I have tried combining the sclv's solution with luqui's comment about `unamb`

and would like to share my results. I'll start with the test cases:

```
list1 = [True, True, undefined, True, undefined]
list2 = [undefined, False, False]
list3 = concat $ replicate 500 list1
list4 = concat $ replicate 500 list2
main = mapM (print . vote) [list1, list2, list3, list4]
vote :: [Bool] -> Bool
```

This should print

```
True
False
True
False
```

I'll start with the `list1`

example first. The voting function to pass it can look like this:

```
voteByTrue list = sum (map bToNat list) >= threshold
where
threshold = (genericLength list + 1) `quot` 2
```

This is the same as in sclv's answer. Now we need to make `sum`

lazier so that the computation does not abort upon encountering an `undefined`

summand. My first take on this was:

```
Zero |+ y = y
Succ x |+ y = Succ (x + y)
instance Num Nat where
x + y = (x |+ y) `lub` (y |+ x)
```

Here, `|+`

is the addition operator strict in its first argument and `+`

is non-strict in both of its arguments. It worked for toy examples, like `list1`

, but the performance of this solution deteriorates very quickly because of the exponential blow-up of the number of threads (see how each `+`

spawns 2 threads, each of which calls `+`

again, usually with the same arguments). With such performance, `vote list3`

does not terminate quickly enough. To fight this, I have tried violating the `unamb`

's contract and implemented the following function:

```
-- | The same as unamb, but does not have the
-- 'agree unless bottom' precondition.
brokenUnamb = unamb
infoMinMax a b = (x, y)
where
~(x, y) = (a `seq` (b, a)) `brokenUnamb` (b `seq` (a, b))
```

This function sorts its two arguments by the amount of information they hold. It always returns less evaluated value as the `x`

and more evaluated value as the `y`

. This breaks purity by violating the condition of `unamb`

arguments to be equal. However, it allows us to implement `+`

more efficiently:

```
instance Num Nat where
x + y = x' |+ y' where (y', x') = infoMinMax x y
```

This allows us to pass the large test (`list3`

)! Now, to the false-tests... It turned out that `infoMinMax`

function is useful here as well!

```
vote list = voteByTrue list `maxInfo` voteByFalse list
where
voteByFalse = not . voteByTrue . map not
maxInfo x y = snd (infoMinMax x y)
```

Now, this allows the program to pass all four tests, albeit the large ones take several seconds to complete. The CPU usage skyrockets to 200% if I replace `undefined`

with `odd (sum [1..])`

too, so some parallelism is indeed happening.

However, the problem of broken purity remains. Can someone suggest a solution where simple `unamb`

is enough?