I want to iterate through numbers to give the output:

(0,2)  # the order in which they come isn't important as long as it doesn't start the next absolute value once all smaller have been done i.e. don't start two once every combination of 0,1 and -1 has been found
# up to n, unless the condition is met then it will break the loop

So effectively every combination of positive and negative numbers up to +/- n.

I'm currently using this for a, b in itertools.permutations(range(-n,n), 2):. However, I'm then appending all the values to an array (valid_answers) and finding the smallest sum of absolute values of them. (vals = sorted(valid_answers, key=lambda t: sum([abs(t[0]), abs(t[1])])))

I just want to iterate from 0 rather than from -n to n. It will break the first time the condition is met. I hope this code is sufficient to explain what I want to do. If not the full code (well enough to replicate what I am doing) is available here. (lines 51 onwards)

Edit I am thinking maybe multiplying by powers of -1 is a possible approach to take but I am not too how to approach it.

  • Sorting to find a minimum value is inefficient, as you spend time ordering pairs whose relative order you don't care about. Use the heapq module instead. But that seems like a moot point; the smallest sum of absolute values is always going to be 0+0.
    – chepner
    May 17 at 19:58
  • I only need values that meet a certain condition, the ones appended to the set. @chepner
    – GAP2002
    May 17 at 19:59
  • You never mentioned anything about only selecting a subset of the pairs.
    – chepner
    May 17 at 20:00
  • It is mentioned at the end of the code block, I have also added it to the answer.
    – GAP2002
    May 17 at 20:01
  • I also don't see the problem iterating over range(-n, n+1) as opposed to iterating over range(0, n+1) and creating multiple pairs per value. You're just shifting the work.
    – chepner
    May 17 at 20:01

This may be a little verbose but it should work.

from itertools import permutations

def get_values(n):
    out = []
    if n < 0:
        return out

    out.append((0, 0))
    if n == 0:
        return out

    for i in range(1, n + 1):
        out += [(i, j) for j in range(-i, i + 1)]
        out += [(-i, j) for j in range(-i, i + 1)]
    return out

This is the solution I went for.

def get_values(n: int) -> list:
    if n < 0:
        return []

    if n == 0:
        return [(0, 0)]

    out = set()
    for i in range(0, n + 1):
        for j in range(0, i + 1):
            out.add((i, j))
            out.add((-i, j))
            out.add((i, -j))
            out.add((-i, -j))
    return sorted(out, key=lambda t: abs(t[0]))


for item in get_values(n=1000):
    a, b = item

It creates a set (no duplicates) and adds all combinations of the numbers to the set. Then returns a sorted list of this set. I don't think it's the most efficient way of doing it so would appreciate faster, cleaner etc. methods.

This answer was largely taken from another answer so thanks!

  • This is a very memory intensive solution so I think it's far from ideal!
    – GAP2002
    May 17 at 22:24

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