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Do you have a good explanation (with references) on Python's slice notation? To me, this notation needs a bit of picking up. It looks extremely powerful, but I haven't quite got my head around it and am looking for a good guide.

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well, it's probably in there somewhere... this is a bit too concise. I guess what I am really looking for is some help coming to grips with it rather than the full definition of the grammar. –  Simon Feb 3 '09 at 22:38
gulp, and now two other references... –  Simon Feb 3 '09 at 22:40
Different versions -- 2.5, 2.6, 3.0 -- three views of the same underlying thing. –  S.Lott Feb 3 '09 at 22:53
what's wrong with the tutorial? docs.python.org/tutorial/introduction.html#strings yeah, i know... seasoned programmers can't be asked to. –  hop Feb 4 '09 at 0:04

20 Answers 20

up vote 1268 down vote accepted

It's pretty simple really:

a[start:end] # items start through end-1
a[start:]    # items start through the rest of the array
a[:end]      # items from the beginning through end-1
a[:]         # a copy of the whole array

There is also the step value, which can be used with any of the above:

a[start:end:step] # start through not past end, by step

The key point to remember is that the :end value represents the first value that is not in the selected slice. So, the difference beween end and start is the number of elements selected (if step is 1, the default).

The other feature is that start or end may be a negative number, which means it counts from the end of the array instead of the beginning. So:

a[-1]    # last item in the array
a[-2:]   # last two items in the array
a[:-2]   # everything except the last two items

Python is kind to the programmer if there are fewer items than you ask for. For example, if you ask for a[:-2] and a only contains one element, you get an empty list instead of an error. Sometimes you would prefer the error, so you have to be aware that this may happen.

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and a[::-1] to reverse a string. –  Christopher Mahan Feb 3 '09 at 23:54
You can give meaning to index -2 by reading it as length-2. (But don't forget the edge cases) –  Kos Aug 22 '12 at 22:06
Also can be important that [:] returns a shallow copy of a list. it means that every slice notation returns a list which have new address in memory, but its elements would have same addresses that elements of source list have. –  Gill Bates Dec 30 '12 at 17:07
@DenysS: Yes, after taking a slice of a list, changes in the slice do not affect the original (and vice versa). A new list object is returned. –  Greg Hewgill Feb 25 '13 at 17:55
Slicing builtin types returns a copy but that's not universal. Notably, slicing NumPy arrays returns a view that shares memory with the original. –  Beni Cherniavsky-Paskin Sep 23 '13 at 0:13

The tutorial talks about it:


(Scroll down a bit until you get to the part about slicing.)

The ASCII art diagram is helpful too for remembering how slices work:

 | H | e | l | p | A |
 0   1   2   3   4   5
-5  -4  -3  -2  -1

"One way to remember how slices work is to think of the indices as pointing between characters, with the left edge of the first character numbered 0."

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I use this diagram, with the indexes labeled in the middle of each character as well (to explicitly contrast slicing with indexing). –  Thomas Feb 9 '11 at 14:57
@Thomas Indexing is basically like slicing a[n] = a[n:n+1][0] so there's no need for another set of labels. Just imagine the boxes as square ballons tightly tied to the numbers by lower left corner. ;) –  Alois Mahdal Sep 9 '13 at 10:53
And now there is a similar description for Python 3.3 - docs.python.org/3.3/tutorial/introduction.html#strings –  Sir Ben Benji Oct 22 '13 at 6:46
What happens in s[3:1:-1] though, doesn't make a lot of sense to me. –  huggie Apr 13 '14 at 0:40
@huggie as step is rarely used, the diagram usually applies. But yes you're right, you need to go back to thinking the start index is included (3 / 'p'), and the end index is excluded (1 / 'e'), resulting in 'pl'. I'm pretty sure the diagram is unnecessary for most programmers with some experience, as the numbers are so intuitive (e.g. len(a) - len(a[3:]) == 3, len(a[2,6]) == 6 - 2) and there is such a huge parallel to a basic for loop over an array: for (int i = 0; i < arr.length; i++), where the "end" arr.length is left out. –  Zantier Jan 21 at 12:10

Enumerating the possibilities allowed by the grammar:

