`sum`

adds a sequence together using the `+`

operator. e.g `sum([1,2,3]) == 6`

. The 2nd parameter is an optional start value which defaults to 0. e.g. `sum([1,2,3], 10) == 16`

.

In your example it does `[] + [1,2] + [3,4]`

where `+`

on 2 lists concatenates them together. Therefore the result is `[1,2,3,4]`

The empty list is required as the 2nd paramter to `sum`

because, as mentioned above, the default is for `sum`

to add to 0 (i.e. `0 + [1,2] + [3,4]`

) which would result in *unsupported operand type(s) for +: 'int' and 'list'*

This is the relevant section of the help for `sum`

:

sum(sequence[, start]) -> value

Returns the sum of a sequence of
numbers (NOT strings) plus the value
of parameter 'start' (which defaults
to 0).

**Note**

As wallacoloo comented this is **not** a general solution for flattening any multi dimensional list. It just works for a list of 1D lists due to the behavior described above.

**Update**

For a way to flatten 1 level of nesting see this recipe from the itertools page:

```
def flatten(listOfLists):
"Flatten one level of nesting"
return chain.from_iterable(listOfLists)
```

To flatten more deeply nested lists (including irregularly nested lists) see the accepted answer to this question (there are also some other questions linked to from that question itself.)

Note that the recipe returns an `itertools.chain`

object (which is iterable) and the other question's answer returns a `generator`

object so you need to wrap either of these in a call to `list`

if you want the full list rather than iterating over it. e.g. `list(flatten(my_list_of_lists))`

.

anymultidimensional list to 1D.`[[[1,2]], [[3,4]]]`

becomes`[[1, 2], [3, 4]]`

. – Ponkadoodle Jun 2 '10 at 22:32anysequence to 1D, since it is trivial to make sequences with a truly infinite number of dimensions:`a = []; a.append(a)`

. – badp Jun 2 '10 at 22:37