If you look for the most efficient (12-25ms for 1M (1000x1000) in OTP20 on Intel(R) Core(TM) i5-7200U CPU @ 2.50GHz depending if you hit GC or not so about 30 CPU cycles per value, not bad for interpreted language huh) solution:

```
sum(L) ->
case sum(L, [], 0) of
{_, []} -> [];
{S, Ts} -> [S | sum(Ts)]
end.
sum([], Ts, Acc) -> {Acc, Ts};
sum([[H|T] | L], Ts, Acc) ->
sum(L, [T|Ts], H+Acc);
sum([_|L], Ts, Acc) ->
sum(L, Ts, Acc).
```

There is more elegant solution:

```
sum2([]) -> [];
sum2(L) ->
S = lists:sum([H || [H|_] <- L]),
case [T || [_|T] <- L] of
[] -> [];
Ts -> [S | sum2(Ts)]
end.
```

There is even more elegant but less forgiving solution (when above are pretty happy with inputs like `[[], [1,2], [3]]`

this one will raise the error exception)

```
sum3([]) -> [];
sum3([[]|_]) -> [];
sum3(L) ->
S = lists:sum([hd(X) || X <- L]),
Ts = [tl(X) || X <- L],
[S | sum3(Ts)].
```

fun version of `sum/1`

solution

```
fun(Keys, Values, ReReduce) ->
SumAndTail = fun
F([], Ts, Acc) -> {Acc, Ts};
F([[H|T] | L], Ts, Acc) ->
F(L, [T|Ts], H+Acc);
F([_|L], Ts, Acc) ->
F(L, Ts, Acc)
end,
Sum = fun G(L) ->
case SumAndTail(L, [], 0) of
{_, []} -> [];
{S, Ts} -> [S | G(Ts)]
end
end,
Sum(Values)
end.
```

Given the limitation and properties (`Values`

will never be empty for example) of CouchDB reduce function I would consider your solution with a little tweak as the most elegant

```
fun(Keys, Values, ReReduce) ->
lists:foldl(fun(V, A) ->
lists:zipwith(fun(X, Y) -> X+Y end, V, A)
end, hd(Values), tl(Values))
end.
```

**Edit**:

Actually, there is not the one most efficient solution. `sum/1`

above would be the most efficient for lists with long sublists like 1000 sublists with 1000 values as measured above. For much shorter sublists, the original approach seems much more appropriate. The difference is how much GC you perform due to intermediate data structures. If you have short sublists this solution will be much more efficient

```
sum5([]) -> [];
sum5([H|T]) ->
sum5(H, T).
sum5(Acc, []) -> Acc;
sum5(Acc, [H|T]) ->
sum5(sum5zip(Acc, H), T).
sum5zip([H1|T1], [H2|T2]) ->
[H1+H2|sum5zip(T1, T2)];
sum5zip([], L2) -> L2;
sum5zip(L1, []) -> L1.
```