>>> seq[:]                # [seq[0],   seq[1],          ..., seq[-1]    ]
>>> seq[low:]             # [seq[low], seq[low+1],      ..., seq[-1]    ]
>>> seq[:high]            # [seq[0],   seq[1],          ..., seq[high-1]]
>>> seq[low:high]         # [seq[low], seq[low+1],      ..., seq[high-1]]
>>> seq[::stride]         # [seq[0],   seq[stride],     ..., seq[-1]    ]
>>> seq[low::stride]      # [seq[low], seq[low+stride], ..., seq[-1]    ]
>>> seq[:high:stride]     # [seq[0],   seq[stride],     ..., seq[high-1]]
>>> seq[low:high:stride]  # [seq[low], seq[low+stride], ..., seq[high-1]]

Of course, if (high-low)%stride != 0, then the end point will be a little lower than high-1.

Extended slicing (with commas and ellipses) are mostly used only by special data structures (like Numpy); the basic sequences don't support them.

>>> class slicee:
...     def __getitem__(self, item):
...         return `item`
>>> slicee()[0, 1:2, ::5, ...]
'(0, slice(1, 2, None), slice(None, None, 5), Ellipsis)'
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The answers above don't discuss slice assignment:

>>> r=[1,2,3,4]
>>> r[1:1]
>>> r[1:1]=[9,8]
>>> r
[1, 9, 8, 2, 3, 4]
>>> r[1:1]=['blah']
>>> r
[1, 'blah', 9, 8, 2, 3, 4]

This may also clarify the difference between slicing and indexing.

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You may want to add an example of using slice assignment to remove one or more elements from a sequence. If you do, I will remove my answer. –  dansalmo Apr 5 '13 at 17:43
There are a lot of interesting things you could discuss about slice assignment, if this answer were more than just a code snippet. Only iterables can be assigned in this manner, and if the specified slice has nonzero width, the elements it references in the original list will be replaced by the assigned iterable. An empty string assigned to a slice will remove the sliced elements, but a non-empty string assigned to a slice will be treated as a sequence of characters. –  Air Oct 10 '13 at 23:22

And a couple of things that weren't immediately obvious to me when I first saw the slicing syntax:

>>> x = [1,2,3,4,5,6]
>>> x[::-1]

Easy way to reverse sequences!

And if you wanted, for some reason, every second item in the reversed sequence:

>>> x = [1,2,3,4,5,6]
>>> x[::-2]
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reversed() would be better –  hop Feb 4 '09 at 0:07
It gets tricky when using negative steps with start and end. It seems like using a negative step maps begin and end into the negative space. I.e., if you want to select only parts of something reversed by "[::-1]" you will have to use e.g. [1,2,3,4][-1:-5:-1] => [4, 3, 2, 1]. This is trial and error - I've just ran across this. –  blueyed Feb 4 '11 at 11:54

Found this great table at http://wiki.python.org/moin/MovingToPythonFromOtherLanguages

Python indexes and slices for a six-element list.
Indexes enumerate the elements, slices enumerate the spaces between the elements.

Index from rear:    -6  -5  -4  -3  -2  -1      a=[0,1,2,3,4,5]    a[1:]==[1,2,3,4,5]
Index from front:    0   1   2   3   4   5      len(a)==6          a[:5]==[0,1,2,3,4]
                   +---+---+---+---+---+---+    a[0]==0            a[:-2]==[0,1,2,3]
                   | a | b | c | d | e | f |    a[5]==5            a[1:2]==[1]
                   +---+---+---+---+---+---+    a[-1]==5           a[1:-1]==[1,2,3,4]
Slice from front:  :   1   2   3   4   5   :    a[-2]==4
Slice from rear:   :  -5  -4  -3  -2  -1   :
                                                b==[0,1,2,3,4,5] (shallow copy of a)
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In python 2.7

Slicing in python


len = length of string, tuple or list

c -- default is  +1. sign of c indicates forward or backward, absolute value of c indicates steps. Default is forward with step size 1. Positive means forward, negative means backward.

a --  when c is positive or blank, default is 0. when c is negative, default is -1.

b --  when c is positive or blank, default is len. when c is negative, default is -(len+1).

Understanding index assignment is very important.

