I'm printing a value of a what I thought was a list, but the output that I get is:


What does this represent? How do I test for it? I've tried:

myVar.__repr__() != '[...]'


myVar.__repr_() != Ellipsis

but no dice...

Here's a cutdown of the code that's giving the issue:

def buildPaths(graph, start, end, path=[], totalPaths=[]):
    returns list of all possible paths from start node to the end node
    path = path + [start]
    if start == end:
        return path
    for nextNode in graph.childrenOf(start):
        if nextNode not in path:
            newPath = buildPaths(graph, nextNode, end, path, totalPaths)
            if newPath != []: # test
    return totalPaths

totalPaths contains a LOT of [...] supposedly recursive lists, but I can't see why. I've altered the test at #test to prevent this.

I've also tried:

def buildPaths(graph, thisNode, end, path=[], totalPaths=None):
   returns list of all possible paths from start node to the end node
    path = path + [thisNode]
    if thisNode == end:
        return path
    for nextNode in graph.childrenOf(thisNode):
        if nextNode not in path:
            newPath = buildPaths(graph, nextNode, end, path, totalPaths)
            if newPath != None:
                if totalPaths == None:
                    totalPaths = [newPath]
    return totalPaths

in order to explicitly return None for empty paths.

  • 1
    Though Ellipsis is a thing in python, this is probably just whatever display telling you that there's more stuff to show than it can. >>> [...] -> [Ellipsis] (since python3) Apr 28, 2016 at 2:48
  • 2
    Can you provide an example of code that generates this?
    – BrenBarn
    Apr 28, 2016 at 2:49
  • @BrenBarn - example code added
    – Dycey
    Apr 28, 2016 at 3:13
  • 1
    When you do totalPaths.append(newPath), that's modifying the passed-in list, so the parent recursion's totalPaths is also modified - then returned as newPath and appended to itself.
    – Izkata
    Apr 28, 2016 at 4:18
  • Thank you @Izkata - that was the explanation I was looking for!
    – Dycey
    Apr 28, 2016 at 13:16

4 Answers 4


It represents an infinite loop within the structure. An example:

In [1]: l = [1, 2]

In [2]: l[0] = l

In [3]: l
Out[3]: [[...], 2]

l's first item is itself. It's a recursive reference, and so python can't reasonably display its contents. Instead it shows [...]

  • Well, it could show the results if it's being lazily computed. GHCi has no problem displaying an infinite list. Apr 28, 2016 at 4:46
  • 22
    @Carcigenicate Practically speaking, GHCi has no problem starting to display an infinite list, but it has difficulty finishing... Python sort of requires repr to finish executing before printing.
    – matsjoyce
    Apr 28, 2016 at 11:19
  • 1
    Common Lisp has a special notation for printing "circular" list structure, see stackoverflow.com/questions/16678371/…
    – zwol
    Apr 28, 2016 at 13:40

Depending on the context here it could different things:

indexing/slicing with Ellipsis

I think it's not implemented for any python class but it should represent an arbitary number of data structure nestings (as much needed). So for example: a[..., 1] should return all the second elements of the innermost nested structure:

>>> import numpy as np
>>> a = np.arange(27).reshape(3,3,3)  # 3dimensional array
>>> a[..., 1]  # this returns a slice through the array in the third dimension
array([[ 1,  4,  7],
       [10, 13, 16],
       [19, 22, 25]])
>>> a[0, ...]  # This returns a slice through the first dimension
array([[0, 1, 2],
       [3, 4, 5],
       [6, 7, 8]])

and to check for this ... you compare it to an Ellipsis (this is a singleton so recommended is using is:

>>> ... is Ellipsis
>>> Ellipsis in [...]
# Another (more or less) equivalent alternative to the previous line:
>>> any(i is Ellipsis for i in [1, ..., 2]) 

Recursive Datastructures

The other case in which you see an [...] in your output is if you have the sequence inside the sequence itself. Here it stands for an infinite deeply nested sequence (that's not printable). For example:

>>> alist = ['a', 'b', 'c']
>>> alist[0] = alist
>>> alist
[[...], 'b', 'c']

# Infinite deeply nested so you can use as many leading [0] as you want
>>> alist[0][1] 
>>> alist[0][0][0][0][0][1] 
>>> alist[0][0][0][0][0][0][0][0][0][0][0][0][0][0][0][1] 

You can even replace it several times:

>>> alist[2] = alist
>>> alist
[[...], 'b', [...]]
>>> alist[1] = alist
>>> alist
[[...], [...], [...]]

To test if you have any such recursion in your output you need to check if the data-structure itself is also one of the elements:

>>> alist in alist
>>> any(i is alist for i in alist)

Another way to get a more meaningful output is using pprint.pprint:

>>> import pprint
>>> pprint.pprint(alist)  # Assuming you only replaced the first element:
[<Recursion on list with id=1628861250120>, 'b', 'c']

If your list contains self references Python will display that as [...] rather than trying to recursively print it out, which would lead to an infinte loop:

>>> l = [1, 2, 3]
>>> print(l)
[1, 2, 3]
>>> l.append(l)
>>> print(l)
[1, 2, 3, [...]]
>>> print(l[-1])        # print the last item of list l
[1, 2, 3, [...]]
>>> print(l[-1][-1])    # print the last item of the last item of list l
[1, 2, 3, [...]]

ad infinitum.

A similar situation arises with dictionaries:

>>> d = {}
>>> d['key'] = d
>>> print(d)
{'key': {...}}
>>> d['key']
{'key': {...}}
>>> d['key']['key']
{'key': {...}}

It's a recursive reference as your list contains itself. Python doesn't try to recursively print this which would lead to an infinite loop.

repr detects this. So, if you looked at the internal representation of your list object you would see (where the ellipsis occur) "Reference to the same list object at address *" where * is the address of the original list object in memory. Hence, the infinite loop.

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