# Plotting 3D mesh plot, accessing points in mesh plot array?

I'm trying to plot a graph in matplotlib using numpy and meshgrid.

I want to make a region in the center of the array filled with 'ones' and elsewhere zeros. I tried setting up the array, but the for loop doesn't seem to ever enter (print statements don't print inside for loops). Any pointers?

``````import numpy as np
import pylab as py
from scipy import *
from numpy.fft import fft
import mpl_toolkits.mplot3d.axes3d as p3

def fft2dplot(
type = 'rect', aperature = 16, method = 'transfer',
wavelength = 1, distance = 1000000):
dict = {
'rect' : 'Rectangle', 'circ' : 'Circle',
'transfer' : 'Tranfer Function', 'integral' : 'Integral'}
#Scale is not correct
scale = aperature/(distance*wavelength) #in mm
#Range for aperature,
x = y = arange(-aperature*8,aperature*8, 1)
X,Y = np.meshgrid(x,y)
print len(X)
X = Y = Z = X*0

#These following statements never enter (type == rect passes, but for loop don't)
if type == 'rect':
for u in x[-aperature/2:aperature/2]:
for w in y[-aperature/2:aperature/2]:
Z[u,w] = 1
print "I'm here"

fig = py.figure()
ax = p3.Axes3D(fig)
#ax.contour3D(X,Y,Z)
ax.plot_wireframe(X, Y, Z, rstride=1, cstride=1)
ax.set_xlabel('X')
ax.set_ylabel('Y')
ax.set_zlabel('Z')
py.show()
``````
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what are you trying to accomplish with this line: `X = Y = Z = X*0`? –  Paul Mar 15 '11 at 6:36

Here is the code I think you want. You want to avoid loops and you can't index that way (see the comments below).

``````import numpy as np
import pylab as py
from scipy import *  # it is better practice to do: from scipy import module1, module2, etc...
from numpy.fft import fft
import mpl_toolkits.mplot3d.axes3d as p3

def fft2dplot(
type = 'rect', aperature = 16, method = 'transfer',
wavelength = 1, distance = 1000000):
# here you are overwriting the built-in 'dict' suggest using a different variable name
dict = {
'rect' : 'Rectangle', 'circ' : 'Circle',
'transfer' : 'Tranfer Function', 'integral' : 'Integral'}
#Scale is not correct
scale = aperature/(distance*wavelength) #in mm
#Range for aperature,
x = y = arange(-aperature*8,aperature*8, 1)
X,Y = np.meshgrid(x,y)
print len(X)
# you were losing references to the meshgrid arrays X and Y here.
# I've provided an alternate method of getting an array of zeros
# Z = np.zeros(X.shape) works as well
#X = Y = Z = X*0
Z = X.copy()
Z[:,:] = 0

# Indexing does not work like this.  Indices are unsigned integers 0 and above
# or a boolean array the same shape as the indexed array.
#These following statements never enter (type == rect passes, but for loop don't)
##    if type == 'rect':
##        for u in x[-aperature/2:aperature/2]:
##                for w in y[-aperature/2:aperature/2]:
##                    Z[u,w] = 1
##                    print "I'm here"

# what you need is to define your indices based on your conditions.
# Here we create a boolean array of indices that indicate where we meet your
# conditions.
# Then we use that array to assign those elements of the Z array to the value 1
idxs = (X>-aperature/2)&(X<aperature/2)&(Y>-aperature/2)&(Y<aperature/2)
Z[idxs] = 1

fig = py.figure()
ax = p3.Axes3D(fig)
#ax.contour3D(X,Y,Z)
ax.plot_wireframe(X, Y, Z, rstride=1, cstride=1)
ax.set_xlabel('X')
ax.set_ylabel('Y')
ax.set_zlabel('Z')
py.show()
``````
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Awesome, thank you very much. This worked wonderfully. I ran into some memory problems as well as some other things when I tried to make a bigger image, so I switched to using PIL to draw and numpy to convert image to array. I'm stuck on something else, but I'll make a new topic. Thanks for the help!!!! –  MercuryRising Mar 23 '11 at 4:18