In forward direction, starts at 0 and ends at len-1

In backward direction, starts at -1 and ends at -len

when you say [a:b:c] you are saying depending on sign of c (forward or backward), start at a and end at b ( excluding element at bth index). Use the indexing rule above and remember you will only find elements in this range

-len, -len+1, -len+2, ..., 0, 1, 2,3,4 , len -1

but this range continues in both directions infinitely

...,-len -2 ,-len-1,-len, -len+1, -len+2, ..., 0, 1, 2,3,4 , len -1, len, len +1, len+2 , ....


             0    1    2   3    4   5   6   7   8   9   10   11         
             a    s    t   r    i   n   g    
    -9  -8  -7   -6   -5  -4   -3  -2  -1        

if your choice of a , b and c allows overlap with the range above as you traverse using rules for a,b,c above you will either get a list with elements (touched during traversal) or you will get an empty list.

One last thing: if a and b are equal , then also you get an empty list

>>> l1
[2, 3, 4]

>>> l1[:]
[2, 3, 4]

>>> l1[::-1] # a default is -1 , b default is -(len+1)
[4, 3, 2]

>>> l1[:-4:-1] # a default is -1
[4, 3, 2]

>>> l1[:-3:-1] # a default is -1 
[4, 3]

>>> l1[::] # c default is +1, so a default is 0, b default is len
[2, 3, 4]

>>> l1[::-1] # c is -1 , so a default is -1 and b default is -(len+1)
[4, 3, 2]

>>> l1[-100:-200:-1] # interesting

>>> l1[-1:-200:-1] # interesting
[4, 3, 2]

>>> l1[-1:-1:1]

>>> l1[-1:5:1] # interesting

>>> l1[1:-7:1]

>>> l1[1:-7:-1] # interesting
[3, 2]
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That is a good note that is not called out in any of the other answers: if a and b are equal you get an empty list illustrated by l1[2:2] >>> [] –  Mike Lippert May 12 '14 at 22:46
This answer was the most quickly informative to me. Only point needing some explicit stress perhaps is that l1[5:2] will be empty, one could have imagined if not familiar with the language that a default step of -1 would have been chosen then. But no, I understand the default step remains at +1. The equal case which also returns empty list does not illustrate this. –  jfbu Oct 27 '14 at 6:52

After using it a bit I realise that the simplest description is that it is exactly the same as the arguments in a for loop...


any of them are optional


then the negative indexing just needs you to add the length of the string to the negative indices to understand it.

This works for me anyway...

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Well, a for loop in some other language, that is... –  David M. Perlman Sep 28 '11 at 16:14

I'm aiming for the complete canonical answer here.

Python slicing is a computationally fast way to methodically access parts of your data. In my opinion, to be even an intermediate Python programmer, it's one aspect of the language that it is necessary to be familiar with.

Important Definitions

To begin with, let's define a few terms:

start: the beginning index of the slice, it will include the element at this index unless it is the same as stop, defaults to 0, i.e. the first index. If it's negative, it means to start n items from the end.

stop: the ending index of the slice, it does not include the element at this index, defaults to length of the sequence being sliced, that is, up to and including the end.

step: the amount by which the index increases, defaults to 1. If it's negative, you're slicing over the iterable in reverse.

How Indexing Works

You can make any of these positive or negative numbers. The meaning of the positive numbers is straightforward, but for negative numbers, just like indexes in Python, you count backwards from the end for the start and stop, and for the step, you simply decrement your index. This example is from the documentation's tutorial, but I've modified it slightly to indicate which item in a sequence each index references:

 | P | y | t | h | o | n |
   0   1   2   3   4   5 
  -6  -5  -4  -3  -2  -1

How Slicing Works

To use slice notation with a sequence that supports it, you must include at least one colon in the square brackets that follow the sequence (which actually implement the __getitem__ method of the sequence, according to the Python data model.)

Slice notation works like this:


And recall that there are defaults for start, stop, and step, so to access the defaults, simply leave out the argument, n in the notation. Slice notation to get the every other elements from nine elements from a list (or any other sequence that supports it, like a string) would look like this:


When I see this, I read the part in the brackets as "9th from the end, to the end." (Actually, I abbreviate it mentally as "-9, on")


The full notation is


and to substitute the defaults (actually when step is negative, stop's default is -len(my_list)-1), so None for stop really just means it goes to whichever end step takes it to):


But the colon, :, is what tells Python you're giving it a slice and not a regular index. That's why the idiomatic way of making a shallow copy of lists in Python 2 is

list_copy = sequence[:]

And clearing them is with:

del my_list[:]

(Python 3 gets a list.copy and list.clear method.)

