I hope this captcha is not used anywhere.

Following is a dummy way to decode it. Basically what you need are the patterns from 0 to 9 as present in these captchas. From your examples, I have only the patterns for 0 3 4 5 7 8. Since everything is fixed on them, you know where to split each character. You also know each character is a number of fixed size and fixed font. If it also includes letters or more characters, but of fixed size and font, then the following code can be easily adapted.

What the code does is: a) load the patterns (I considered they are named n0.png, n1.png, ...); b) split the captcha in NUMS pieces; c) do a sum of squared differences between each pattern and each split number; d) decide that the the split number is the one with the smallest sum. It returns a list for each number, in order, present in the captcha. To obtain the initial patterns, you can uncomment the lines that save the split numbers, place a `return`

after that piece, and adjust the file names.

```
import sys
from PIL import Image, ImageOps
PAT_SIZE = (8, 10)
NUMS = 3
FIRST_NUM_OFFSET = 5
NUM_OFFSET = (1, 3)
NUMBERS = []
for i in xrange(10):
try:
NUMBERS.append(Image.open('n%d.png' % i).load())
except IOError:
print "I do not know the pattern for the number %d." % i
NUMBERS.append(None)
def magic(fname):
captcha = ImageOps.grayscale(Image.open(fname))
im = captcha.load()
# Split numbers
num = []
for n in xrange(NUMS):
x1, y1 = (FIRST_NUM_OFFSET + n * (NUM_OFFSET[0] + PAT_SIZE[0]),
NUM_OFFSET[1])
num.append(captcha.crop((x1, y1, x1 + PAT_SIZE[0], y1 + PAT_SIZE[1])))
# If you want to save the split numbers:
#for i, n in enumerate(num):
# n.save('%d.png' % i)
def sqdiff(a, b):
if None in (a, b): # XXX This is here just to handle missing pattern.
return float('inf')
d = 0
for x in xrange(PAT_SIZE[0]):
for y in xrange(PAT_SIZE[1]):
d += (a[x, y] - b[x, y]) ** 2
return d
# Calculate a dummy sum of squared differences between the patterns
# and each number. We assume the smallest diff is the number in the
# "captcha".
result = []
for n in num:
n_sqdiff = [(sqdiff(p, n.load()), i) for i, p in enumerate(NUMBERS)]
result.append(min(n_sqdiff)[1])
return result
print magic(sys.argv[1])
```