# itertools.islice implementation — efficiently slicing a list

Earlier, I was trying to answer a question where I wanted to iterate over a list slice as efficiently as possible.

``````for x in lst[idx1:]:
``````

isn't ideal as it creates a copy (In general, this is `O(n)`). My next thought was to use `itertools.islice`. But if you look at the documentation, it appears that `islice` will call `next` until it finds the index it is looking for at which point it will start to yield values. This is also `O(n)`. It seems that there is an optimization that is available here if the object passed to `islice` is a `list` or a `tuple` -- It seems that you could iterate over the "slice" directly (in C) without actually making a copy. I was curious if this optimization is in the source, But I didn't find anything. I'm not extremely familiar with C and the python source tree, so it's entirely possible that I missed it.

My question is this:

Is there a way to iterate over a list "slice" without making a copy of the list slice and without burning through a bunch of unwanted elements (in an optimized C implementation)?

I'm well aware that I could write my own generator for this (very naively, not accounting for the fact that many of the arguments should be optional, etc.):

``````def myslice(obj,start,stop,stride):
for i in xrange(start,stop,stride):
yield obj(i)
``````

but that's definitely not going to beat an optimized C implementation.

If you're wondering why I would need this over just looping over a slice directly, consider the difference between:

``````takewhile(lambda x: x == 5, lst[idx:])  #copy's the tail of the list unnecessarily
``````

and

``````takewhile(lambda x: x == 5, islice(lst,idx,None)) #inspects the head of the list unnecessarily
``````

and finally:

``````takewhile(lambda x: x == 5, magic_slice(lst,idx,None)) #How to create magic_slice???
``````
-
The iteration itself is O(n). iteration plus slice is still O(n). iterations plus islice is also O(n). Just do the cleanest thing now and worry about the speed when it becomes an issue and worry about the big-O stuff later or never. –  Duncan Nov 29 '12 at 15:24
@Duncan -- But the iteration doesn't have to be order N. Suppose I only want the first M elements from the slice? (M isn't necessarily static -- It could be based on some "predicate" function). I also agree that premature optimization can make code harder to read. I'm mostly just curious. –  mgilson Nov 29 '12 at 15:32
Mind you -- svn.python.org is not updated anymore. The source code is now at hg.python.org/cpython. (I've mailed the python.org webmaster that he might put a notice atop svn.python explaining this, to no effect.) –  larsmans Nov 29 '12 at 15:44
@larsmans -- Thanks for fixing that for me. I just googled `itertools source code` and that was the first thing that came up. Maybe we should get Guido to fix that. He works at google doesn't he? ;-) –  mgilson Nov 29 '12 at 15:47

Is there a way to iterate over a list "slice" without making a copy of the list slice and without burning through a bunch of unwanted elements (in an optimized C implementation)?

Yes there is, if you write that C implementation. Cython makes this particularly easy.

``````cdef class ListSlice(object):
cdef object seq
cdef Py_ssize_t start, end

def __init__(self, seq, Py_ssize_t start, Py_ssize_t end):
self.seq = seq
self.start = start
self.end = end

def __iter__(self):
return self

def __next__(self):
if self.start == self.end:
raise StopIteration()
r = self.seq[self.start]
self.start += 1
return r
``````
-
grumbles -- I keep thinking that someday I'll teach myself Cython (even read the tutorial once or twice), but I keep putting off really using it because my fortran skills are better than my C skills and `f2py` just makes my life so easy. I suppose this is a case where `f2py` is simply inadequate and maybe I should bite the bullet and brush up on my C/Cython. –  mgilson Nov 29 '12 at 16:13

If you use PyPy (which you might, since you care about performance), they optimize string slicing to be non-copying: http://doc.pypy.org/en/latest/interpreter-optimizations.html

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I've often wondered if any implementations took advantage of a strings immutability in that way. Anyway, this still doesn't work for arbitrary sequences. –  mgilson Nov 29 '12 at 16:10

`islice` is a function from `itertools` module, so it works (and definitely should work) with `iterator`s in general, not only with `list`s. So, you can't find your optimization in `itertools` source code, cause it should work with any given iterator.

Right approach in your case is:

``````def magic_slice(lst, start, end=None):
for pos in xrange(start, (end or len(lst)):
yield lst[pos]
``````

`takewhile` will call your generator "one-by-one", and it will `yield` new values - the same "speed" as for generic list walking + `xrange` iterating. So the overhead in such implementation is minimal. If you need more - you can rewrite such function on C level but I don't see many advantages to do this.

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The fact that it should work with any iterator/iterable does not bar special implementations for sequences. –  larsmans Nov 29 '12 at 15:59
While I agree that itertools should continue to work for any iterable, there are examples in the source code where things are special cased for `lists` and `tuples` since you can do it more efficiently when you're using those datatypes. (see the code for `list.extend` for example) –  mgilson Nov 29 '12 at 15:59
"if you can use Numpy arrays for your data" is a pretty big constraint here -- You can't `.append` efficiently to a numpy array. However, this is still a very good point. (+1). –  mgilson Nov 29 '12 at 15:27
How does that improve on `itertools.islice`, which is also non-copying? –  Kirk Strauser Nov 29 '12 at 16:00
@larsmans Wow - it seems you and the OP are right. `islice` really does start at the first object and call `obj->tp_iternext()` until it gets to the correct index. I'm kind of shocked that it doesn't do something like `if isinstance(obj, list): start = obj[index]; current = index` to do an O(1) skip into the middle of the object. –  Kirk Strauser Nov 29 '12 at 17:25