Give your slices a descriptive name!

You may find it useful to separate forming the slice from passing it to the list.__getitem__ method (that's what the square brackets do). Even if you're not new to it, it keeps your code more readable so that others that may have to read your code can more readily understand what you're doing.

However, you can't just assign some integers separated by colons to a variable. You need to use the slice object:

last_nine_slice = slice(-9, None)

The second argument, None, is required, so that the first argument is interpreted as the start argument otherwise it would be the stop argument.

You can then pass the slice object to your sequence:

>>> list(range(100))[last_nine_slice]
[91, 92, 93, 94, 95, 96, 97, 98, 99]

Memory Considerations:

Since slices of Python lists create new objects in memory, another important function to be aware of is itertools.islice. Typically you'll want to iterate over a slice, not just have it created statically in memory. islice is perfect for this. A caveat, it doesn't support negative arguments to start, stop, or step, so if that's an issue you may need to calculate indices or reverse the iterable in advance.

>>> length = 100
>>> last_nine_iter = itertools.islice(list(range(length)), length-9, None, 1)
>>> list_last_nine = list(last_nine)
>>> list_last_nine
[91, 92, 93, 94, 95, 96, 97, 98, 99]

The fact that list slices make a copy is a feature of lists themselves. If you're slicing advanced objects like a Pandas DataFrame, it may return a view on the original, and not a copy.

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Excellent information. This is how I used it: import itertools ... for c in itertools.islice('ABCDEFG', 0, None, 2): ... print(c) Output: A, C, E, G –  aliteralmind Jul 27 '14 at 4:00

I use the "an index points between elements" method of thinking about it myself, but one way of describing it which sometimes helps others get it is this:


X is the index of the first element you want.
Y is the index of the first element you don't want.

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Coming from the math world, I just remember that Python intervals are like this: [a,b) –  Jayson Jul 2 '14 at 8:53

I find it easier to remember how it's works, then I can figure out any specific start/stop/step combination.

It's instructive to understand range() first:

def range(start=0, stop, step=1):  # illegal syntax, but that's the effect
    i = start
    while (i < stop if step > 0 else i > stop):
        yield i
        i += step

Begin from start, increment by step, do not reach stop. Very simple.

The thing to remember about negative step is that stop is always the excluded end, whether it's higher or lower. If you want same slice in opposite order, it's much cleaner to do the reversal separately: e.g. 'abcde'[1:-2][::-1] slices off one char from left, two from right, then reverses. (See also reversed().)

Sequence slicing is same, except it first normalizes negative indexes, and can never go outside the sequence:

def this_is_how_slicing_works(seq, start=None, stop=None, step=1):
    if start is None:
        start = (0 if step > 0 else len(seq)-1)
    elif start < 0:
        start += len(seq)
    if stop is None:
        stop = (len(seq) if step > 0 else -1)  # really -1, not last element
    elif stop < 0:
        stop += len(seq)
    for i in range(start, stop, step):
        if 0 <= i < len(seq):
            yield seq[i]

Don't worry about the is None details - just remember that omitting start and/or stop always does the right thing to give you the whole sequence.

Normalizing negative indexes first allows start and/or stop to be counted from the end independently: 'abcde'[1:-2] == 'abcde'[1:3] == 'bc' despite range(1,-2) == []. The normalization is sometimes thought of as "modulo the length" but note it adds the length just once: e.g. 'abcde'[-53:42] is just the whole string.

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Thanks for the good information for The normalization is sometimes thought of as "modulo the length" but note it adds the length just once: e.g. 'abcde'[-53:42] is just the whole string. –  RayLuo Apr 26 at 2:48

You can also use slice assignment to remove one or more elements from a list:

r = [1, 'blah', 9, 8, 2, 3, 4]
>>> r[1:4] = []
>>> r
[1, 2, 3, 4]
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  0   1   2   3   4
| a | b | c | d | e |
  0  -4  -3  -2  -1

:   1   2   3   4   :
| a | b | c | d | e |
:  -4  -3  -2  -1   :

hope this will help you to model the list in Python


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Python slicing notation:

  • For start and end, negative values are interpreted as being relative to the end of the sequence.
  • Positive indices for end indicate the position after the last element to be included.
  • Blank values are defaulted as follows: [+0:-0:1].
  • Using a negative step reverses the interpretation of start and end

The notation extends to (numpy) matrices and multidimensional arrays. For example, to slice entire columns you can use:

m[::,0:2:] ## slice the first two columns

Slices hold references, not copies, of the array elements. If you want to make a separate copy an array, you can use deepcopy().

