I'm not exactly sure what you want the type of `actuals`

to be, but let's assume it's `[Either String (Maybe Bool)]`

. In that case, let's start with

```
actuals = zipWith (\ew a -> undefined) wffs assignments
```

where `ew`

is an `Either String Wff`

and `a`

is an `Assignment`

. What should the body of our function be? Somehow, we need to lift `eval`

into the `Either`

. If the Assignment were in `Either`

as well, we could write `liftM2 eval a ew`

- but it's not. So, we can either use a `return a`

here, or apply `eval`

to its `Assignment`

argument first with `flip`

, and then lift it (or many other possibilities):

```
actuals = zipWith (\ew a -> liftM (flip eval a) ew) wffs assignments
```

Optionally, let's golf further:

```
actuals = zipWith (\ew -> flip liftM ew . flip eval) wffs assignments
```

In my opinion, neither is as clear as

```
\ew a -> eval <$> ew <*> return a
```

where `<$>`

is another name for `liftM`

from `Control.Applicative`

. You can learn more about `<$>`

and `<*>`

in, e.g., "Learn you a Haskell", but basically `f <$> ma <*> mb <*> ... <*> mn`

(equivalently `liftMn f ma mb ... mn`

for small enough `n`

) is the monadic (actually, `applicative`

) version of `f a ... n`

.

At this point you could extract all the failures or whatever. I wonder if the presence of the `Maybe`

and the `Either`

is a sign you could simplify your types slightly. For instance, if your `eval`

could fail to evaluate a Wff, you could use an `Either`

instead of `Maybe`

to record the error. Then, errors will be caught at the step in which they occur, and successes will propagate in the usual way of the `Either`

monad:

```
-- eval :: Wff -> Assignment -> Either String Bool
actuals :: [Either String Bool]
actuals = zipWith (\ew a -> ew >>= flip eval a) wffs assignments
```

See also the `errors`

package, which provides - among its many salutatory features - some helpful combinators to go between `Either`

and `Maybe`

.

I didn't solve the problem in the way you proposed, which was to map over the first list before zipping. But you can do that too, of course:

```
actuals = zipWith (\ef a -> liftM ($ a) ef) (mapLift eval wffs) assignments
```

Here `liftM ($ a)`

is a mildly clever alternative to `ef <*> return a`

.

This seems a bit noisier - `zipWith`

is already a sort of map, a fact you may as well take advantage of.

EDIT in response to OP's edits: If you want `actuals :: [[Assignment]]`

then the needed changes are simple:

```
actuals :: [Either String (Maybe Bool)]
actuals =
concat $ zipWith (\ew -> map (liftA2 eval ew . return)) wffs assignments
```

The idea here is I again started with something of the form `concat $ zipWith f wffs assignments`

for unknown `f`

(the `concat`

is because the `[[]]`

type needs to be flattened somehow ... if you forgot it, the types wouldn't quite match), and then queried the compiler for the type of `f`

(via writing `where f :: (); f = undefined`

and examining the resulting error message), then wrote the appropriate function, then eta-reduced (golfed). GHC 7.8 will have type holes, allowing you to get the type of an undefined, still-to-be written expression, enabling a much more elegant way of Type-Driven Development (TDD) than is possible today (except in, e.g., Agda).

Adapting this to use list comprehensions and to have type `[Either String Bool]`

, as per my original post, is left as a useful exercise :)

`Assignment`

and`Assignments`

supposed to be the same? – Fixnum Oct 8 '13 at 18:19