# Generate list of numbers and their negative counterparts in Python

Is there a convenient one-liner to generate a list of numbers and their negative counterparts in Python?

For example, say I want to generate a list with the numbers 6 to 9 and -6 to -9.

My current approach is:

``````l = [x for x in range(6,10)]
l += [-x for x in l]
``````

A simple "one-liner" would be:

``````l = [x for x in range(6,10)] + [y for y in range(-9, -5)]
``````

However, generating two lists and then joining them together seems inconvenient.

• Should the positive numbers come before the negative ones? Commented Apr 21, 2020 at 16:54
• @Erich No, the order doesn't matter in my case.
– upe
Commented Apr 21, 2020 at 17:01
• If the order doesn't matter, does it even need to be a list? Would a set be OK (which is unordered), or a generator or tuple (both of which are ordered)?
– J.G.
Commented Apr 22, 2020 at 13:42
• @J.G. I might want to create a figure later on. Supposedly using scatter etc. So any `scalar or array-like, shape` would be fine.
– upe
Commented Apr 22, 2020 at 14:24
• Most of these answers are reading like some anti-golf solutions; sorting, generator functions, itertools. I would much rather maintain the code you provided than most of the 'answers'. Commented Apr 22, 2020 at 22:34

I am unsure if order matters, but you could create a tuple and unpack it in a list comprehension.

``````nums = [y for x in range(6,10) for y in (x,-x)]
print(nums)
[6, -6, 7, -7, 8, -8, 9, -9]
``````

Create a nice and readable function:

``````def range_with_negatives(start, end):
for x in range(start, end):
yield x
yield -x
``````

Usage:

``````list(range_with_negatives(6, 10))
``````

That is how you get a convenient one-liner for anything. Avoid trying to look like a magic pro hacker.

• Prejudice against list/dict comprehensions is quite common on SO, and it's usually justified by saying that they're not "readable". The inherent readability of a construct (rather than how it's used) is largely subjective. Personally I find comprehensions more readable, and this solution much less so (Compare: "write down the blood pressure of every male over 50" vs. "Go through every person. OK, are they male? If so, then..."). I use them for this reason, not because I'm trying to "look like" anything. Long comprehensions can be broken over multiple lines if that's the problem.
– jez
Commented Apr 22, 2020 at 11:20
• Fair enough. But that's where the subjectivity comes in: I personally do find the list comp solution at least as readable, in terms of mental strain, as the generator function. I would however improve readability (or rather, readability-for-me) of Datanovice's answer by renaming `y` to `signedValue`. To me the real added value of the define-a-function approach would be to deliver results in the strict order the question asked for (positive, then negative) while avoiding the problem of Barmar's `chain` one-liner in which slightly-different numeric arguments have to be hard-coded in twice.
– jez
Commented Apr 22, 2020 at 12:03
• I agree with the general sentiment about list comprehensions, but defining a function like this is also a very useful technique to know. (It's especially powerful to collect results from a recursive algorithm by writing a recursive generator and passing the top-level result to `list` or whatever.) After years of trying to codify how best to make these decisions, the only general principle that makes sense to me: if there's an obvious, good name to give to something in the program, take the opportunity to do so (and functions are one of the ways we do this). Commented Apr 23, 2020 at 5:07

I'd say the simplest solution is to unpack two ranges into a list using the `*` unpacking operator:

``````>>> [*range(6, 10), *range(-9, -5)]
[6, 7, 8, 9, -9, -8, -7, -6]
``````

Not only is this the shortest answer proposed yet, it's also the most performant, because it only constructs a single list and involves no function calls beyond the two `range`s.

I verified this by testing all of this question's answers using the `timeit` module:

Answer ID Method timeit result
(in question) `[x for x in range(6,10)] + [y for y in range(-9, -5)]` 0.843 usec per loop
(this answer) `[*range(6, 10), *range(-9, -5)]` 0.509 usec per loop
61348876 `[y for x in range(6,10) for y in (x,-x)]` 0.754 usec per loop
61349149 `list(range_with_negatives(6, 10))` 0.795 usec per loop
61348914 `list(itertools.chain(range(6, 10), range(-9, -5)))` 0.709 usec per loop
61366995 `[sign*x for sign, x in itertools.product((-1, 1), range(6, 10))]` 0.899 usec per loop
61371302 `list(range(6, 10)) + list(range(-9, -5))` 0.729 usec per loop
61367180 `list(range_with_negs(6, 10))` 1.95 usec per loop

(timeit testing performed with Python 3.6.9 on my own computer (average specs))

• I'm not too keen on assuming performance is relevant when all you have is an example with <10 items, but this clearly is the simplest solution. Commented Apr 24, 2020 at 13:03
• How do you figure out the start and end of the negative values without hardcoding them? Commented May 2, 2020 at 16:20
• @aldokkani `[*range(x, y), *range(-y + 1, -x + 1)]` Commented May 3, 2020 at 6:14
• @RoadrunnerWMC I'd suggest `[*range(x, y), *range(-x, -y, -1)]` for even better readability. Commented May 15, 2020 at 0:14
• And I'd suggest putting that into the answer because right now it is too specific and "hard-coded"-y Commented May 16, 2020 at 8:14

You can use `itertools.chain()` to concatenate the two ranges.

``````import itertools
list(itertools.chain(range(6, 10), range(-9, -5)))
``````
• I would use ‘range(-6, -10, -1)’ for clarity of order doesn't matter ( and replace the 6 and 10 with variables) Commented Apr 23, 2020 at 5:43

You can use `itertools.product`, which is the cartesian product.

``````[sign*x for sign, x in product((-1, 1), range(6, 10))]
[-6, -7, -8, -9, 6, 7, 8, 9]
``````

This might be slower because you use multiplication, but should be easy to read.

