````

On a side note, `nxutils` is going to be depreciated at some point in favor of some of the path methods. In the future, you'll probably want to do something along the lines of:

``````from matplotlib import path

...
p = path.Path(poly_verts)
grid = p.contains_points(points)
...
``````

However, that's only in the github head at the moment.

-
Thank you very much for such a detailed answer. You made my day. :) –  gns-ank Apr 3 '12 at 8:15