I recently added an `alterF`

function to `Data.Map`

, which is a flipped form of `Control.Lens.At.at`

.

```
alterF :: (Ord k, Functor f)
=> (Maybe a -> f (Maybe a))
-> k
-> Map k a
-> f (Map k a)
```

`alterF`

is designed to be able to offer reasonable performance even for very "heavy" functors like `[]`

and even when the keys are fairly expensive to compare. Unfortunately, it's somewhat slower than one might wish in the more common case of a light-weight functor and cheap-to-compare keys.

To patch this up, I've added GHC rewrite rules for the `Const b`

and `Identity`

functors, rewriting them to simpler implementations that are usually faster. ~~I'm about to add yet another one, for ~~. `(,) b`

**I added one for (,) b and then removed it. See the update below.**

However, I'm a bit annoyed by the fact that I need a specific rule for `(,) b`

, because there are many other functors that follow the same pattern. In particular, any time a functor is defined

```
data F b1 b2 ... a = F e1 ... a ... e_n
```

where none of the `e_k`

mention `a`

, I should be able to rewrite it the same way. Is there some way to do this with GHC `RULES`

? Or will I have to wait for some more general rewriting system?

### Update

Sadly, I realized that my rewrite rule for pairs was invalid (it was too strict), and repairing that made it much less clearly beneficial. So I've scrapped that rule for now. I think the general question remains interesting, however.

`Data.Utils.BitQueue`

in that repo. I suspect the performance problems without rewrite tools are insurmountable, but you're welcome to try. – dfeuer May 23 '16 at 7:03`Coercible a b`

seems to be the only way to get whether a type is representational/phantom and convert to/from it. I have a somewhat working POC using`coerce`

. (I'll be checking the room all occasionally) – Michael Klein May 24 '16 at 17:33