12

If have a list like so:

shops=['A','B','C','D']

And would like to create the following new lists (I cross each element with every other and create a string where first part is alphanumerically before the second):

['A-B', 'A-C', 'A-D']

['A-B', 'B-C', 'B-D']

['A-C', 'B-C', 'C-D']

['A-D', 'B-D', 'C-D']

I have something like this:

for a in shops:
    cons = []
    for b in shops:
        if a!=b:
            con = [a,b]
            con = sorted(con, key=lambda x: float(x))
            cons.append(con[0]+'-'+con[1])
    print(cons)

However, this is pretty slow for large lists (e.g. 1000 where I have 1000*999*0.5 outputs). I was looking for a more efficient way of doing this?

I could have used an if-else clause for the sort e.g.

for a in shops:
    cons = []
    for b in shops:
        if a<b:
            cons.append(a+"-"+b)
        elif a>b:
            cons.append(b+"-"+a)
    print(cons)

Which, I haven't timed yet - however I thought the main slow-down was the double for-loop

3
  • Why not ('A_B', 'A_C', 'B_C')?
    – Mazdak
    Feb 2, 2016 at 15:34
  • 2
    key=lambda x: float(x) is the same -- just slower -- as key=float
    – tobias_k
    Feb 2, 2016 at 15:39
  • 1
    I don't thing you can get the overall complexity of this algorithms down, as you have to generate all those combinations. You only can do micro-tuning (as in not defining unnecessary lambdas). However: What do you need those combinations for in the first place? Maybe there's a better way, e.g. just generating the combinations, or without the sorting.
    – tobias_k
    Feb 2, 2016 at 16:11

3 Answers 3

10

You can create a nested list-comprehension with some additional checks:

>>> shops=['A','B','C','D']
>>> [["-".join((min(a,b), max(a,b))) for b in shops if b != a] for a in shops]
[['A-B', 'A-C', 'A-D'],
 ['A-B', 'B-C', 'B-D'],
 ['A-C', 'B-C', 'C-D'],
 ['A-D', 'B-D', 'C-D']]

Note that this will probably not be much faster than your code, as you still have to generate all those combinations. In practice, you could make it a generator expression, so the elements are not generated all at once but only "as needed":

gen = (["-".join((min(a,b), max(a,b))) for b in shops if b != a] for a in shops)
for item in gen:
    print(item)

Update: I did some timing analysis using IPython's %timeit. Turns out your second implementation is the fastest. Tested with a list of 100 strings (map(str, range(100))) and after turning each of the methods into generators.

In [32]: %timeit list(test.f1())         # your first implementation
100 loops, best of 3: 13.5 ms per loop

In [33]: %timeit list(test.f2())         # your second implementation
1000 loops, best of 3: 1.63 ms per loop

In [34]: %timeit list(test.g())          # my implementation
100 loops, best of 3: 3.49 ms per loop

You can speed it up by using a simple if/else instead of min/max, as in your 2nd implementation, then they are about equally fast.

(["-".join((a,b) if a < b else (b,a)) for b in shops if b != a] for a in shops)
3
  • Thanks very much! What is the difference between using a generator expression or using a function and returning with yield? I've generally done the former.
    – mptevsion
    Feb 2, 2016 at 19:29
  • @mptevsion They are roughly equivalent. A generator expression is to a function with yield as a list comprehension is to a function returning a list.
    – tobias_k
    Feb 2, 2016 at 19:40
  • @mptevsion yield is more general. It's an expression and you can pass values into the function by using the send method. This cannot be done in a generator expression. Try it: def f(): x=yield 0; yield x then do a = f(); next(a); a.send(1); next(a).
    – Bakuriu
    Feb 2, 2016 at 19:44
4

If the list is sorted and there are no duplicates, you can keep track of your position in the list to avoid having to do comparisons to get the order.

from itertools import chain, islice

combos = []
for i, s in enumerate(shops):
    combo = ['{0}-{1}'.format(a, b) for a, b in chain(
        ((c, s) for c in islice(shops, None, i),
        ((s, c) for c in islice(shops, i+1))]
    combos.append(combo)

EDIT: updated to use generators

6
  • I thought that creating all those temporary lists would be horribly slow, but (when converted to a generator) this is about as fast as OP's second implementations or my generator. However, for large lists I seem to get a different result. For shops=map(str, range(10)) the results are equal, but with map(str, range(100)) the result of yours differs, can't tell how, though...
    – tobias_k
    Feb 2, 2016 at 16:30
  • @tobias_k: This assumes the list is sorted. When you have numbers >=10 as strings, the shops aren't correctly sorted at the start anymore. (I had the same idea, but Brendan beat me to it :) Feb 2, 2016 at 16:35
  • @AleksiTorhamo You are right, just checked: The difference comes from the shops being sorted differently in our implementations.
    – tobias_k
    Feb 2, 2016 at 16:37
  • @tobias_k Thanks for the idea, just updated to use generators. Now it doesn't have to create that second temporary list. Feb 2, 2016 at 17:34
  • Actually, that's not what I meant... you are already creating temporary lists with shops[:i] and shops[i+1:], and I made it a generator by replacing the last line with yield combo (assuming it is inside a function).
    – tobias_k
    Feb 2, 2016 at 18:04
2

Based on what you said:

I cross each element with every other and create a string where first part is alphanumerically before the second

You can use 2 combination like following:

>>> form itertools import combinations
>>> list(combinations(['_'.join(i) for i in combinations(shops,2)],3)
... )
[('A_B', 'A_C', 'A_D'), ('A_B', 'A_C', 'B_C'), ('A_B', 'A_C', 'B_D'), ('A_B', 'A_C', 'C_D'), ('A_B', 'A_D', 'B_C'), ('A_B', 'A_D', 'B_D'), ('A_B', 'A_D', 'C_D'), ('A_B', 'B_C', 'B_D'), ('A_B', 'B_C', 'C_D'), ('A_B', 'B_D', 'C_D'), ('A_C', 'A_D', 'B_C'), ('A_C', 'A_D', 'B_D'), ('A_C', 'A_D', 'C_D'), ('A_C', 'B_C', 'B_D'), ('A_C', 'B_C', 'C_D'), ('A_C', 'B_D', 'C_D'), ('A_D', 'B_C', 'B_D'), ('A_D', 'B_C', 'C_D'), ('A_D', 'B_D', 'C_D'), ('B_C', 'B_D', 'C_D')]
>>> 

At first you can use a combination within a list comprehension to create the ordered pairs and concatenate them using str.join. Then use another combinations to create the trinal sets.

5
  • 1
    This doesn't appear to extend well to the case of 6 elements in the list.
    – Alexander
    Feb 2, 2016 at 15:55
  • 1
    As I understand the question, the first sublist should have A in each combination, the second B, then C and D, each with each of the other letters, sorted alphabetically.
    – tobias_k
    Feb 2, 2016 at 15:55
  • @tobias_k Yes, that's what is clear in expected output, but not in what OP has said.
    – Mazdak
    Feb 2, 2016 at 16:01
  • @Alexander I know, I just gave an answer based on OP's request.
    – Mazdak
    Feb 2, 2016 at 16:02
  • The output is not identical to the specification, even after correcting form to from. Feb 2, 2016 at 18:47

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