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So I was wondering how to best create a list of blank lists:


Because of how Python works with lists in memory, this doesn't work:


This does create [[],[],...] but each element is the same list:

d = [[]]*n

Something like a list comprehension works:

d = [[] for x in xrange(0,n)]

But this uses the Python VM for looping. Is there any way to use an implied loop (taking advantage of it being written in C)?

d = []
map(lambda n: d.append([]),xrange(0,10))

This is actually slower. :(

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I would be surprised if there is anything substantially faster than d = [[] for x in xrange(0,n)]. You either have to loop explicitly in Python or call a Python function/lambda repeatedly (which should be slower). But still hoping someone will post something that shows I am wrong :). –  MAK Apr 1 '11 at 20:34
When you measured these with timeit, what did you learn? –  S.Lott Apr 1 '11 at 20:34
I just confirmed that map(lambda x: [], xrange(n)) is slower than a list comprehension. –  Andrew Clark Apr 1 '11 at 20:35

4 Answers 4

up vote 25 down vote accepted

The probably only way which is marginally faster than

d = [[] for x in xrange(n)]


from itertools import repeat
d = [[] for i in repeat(None, n)]

It does not have to create a new int object in every iteration and is about 5 % faster on my machine.

Edit: Using NumPy, you can avoid the Python loop using

d = numpy.empty((n, 0)).tolist()

but this is actually 2.5 times slower than the list comprehension.

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How about map(lambda x:[], repeat(None,n))? –  Paul McGuire Apr 1 '11 at 21:57
@Paul: That would be way slower again due to the function call overhead of the lambda expression. –  Sven Marnach Apr 1 '11 at 22:06

The list comprehensions actually are implemented more efficiently than explicit looping (see the dis output for example functions) and the map way has to invoke an ophaque callable object on every iteration, which incurs considerable overhead overhead.

Regardless, [[] for _dummy in xrange(n)] is the right way to do it and none of the tiny (if existent at all) speed differences between various other ways should matter. Unless of course you spend most of your time doing this - but in that case, you should work on your algorithms instead. How often do you create these lists?

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Please, no _ as a variable name! Otherwise nice answer :) –  Sven Marnach Apr 1 '11 at 20:36
@Sven: Why not? It's commonly used for unused variables (if it was called i, I for one would be looking for where it's used). The only pitfall would be that it shadows the _ holding the last result in the REPL... and that's only the case in 2.x where list comprehensions leak. –  delnan Apr 1 '11 at 20:39
Not very often, which is why I went ahead and used a list comprehension. Thought it would be interesting to see what people had to say though. I saw the Dropbox talk at PyCon with the usage of itertools.imap instead of a for loop to update an md5 hash an absurdly large amount of times, and I've been a bit obsessed with C loops since then. –  munchybunch Apr 1 '11 at 20:45
The most important reason not to use it is that it tends to confuse people, making them think it is some kind of special syntax. And in addition to the conflict with _ in the interactive interpreter, it also conflicts with the common gettext alias. If you want to make clear that the variable is a dummy variable, call it dummy, not _. –  Sven Marnach Apr 1 '11 at 20:47

Here are two methods, one sweet and simple(and conceptual), the other more formal and can be extended in a variety of situations, after having read a dataset.

Method 1: Conceptual

X2 thus has [[1,2,3],[4,5,6]] ie a list of lists. 

Method 2 : Formal and extensible

Another elegant way to store a list as a list of lists of different numbers - which it reads from a file. (The file here has the dataset train) Train is a data-set with say 50 rows and 20 columns. ie. Train[0] gives me the 1st row of a csv file, train[1] gives me the 2nd row and so on. I am interested in separating the dataset with 50 rows as one list, except the column 0 , which is my explained variable here, so must be removed from the orignal train dataset, and then scaling up list after list- ie a list of a list. Here's the code that does that.

Note that I am reading from "1" in the inner loop since I am interested in explanatory variables only. And I re-initialize X1=[] in the other loop, else the X2.append([0:(len(train[0])-1)]) will rewrite X1 over and over again - besides it more memory efficient.

for j in range(0,len(train)):
    for k in range(1,len(train[0])):
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I prefer the following method, especially if you would like to only later modify specific elements:

map=[[0 for i in range(nlon)] for j in range(nlat)]

This gives a list of list which uses unique memory locations for elements. Seemingly obvious, but compare with


Which reuses memory locations, and cannot store nlat*nlon=72*144 unique values.

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