# What does the built-in function sum do with sum(list, [])?

When I want to unfold a list, I found a way like below:

``````>>> a = [[1, 2], [3, 4], [5, 6]]
>>> a
[[1, 2], [3, 4], [5, 6]]
>>> sum(a, [])
[1, 2, 3, 4, 5, 6]
``````

I don't know what happened in these lines, and the documentation states:

`sum(iterable[, start])`

Sums `start` and the items of an `iterable` from left to right and returns the total. `start` defaults to `0`. The iterable's items are normally numbers, and the `start` value is not allowed to be a string.

For some use cases, there are good alternatives to `sum()`. The preferred, fast way to concatenate a sequence of strings is by calling `''.join(sequence)`. To add floating point values with extended precision, see `math.fsum()`. To concatenate a series of iterables, consider using `itertools.chain()`.

New in version 2.3.

Don't you think that start should be a number? Why can `[]` be written here?

``````(sum(a, []))
``````

Don't you think that start should be a number?

`start` is a number, by default; `0`, per the documentation you've quoted. Hence when you do e.g.:

``````sum((1, 2))
``````

it is evaluated as `0 + 1 + 2` and it equals `3` and everyone's happy. If you want to start from a different number, you can supply that instead:

``````>>> sum((1, 2), 3)
6
``````

So far, so good.

However, there are other things you can use `+` on, like lists:

``````>>> ['foo'] + ['bar']
['foo', 'bar']
``````

If you try to use `sum` for this, though, expecting the same result, you get a `TypeError`:

``````>>> sum((['foo'], ['bar']))

Traceback (most recent call last):
File "<pyshell#2>", line 1, in <module>
sum((['foo'], ['bar']))
TypeError: unsupported operand type(s) for +: 'int' and 'list'
``````

because it's now doing `0 + ['foo'] + ['bar']`.

To fix this, you can supply your own `start` as `[]`, so it becomes `[] + ['foo'] + ['bar']` and all is good again. So to answer:

Why `[]` can be written here?

because although `start` defaults to a number, it doesn't have to be one; other things can be added too, and that comes in handy for things exactly like what you're currently doing.

• `sum` is actually coded to reject strings. It gives the error `TypeError: sum() can't sum strings [use ''.join(seq) instead]` – interjay Nov 5 '15 at 10:27
• @interjay yep, just spotted that when editing the OP and fixed accordingly – jonrsharpe Nov 5 '15 at 10:28
• Thank you, I think that I have understood it. :-) – C_Y Nov 5 '15 at 10:32
• Watch out, though - this takes quadratic time! Since `sum` always uses `+`, if you try to use it for list concatenation, it'll build a new intermediate list for each intermediate concatenation, which takes a quadratic amount of copying. – user2357112 supports Monica Nov 5 '15 at 16:50
• @NeilG: The problem is that it still needs to reallocate on every `+`. Doubling the size doesn't save any reallocations unless you're allowed to operate in-place, and `sum` isn't allowed to operate in-place. One potential improvement would be to use `+` for the first addition and `+=` for subsequent additions, since it's probably okay to clobber the result of the first `+`. I'm not sure whether that'd cause issues, though, and I doubt such a change would have much support. You'd get weirdness like `sum([[], ()], [])` working and `sum([(), []], [])` failing. – user2357112 supports Monica Nov 10 '15 at 19:29

First of all, never use `sum` for concatenating/flattening lists because it's of quadratic time and hence not efficient at all compare to the other ways around. It actually uses a schlemiel the painter algorithm.

The `sum` function calls the `__add__` attribute of the `start` on each iteration with all the items of an iterable that's been passed as the first argument.

For example :

``````>>> [].__add__([2,3])
[2, 3]
#OR
>>> [] + [1,2,3]
[1, 2, 3]
``````

And in this case the result would be a concatenated list of your input lists. From an algorithmic perspective it does the followings:

``````>>> a = [[1, 2], [3, 4], [5, 6]]
>>> start = []
>>> for i in a:
...     start += i
...
>>> start
[1, 2, 3, 4, 5, 6]
``````

Not that you can call the `sum` function on any sequence of objects that have an `__add__` attribute, but note that since the default `start` argument is `0` if your object is not an integer it will raise an `TypeError`. In that case you need to specify a proper `start` for the function.

``````>>> class newObj(object):
...    def  __init__(self,val):
...         self.val = val
...        return '{}_____{}'.format(self.val,item)
...
>>>
>>> start=newObj('new_obj')
>>>
>>> start
<__main__.newObj object at 0x7f75f9241c50>
>>>
>>> start + 5
'new_obj_____5'
>>>
>>>
>>> sum(['1','2','3'],start)
'new_obj_____123'
``````
• Thank you, I think that I have understood it. :-) – C_Y Nov 5 '15 at 10:33

You sum the `start` with the contents of the iterable you provide as the first argument. `sum` doesn't restrict the `type` of `start` to an int in order to allow for various cases of adding.

Essentially sum does something like this:

``````a = [[1, 2], [3, 4], [5, 6]]
sum(a, number)
``````

Roughly translates to:

``````number += every value in the list a
``````

Since every value in the list `a` is a list this works and the previous summation, when expanded, looks like this:

``````number + [1, 2] + [3, 4] + [5, 6]
``````

So if you enter an `int` this will result in an unfortunate `TypeError` because adding an `int` and a `list` is not allowed.

``````1 + [1, 2] == I hope you like TypeErrors
``````

However, If you enter a list `[]` it is simply going to join the elements of `a` together and result in the flattened list we know and love.

The value of `start` defaults to `0` an `int` mainly because the most common case of summation is arithmetic.

• Thank you, I think that I have understood it. :-) – C_Y Nov 5 '15 at 10:36