Re: default roles

I just noticed there is a pretty big issue with the current default role where typeclasses are concerned! When implementing Data.Type.Coercion I had to use the fact that I could apply coerce to the arguments of data Coercion a b where Coercion :: Coercible a b => Coercion a b This makes sense as Coercion itself has two representational arguments. This struck me as quite clever, so I went to test it further. data Foo a where Foo :: Eq a => Foo a newtype Bar = Bar Int instance Eq Bar where _ == _ = False I fully expected the following to fail: coerce (Foo :: Foo Int) :: Foo Bar but instead it succeeded. This means I was able to convert a dictionary Eq Int into a dictionary for Eq Bar! This indicates that Eq (actually all) of the typeclasses are currently marked as having representational, when actually it strikes me that (almost?) none of them should be. Coercible is the only case I can think of in base of a class with two representational arguments, but this is only valid because we prevent users from defining Coercible instances manually. If I try again with a new typeclass that has an explicit nominal role type role Eq nominal class Eq a instance Eq Int instance Eq Bar then I get the failure to derive Coercible (Foo Int) (Foo Bar) that I'd expect. This indicates two big issues to me: 1.) At the very least the default role for type *classes* should be nominal for each argument. The very point of an instance is to make a nominal distinction after all. =) 2.) It also indicates that making any typeclass with a representational (/ phantom?) argument shouldn't be possible in valid SafeHaskell, as you can use it to subvert the current restrictions on OverlappingInstances. -Edward On Wed, Oct 9, 2013 at 12:07 PM, Iavor Diatchki wrote:

Hello,

My preference would be for the following design:

1. The default datatypes for roles are Nominal, but programmers can add annotations to relax this. 2. Generlized newtype deriving works as follows: we can coerce a dictionary for `C R` into `C T`, as long as we can coerce the types of all methods instantiated with `R`, into the corresponding types instantiated with `T`. In other words, we are pretending that we are implementing all methods by using `coerce`.

As far as I can see this safe, and matches what I'd expect as a programmer. It also solves the problem with the `Set` example: because `Set` has a nominal parameter, we cannot coerce `Set Int` into `Set MyAge` and, hence, we cannot derive an instance of `MyAge` for `HasSet`. An added benefit of this approach is that when newtype deriving fails, we can give a nicer error saying exactly which method causes the problem.

-Iavor

On Mon, Oct 7, 2013 at 6:26 AM, Richard Eisenberg wrote:

...

As you may have heard, /roles/ will be introduced with GHC 7.8. Roles are a mechanism to allow for safe 0-cost conversions between newtypes and their base types. GeneralizedNewtypeDeriving (GND) already did this for class instances, but in an unsafe way -- the feature has essentially been retrofitted to work with roles. This means that some uses of GND that appear to be unsafe will no longer work. See the wiki page [1] or slides from a recent presentation [2] for more info.

[1] : http://ghc.haskell.org/trac/ghc/wiki/Roles [2] : http://www.cis.upenn.edu/~eir/papers/2013/roles/roles-slides.pdf

I am writing because it's unclear what the *default* role should be -- that is, should GND be allowed by default? Examples follow, but the critical issue is this:

* If we allow GND by default anywhere it is type-safe, datatypes (even those that don't export constructors) will not be abstract by default. Library writers would have to use a role annotation everywhere they wish to declare a datatype they do not want users to be able to inspect. (Roles still keep type-*un*safe GND from happening.)

* If we disallow GND by default, then perhaps lots of current uses of GND will break. Library writers will have to explicitly declare when they wish to permit GND involving a datatype.

Which do we think is better?

Examples: The chief example demonstrating the problem is (a hypothetical implementation of) Set:

...

module Set (Set) where -- note: no constructors exported!

data Set a = MkSet [a] insert :: Ord a => a -> Set a -> Set a ...

...

{-# LANGUAGE GeneralizedNewtypeDeriving, StandaloneDeriving #-} module Client where

import Set

newtype Age = MkAge Int deriving Eq

instance Ord Age where (MkAge a) `compare` (MkAge b) = b `compare` a -- flip operands, reversing the order

class HasSet a where getSet :: Set a

instance HasSet Int where getSet = insert 2 (insert 5 empty)

deriving instance HasSet Age

good :: Set Int good = getSet

bad :: Set Age bad = getSet

According to the way GND works, `good` and `bad` will have the same runtime representation. But, using Set operations on `bad` would indeed be bad -- because the Ord instance for Age is different than that for Int, Set operations will fail unexpectedly on `bad`. The problem is that Set should really be abstract, but we've been able to break this abstraction with GND. Note that there is no type error in these operations, just wrong behavior.

...

type role Set nominal in the definition of the Set module to prevent the use of GND. (Why that

So, if we default to *no* GND, then the "deriving" line above would have an error and this problem wouldn't happen. If we default to *allowing* GND, then the writer of Set would have to include peculiar annotation? See the linked further reading, above.)

Although it doesn't figure in this example, a library writer who wishes to allow GND in the default-no scenario would need a similar annotation

...

type role Foo representational to allow it.

There are clearly reasons for and against either decision, but which is better? Let the users decide!

Discussion time: 2 weeks.

Thanks! Richard

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