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-0 is the same as +0 and doesn't refer to the end of the sequence. –  musiphil Jun 21 '14 at 16:52
@musiphil is correct -- end does not actually default to zero. I was oversimplifying in an attempt to make the description as concise as possible. You cannot replace and empty end with a -0 and get the same results. However, the idea that I was trying to get across is still correct -- if you (the programmer) interpret -0 based on the rule "negative values are interpreted as being relative to the end of the sequence", then you get the correct default value, which is the length of the sequence. –  nobar May 14 at 18:53

As a general rule, writing code with a lot of hardcoded index values leads to a readability and maintenance mess. For example, if you come back to the code a year later, you’ll look at it and wonder what you were thinking when you wrote it. The solution shown is simply a way of more clearly stating what your code is actually doing. In general, the built-in slice() creates a slice object that can be used anywhere a slice is allowed. For example:

>>> items = [0, 1, 2, 3, 4, 5, 6]
>>> a = slice(2, 4)
>>> items[2:4]
[2, 3]
>>> items[a]
[2, 3]
>>> items[a] = [10,11]
>>> items
[0, 1, 10, 11, 4, 5, 6]
>>> del items[a]
>>> items
[0, 1, 4, 5, 6]

If you have a slice instance s, you can get more information about it by looking at its s.start, s.stop, and s.step attributes, respectively. For example:

>>> a = slice(10, 50, 2)
>>> a.start
>>> a.stop
>>> a.step
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This is just for some extra info... Consider the list below

>>> l=[12,23,345,456,67,7,945,467]

Few other tricks for reversing the list:

>>> l[len(l):-len(l)-1:-1]
[467, 945, 7, 67, 456, 345, 23, 12]

>>> l[:-len(l)-1:-1]
[467, 945, 7, 67, 456, 345, 23, 12]

>>> l[len(l)::-1]
[467, 945, 7, 67, 456, 345, 23, 12]

>>> l[::-1]
[467, 945, 7, 67, 456, 345, 23, 12]

>>> l[-1:-len(l)-1:-1]
[467, 945, 7, 67, 456, 345, 23, 12]

See abc's answer above

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If you prefer a video and voiceover instead, the guy in the Google Python course (click here) talks about slice syntax and some of its practical uses, starting from the time index 42:34; the link will take you to that point.

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This is how I teach slices to newbies:

Understanding difference between indexing and slicing:

Wiki Python has this amazing picture which clearly distinguishes indexing and slicing.

enter image description here

It is a list with 6 elements in it. To understand slicing better, consider that list as a set of six boxes placed together. Each box has an alphabet in it.

Indexing is like dealing with the contents of box. You can check contents of any box. But You can't check contents of multiple boxes at once. You can even replace contents of the box. But You can't place 2 balls in 1 box or replace 2 balls at a time.

In [122]: alpha = ['a', 'b', 'c', 'd', 'e', 'f']

In [123]: alpha
Out[123]: ['a', 'b', 'c', 'd', 'e', 'f']

In [124]: alpha[0]
Out[124]: 'a'

In [127]: alpha[0] = 'A'

In [128]: alpha
Out[128]: ['A', 'b', 'c', 'd', 'e', 'f']

In [129]: alpha[0,1]
TypeError                                 Traceback (most recent call last)
<ipython-input-129-c7eb16585371> in <module>()
----> 1 alpha[0,1]

TypeError: list indices must be integers, not tuple

Slicing is like dealing with boxes itself. You can pickup first box and place it on another table. To pickup the box all You need to know is the position of beginning & ending of the box.

You can even pickup first 3 boxes or last 2 boxes or all boxes between 1 & 4. So, You can pick any set of boxes if You know beginning & ending. This positions are called start & stop positions.

The interesting thing is that You can replace multiple boxes at once. Also You can place multiple boxes where ever You like.

