TestEquality for references

Wed Dec 5 05:22:07 UTC 2018

I could live with that solution pretty well. Getting the default
implementation would be a very nice bonus, as in most cases it is quite
repetitive.

Observation: In the second scenario is it really that exporting Coercion
actually dangerous?

Not in the sense that we should revisit the stance, but rather it seems
that the things it exports that can actually use Coercible to coerce that
are the problem point.

Without coerce or coerceWith, everything in Data.Type.Coercion seems
perfectly Trustworthy.

We should just be able to split off the Trustworthy parts of
Data.Type.Coercion via an Internal module and use them to put the
superclass in place. Even gcoerceWith requires you to have access to coerce
to do anything with it other than manipulate Coercible instances.

The whole module is currently unsafe because of *one* combinator in it.

GHC is even smart enough that you don't need `coerce` to implement sym,
trans, etc. so `coerce` and `coerceWith` aren't even used when implementing
the instances.

-Edward

On Tue, Dec 4, 2018 at 9:08 PM Zemyla <zemyla at gmail.com> wrote:

> I thought of this, but the problem is that Data.Type.Equality is
> Trustworthy, while Data.Type.Coercion is unsafe. Therefore, you can't
> define the superclass in a Safe module.
>
> The solution to this would be to have Data.Type.Equality export
> TestCoercion but not testCoercion, and have a a default implementation
> (with DefaultSignatures) that requires TestEquality and just turns the
> equality into a coercion.
>
> Another option is to include testCoercion, but not Coercion, and use the
> fact that Coercion is a Category here:
>
> toId :: Category p => (a :~: b) -> p a b
> toId Refl = id
>
> And then testCoercion a b = fmap toId $ testEquality a b
>
> On Tue, Dec 4, 2018, 19:50 Edward Kmett <ekmett at gmail.com wrote:
>
>> You actually would need both types for full generality. Both provide
>> useful power under different circumstances.
>>
>> Another thing I noticed when working on this is that TestEquality is
>> missing TestCoercion as a superclass at present. This means you can't use
>> the latter as merely a weaker TestEquality constraint, but have to plumb
>> both independently. This feels wrong. Everything that can support
>> TestEquality should be able to support TestCoercion.
>>
>> I do at least want the TestCoercion instances.
>>
>> -Edward
>>
>> On Tue, Dec 4, 2018 at 7:46 AM Andrew Martin <andrew.thaddeus at gmail.com>
>> wrote:
>>
>>> Given that each comes at the cost of the other, if I had to choose
>>> between which of these two STRef features I could have, I would pick being
>>> able to use it to recover equality over being able to lift newtype
>>> coercions through it. The former is increases expressivity while the latter
>>> accomplishes something that is achievable by simply using less newtypes in
>>> APIs where the need for this arises (not that I've ever actually needed to
>>> coerce an STRef in this way, but it would be interesting to hear from
>>> anyone who has needed this).
>>>
>>> On Tue, Dec 4, 2018 at 12:26 AM Edward Kmett <ekmett at gmail.com> wrote:
>>>
>>>> Mostly because it means I wind up needing another construction to make
>>>> it all go and can't just kick it all upstream. ;)
>>>>
>>>> -Edward
>>>>
>>>> On Mon, Dec 3, 2018 at 10:11 PM Richard Eisenberg <rae at cs.brynmawr.edu>
>>>> wrote:
>>>>
>>>>> Why is it unfortunate? This looks like desired behavior to me. That
>>>>> is: I think these reference types should allow coercions between
>>>>> representationally equal types. Of course, that means that TestEquality is
>>>>> out.
>>>>>
>>>>> Richard
>>>>>
>>>>> On Dec 2, 2018, at 5:04 PM, Edward Kmett <ekmett at gmail.com> wrote:
>>>>>
>>>>> On Sun, Dec 2, 2018 at 7:55 PM David Feuer <david.feuer at gmail.com>
>>>>> wrote:
>>>>>
>>>>>> Unfortunately, testEquality for STRef is not at all safe, for reasons
>>>>>> we've previously discussed in another context.
>>>>>>
>>>>>>     testEquality :: STRef s a -> STRef s b -> Maybe (a :~: b)
>>>>>>
>>>>>>   let x = [1, 2]
>>>>>>   foo :: STRef s [Int] <- newSTRef x
>>>>>>   let bar :: STRef s (ZipList Int) = coerce foo
>>>>>>   case testEquality foo bar of UH-OH
>>>>>>
>>>>>> I suspect testCoercion actually will work here.
>>>>>>
>>>>>> You could patch up the problem by giving STRef (and perhaps MutVar#)
>>>>>> a stricter role signature:
>>>>>>
>>>>>> type role STRef nominal nominal
>>>>>>
>>>>>> That might not break enough code to worry about; I'm not sure.
>>>>>>
>>>>>
>>>>> That is rather unfortunate, as it means most if not all of these would
>>>>> be limited to TestCoercion.
>>>>>
>>>>> -Edward
>>>>>
>>>>>
>>>>>
>>>>>> On Sun, Dec 2, 2018, 7:16 PM Edward Kmett <ekmett at gmail.com wrote:
>>>>>>
>>>>>>> I'd like to propose adding a bunch of instances for TestEquality and
>>>>>>> TestCoercion to base and primitive types such as: IORef, STRef s, MVar as
>>>>>>> well as MutVar and any appropriately uncoercible array types we have in
>>>>>>> primitive.
>>>>>>>
>>>>>>> With these you can learn about the equality of the types of elements
>>>>>>> of an STRef when you go to
>>>>>>>
>>>>>>>      testEquality :: STRef s a -> STRef s b -> Maybe (a :~: b)
>>>>>>>
>>>>>>> I've been using an ad hoc versions of this on my own for some time,
>>>>>>> across a wide array of packages, based on Atze van der Ploeg's paper:
>>>>>>> https://dl.acm.org/citation.cfm?id=2976008 and currently I get by
>>>>>>> by unsafeCoercing reallyUnsafePointerEquality# and unsafeCoercing the
>>>>>>> witness that I get back in turn. =/
>>>>>>>
>>>>>>> With this the notion of a "Key" introduced there can be safely
>>>>>>> modeled with an STRef s (Proxy a).
>>>>>>>
>>>>>>> This would make it {-# LANGUAGE Safe #-} for users to construct
>>>>>>> heterogeneous container types that don't need Typeable information about
>>>>>>> the values.
>>>>>>>
>>>>>>> Implementation wise, these can either use the value equality of
>>>>>>> those underlying primitive types and then produce a witness either by
>>>>>>> unsafeCoerce, or by adding new stronger primitives in ghc-prim to produce
>>>>>>> the witness in a type-safe manner, giving us well typed core all the way
>>>>>>> down.
>>>>>>>
>>>>>>> -Edward
>>>>>>> _______________________________________________
>>>>>>> Libraries mailing list
>>>>>>> Libraries at haskell.org
>>>>>>> http://mail.haskell.org/cgi-bin/mailman/listinfo/libraries
>>>>>>
>>>>>>
>>>>> _______________________________________________
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>>>>
>>>
>>>
>>> --
>>> -Andrew Thaddeus Martin
>>>
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