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I've just started programming, and am working my way through "How to think like a Computer Scientist" for Python. I haven't had any problems until I came to an exercise in Chapter 9:

def add_column(matrix):

    >>> m = [[0, 0], [0, 0]]
    >>> add_column(m)
    [[0, 0, 0], [0, 0, 0]]
    >>> n = [[3, 2], [5, 1], [4, 7]]
    >>> add_column(n)
    [[3, 2, 0], [5, 1, 0], [4, 7, 0]]
    >>> n
    [[3, 2], [5, 1], [4, 7]]

The code should make the above doctest pass. I was getting stuck on the last test: getting the original list to stay unaffected. I looked up the solution, which is the following:

x = len(matrix)

matrix2 = [d[:] for d in matrix]
for z in range(x):
    matrix2[z] += [0]
return matrix2

My question is this: why can't the second line be:

matrix2 = matrix[:]

When this line is in place the original list gets edited to include the addition elements. The "How to be.." guide makes it sound like cloning creates a new list that can be edited without affecting the original list. If that were true, what's going on here? If I use:

matrix2 = copy.deepcopy(matrix)

Everything works fine, but I wasn't under the impression that cloning would fail... any help would be greatly appreciated!

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2 Answers 2

In your case, matrix contains other lists, so when you do matrix[:], you are cloning matrix, which contains references to other lists. Those are not cloned too. So, when you edit these, they are still the same in the original matrix list. However, if you append an item to the copy (matrix[:]), it will not be appended to the original list.

To visualize this, you can use the id function which returns a unique number for each object: see the docs.

a = [[1,2], [3,4], 5]
print 'id(a)', id(a)
print '>>', [id(i) for i in a]

not_deep = a[:]
# Notice that the ids of a and not_deep are different, so it's not the same list
print 'id(not_deep)', id(not_deep)
# but the lists inside of it have the same id, because they were not cloned!
print '>>', [id(i) for i in not_deep]

# Just to prove that a and not_deep are two different lists
not_deep.append([6, 7])
print 'a items:', len(a), 'not_deep items:', len(not_deep)

import copy
deep = copy.deepcopy(a)
# Again, a different list
print 'id(deep)', id(deep)
# And this time also all the nested list (and all mutable objects too, not shown here)
# Notice the different ids
print '>>', [id(i) for i in deep]

And the output:

id(a) 36169160
>> [36168904L, 35564872L, 31578344L]
id(not_deep) 35651784
>> [36168904L, 35564872L, 31578344L]
a items: 3 not_deep items: 4
id(deep) 36169864
>> [36168776L, 36209544L, 31578344L]
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I THINK I understand...so if "matrix" didn't include nested lists, I'd be okay because there'd only be one level to clone? And that's why deepcopy works-- it's copying every level down, even the nested lists... I guess "How to be..." was trying to teach the most basic concepts in their entirety before going on to more sensible approaches, but it just ended up confusing me. Thanks! –  Alxmrg Apr 27 '12 at 18:08
Correct. 100% :D –  jadkik94 Apr 27 '12 at 18:37

Say you have nested lists, copying will only copy the references to those nested lists.

>>> a = [1]
>>> b = [2]
>>> c = [a, b]
>>> c
[[1], [2]]
>>> d = c[:]
>>> d
[[1], [2]]
>>> d[1].append(2)
>>> d
[[1], [2, 2]]
>>> c
[[1], [2, 2]]

As where, with copy.deepcopy():

>>> d = copy.deepcopy(c)
>>> d[1].append(2)
>>> c
[[1], [2]]
>>> d
[[1], [2, 2]]

This is true of any mutable items. copy.deepcopy() will attempt to make sure that they are copied too.

It's also worth noting that using d = c[:] to copy a list isn't a very clear syntax anyway. A much better solution is d = list(c) (list() returns a new list from any iterable, including another list). Even more clear, obviously, is copy.copy().

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Thanks for the help- I think I understand at this point. Is there any reason why you would want to make discrete copies of a matrix but keep the nested lists within referring to the same object? I'm not far enough into the process to foresee how that would be anything other than confusing... –  Alxmrg Apr 27 '12 at 18:10
It's less a design decision, and more just a repercussion of how Python works. Whenever you assign in Python, you don't copy the object, you simply assign the variable as a reference to it. It wouldn't make sense to arbitrarily do otherwise. –  Lattyware Apr 27 '12 at 18:14

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