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.