I am still a beginner but I want to write a character-recognition-program. This program isn't ready yet. And I edited a lot, therefor the comments may not match exactly. I will use the 8-connectivity for the connected component labeling.

```
from PIL import Image
import numpy as np
im = Image.open("D:\\Python26\\PYTHON-PROGRAMME\\bild_schrift.jpg")
w,h = im.size
w = int(w)
h = int(h)
#2D-Array for area
area = []
for x in range(w):
area.append([])
for y in range(h):
area[x].append(2) #number 0 is white, number 1 is black
#2D-Array for letter
letter = []
for x in range(50):
letter.append([])
for y in range(50):
letter[x].append(0)
#2D-Array for label
label = []
for x in range(50):
label.append([])
for y in range(50):
label[x].append(0)
#image to number conversion
pix = im.load()
threshold = 200
for x in range(w):
for y in range(h):
aaa = pix[x, y]
bbb = aaa[0] + aaa[1] + aaa[2] #total value
if bbb<=threshold:
area[x][y] = 1
if bbb>threshold:
area[x][y] = 0
np.set_printoptions(threshold='nan', linewidth=10)
#matrix transponation
ccc = np.array(area)
area = ccc.T #better solution?
#find all black pixel and set temporary label numbers
i=1
for x in range(40): # width (later)
for y in range(40): # heigth (later)
if area[x][y]==1:
letter[x][y]=1
label[x][y]=i
i += 1
#connected components labeling
for x in range(40): # width (later)
for y in range(40): # heigth (later)
if area[x][y]==1:
label[x][y]=i
#if pixel has neighbour:
if area[x][y+1]==1:
#pixel and neighbour get the lowest label
pass # tomorrows work
if area[x+1][y]==1:
#pixel and neighbour get the lowest label
pass # tomorrows work
#should i also compare pixel and left neighbour?
#find width of the letter
#find height of the letter
#find the middle of the letter
#middle = [width/2][height/2] #?
#divide letter into 30 parts --> 5 x 6 array
#model letter
#letter A-Z, a-z, 0-9 (maybe more)
#compare each of the 30 parts of the letter with all model letters
#make a weighting
#print(letter)
im.save("D:\\Python26\\PYTHON-PROGRAMME\\bild2.jpg")
print('done')
```