Afternoon everyone. I'm currently porting over an IDL code to python and it's been plain sailing up until this point so far. I'm stuck on this section of IDL code:

```
nsteps = 266
ind2 = ((lindgen(nsteps+1,nsteps+1)) mod (nsteps+1))
dk2 = (k2arr((ind2+1) < nsteps) - k2arr(ind2-1) > 0)) / 2.
```

My version of this includes a rewritten lindgen function as follows:

```
def pylindgen(shape):
nelem = numpy.prod(numpy.array(shape))
out = numpy.arange(nelem,dtype=int)
return numpy.reshape(out,shape)
```

... and the ported code where k2arr is an array of shape (267,):

```
ind2 = pylindgen((nsteps+1,nsteps+1)) % (nsteps+1)
dk2 = (k2arr[ (ind2+1) < nsteps ] - k2arr[ (ind2-1) > 0. ]) / 2.
```

Now, the problem is that my code makes ind2 an array where, by looking at the IDL code and the errors thrown in the python script, I'm sure it's meant to be a scalar. Am I missing some feature of these IDL functions?

Any thoughts would be greatly appreciated. Cheers.

`ind2`

is an array, where the mod operation has been applied element-wise. The Python code you give for performing the same action is correct for applying`mod`

to a NumPy`ndarray`

. The error must be coming from a different section of your code. – Mr. F Jul 23 '13 at 18:44