# Sort a list from an index to another index - python [duplicate]

Suppose I got a list `[2, 4, 1, 3, 5]`.

I want to sort the list just from index 1 to the end, which gives me `[2, 1, 3, 4, 5]`

How can I do it with python3?

(No extra spaces would be appreciated)

EDITED:

I've state slicing as the accepted answer. Python copies only object references, so the speed penalty won't be that huge compared to a real in-place sort. But if you require a very strict solution, you can refer to one of my favorite answer from @Heap Overflow

``````>>> tmp = l
>>> l = float('-inf')
>>> l.sort()
>>> l = tmp
>>> l
[2, 1, 3, 4, 5]
``````
• I'm curious: Why do you want this? – Heap Overflow Jan 20 at 5:52
• I'm trying to make a next_permutation() in python – nwice13 Jan 20 at 6:01
• Do you really need to sort for that, though? Not just reverse? – Heap Overflow Jan 20 at 6:04
• Yup, reverse is ok, but I just curious to ask about sorting this way. – nwice13 Jan 20 at 6:07
• – Heap Overflow Jan 20 at 6:15

# TL;DR:

Use `sorted` with a slicing assignment to keep the original list object without creating a new one:

``````l = [2, 4, 1, 3, 5]
l[1:] = sorted(l[1:])
print(l)
``````

Output:

``````[2, 1, 3, 4, 5]
``````

After the list is created, we will make a slicing assignment:

``````l[1:] =
``````

Now you might be wondering what does `[1:]`, it is slicing the list and starts from the second index, so the first index will be dropped. Python's indexing starts from zero, `:` means get everything after the index before, but if it was `[1:3]` it will only get values that are in between the indexes `1` and `3`, let's say your list is:

``````l = [1, 2, 3, 4, 5]
``````

If you use:

``````print(l[1:])
``````

It will result in:

``````[2, 3, 4, 5]
``````

And if you use:

``````print(l[1:3])
``````

It will result in:

``````[2, 3]
``````

And after slicing we have an equal sign `=`, that just simply changes what's before the `=` sign to what's after the `=` sign, so in this case, we use `l[1:]`, and that gives `[2, 3, 4, 5]`, it will change that to whatever is after the `=` sign.

If you use:

``````l[1:] = [100, 200, 300, 400]
print(l)
``````

It will result in:

``````[1, 100, 200, 300, 400]
``````

After that, we got `sorted`, which is default builtin function, it simple sorts the list from small to big, let's say we have the below list:

``````l = [3, 2, 1, 4]
``````

If you use:

``````print(sorted(l))
``````

It will result in:

``````[1, 2, 3, 4]
``````

After that we come back to our first topic about slicing, with `l[1:]`, but from here you know that it isn't only used for assignments, you can apply functions to it and deal with it, like here we use `sorted`.

• That's good, also similar to another answer below, but also require some extra memory – nwice13 Jan 20 at 5:45
• @nwice13 It is sorting in place, that's what you want, i think this is your best bet – U10-Forward Jan 20 at 5:46
• @U10-Forward-ReinstateMonica seconded. For the inplace operation, this is the answer. – Chris Jan 20 at 5:47
• @nwice13 You are confusing two things, slicing and slice-based assignment. The expression `x[:]` creates a slice, implicitly calling `x.__getitem__`, whereas the statement `x[:] = b` is slice assignment, which calls `x.__setitem__` – Ch3steR Jan 20 at 5:50
• If I didn't get wrong, the expression x[:] would just create a slice object but not the entire new list? – nwice13 Jan 20 at 5:59

Maybe temporarily put something there that's smaller than the rest? Should be faster than the other solutions. And gets as close to your "No extra spaces" wish as you can get when using `sort` or `sorted`.

``````>>> tmp = l
>>> l = float('-inf')
>>> l.sort()
>>> l = tmp
>>> l
[2, 1, 3, 4, 5]
``````

