I want to sort a list by each item's digit.

Example:

``````myCmpItem = '511'
myList = ['111','222','333','444','555','123']

(some magic)

mySortedList = ['111', '222', '333', '123', '444', '555']
``````

How the algorithm should work:

• Compare each digit of current item in myList with myCmpItem
• For the first item in the list it would be like that:
• Difference between 5 and 1 is 4
• Difference between 1 and 1 is 0
• Difference between 1 and 1 is 0
• Difference between those two numbers is 4 (the sum of the digit comparison)
• Do the same for all other items
• Order the list by this calculated similarity

I could code this with alot of for-loops, but I am actually looking for a faster way to do this. Is there any algorithm that does something like that? Fast?

Further Limitations

• In my example all items have a length of 3, in the real scenario they have a length of 25
• All items have the same length, len(myList[x])==25 is always true
• Items can be strings, ints, floats or whatever fits better to the algorithm
• There are only digits between 1 and 5

Background

All item's digits are answers to questions and I want to find the most similar answer-set to a given answer-set. So "123" means that a user answered to Questions 1 = Answer 1, Question 2 = Answer 2, Question 3 = Answer 3. They are multiple choice questions with 25 questions in total (= length of 25) and there are always 5 different possibilites to answer (Those are the digits 1-5).

PS: This is the first question I asked on Stackoverflow so please be kind with me. I already googled for hours but I could not find any solution, so I asked here. I hope that is fine. Also english is not my native language.

The Answer (thanks to all participants!)

@larsmans' answer (http://stackoverflow.com/a/10790714/511484) explains very well how to solve this with reasonable speed. You can even speed up the algorithm by calculating the distances between every digit in advance, see @gnibbler's post (http://stackoverflow.com/a/10791838/511484) All the other answers were also nice and correct, but I found that @larsmans had the best explanation. Thanks everybody once again for the help!

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thanks Wooble, thats what I also thought, so I used strings here –  Matthias Scholz May 28 '12 at 21:40
what if the difference is negative? –  Aशwini चhaudhary May 28 '12 at 21:43
@AshwiniChaudhary its a relative distance so the sign can be skipped (abs). –  Matthias Scholz May 28 '12 at 21:47

First, make a list of integers from `myCmpItem` to make subtraction possible.

``````myCmpItem = map(int, myCmpItem)
``````

Then, define a function that calculates the distance between an item and `myCmpItem`. We need to map the items to lists of integers as well. The rest is just the vanilla formula for L1 distance (the mathematical name of the "difference" you're computing).

``````def dist(item):
item = map(int, item)
return sum(abs(item[i] - myCmpItem[i]) for i in xrange(len(item)))
``````

Then, use this function as a `key` function for sorting.

``````sorted(myList, key=dist)
``````

(PS: are you sure L1 distance makes sense for this application? Using it expresses the assumption that answer 1 is more similar to answer 2 than to answer 3, etc. If that's not the case, Hamming distance might be more appropriate.)

-
Love it! I searched for something like that but I have never heard of the L1 distance. And you are absolutely right: answer 1 is closer to answer 2 than to answer 3. Thank you so much for that, I'll do some speedtesting now! –  Matthias Scholz May 28 '12 at 21:54
Oh no, does not work with int because those string-items have a length of 25 and converted to int they will actually become a long and "for i in (long)" does not work in python. –  Matthias Scholz May 28 '12 at 22:14
Out of curiosity, why `xrange` + indexing instead of `zip`? –  senderle May 28 '12 at 22:19
@MatthiasScholz, I think you've misunderstood. `map(int, '111')` returns `[1, 1, 1]`, not `111`. Nothing will become a long here. –  senderle May 28 '12 at 22:27
Sorry @senderle, my fault! You were right! I accept that as the answer, its really fast! About 1 second for 100k items! –  Matthias Scholz May 28 '12 at 22:47
show 1 more comment

With `lambda` and list comprehension:

``````sorted(myList, key=lambda item: sum([abs(int(x) - int(y)) for x, y in zip(item, myCmpItem)])
``````
-
``````def cmpWith(num):
def compare(item):
""" calculate the difference between num and item """
return sum(
abs(int(n) - int(x)) # cast to int to make the substraction possible
for x,n in zip(item, num) # zip makes pairs from both lists
)

return compare

lst = ['111','222','333','444','555','123']
print sorted(lst, key=cmpWith('511'))
``````
-

``````myCmpItem = '511'
myList = ['111','222','333','444','555','123']

def make_key(x):
diff = 0
for a, b in zip(x, myCmpItem):
diff += abs(int(a)-int(b))
return diff

mySortedList = sorted(myList, key=make_key)

print mySortedList
``````
-

Precomputing a table of distances may be faster than converting every digit to `int`

``````myCmpItem = '511'
myList = ['111','222','333','444','555','123']

# only need to compute this dict once
dists = {(i,j):abs(int(i)-int(j)) for i in '12345' for j in '12345'}

print sorted(myList, key=lambda j: sum(dists[i] for i in zip(j, myCmpItem)))
``````

On my computer, this is 2.9 times faster than larsmans answer for 100000 x 25 character strings

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This is a very nice improvement! Thanks for that! –  Matthias Scholz May 29 '12 at 4:08