# How to uniformly handle A LIST or A LIST OF LIST (multi-dimensional list)

Without any heavy libraries such as numpy, I want to uniformly handle a single list or multi-dimensional list in my code. For example, the function sum_up(list_or_matrix) should return 6 for argument [1, 2, 3] and return 9 for [[1, 2, 3], [1, 2, 0]].

My question is: 1. Can I code in a way without explicitly detecting the dimension of my input such as by isinstance(arg[0], (tuple, list))?

2. If I have to do so, is there any elegant way of detecting the dimension of a list (of list of list ...), e.g. recursively?

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As many users suggested you can always use dict instead of list for any-dimensinal collection. Dictionaries are accepting tuples as arguments as they are hashable. So you can easy fill-up your collection like

``````>>> m = {}
>>> m[1] = 1
>>> m[1,2] = 12
>>> m[1,2,"three",4.5] = 12345
>>> sum(m.values()) #better use m.itervalues() in python 2.*
12358
``````
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In this case, is there a straight way of telling the dimension of the data structure like the shape of the numpy array? for example, the dim of {0: 1, 1: 2} should be 2, and {(0, 0): 1, {0,1}: 2, {1,0}: 1, {1,1}: 2} should be (2, 2) –  dolaameng Feb 28 '12 at 3:59
set( len(dim) for dim in m if isinstance(dim,tuple)) will give you set of possible shapes for all items, having tuple key –  Odomontois Feb 28 '12 at 4:28
yes, actually using the set may be an overkill? for the multi-dimensional keyed dict, i was thinking of using (dim + 1 for dim in max(data.keys())) thanks! –  dolaameng Feb 28 '12 at 4:48

You can solve this problem using recursion, like this:

``````#!/usr/bin/env python

def sum(seq_or_elem):
if hasattr(seq_or_elem, '__iter__'):
# We were passed a sequence so iterate over it, summing the elements.
total = 0
for i in seq_or_elem:
total += sum(i)
else:
# We were passed an atomic element, the sum is identical to the passed value.
return seq_or_elem
``````

Test:

``````>>> print(sum([1, 2, [3, [4]], [], 5]))
15
``````
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Well I dont see a way if you are planning to use a single function to sum up your list like `sum_up(list_or_matrix)`.

If you are having a `list of lists` I would only imagine you need to loop through the list to find out if its a 1-D or a 2-D list. Anyway whats wrong in looping?

``````def sum_up(matrix):
2DMatrix = False
for item in matrix:
if type(item) == list:
2DMatrix = True

if(2DMatrix):
//sum 2d matrix
else:
//sum 1d matrix
``````
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A simple way to sum up a matrix is as follow:

``````def sum_up(matrix):
if isinstance(matrix, (tuple, list)):
return sum(matrix)
else:
return sum((sum(x) for x in matrix))
``````

The 'else' branch uses list comprehension, a powerful and quick tool.

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You could sum recursively until you have a scalar value:

``````def flatten(x):
if isinstance(x, list):
return sum(map(flatten, x))
return x
``````

Note: you can use `collections.Iterable` (or another base class) instead of `list`, depending on what you want to flatten.

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