In [130]: alpha[0:1]
Out[130]: ['A']

In [131]: alpha[0:1] = 'a'

In [132]: alpha
Out[132]: ['a', 'b', 'c', 'd', 'e', 'f']

In [133]: alpha[0:2] = ['A', 'B']

In [134]: alpha
Out[134]: ['A', 'B', 'c', 'd', 'e', 'f']

In [135]: alpha[2:2] = ['x', 'xx']

In [136]: alpha
Out[136]: ['A', 'B', 'x', 'xx', 'c', 'd', 'e', 'f']

Slicing With Step:

Till now You have picked boxes continuously. But some times You need to pickup discretely. For example You can pickup every second box. You can even pickup every third box from the end. This value is called step size. This represents the gap between Your successive pickups. The step size should be positive if You are picking boxes from the beginning to end and vice versa.

In [137]: alpha = ['a', 'b', 'c', 'd', 'e', 'f']

In [142]: alpha[1:5:2] 
Out[142]: ['b', 'd']

In [143]: alpha[-1:-5:-2]
Out[143]: ['f', 'd']

In [144]: alpha[1:5:-2]
Out[144]: []

In [145]: alpha[-1:-5:2]      
Out[145]: []

How Python Figures Out Missing Parameters:

When slicing if You leave out any parameter, Python tries to figure it out automatically.

If You check source code of CPython, You will find a function called PySlice_GetIndicesEx which figures out indices to a slice for any given parameters. Here is the logical equivalent code in Python.

This function takes a Python object & optional parameters for slicing and returns start, stop, step & slice length for the requested slice.

def py_slice_get_indices_ex(obj, start=None, stop=None, step=None):

    length = len(obj)

    if step is None:
        step = 1
    if step == 0:
        raise Exception("Step cannot be zero.")

    if start is None:
        start = 0 if step > 0 else length - 1
        if start < 0:
            start += length
        if start < 0:
            start = 0 if step > 0 else -1
        if start >= length:
            start = length if step > 0 else length - 1

    if stop is None:
        stop = length if step > 0 else -1
        if stop < 0:
            stop += length
        if stop < 0:
            stop = 0 if step > 0 else -1
        if stop >= length:
            stop = length if step > 0 else length - 1

    if (step < 0 and stop >= start) or (step > 0 and start >= stop):
        slice_length = 0
    elif step < 0:
        slice_length = (stop - start + 1)/(step) + 1
        slice_length = (stop - start - 1)/(step) + 1

    return (start, stop, step, slice_length)

This is the intelligence that is present behind slices. Since Python has inbuilt function called slice, You can pass some parameters & check how smartly it calculates missing parameters.

In [21]: alpha = ['a', 'b', 'c', 'd', 'e', 'f']

In [22]: s = slice(None, None, None)

In [23]: s
Out[23]: slice(None, None, None)

In [24]: s.indices(len(alpha)) 
Out[24]: (0, 6, 1)

In [25]: range(*s.indices(len(alpha)))
Out[25]: [0, 1, 2, 3, 4, 5]

In [26]: s = slice(None, None, -1) 

In [27]: range(*s.indices(len(alpha)))
Out[27]: [5, 4, 3, 2, 1, 0]

In [28]: s = slice(None, 3, -1)        

In [29]: range(*s.indices(len(alpha)))
Out[29]: [5, 4]

Note: This post is originally written in my blog http://www.avilpage.com/2015/03/a-slice-of-python-intelligence-behind.html

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To get a certain piece of an iterable (like a list), here is an example:


In this example, a positive number for number 1 is how many components you take off the front. A negative number is the exact opposite, how many you keep from the end. A positive number for number 2 indicates how many components you intend to keep from the beginning, and a negative is how many you intend to take off from the end. This is somewhat counter intuitive, but you are correct in supposing that list slicing is extremely useful.

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What distinctive new information does this answer provide? When a question has as many answers as this one does, especially highly voted answers, a new answer needs to provide distinctive new information to be worth adding. See also Is it worthwhile to finish your answer if multiple good answers are given while you're typing yours? on Meta Stack Overflow. –  Jonathan Leffler Nov 22 '13 at 4:16
#!/usr/bin/env python

def slicegraphical(s, lista):

    if len(s) > 9:
        print """Enter a string of maximum 9 characters,
    so the printig would looki nice"""
        return 0;
    # print " ",
    print '  '+'+---' * len(s) +'+'
    print ' ',
    for letter in s:
        print '| {}'.format(letter),
    print '|'
    print " ",; print '+---' * len(s) +'+'

