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Let's say I have some fairly simple data type Person with a couple of fields, and a type that holds a collection of Persons.

data Person = Person { _name :: String, _age  :: Int }

data ProgramState = PS { _dict :: IntMap Person }

makeLenses ''Person
makeLenses ''ProgramState

I want to create a lens that allows me to access individual people by looking up their key

person :: Int -> Lens' ProgramState Person

It seems my two options for doing this are to use at or ix to index into the dictionary

-- Option 1, using 'at'
person :: Int -> Lens' ProgramState (Maybe Person)
person key = dict . at key

-- Option 2, using 'ix'
person :: Int -> Traversal' ProgramState Person
person key = dict . ix key

but neither of these options lets me do what I want, which is to have a Lens' that accesses a Person rather than a Maybe Person. Option 1 doesn't compose nicely with other lenses, and option 2 means that I have to give up my getters.

I understand why ix and at are written like this. The key might not exist in the dict, so if you want a Lens' which enables both getters and setters, it must access a Maybe a. The alternative is to accept a Traversal' which gives access to 0 or 1 values, but that means giving up your getters. But in my case, I know that the element I want will always be present, so I don't need to worry about missing keys.

Is there a way to write what I want to write - or should I be rethinking the structure of my program?

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2 Answers 2

up vote 4 down vote accepted

You probably want to use at together with the non isomorphism. You can specify a default map entry with it to get rid of the Maybe of the lookup.

non :: Eq a => a -> Iso' (Maybe a) a

person key = dict . at key . non defaultEntry

-- can get and set just like plain lenses
someProgramState & dict . at someKey . non defaultEntry .~ somePerson

You can look at more examples in the docs.

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Based on András Kovács answer I ended up defining an unsafeFromJust lens that witnesses the 'isomorphism' I require to compose these lenses

import Data.Maybe (fromJust)

unsafeFromJust :: Lens' (Maybe a) a
unsafeFromJust = lens fromJust setJust
  setJust (Just _) b = Just a
  setJust Nothing  _ = error "setJust: Nothing"

An alternative definition is

unsafeFromJust :: Lens' (Maybe a) a
unsafeFromJust = anon (error "unsafeFromJust: Nothing") (\_ -> False)

but I felt that wasn't as clear as the first form. I didn't use non as that requires an Eq instance that is unnecessary in this case.

I can now write

person :: Lens' ProgramState Person
person key = dict . at key . unsafeFromJust
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