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While idly surfing the namespace I noticed an odd looking object called "Ellipsis", it does not seem to be or do anything special, but it's a globally available builtin.

After a search I found that it is used in some obscure variant of the slicing syntax by Numpy and Scipy... but almost nothing else.

Was this object added to the language specifically to support Numpy + Scipy? Does Ellipsis have any generic meaning or use at all?

Python 2.4.4 (#71, Oct 18 2006, 08:34:43) [MSC v.1310 32 bit (Intel)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> Ellipsis
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See the answers to… – Patrick McElhaney Apr 21 '09 at 12:34
I found it like this: I entered x=[];x.append(x);print(x), to see how it handled stringifying cyclical objects. It returned [[...]]. I thought "I wonder what happens if I type in [[...]]? My guess was it would throw a syntax error. Instead, it returned [[Ellipsis]]. Python is so weird. The Google search that ensued brought me to this page. – Cyoce Jan 9 at 0:38
up vote 198 down vote accepted

This came up in another question recently. I'll elaborate on my answer from there:

Ellipsis is an object that can appear in slice notation. For example:

myList[1:2, ..., 0]

Its interpretation is purely up to whatever implements the __getitem__ function and sees Ellipsis objects there, but its main (and intended) use is in the numeric python extension, which adds a multidimensional array type. Since there are more than one dimensions, slicing becomes more complex than just a start and stop index; it is useful to be able to slice in multiple dimensions as well. E.g., given a 4x4 array, the top left area would be defined by the slice [:2,:2]:

>>> a
array([[ 1,  2,  3,  4],
       [ 5,  6,  7,  8],
       [ 9, 10, 11, 12],
       [13, 14, 15, 16]])

>>> a[:2,:2]  # top left
array([[1, 2],
       [5, 6]])

Extending this further, Ellipsis is used here to indicate a placeholder for the rest of the array dimensions not specified. Think of it as indicating the full slice [:] for all the dimensions in the gap it is placed, so for a 3d array, a[...,0] is the same as a[:,:,0] and for 4d, a[:,:,:,0], similarly, a[0,...,0] is a[0,:,:,0] (with however many colons in the middle make up the full number of dimensions in the array).

Interestingly, in python3, the Ellipsis literal (...) is usable outside the slice syntax, so you can actually write:

>>> ...

Other than the various numeric types, no, I don't think it's used. As far as I'm aware, it was added purely for numpy use and has no core support other than providing the object and corresponding syntax. The object being there didn't require this, but the literal "..." support for slices did.

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+1 - helpful answer. Also for multidementional - freudian slip? :-) – LarsH Jan 6 '13 at 11:45
Bah humbug. You're using Ellipsis wrong. Clearly you're supposed to use it like this: a[Ellipsis,0], none of this silly .... – ArtOfWarfare Feb 22 '15 at 13:35

In Python 3, you can use the Ellipsis literal ... as a “nop” placeholder for code:

def will_do_something():

This is not magic; any expression can be used instead of ..., e.g.:

def will_do_something():

(Can't use the word “sanctioned”, but I can say that this use was not outrightly rejected by Guido.)

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In a half-convention, I often see ... used where people want to indicate something they intend to fill in later (a 'todo' empty block) and pass to mean an block intended to have no code. – Latty Apr 16 '12 at 1:04
Python also has the NotImplemented literal, which is useful when you want your incomplete function to return something meaningful (instead of None as in your example). (Another usecase: Implementing arithmetic operations) – zvyn Jun 26 '15 at 5:19

You can also use the Ellipsis when specifying expected doctest output:

class MyClass(object):
    """Example of a doctest Ellipsis

    >>> thing = MyClass()
    >>> # Match <class '__main__.MyClass'> and <class '%(module).MyClass'>
    >>> type(thing)           # doctest:+ELLIPSIS
    <class '....MyClass'>
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From the Python documentation:

This object is used by extended slice notation (see the Python Reference Manual). It supports no special operations. There is exactly one ellipsis object, named Ellipsis (a built-in name).

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You can use Ellipsis yourself, in custom slicing situations like numpy has done, but it has no usage in any builtin class.

I don't know if it was added specifically for use in numpy, but I certainly haven't seen it used elsewhere.

See also:

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What does the Python Ellipsis object do?

Serves as a singleton class magic value that gets passed to __getitem__ when you use the "magic-looking" ... syntax.

The class can then do whatever it wants with it.


class C(object):
    def __getitem__(self, k):
        return k

# Single argument is passed directly.
assert C()[0] == 0

# Multiple indices generate a tuple.
assert C()[0, 1] == (0, 1)

# Slice notation generates a slice object.
assert C()[1:2:3] == slice(1, 2, 3)

# Ellipsis notation generates an Ellipsis class object.
assert C()[...] == Ellipsis

The Python built-in list class chooses to give it the semantic of a range, and any sane usage of it should too of course.

Personally, I'd just stay away from it in my APIs, and create a separate, more explicit method instead.

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Its intended use shouldn't be only for these 3rd party modules. It isn't mentioned properly in the Python documentation (or maybe I just couldn't find that) but the ellipsis ... is actually used in CPython in at least one place.

It is used for representing infinite data structures in Python. I came upon this notation while playing around with lists.

See this question for more info.

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Different things.This question asks about the ellipsis built-in type and the Ellipsis object. Representing infinite data structures with ellipses is purely for display, having nothing to do with ellipsis type or Ellipsis object. – chys Feb 27 '14 at 6:34
@chys Actually, it does in a small way - Python __repr__ strings aim to be valid Python expressions - if it wasn't for ellipsis existing in the language as it does, the representation wouldn't be a valid expression. – Latty Aug 1 '14 at 15:44
@Lattyware Well, it's true the original design so intends. It also intends eval(repr(a)) aim to be equal to a. Unfortunately it's false from time to time in practice, even for built-in types. Try this out: a=[]; a.append(a); eval(repr(a)). repr(a) is [[...]], invalid expression in Python 2. (In Python 3 it's valid, but the eval result is something different, still contrary to the original intention.) – chys Aug 4 '14 at 5:07

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