Benchmarks

For the example list, 1,000,000 iterations (and mine of course preparing that special value only once):

``````  sort_u10 0.8149 seconds
sort_chris 0.8569 seconds
sort_heap 0.7550 seconds
sort_heap2 0.5982 seconds   # using -1 instead of -inf
``````

For 50,000 lists like `[int(x) for x in os.urandom(100)]`:

``````  sort_u10 0.4778 seconds
sort_chris 0.4786 seconds
sort_heap 0.8106 seconds
sort_heap2 0.4437 seconds   # using -1 instead of -inf
``````

Benchmark code:

``````import timeit, os

def sort_u10(l):
l[1:] = sorted(l[1:])

def sort_chris(l):
l = l[:1] + sorted(l[1:])

def sort_heap(l, smallest=float('-inf')):
tmp = l
l = smallest
l.sort()
l = tmp

def sort_heap2(l):
tmp = l
l = -1
l.sort()
l = tmp

for _ in range(3):
for sort in sort_u10, sort_chris, sort_heap, sort_heap2, sort_rev:
number, repeat = 1_000_000, 5
data = iter([[2, 4, 1, 3, 5] for _ in range(number * repeat)])
# number, repeat = 50_000, 5
# data = iter([[int(x) for x in os.urandom(100)] for _ in range(number * repeat)])
t = timeit.repeat(lambda: sort(next(data)), number=number, repeat=repeat)
print('%10s %.4f seconds' % (sort.__name__, min(t)))
print()
``````
• A bit cheating, but very good thought! – nwice13 Jan 20 at 6:08
• Whenever you see "Should be faster" but no benchmarks... I'd expect it to be slightly (probably non-detecably) slower, as it requires an extra iteration to sort the extra value, compared to the slicing method. – Baldrickk Jan 20 at 14:01
• @Baldrickk but you don't have the extra list creation / memory usage. I would also expect this solution to be faster. It at least beats the other solution when it comes to space complexity. – Glenn DJ Jan 20 at 14:03
• @GlennDJ Yeah, that's what I thought as well. Added benchmarks now. – Heap Overflow Jan 20 at 15:27
• Nice benchmarks, thanks. – Baldrickk Jan 21 at 13:14

Use `sorted` with slicing:

``````l[:1] + sorted(l[1:])
``````

Output:

``````[2, 1, 3, 4, 5]
``````
• That is good. However, as far as I know, sorted and slicing would give me a completely new list. What I really want is sorting in place – nwice13 Jan 20 at 5:38
• Something that is similar to C++ STL: sort(a[i].begin() + 1, a.end()) – nwice13 Jan 20 at 5:40
• If you need to sort with O(1) auxiliary space, you are going to have to implement a sorting algorithm yourself (or use one from a third-party library). Even the "in-place" `list.sort` method uses O(n) auxiliary space; see stackoverflow.com/questions/48759175/… – kaya3 Jan 20 at 18:56

For the special case that you actually have, according to our comments:

Q: I'm curious: Why do you want this? – Heap Overflow
A: I'm trying to make a next_permutation() in python – nwice13
Q: Do you really need to sort for that, though? Not just reverse? – Heap Overflow
A: Yup, reverse is ok, but I just curious to ask about sorting this way. – nwice13

I'd do that like this:

``````l[1:] = l[:0:-1]
``````

You can define your own function in `python` using slicing and sorted and this function (your custom function) should take start and end index of the list.

Since list is mutable in python, I have written the function in such a way it doesn't modify the list passed. Feel free to modify the function. You can modify the list passed to this function to save memory if required.

``````def sortedList(li, start=0, end=None):
if end is None:
end = len(li)
fi = []
fi[:start] = li[:start]
fi[start:end] = sorted(li[start:end])
return fi

li = [2, 1, 4, 3, 0]
print(li)
print(sortedList(li, 1))
``````

Output:

``````[2, 1, 4, 3, 0]
[2, 0, 1, 3, 4]
``````