If you want a purely functional solution, you can also import `itertools.starmap` and `operator.mul`:

``````from itertools import product, starmap
from operator import mul

list(starmap(mul, product((-1, 1), range(6, 10))))
``````

However, this is less readable.

• I find the use of `product`, `starmap`, and `opertaor.mul` unnecessarily obtuse compared to nested list comprehensions, but I approve of the suggestion of using multiplication. `[x * sign for sign in (1, -1) for x in range(6, 10)]` is only 10% slower than than `[y for x in range(6, 10) for y in (x, -x)]`, and in cases where order matters, more than 3x faster than sorting the tuple-based approach. Commented Apr 22, 2020 at 22:16
• This is a neat idea, but perhaps a bit too specific to the problem details. The techniques offered by others apply more generally. Commented Apr 23, 2020 at 5:09
• @ApproachingDarknessFish I agree that `starmap` and `mul` should be avoided, but I think `product` makes it more readable, as it groups the iterators and their elements separately. Double loops in list comprehension can also be confusing, due to their unexpected order. Commented Apr 23, 2020 at 9:24

You're really close, with combining two `range` objects. But there is an easier way to do it:

``````>>> list(range(6, 10)) + list(range(-9, -5))
[6, 7, 8, 9, -9, -8, -7, -6]
``````

That is, convert each `range` object to a list, and then concatenate the two lists.

Another approach, using itertools:

``````>>> list(itertools.chain(range(6, 10), range(-9, -5)))
[6, 7, 8, 9, -9, -8, -7, -6]
``````

`itertools.chain()` is like a generalized `+`: instead of adding two lists, it chains one iterator after another to make a "super-iterator". Then pass that to `list()` and you get a concrete list, with all the numbers you want in memory.

• This answer is valuable simply for the insight that `[x for x in ...]` is better spelled `list(...)`. Commented Apr 23, 2020 at 5:09

IMO the approach using `itertools.chain` presented in a couple of other answers is definitely the cleanest out of those provided so far.

However, since in your case the order of the values doesn't matter, you can avoid having to define two explicit `range` objects, and thus avoid doing all the off-by-one math necessary for negative `range` indexing, by using `itertools.chain.from_iterable`:

``````>>> import itertools
>>> list(itertools.chain.from_iterable((x, -x) for x in range(6, 10)))
[6, -6, 7, -7, 8, -8, 9, -9]
``````

Another similar option is to use tuple/argument unpacking with plain `chain`:

``````>>> list(itertools.chain(*((x, -x) for x in range(6, 10))))
[6, -6, 7, -7, 8, -8, 9, -9]
``````

More concise, but I find tuple unpacking harder to grok in a quick scan.

Weighing in with yet another possibility.

If you want readability your original one-liner was pretty good, but I would change the ranges to be the same as I think the negative bounds make things less clear.

``````[x for x in range(6, 10)] + [-x for x in range(6, 10)]
``````

This is a variation on a theme (see @Derte Trdelnik's answer) following the philosophy of `itertools` where

iterator building blocks [...] are useful by themselves or in combination.

The idea is that, while we're defining a new function, we might as well make it generic:

``````def interleaved_negatives(it):
for i in it:
yield i
yield -i
``````

and apply it to a particular `range` iterator:

``````list(interleaved_negatives(range(6, 10)))
``````

There can be different ways to get the job done.

Variables given: 1. start=6 2. stop=10

### You can try this also, for different approach:

``````def mirror_numbers(start,stop):
if start<stop:
val=range(start,stop)
return [j if i < len(val) else -j for i,j in enumerate([x for x in val]*2) ]

mirror_numbers(6,10)
``````

using itertools:

``````>>> list(itertools.chain(range(6, 10), range(-9, -5)))
[6, 7, 8, 9, -9, -8, -7, -6]
``````

`itertools.chain()` is like a generalized `+`: instead of adding two lists, it chains one iterator after another to make a "super-iterator". Then pass that to `list()` and you get a concrete list, with all the numbers you want in memory.

If you want to keep the order you've specified, you can make use of Python's built-in range generator with a conditional:

``````def range_with_negs(start, stop):
for value in range(-(stop-1), stop):
if (value <= -start) or (value >= start):
yield value
``````

Which gives you the output:

``````In [1]: list(range_with_negs(6, 10))
Out[1]: [-9, -8, -7, -6, 6, 7, 8, 9]
``````

And also works with 0 as the start for the full range.

• This is very inefficient for large values of `start`. Commented Apr 23, 2020 at 0:58

l just like symmetries.

``````a = 6
b = 10

nums = [x+y for x in (-(a+b-1),0) for y in range(a,b)]
``````

The result is `[-9, -8, -7, -6, 6, 7, 8, 9]`.

I believe that the nums expression can be improved, what follows "in" and "range" still looks unbalanced to me.

Seems like only two answers really gave one-liners, so here's another one:

``````[i for l in map(lambda x: (x, -x), range(6, 10)) for i in l]
``````
``````[6, -6, 7, -7, 8, -8, 9, -9]
``````
• Why the unnecessary map/lambda? Commented Jan 18, 2023 at 10:13