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Hi I'm very new to Python and have been using Spyder to process images for a report. I'm working from home and downloaded Anaconda Navigator to use Spyder.

The following code has been directly copied from my work laptop which also uses Spyder, so I don't understand why the error "slice indices must be integers or None or have an index method" keeps coming up.

from scipy.ndimage import interpolation
import numpy as np
from PIL import Image
import matplotlib.pyplot as plt
from matplotlib.colors import LogNorm

def normalise_image(input_img):
    norm = (input_img-np.min(input_img))/(np.max(input_img)-np.min(input_img))
    return norm

loc = 'C:/Users/Gemma/Documents/Katy College/Applications/NUFFIELD/Polarisation Data/THURSDAY/Abbypalm_thursday/'
loc1 = loc + 'Camera1/0.040.png'
loc2 = loc + 'Camera2/0.040.png'

Image1 = Image.open(loc1)
Image2 = Image.open(loc2)

Image1array = np.array(Image1, dtype=float)
Image2array = np.array(Image2, dtype=float)

# Flipped Image and Cut out last row
Image2array = np.flipud(Image2array)
Image2array = np.fliplr(Image2array)

Image2array = interpolation.rotate(Image2array,0.95)

mid_x, mid_y = Image2array.shape[0]/2, Image2array.shape[1]/2
offset_in_v = 5
Image2array = Image2array[mid_x-494/2+offset_in_v:mid_x+493/2+offset_in_v, 
mid_y-660/2:mid_y+659/2]
color = 'binary'

Image2array=normalise_image(Image2array)
Image1array=normalise_image(Image1array)

DOP = np.zeros((Image2array.shape), dtype=float)
for i in range(Image2array.shape[0]):
    for j in range(Image2array.shape[1]):
        if (Image2array[i,j] + Image1array[i,j]) == 0:
            DOP[i,j] = 0.0
        else:
            DOP[i,j] = (Image2array[i,j] - 
Image1array[i,j])/(Image2array[i,j] + Image1array[i,j])

plt.figure('Parallel')
plt.imshow(Image1array,cmap='binary')
plt.colorbar()
plt.show()

plt.figure('Perpendicular')
plt.imshow(Image2array,cmap='binary')
plt.colorbar()
plt.show()

plt.figure('DOP')
plt.imshow(DOP,cmap=color)
plt.colorbar()
plt.imsave(loc + 'DOP'+color+'.png',DOP,cmap=color)
plt.show()

I've put all the code in since I don't know which is most important. My supervisor dictated the code to me to write it. Spyder says the problem is with line 36: Image2array = Image2array[mid_x-494/2+offset_in_v:mid_x+493/2+offset_in_v, mid_y-660/2:mid_y+659/2]

Thank you in advance,

Katy

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If you copy between machines with different python versions you might be tripped up by the change of meaning for the / operator.
In older pythons, / between integers resulted in an integer.
Younger pythons have it result in floats.
Using the // in younger pythons gets you the needed integer.

Try using // instead of / in that line.

Image2array = Image2array[mid_x-494/2+offset_in_v:mid_x+493/2+offset_in_v, 
mid_y-660/2:mid_y+659/2]

->

Image2array = Image2array[mid_x-494//2+offset_in_v:mid_x+493//2+offset_in_v, 
mid_y-660//2:mid_y+659//2]
| improve this answer | |
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I recon the problem is Image2array = Image2array[mid_x-494/2+offset_in_v:mid_x+493/2+offset_in_v, mid_y-660/2:mid_y+659/2] is resulting in floating point slicing indices probably because of lack of operator precedence while calculating those indices and behaviour of integer division in different versions of Python.

Image2array = Image2array[mid_x-494/2+offset_in_v:mid_x+493/2+offset_in_v, mid_y-660/2:mid_y+659/2]

An example is mid_y+659/2 highlighted above where / has a higher precedence than + hence the operation will be evaluated as mid_y+(659/2) with 659/2 being evaluated first and it's result which is 329.5 added to mid_y. So even if mid_y is an int, you end up with and slicing index with a .5

I suggest adding in () to have your precedence order followed.

Also the behaviour of / has changed between Python 2 and 3 and since you copied the script from one machine that could be running a different version of Python from the one you are using, you may have to use the floor division operator // to drop off the floating point on integer divisions in Python 3 that was always the case with / in Python 2

| improve this answer | |
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Since it appears that the problem is caused by differing versions of Python, and since you are using Anaconda, you should create a new conda environment with the appropriate Python version. For example, if the original code is written for Python 2.7:

conda create -n myenv python=2.7 spyder scipy numpy PIL matplotlib

will create a new environment named myenv containing Python 2.7, Spyder, and the other modules that your code requires.

To use Spyder in this environment you first activate the environment, then run Spyder:

activate myenv
spyder

You may also be able to do this in the Navigator and/or via a Start menu shortcut, but the command line version should always work.

| improve this answer | |

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