# Iterating through a multidimensional array in Python

I have created a multidimensional array in Python like this:

``````self.cells = np.empty((r,c),dtype=np.object)
``````

Now I want to iterate through all elements of my twodimensional array, and I do not care about the order. How do I achieve this?

It's clear you're using numpy. With numpy you can just do:

``````for cell in self.cells.flat:
do_somethin(cell)
``````

If you need to change the values of the individual cells then ndenumerate (in numpy) is your friend. Even if you don't it probably still is!

``````for index,value in ndenumerate( self.cells ):
do_something( value )
self.cells[index] = new_value
``````

Just iterate over one dimension, then the other.

``````for row in self.cells:
for cell in row:
do_something(cell)
``````

Of course, with only two dimensions, you can compress this down to a single loop using a list comprehension or generator expression, but that's not very scalable or readable:

``````for cell in (cell for row in self.cells for cell in row):
do_something(cell)
``````

If you need to scale this to multiple dimensions and really want a flat list, you can write a `flatten` function.

• You got it wrong. It should be: for cell in [cell for row in self.cells for cell in row]: do_something(cell) – xApple Sep 29 '11 at 11:18
• Isn't the way he did it fine? It's just a generator expression instead of a list comprehension...am I missing something? O.o – Shon Freelen Oct 2 '11 at 11:20
• The 'for's used to be backwards. I edited it since. – Eevee Oct 4 '11 at 18:22

you can get the index of each element as well as the element itself using enumerate command:

``````for (i,row) in enumerate(cells):
for (j,value) in enumerate(row):
print i,j,value
``````

`i`,`j` contain the row and column index of the element and `value` is the element itself.

``````import itertools
for cell in itertools.chain(*self.cells):
cell.drawCell(surface, posx, posy)
``````
• `itertools.chain.from_iterable(self.cells)` – jfs Oct 18 '09 at 6:27

No one has an answer that will work form arbitrarily many dimensions without numpy, so I'll put here a recursive solution that I've used

``````def iterThrough(lists):
if not hasattr(lists, '__iter__'):
for val in lists:
yield val
else:
for l in lists:
for val in iterThrough(l):
yield val

for val in iterThrough(
[[[111,112,113],[121,122,123],[131,132,133]],
[[211,212,213],[221,222,223],[231,232,233]],
[[311,312,313],[321,322,323],[331,332,333]]]):
print(val)
# 111
# 112
# 113
# 121
# ..
``````

This doesn't have very good error checking but it works for me

It may be also worth to mention `itertools.product()`.

``````cells = [[x*y for y in range(5)] for x in range(10)]
for x,y in itertools.product(range(10), range(5)):
print("(%d, %d) %d" % (x,y,cells[x][y]))
``````

It can create cartesian product of an arbitrary number of iterables:

``````cells = [[[x*y*z for z in range(3)] for y in range(5)] for x in range(10)]
for x,y,z in itertools.product(range(10), range(5), range(3)):
print("(%d, %d, %d) %d" % (x,y,z,cells[x][y][z]))
``````