in the following example:

foo = ['red', 'white', 'blue', 1, 2, 3]

where: foo[0:6:1] will print all elements in foo. However, foo[6:0:-1] will omit the 1st or 0th element.

>>> foo[6:0:-1]
[3, 2, 1, 'blue', 'white']

I understand that I can use foo.reverse() or foo[::-1] to print the list in reverse, but I'm trying to understand why foo[6:0:-1] doesn't print the entire list?

  • 3
    Note also the foo[7:None:-1] possibility :)
    – tzot
    May 27 '11 at 11:00
  • 1
    I never used python before just trying to understand slice notation, my question is why foo[6:0:-1] is not throwing out of index error, does python not care about it? because 6 index is not available in above example array.
    – Mubashar
    Aug 11 '13 at 9:30
  • 3
    @MubasharAhmad Slicing is not indexing and does not throw out any error when going beyond the bounds. Indexing does throw exception when out of bounds, though.
    – huggie
    Apr 13 '14 at 0:42

Slice notation in short:

[ <first element to include> : <first element to exclude> : <step> ]

If you want to include the first element when reversing a list, leave the middle element empty, like this:


You can also find some good information about Python slices in general here:
Explain Python's slice notation

  • 45
    This: [ <first element to include> : <first element to exclude> : <step> ] is the clearest explanation of the slice syntax I've seen. Calling it "first element to exclude" really makes it obvious what's going on.
    – Schof
    May 5 '11 at 18:23
  • What about negative slicing with negative steps? I still don't get it.
    – huggie
    Apr 13 '14 at 1:39
  • 7
    When you use a negative index as either <first element to include> or <first element to exclude> it is indexing from the back of the list, so -1 is the last element, -2 is the second to last element, etc. So for example, x[-1:-4:-1] would get the last three elements of x in reversed order. So you might interpret this as "moving backwards take each element (-1 step) from the last element in the list (-1 <first element to include>) up until but not including the fourth element from the end (-4 <first element to include>)". Apr 14 '14 at 16:24
  • 1
    When reversing (i.e. if <step> is -1), it helps me to think <first element to include, moving from right to left>. So, to get the n "leftmost" elements from a list in reverse order: foo[n-1::-1]. To get the n "rightmost" elements in reverse order: foo[-1:-n-1:-1].
    – djvg
    Oct 8 '18 at 17:03
  • 1
    How do you make the first element to exclude "the element before foo[0]"? Jan 17 '20 at 18:49

If you are having trouble remembering slice notation, you could try doing the Hokey Cokey:

[In: Out: Shake it all about]

[First element to include: First element to leave out: The step to use]



...why foo[6:0:-1] doesn't print the entire list?

Because the middle value is the exclusive, rather than inclusive, stop value. The interval notation is [start, stop).

This is exactly how [x]range works:

>>> range(6, 0, -1)
[6, 5, 4, 3, 2, 1]

Those are the indices that get included in your resulting list, and they don't include 0 for the first item.

>>> range(6, -1, -1)
[6, 5, 4, 3, 2, 1, 0]

Another way to look at it is:

>>> L = ['red', 'white', 'blue', 1, 2, 3]
>>> L[0:6:1]
['red', 'white', 'blue', 1, 2, 3]
>>> len(L)
>>> L[5]
>>> L[6]
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
IndexError: list index out of range

The index 6 is beyond (one-past, precisely) the valid indices for L, so excluding it from the range as the excluded stop value:

>>> range(0, 6, 1)
[0, 1, 2, 3, 4, 5]

Still gives you indices for each item in the list.

  • 1
    range can do it but slice can't do it, because -1 is the last element. So l=[1, 2, 3], l[2:-1:-1] == [].
    – Simin Jie
    Aug 9 '18 at 1:06

This answer might be a little outdated, but it could be helpful for someone who stuck with same problem. You can get reverse list with an arbitrary end - up to 0 index, applying second in-place slice like this:

>>> L = list(range(10))
>>> L
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
>>> (start_ex, end) = (7, 0)
>>> L[end:start_ex][::-1]
[6, 5, 4, 3, 2, 1, 0]
  • 1
    This is actually pretty useful, because you can use the same syntax for all cases. You don’t have to treat 0 as a special case.
    – Tom Zych
    Dec 22 '18 at 21:12
  • This makes more sense than Python/numpy's default behavior for negative slicing, because normally ones wants to slice and/or reverse an image or tensor aligned to a given edge, whereas Python/numpy lose that last row/column of the data o_O. Feb 12 '20 at 0:30

You can get it to work if you use a negative stop value. Try this:




This displays the reverse of the list from the end element to the start,


Complement. to reverse step by 2:

A = [1,2,2,3,3]
n = len(A)
res = [None] * n
mid = n//2 + 1 if n%2 == 1 else n//2

res[0::2] = A[0:mid][::-1]
res[1::2] = A[0:mid][::-1]

[2, 3, 2, 3, 1]


formalizing the answer from andrew-clark a little bit more:

Suppose the list v and v[n1:n2:n3] slice. n1 is initial position, n2 is final position and n3 is step

Let's write some pseucode in a Python way:

n3 = 1  if (n3 is missing) else n3
if n3==0:
   raise exception # error, undefined step

First part: n3 positive

if n3>0:
   slice direction is from left to right, the most common direction         

   n1 is left slice position in `v` 
   if n1 is missing: 
      n1 = 0   # initial position
   if n1>=0:
      n1 is a normal position
     (-n1-1) is the position in the list from right to left 

   n2 is right slice position in `v` 
   if n2 is missing: 
      n2 = len(x)  # after final position
   if n2>=0:
      n2 is a normal final position (exclusive)
      -n2-1 é the final position in the list from right to left 

Second part: n3 negative

  slice direction is from right to left (inverse direction)

  n1 is right slice position in `v` 
  if n1 is missing: 
     n1 = -1   # final position is last position in the list.
  if n1>=0:
     n1 is a normal position
     (-n1-1) is the position in the list from right to left 

  n2 is  left slice position in `v` 
  if n2 is missing: 
     n2 = -len(x)-1   # before 1st character  (exclusive)
  if n2>=0:
     n2 is a normal final position (exclusive)
     -n2-1 is the ending position in the list from right to left 

Now the original problema: How to reverse a list with slice notation?

L = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
print(L(::-1)) # [10, 9, 8, 7, 6, 5, 4, 3, 2, 1]

n1 is missing and n3<0 => n1=0
n2 is missing and n3<0 => n2 = -len(x)-1

So L(::-1) == L(-1:-11:-1)

  • So far clearest explanation in the whole web I've seen. However I think it could be slightly improved. "(-n1-1) is the position in the list from right to left" is correct but I bet most people think this in term of "normal" array indexes from 0..size-1 so (-n1-1) would become ((size-1)-(-n1-1))) i.e.( size+n1)
    – nyholku
    Sep 4 at 6:35

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