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I try to sum a list of nested elements

e.g, numbers=[1,3,5,6,[7,8]], sum=30

I wrote the following code

def nested_sum(L):

    sum=0
    for i in range(len(L)):
       if (len(L[i])>1):
          sum=sum+nested_sum(L[i])
       else:
          sum=sum+L[i]
    return sum

The above code gives following error: object of type 'int' has no len() I also tried len([L[i]]), still not working

Anyone can help? BTW, it is Python 3.3

share|improve this question
    
Try one of the numerous flatten functions posted here so far, and simply sum(flatten(L)) –  georg Feb 17 '13 at 9:12
    
For Python, if I use recursive call, do I need to worry about taking too much time as the stack goes? I know for this problem, I probably won't worry about this –  Jin Feb 19 '13 at 15:01
    
@Jin It's probably a little early for this, but if you want to reduce memory consumption, use a generator instead. –  2rs2ts Jul 9 '13 at 22:56

7 Answers 7

up vote 13 down vote accepted

You need to use isinstance to check whether an element is a list or not. Also, you might want to iterate over the actual list, to make things simpler.

def nested_sum(L):
    total = 0  # don't use `sum` as a variable name
    for i in L:
        if isinstance(i, list):  # checks if `i` is a list
            total += nested_sum(i)
        else:
            total += i
    return total
share|improve this answer
    
Nice! Totally beat me to it. –  nneonneo Feb 17 '13 at 1:31

It is generally considered more pythonic to duck type, rather than explicit type checking. Something like this will take any iterable, not just lists:

def nested_sum(a) :
    total = 0
    for item in a :
        try:
            total += item
        except TypeError:
            total += nested_sum(item)
    return total
share|improve this answer

I would sum the flattened list:

def flatten(L):
    '''Flattens nested lists or tuples with non-string items'''
    for item in L:
        try:
            for i in flatten(item):
                yield i
        except TypeError:
            yield item


>>> sum(flatten([1,3,5,6,[7,8]]))
30
share|improve this answer

One alternative solution with list comprehension:

>>> sum( sum(x) if isinstance(x, list) else x for x in L )
30

Edit: And for lists with more than two levels(thx @Volatility):

def nested_sum(L):
    return sum( nested_sum(x) if isinstance(x, list) else x for x in L )
share|improve this answer
1  
Won't work with nested lists with more than 2 levels though –  Volatility Feb 17 '13 at 1:45

A quick recursion that uses a lambda to handle the nested lists:

rec = lambda x: sum(map(rec, x)) if isinstance(x, list) else x

rec, applied on a list, will return the sum (recursively), on a value, return the value.

result = rec(a)
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An example using filter and map, assumes you are using lists of things that can be added together:

def islist(x): 
    return isintance(x, list)

def notlist(x): 
    return not isinstance(x, list)

def nested_sum(lst):
    return sum(filter(notlist, lst)) + map(nested_sum, filter(islist, lst))

Also, I just realized that everyone's examples break if the list contains a reference to itself (although why you'd want to find the sum of a list containing a reference to itself is beyond me.) You can catch that using the builtin id function though (if an element of the list has the same id as the list, then it is a reference to the same list, and you can program your desired logic accordingly.)

share|improve this answer

This code also works.

def add_all(t):
    total = 0
    for i in t:
        if type(i) == list: # check whether i is list or not
            total = total + add_all(i)
        else:
            total += i
    return total
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