# What does the comma in this assignment statement do?

I was looking through an interesting example script I found (at this site, last example line 124), and I'm struggling to understand what the comma after `particles` achieves in this line:

``````particles, = ax.plot([], [], 'bo', ms=6)
``````

The script will hit an error if the comma is omitted, but the syntax (which seems to resemble an unpacking statement) does not make much sense to me, and a statement like

``````a, = [2,3]
``````

fails, which seems like an argument against the unpacking theory.

Any insight would be greatly appreciated.

-
`a, = [2]` works, you just need to make sure the RHS is a single item sequence –  gnibbler Feb 27 '13 at 3:48
The "unpacking theory" is not failed. See my answer below saying that `a, _ = [2, 3]` works. –  rbrito Feb 27 '13 at 4:09

It is needed to unpack the 1-tuple (or any other length-1 sequence). Example:

``````>>> a,b = (1,2)
>>> print a
1
>>> print b
2
>>> c, = (3,)
>>> print c
3
>>> d = (4,)
>>> print d
(4,)
``````

Notice the difference between c and d.

Note that:

``````a, = (1,2)
``````

fails because you need the same number of items on the left side as the iterable on the right contains. Python 3.x alleviates this somewhat:

``````Python 3.2.3 (v3.2.3:3d0686d90f55, Apr 10 2012, 11:09:56)
[GCC 4.0.1 (Apple Inc. build 5493)] on darwin
>>> a,*rest = (1,2,3)
>>> a
1
>>> rest
[2, 3]
``````
-
I try to unpack a tuple `p, = (1,2)` and I get the "ValueError: too many values to unpack", so your answer does not make sense. Please elaborate. –  Serdalis Feb 27 '13 at 3:49
it certainly does. `p, = ` expects to have a single value to unpack, as I now understand, but you have provided 2 values. Thanks @mgilson. –  TheONP Feb 27 '13 at 3:51
@Serdalis -- to unpack a tuple, you need to have the same number of elements on the left as the tuple contains. (until python3 when the `a,*rest = tup` syntax was invented). –  mgilson Feb 27 '13 at 3:51
@mgilson quite true, but your answer was so ambiguous it appeared to say that you can unpack any tuple with that notation, but you have fixed it, +1 from me. –  Serdalis Feb 27 '13 at 3:58
@Serdalis, otherwise, you could just use regular slicing/indexing on the tuple. –  rbrito Feb 27 '13 at 4:12

Have a look at what `plot` call returns. In your case it's a list with one element:

``````>>> import matplotlib.pyplot as plt
>>> ax = plt.gca()
>>> ax.plot([], [], 'bo', ms=6)
[<matplotlib.lines.Line2D object at 0x353d6d0>]
``````

Now it would more useful in this case to have a handle on the actual Line2D object, using unpacking with `h, = ax.plot(...)` rather than a spurious container around it as you would get with

`h = ax.plot([], [], 'bo', ms=6)`

The latter would require you an extra step later on e.g.

``````h[0].set_data(...)
``````

Return value of plot is always a list, because sometimes it needs to return more than one line object. It makes more sense to return even single lines inside a list, so that client code doesn't have to handle each case in a different way.

The reason your unpacking `a, = [2,3]` fails is that there are 2 things to unpack on the right side, and only one variable. You would need to use `a,b = [2,3]` to unpack that.

-

For the sake of being educational, I will make this a bit long.

In Python, tuples are delimited with parentheses, e.g.: `(1, 2, 3)`.

Unfortunately, a tuple consisting of just a single element like `1` would be ambiguous (from a parsing point of view) if specified as simply `(1)`, since that could mean the integer one inside parentheses in the middle of an expression.

To overcome that, you can specify a tuple with just one element with the element just followed by a single comma, as in `(1,)`. (Just to make it clear, the comma is what makes it a tuple, not the parentheses, which we can omit when things are not ambiguous, and which is what I do below). That is unambiguously the tuple containing a sole single `1` as its element, as is illustrated in the following example:

``````>>> a = (1)
>>> a
1
>>> b = (1,)
>>> b
(1,)
>>> b[0]
1
>>> c, = b
>>> c
1
>>>
``````

What you mentioned is a way to "unpack" the tuple, that is, to access a specific element of the tuple. One alternative to the syntax that you used is to index the element in the tuple by a 0, like my `b[0]` in the example above.

For tuples with more than one element, you can unpack them just by specifying an attribution with the same number of elements that the tuple has:

``````>>> x, y = (1, 2)
>>> x
1
>>> y
2
``````

If you don't use the same number of elements when unpacking a tuple, you will get an exception being thrown:

``````>>> z, = (1, 2, 3)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: too many values to unpack
>>>
``````

In your "example" of why the unpacking theory "fails", you can simply use:

``````>>> a, _ = [2, 3]
>>> a
2
``````

Note the `_` there, which is a usual variable used in Python for the meaning of "we don't care".

As an addendum, note that in `a, _ = [2,3]`, you are implicitly creating a tuple, which is an immutable type, from a list, which is a mutable type. (Note that this "implicit" conversion is conceptual, as the Python interpreter may not generate a `BUILD_TUPLE` instruction in the bytecode). Note the subtleties in the following attributions:

``````>>> a, b = [2, 3]
>>> a
2
>>> b
3
>>> a, b
(2, 3)
>>> c, d = tuple([2, 3])
>>> c
2
>>> d
3
>>> e = [2, 3]
>>> type(e)
<type 'list'>
>>> type((a, b))
<type 'tuple'>
``````
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Actually, it's the comma which makes the tuple. Parens are only needed to avoid ambiguity. –  mgilson Feb 27 '13 at 3:56
@mgilson, yes, that is correct. –  rbrito Feb 27 '13 at 3:58
AFAIK, there is no tuple created implicitly here. If you inspect the bytecode, (using `dis.dis`), the instruction is simply: `UNPACK_SEQUENCE` and `STORE_FAST` (once for each object on the left hand side). –  mgilson Feb 27 '13 at 4:28
@mgilson, which code are you using in the case of a list? I do get `UNPACK_SEQUENCE` and `STORE_FAST` when I unpack from the tuple case (that is `a, b = [2, 3]`). –  rbrito Feb 27 '13 at 4:36
My point is that there is no `BUILD_TUPLE` bytecode in there (as there is if you do something like : `def foo(): a = (b,c)`). In other words, UNPACK_SEQUENCE does not create an implicit tuple. –  mgilson Feb 27 '13 at 4:41