# IndexError: index out of bounds When tryin to plot in Matplotlib

I am trying to convert the following code from Trefethen's Spectral Methods in MATLAB to Python. But run into the following error regarding an index out of bounds. I am a bit confused as to what index is out of bounds and how to fix it. Any help would be appreciated.

Error

``````Traceback (most recent call last):
File "C:\Documents and Settings\My Documents\Computational Physics\Wave-eqn.py", line 56, in <module>
ax.plot_wireframe(x,tdata,data,rstride=10, cstride=10)
File "C:\Python32\lib\site-packages\mpl_toolkits\mplot3d\axes3d.py", line 906, in  plot_wireframe
tylines = [tY[i] for i in cii]
File "C:\Python32\lib\site-packages\mpl_toolkits\mplot3d\axes3d.py", line 906, in  <listcomp>
tylines = [tY[i] for i in cii]
IndexError: index out of bounds
``````

Trefethen's Code

``````% p6.m - variable coefficient wave equation using differentiation matrices

% Grid, variable coefficient, and initial data:
N = 512; h = 2*pi/N; x = h*(1:N); t = 0; dt = h/4;
a = .1;
c = a + sin (x-1).^2;
v = exp(-100*(x-1).^2); vold = exp(-100*(x-a*dt-1).^2);

column = [0 .5*(-1).^(1:N-1).*cot((1:N-1)*h/2)];
D = toeplitz(column,-column);

% Time-stepping by leap frog formula:
tmax = 15; tplot = .15; clf, drawnow, set(gcf,'renderer','zbuffer')
plotgap = round(tplot/dt); dt = tplot/plotgap;
nplots = round(tmax/tplot);
data = [v; zeros(nplots,N)]; tdata = t;
for i = 1:nplots
for n = 1:plotgap
t = t+dt;
%       v_hat = fft(v);
%       w_hat = 1i*[0:N/2-1 0 -N/2+1:-1] .* v_hat;
%       w = real(ifft(w_hat));
w = (D*v')';
vnew = vold - 2*dt*c.*w; vold = v; v = vnew;
end
data(i+1,:) = v; tdata = [tdata; t];
end
waterfall(x,tdata,data), view(10,70), colormap(1e-6*[1 1 1]);
axis([0 2*pi 0 tmax 0 3]), ylabel t, zlabel u, grid off
``````

My Code

``````import numpy as np
from numpy import *
from math import  pi
from scipy.linalg import toeplitz
from scipy.special import cotdg
from mpl_toolkits.mplot3d import axes3d
import matplotlib.pyplot as plt

N = 512
h = (2*np.pi)/N
x = h*(np.arange(N)+1)
t = 0
dt = h/4.
a = .1
c = a + np.sin(x - 1)**2
v = np.exp(-100 * (x - 1)**2)
vold = np.exp(-100 * (x - a*dt - 1)**2)

column = ((0.5*(-1)**arange(N))*cotdg(arange(N))*(h/2));
D = toeplitz(column,-column);
#print(D.shape);

tmax = 15
tplot = .15
plotgap = int(around(tplot/dt));print(plotgap)
dt = tplot/plotgap
nplots = int(round((tmax/tplot)));print(nplots)
k = np.zeros(((nplots,N)))
data = np.concatenate((v.reshape((512,1)).transpose(), k))
tdata = t

for i in range(nplots):
for n in range(plotgap):
t = t+dt
w = (D*v)
vnew = vold-2*dt*c*w
vold = v
v = vnew
data[i,:] = v[0,:]
tdata = vstack([tdata, t])
print('shape data =',data.shape)
print('shape v =',v.shape)
print('shape tdata =',tdata.shape)
print('shape x =',x.shape)

fig = plt.figure()
ax.plot_wireframe(x,tdata,data,rstride=10, cstride=10)
plt.show()
``````

Shapes of arrays done by python

`````` shape data = (101, 512)
shape tdata = (101, 1)
shape x = (512,)
``````

I had a friend run the size() command in MatLab for this code and he came up with these shapes for the arrays

``````data =  101 512
tdata = 101 1
x =     1   512
``````
-
I'm not really familiar with the details of `matplotlib`,`scipy` or `numpy`, but I'm guessing that you introduced some off-by-1 errors when porting from Matlab, since Matlab arrays are index from `1` to `n`, whereas python arrays are from `0` to `n-1`. I hope this comment is actually useful! –  Gordon Bailey Aug 1 '12 at 20:35
That's a good point, but it only applies to indexing, not the total number of elements -- `shape` in numpy and `size` in Matlab should return the same numbers. –  Steve Tjoa Aug 1 '12 at 20:46
I took that in to account by having the `(1:N-1)` lines in the Matlab code be `arange(N))` in the Python code. –  Surfcast23 Aug 1 '12 at 20:49
@SteveTjoa is there a way to change `shape =(512,)` to `(1,512)` like the Matlab output? –  Surfcast23 Aug 1 '12 at 20:54

The first two arguments of `plot_wireframe` need to be 2D arrays. Documentation.

I don't know exactly how to customize your code (because there is a lot of it), but I hope that helps.

EDIT: Try `axes3d.get_test_data` to see an example of what valid inputs are supposed to look like.

-
so I need to some how make `x` a 2D array? –  Surfcast23 Aug 1 '12 at 20:45
Yes, but not just any 2D array. See edit. –  Steve Tjoa Aug 1 '12 at 20:50
will give it a try –  Surfcast23 Aug 1 '12 at 20:50
so I did `X,Y,Z=axes3d.get_test_data(0.05) print(X.shape) print(Y.shape) print(Z.shape)` and got `(120, 120) (120, 120) (120, 120)` so does this mean that the length of each dimension of the arrays must be the same? –  Surfcast23 Aug 1 '12 at 22:13

With the help of the folks over at matplotlib-users@lists.sourceforge.net I figured it out. The arrays

``````x and tdata
``````

Need to be broadcast so I did

``````X,Y = np.broadcast_arrays(x,tdata)
fig = plt.figure()