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I have a large list l. I want to create a view from element 4 to 6. I can do it with sequence slice.

>>> l=range(10)
>>> lv=l[3:6]
>>> lv
[3, 4, 5]

However lv is copy of a slice of l. If I change the underlying list, lv does not reflect the change.

>>> l[4] = -1
>>> lv
[3, 4, 5]

Vice versa I want modification on lv reflect in l as well. Other than that the list size are not going to be changed.

I'm not look forward to build a big class to do this. I'm just hoping other Python gurus may know some hidden language trick. Ideally I hope it can like pointer arithmetic in C.

int lv[] = l + 3;
share|improve this question
    
For anybody that comes across this question like I did, memoryview now provides this capability. – robert Nov 19 '14 at 16:53
    
@robert How? The memoryview works only for objects with buffer interface and list is not one of them. – zegkljan Dec 7 '14 at 14:08
    
In the example provided here you should use a bytearray instead of a list. You may also wrap the list in bytearray. – robert Dec 7 '14 at 14:11
    
The buffer protocol, since the memoryview docs don't link to it. – Kevin J. Chase Feb 23 '15 at 16:18
up vote 23 down vote accepted

There is no "list slice" class in the Python standard library (nor is one built-in). So, you do need a class, though it need not be big -- especially if you're content with a "readonly" and "compact" slice. E.g.:

import collections

class ROListSlice(collections.Sequence):

    def __init__(self, alist, start, alen):
        self.alist = alist
        self.start = start
        self.alen = alen

    def __len__(self):
        return self.alen

    def adj(self, i):
        if i<0: i += self.alen
        return i + self.start

    def __getitem__(self, i):
        return self.alist[self.adj(i)]

This has some limitations (doesn't support "slicing a slice") but for most purposes might be OK.

To make this sequence r/w you need to add __setitem__, __delitem__, and insert:

class ListSlice(ROListSlice):

    def __setitem__(self, i, v):
        self.alist[self.adj(i)] = v

    def __delitem__(self, i, v):
        del self.alist[self.adj(i)]
        self.alen -= 1

    def insert(self, i, v):
        self.alist.insert(self.adj(i), v)
        self.alen += 1
share|improve this answer
1  
__length__ should be __len__, no? – intuited Aug 14 '10 at 23:32
    
Could you do something like def __slice__(self, *args, **kwargs): return (self.alist[self.start:self.start+self.alen]).__slice__(*args, **kwargs) to support things like slicing? Basically passing through the request to a slice created on-demand. – Amber Aug 14 '10 at 23:34
    
But if you do alist.insert(0, something) the slice moves! That might or might not be a problem ... – Jochen Ritzel Aug 15 '10 at 0:06
    
@intuited, yep, tx -- let me fix. – Alex Martelli Aug 15 '10 at 0:30
1  
@Amber, of course you can "override slicing" -- you do that by overriding __getitem__ (and maybe the set and del ones as well, for a type with mutable instances), and type-checking / type-switching on the "index" argument (e.g., to allow a[1:2,3:4], you deal with receiving, as the "index" argument, a tuple with two items, both of them slice objects). – Alex Martelli Aug 15 '10 at 1:31

Perhaps just use a numpy array:

In [19]: import numpy as np

In [20]: l=np.arange(10)

Basic slicing numpy arrays returns a view, not a copy:

In [21]: lv=l[3:6]

In [22]: lv
Out[22]: array([3, 4, 5])

Altering l affects lv:

In [23]: l[4]=-1

In [24]: lv
Out[24]: array([ 3, -1,  5])

And altering lv affects l:

In [25]: lv[1]=4

In [26]: l
Out[26]: array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9])
share|improve this answer

You can do that by creating your own generator using the original list reference.

l = [1,2,3,4,5]
lv = (l[i] for i in range(1,4))

lv.next()   # 2
l[2]=-1
lv.next()   # -1
lv.next()   # 4

However this being a generator, you can only go through the list once, forwards and it will explode if you remove more elements than you requested with range.

share|improve this answer

Edit: The object argument must be an object that supports the buffer call interface (such as strings, arrays, and buffers). - so no, sadly.

I think buffer type is what you are looking for.

Pasting example from linked page:

>>> s = bytearray(1000000)   # a million zeroed bytes
>>> t = buffer(s, 1)         # slice cuts off the first byte
>>> s[1] = 5                 # set the second element in s
>>> t[0]                     # which is now also the first element in t!
'\x05' 
share|improve this answer
    
there is no buffer() builtin in Python 3. memoryview() could be used instead. – J.F. Sebastian Feb 18 '15 at 2:58
    
Also, this inspects the in memory bytes of the area - Python lists do contain objects (which 'in memory' are pointer to the objects ) so - definetelly, this would be a very wrong approach - One would have to use ctypes , and redo all the Pointer indirection work, as if he was coding in C, that Python does for free – jsbueno May 17 at 14:12

You could edit: not do something like

shiftedlist = type('ShiftedList',
                   (list,),
                   {"__getitem__": lambda self, i: list.__getitem__(self, i + 3)}
                  )([1, 2, 3, 4, 5, 6])

Being essentially a one-liner, it's not very Pythonic, but that's the basic gist.

edit: I've belatedly realized that this doesn't work because list() will essentially do a shallow copy of the list it's passed. So this will end up being more or less the same as just slicing the list. Actually less, due to a missing override of __len__. You'll need to use a proxy class; see Mr. Martelli's answer for the details.

share|improve this answer

As soon as you will take a slice from a list, you will be creating a new list. Ok, it will contain same objects so as long as objects of the list are concerned it would be the same, but if you modify a slice the original list is unchanged.

If you really want to create a modifiable view, you could imagine a new class based on collection.MutableSequence

This could be a starting point for a full featured sub list - it correctly processes slice indexes, but at least is lacking specification for negative indexes processing:

class Sublist(collections.MutableSequence):
    def __init__(self, ls, beg, end):
        self.ls = ls
        self.beg = beg
        self.end = end
    def __getitem__(self, i):
        self._valid(i)
        return self.ls[self._newindex(i)]
    def __delitem__(self, i):
        self._valid(i)
        del self.ls[self._newindex(i)]
    def insert(self, i, x):
        self._valid(i)
        self.ls.insert(i+ self.beg, x)
    def __len__(self):
        return self.end - self.beg
    def __setitem__(self, i, x):
        self.ls[self._newindex(i)] = x
    def _valid(self, i):
        if isinstance(i, slice):
            self._valid(i.start)
            self._valid(i.stop)
        elif isinstance(i, int):
            if i<0 or i>=self.__len__():
                raise IndexError()
        else:
            raise TypeError()
    def _newindex(self, i):
        if isinstance(i, slice):
            return slice(self.beg + i.start, self.beg + i.stop, i.step)
        else:
            return i + self.beg

Example:

>>> a = list(range(10))
>>> s = Sublist(a, 3, 8)
>>> s[2:4]
[5, 6]
>>> s[2] = 15
>>> a
[0, 1, 2, 3, 4, 15, 6, 7, 8, 9]
share|improve this answer
    
This is a direct answer to another question that was closed as a duplicate from this one. As other answers from here were relevant, I prefered add it here – Serge Ballesta Dec 18 '15 at 17:18

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