# Idiomatic sequence slice in Clojure

In Python, there is a convenient way of taking parts of a list called "slicing":

``````a = [1,2,3,4,5,6,7,8,9,10] # ≡ a = range(1,10)
a[:3] # get first 3 elements
a[3:] # get all elements except the first 3
a[:-3] # get all elements except the last 3
a[-3:] # get last 3 elements
a[3:7] # get 4 elements starting from 3rd (≡ from 3rd to 7th exclusive)
a[3:-3] # get all elements except the first 3 and the last 3
``````

Playing with `clojure.repl/doc` in Clojure, I found equivalents for all of them but I'm not sure they are idiomatic.

``````(def a (take 10 (iterate inc 1)))
(take 3 a)
(drop 3 a)
(take (- (count a) 3) a)
(drop (- (count a) 3) a)
(drop 3 (take 7 a))
(drop 3 (take (- (count a) 3) a))
``````

My question is: how to slice sequences in Clojure? In other words, what is the correct way to return different parts of a sequence?

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You can simplify all the ones using `count` by using `take-last` or `drop-last` instead:

``````(def a (take 10 (iterate inc 1)))
(take 3 a) ; get first 3 elements
(drop 3 a) ; get all elements except the first 3
(drop-last 3 a) ; get all elements except the last 3
(take-last 3 a) ; get last 3 elements
(drop 3 (take 7 a)) ; get 4 elements starting from 3
(drop 3 (drop-last 3 a)) ; get all elements except the first and the last 3
``````

And as suggested in the comments below, you can use the `->>` macro to "thread" several operation together. For example, the last two lines could also be written like this:

``````(->> a (take 7) (drop 3)) ; get 4 elements starting from 3
(->> a (drop-last 3) (drop 3)) ; get all elements except the first and the last 3
``````

I think the two methods are both very readable if you are only applying two operations to a list, but when you have a long string like `take`, `map`, `filter`, `drop`, `first` then using the `->>` macro can make the code much easier to read and probably even easier for to write.

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I would also suggest to use `->>` macro for readability purpose. `(->> a (drop-last 3) (take 4))` –  Ankur Aug 22 '12 at 9:31
I'm not convinced your ->> version is more readable. –  Alex Baranosky Aug 22 '12 at 19:28
@Alex Baranosky - Like I said, I don't think it helps much in the case where you're only applying two functions. If you're applying something more like 5 functions though I think using a threading macro makes the flow of control a lot more clear since you don't have to read inside-to-outside. These are just opinions though, not facts. –  DaoWen Aug 23 '12 at 1:54
`(range 1 (inc 10))` and `(take 10 (next (range)))` are better alternatives to `(take 10 (iterate inc 1)))`, being closer to the python version in spirit or somewhat more legible IMHO. –  omiel Jun 7 '14 at 19:34

Python's notion of a sequence is very different from Clojure's.

In Python,

• a sequence is a finite ordered set indexed by non-negative numbers; and
• a list is a mutable sequence which you can add slices to or remove slices from.

In Clojure,

• a sequence is an interface supporting `first`, `rest`, and `cons`;
• a list is an immutable sequential collection with `conj` (`disj`) adding (removing) `first` elements (returning lists so modified, anyway).

The nearest thing in Clojure to a Python list is a vector. As Adam Sznajder suggests, you can slice it using `subvec`, though you can't add or remove slices as you can in Python.

`subvec` is a fast constant-time operation, whereas `drop` makes you pay for the number of elements bypassed (`take` makes you pay for the elements you traverse, but these are the ones you are interested in).

``````(def a (vec (range 1 (inc 10))))

(subvec a 0 3)
; [1 2 3]

(subvec a 3)
; [4 5 6 7 8 9 10]

(subvec a 0 (- (count a) 3))
; [1 2 3 4 5 6 7]

(subvec a (- (count a) 3))
; [8 9 10]

(subvec a 3 (+ 3 4))
; [4 5 6 7]

(subvec a 3 (- (count a) 3))
; [4 5 6 7]
``````
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There is a function `subvec`. Unfortunately, it only works with vectors so you would have to transform your sequence:

http://clojuredocs.org/clojure_core/clojure.core/subvec

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Slicing a sequence is a bit of a "code smell" - a sequence in general is designed for sequential access of items.

If you are going to do a lot of slicing / concatenation, there are much better data structures available, in particular checkout the RRB-Tree vector implementation:

This supports very efficient `subvec` and `catvec` operations.

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