    print " ",
    for letter in range(len(s) +1):
        print '{}  '.format(letter),
    print ""
    for letter in range(-1*(len(s)), 0):
        print ' {}'.format(letter),
    print ''
    print ''

    for triada in lista:
        if len(triada) == 3:
            if triada[0]==None and triada[1] == None and triada[2] == None:
                # 000
                print s+'[   :   :   ]' +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] == None and triada[1] == None and triada[2] != None:
                # 001
                print s+'[   :   :{0:2d} ]'.format(triada[2], '','') +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] == None and triada[1] != None and triada[2] == None:
                # 010
                print s+'[   :{0:2d} :   ]'.format(triada[1]) +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] == None and triada[1] != None and triada[2] != None:
                # 011
                print s+'[   :{0:2d} :{1:2d} ]'.format(triada[1], triada[2]) +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] != None and triada[1] == None and triada[2] == None:
                # 100
                print s+'[{0:2d} :   :   ]'.format(triada[0]) +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] != None and triada[1] == None and triada[2] != None:
                # 101
                print s+'[{0:2d} :   :{1:2d} ]'.format(triada[0], triada[2]) +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] != None and triada[1] != None and triada[2] == None:
                # 110
                print s+'[{0:2d} :{1:2d} :   ]'.format(triada[0], triada[1]) +' = ', s[triada[0]:triada[1]:triada[2]]
            elif triada[0] != None and triada[1] != None and triada[2] != None:
                # 111
                print s+'[{0:2d} :{1:2d} :{2:2d} ]'.format(triada[0], triada[1], triada[2]) +' = ', s[triada[0]:triada[1]:triada[2]]

        elif len(triada) == 2:
            if triada[0] == None and triada[1] == None:
                # 00
                print s+'[   :   ]    ' + ' = ', s[triada[0]:triada[1]]
            elif triada[0] == None and triada[1] != None:
                # 01
                print s+'[   :{0:2d} ]    '.format(triada[1]) + ' = ', s[triada[0]:triada[1]]
            elif triada[0] != None and triada[1] == None:
                # 10
                print s+'[{0:2d} :   ]    '.format(triada[0]) + ' = ', s[triada[0]:triada[1]]
            elif triada[0] != None and triada[1] != None:
                # 11
                print s+'[{0:2d} :{1:2d} ]    '.format(triada[0],triada[1]) + ' = ', s[triada[0]:triada[1]]

        elif len(triada) == 1:
            print s+'[{0:2d} ]        '.format(triada[0]) + ' = ', s[triada[0]]

if __name__ == '__main__':
    # Change "s" to what ever string you like, make it 9 characters for
    # better representation.
    s = 'COMPUTERS'

    # add to this list different lists to experement with indexes
    # to represent ex. s[::], use s[None, None,None], otherwise you get an error
    # for s[2:] use s[2:None]

    lista = [[4,7],[2,5,2],[-5,1,-1],[4],[-4,-6,-1], [2,-3,1],[2,-3,-1], [None,None,-1],[-5,None],[-5,0,-1],[-5,None,-1],[-1,1,-2]]

    slicegraphical(s, lista)

You can run this script and experiment with it, below is some samples that I got from the script.

  | C | O | M | P | U | T | E | R | S |
  0   1   2   3   4   5   6   7   8   9   
 -9  -8  -7  -6  -5  -4  -3  -2  -1 

COMPUTERS[ 4 : 7 ]     =  UTE
COMPUTERS[ 2 : 5 : 2 ] =  MU
COMPUTERS[-5 : 1 :-1 ] =  UPM
COMPUTERS[ 4 ]         =  U
COMPUTERS[-4 :-6 :-1 ] =  TU
COMPUTERS[ 2 :-3 : 1 ] =  MPUT
COMPUTERS[ 2 :-3 :-1 ] =  
COMPUTERS[-5 :   ]     =  UTERS
COMPUTERS[-5 : 0 :-1 ] =  UPMO
COMPUTERS[-5 :   :-1 ] =  UPMOC
COMPUTERS[-1 : 1 :-2 ] =  SEUM
[Finished in 0.9s]

When using a negative step, notice that the answer is shifted to the right by 1.

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protected by Jon Clements Feb 8 '13 at 9:20

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