using index() on multidimensional lists

For a one dimensional list, the index of an item is found as follows:

`````` a_list = ['a', 'b', 'new', 'mpilgrim', 'new']
a_list.index('mpilgrim')
``````

What is the equivalent for a 2 or n dimensional list?

Edit: I have added an example to clarify: If I have a 3 dimensional list as follows

``````b_list = [
[1,2],
[3,4],
[5,6],
[7,8]
],
[
[5,2],
[3,7],
[6,6],
[7,9]
]
``````

Now lets say I want to identify a certain value in this list. If I know the index of the 1st and 2nd dimesion but don't know the zero-th index for the value I want, how do I go about finding the zero-th index?

Would it be something like:

``````  target_value = 7
b_list[0].index(target_value)
``````

With the output being an integer: 0

• You should clarify with an example what you want the equivalent of `a_list.index()` to return. The index of a flattened list? the recursive sequence of enclosing lists? ...?
– mac
Jun 29, 2011 at 9:41

I don't know of an automatic way to do it, but if

`a = [[1,2],[3,4],[5,6]]`

and you want to find the location of 3, you can do:

`x = [x for x in a if 3 in x][0]`

`print 'The index is (%d,%d)'%(a.index(x),x.index(3))`

The output is:

`The index is (1,0)`

• Loved your solution, ingenious! Oct 15, 2016 at 7:35
• Hey this is great but if the item isn't in the list I get an out of range exception. Any nice way to handle this?
– JMG
Mar 1, 2017 at 1:00
• @JMG It seems Try and Except is the only solution for this.
– Mo-
Mar 19, 2018 at 17:55
• You can save one `index` call by doing `i = [i for i in range(a) if 3 in a[i]][0]` and then: `'The index is (%d,%d)'%(i, a[i].index(3))` Oct 18, 2020 at 13:13
• It never came to my mind that I could use a list as parameter for the "index" function. This concept simplified my code. Dec 31, 2021 at 2:57

For two dimensional list; you can iterate over rows and using .index function for looking for item:

``````def find(l, elem):
for row, i in enumerate(l):
try:
column = i.index(elem)
except ValueError:
continue
return row, column
return -1

tl = [[1,2,3],[4,5,6],[7,8,9]]

print(find(tl, 6)) # (1,2)
print(find(tl, 1)) # (0,0)
print(find(tl, 9)) # (2,2)
print(find(tl, 12)) # -1
``````

A multidimensional list is simply a list with more lists inside of it. So its indices would be lists themselves.

``````a = [[1, 2, 3], [2, 3, 4], [3, 4, 5]]
print a.index([2, 3, 4])
# prints 1
``````
``````list_2d = [[1,2],[3,4],[5,6]]

element = 1

index_row = [list_2d.index(row) for row in list_2d if element in row]

index_column = [row.index(element) for row in list_2d if element in row]
``````

For multidimensional arrays:

``````def find(needle,haystack):
if needle == haystack: return []
# Strings are iterable, too
if isinstance(haystack,str) and len(haystack)<=1: return None
try:
for i,e in enumerate(haystack):
r = find(needle,e)
if r is not None:
r.insert(0,i)
return r
except TypeError:
pass
return None

ml = [[1,2,3],[4,5,6],[7,8,9]]
print find(2,ml)
ml = [3,[[1,2,3],[4,5,6],[7,8,9]]]
print find(2,ml)
ml = [[["ab", "bc", "cde"]]]
print find("d",ml)
``````

There should be a better way to avoid the try/except block, but I could not find one: In Python, how do I determine if an object is iterable?

You can use the following sample method too:

``````data = [[1, 1,2],[12,4],[6]]

def m_array_index(arr, searchItem):
for i,x in enumerate(a):
for j,y in enumerate(x):
if y == searchItem:
return i,j

print m_array_index(data, 6)
``````

Or with all occurrences(sure code could be optimized - modified to work with generators and so on - but here is just a sample):

``````occurrences = lambda arr, val: tuple((i,j) for i,x in enumerate(arr) for j,y in enumerate(x) if y == val) or ((-1,-1))

print occurrences(data, 1) # ((0, 0), (0, 1))
print occurrences(data, 12) # ((1, 0),)
print occurrences(data, 11) # (-1, -1)
``````

For n-dimensional recursive search, you can try something like this:

``````from copy import copy
def scope(word, list, indexes = None):
result = []
if not indexes:
indexes = []
for index, item in enumerate(list):
try:
current_index = indexes + [index]
result.append(current_index + [item.index(word)])
except ValueError:
pass

if type(item[0]) == type([]):
indexes.append(index)
result.extend(scope(word, item, copy(indexes)))

return result
``````

And the result is:

``````>>> d_list = [['a', 'b', 'new', 'mpilgrim', 'new'], [['a', 'b', 'new', 'mpilgrim', 'new'], ['b', 'd', 'new', 'mpilgrim', 'new']]]
>>> word = 'mpilgrim'
>>> result = scope(word, d_list)
[[0, 3], [1, 0, 3], [1, 1, 3]]
``````

Probably there are better ways to do it, but that is the one I figured out without getting any library.

EDIT: Actually, it was not perfect and one library must be added. It's copy. Now it's ok.

If you want to find the list that has an item, the simplest way to do it is:

``````i = 4
index = b_list[0].index( filter(lambda 1D_list: i in index , b_list[0]) )
``````

Or if you know there are more than one matches for the item, then you can do:

``````i = 4
indexes = []
for match in filter(lambda 1D_list: i in list, b_list[0]):
indexes.append(b_list[0].index(match))
``````

None of this will raise any errors but they'll only work if there is no subarray. Go here for information about the functionality of filter.

``````list1 = [10, 20, [300, 400, [5000, 6000, [1, 6000, 2]], 6000, 500], 30, 40]

print('---------------------------------------------------------')

index = []

index_result=['6000 index is list1']

def try_this(list1, index):
for x, element in enumerate(list1):
if element == 6000:
index.append(x)
index_result.append(index[:])
index.pop()
elif type(element) == list:
index.append(x)
try_this(element, index)
index.pop()

print(try_this(list1, index))
print(index_result)
``````