Re: Proposal: Move primitive-Data.Primitive.Addr API into base

29 Oct 2018


      You mean Nothing and (Just 0) have actually different sizes? That's so
weird for a former C++ programmer.

2018년 10월 30일 (화) 09:35, Carter Schonwald 님이 작성:
...
@danny... storable is only for fixed size pinned memory values
On Mon, Oct 29, 2018 at 8:31 PM Dannyu NDos  wrote:
...
It is Storable that makes Ptr operate as typed pointers. I also think Ptr
on its own doesn't have that much about its argument type, so I'm +1 on the
proposal.
Btw, shouldn't every type be storable? In current Haskell, Maybes or
(->)s aren't Storable, yet in C++, arrays of std::optionals or
std::functions are well-defined.
As an exception, for Void, I agree that they must remain not Storable
since it has no values.
2018년 10월 30일 (화) 08:31, Carter Schonwald 님이
작성:
...
the parametricity isn't for when you know things, its for saying "these
are possibly different or possibly the same, dont let me mix them up
though, cause I dont know yet"
On Mon, Oct 29, 2018 at 7:03 PM Daniel Cartwright 
wrote:
...
I'm not sure that argument applies at all, when talking about
_incorrect_ usages of Ptr. Sure, Addr probably shouldn't be used when there
is meaningful type information/value to recover, but neither should Ptr be
used when there is none.
The argument being made is not to make 'better', per se, and there
definitely won't be a 'mathematical statement' about this, but it certainly
may be made clearer - in my opinion, the usages of 'Ptr' that i've already
brought up are inherently unclear because of the bogus phantom type
associated with 'Ptr'. The illustration of this begs no code that doesn't
already exist in corelibs.
On Mon, Oct 29, 2018 at 6:19 PM Carter Schonwald <
carter.schonwald@gmail.com> wrote:
...
to zoom out: what code is improved? what code is made better/clearer?
No one has articulated this clearly.
The one example of Addr being used in Vector.Storable.Mutable is not
an argument in favor of using Addr. Its an argument against it existing.
i'm looking for evidence, in the form of code i can look at then say
"yes, this is better code" when comparing the two. Or a mathematical
statement of "what is made better"
@David Feuer  , @Daniel , do you have one?
when i'm writing complicated code, MORE polymorphism helps me usually.
I can write some code like the following and even though I'm using it
with Int at argument,
I *Know* that i'm not mixing up arguments/values that i write as
different types. I cannot do this with Address!
(the type / function below can be found at
https://github.com/wellposed/numerical/blob/3a0bbf50bc6ce0b710aee755f5a4bfce...
)
{-# SPECIALIZE INLINE computeStarts :: [(Int,Int)]->Int->Int
->[(Int,Int)] #-}
computeStarts:: (Enum a, Ord a, Num b )=>[(a,b)]-> a -> a -> [(a,b)]
parametricity (even when constrained by type classes) is a powerful
and foundational tool for good programming in haskell and similar languages
there has been nothing stated here that successfully articulates a
good reason to forgo/discourage parametricity as an engineering tool. for
thats what Addr is.
A datatype thats never safe in isolation, and discourages using
parametricity to write correct software.
a very strong case is needed to forgo parametricity.
On Mon, Oct 29, 2018 at 5:33 PM David Feuer 
wrote:
...
Good point! Call it nominal then.
On Mon, Oct 29, 2018, 5:24 PM Carter Schonwald <
carter.schonwald@gmail.com> wrote:
> absolutely false, represeentational equality of the  type a in `Ptr
> a` does not mean the memory representation at the corresponding address is
> the same.
> (it sometimes is true, but memory packing/alignment details in
> structs in C  for otherwise equivlanet structs should rule this out)
>
> aka, `a` being representationally equal to `b` via haskell newtypes
> does not mean the memory representation at `Ptr a`, and `Ptr b` are the
> same. a trivial example is when
> host and network byte order aren't the same (eg big vs little endian
> memory encodings)
>
> On Mon, Oct 29, 2018 at 12:28 PM David Feuer 
> wrote:
>
>> What? Of course you can dereference it. You dereference it, getting
>> a
>> value of type `Void`,
>> and apply absurd to get whatever you want in the world. This, of
>> course, is utter nonsense,
>> unless *having* the Ptr Void means that something has already gone
>> wrong. It's pretty
>> hard for me to imagine a situation where this is actually what you
>> want. A Ptr () isn't nonsense.
>> It is not terrible to use Ptr () to represent an Addr, but I wonder
>> if
>> it sends the wrong message.
>> By the way: there's another argument for having Addr in base for
>> now.
>> We would really
>> *like* for Ptr's parameter to have a *representational* role, but we
>> *don't* want to require
>> unsafeCoerce to cast Ptrs. The solution to that in the current role
>> system:
>>
>>     data Addr = Addr Addr#
>>
>>     newtype Ptr a = Ptr_ Addr
>>     type role Ptr representational
>>
>>     pattern Ptr :: Addr# -> Ptr a
>>     pattern Ptr addr# = Ptr_ (Addr addr#)
>>
>>     -- Allow users to reveal coercibility of pointer types locally
>>     ptrCoercion :: Coercion (Ptr a) (Ptr b)
>>     ptrCoercion = Coercion
>>
>>     castPtr :: Ptr a -> Ptr b
>>     castPtr = coerceWith ptrCoercion -- (or the now-free
>> unwrap-rewrap
>> definition)
>>
>>
>> So even if we don't *expose* Addr in base, we should almost
>> certainly *define*
>> it there.
>> On Mon, Oct 29, 2018 at 12:11 PM Carter Schonwald
>>  wrote:
>> >
>> > The point , hahah, of a Ptr void is that you can’t dereference
>> it.  But you certainly can cast it and do address arithmetic on it!!
>> >
>> >
>> >
>> > On Mon, Oct 29, 2018 at 10:10 AM David Feuer <
>> david.feuer@gmail.com> wrote:
>> >>
>> >> On Mon, Oct 29, 2018, 10:05 AM Sven Panne 
>> wrote:
>> >>>
>> >>> Am Mo., 29. Okt. 2018 um 14:27 Uhr schrieb Daniel Cartwright <
>> chessai1996@gmail.com>:
>> >>>>
>> >>>> 'Ptr Void' is not a pointer to a value of type 'Void'; there
>> are no values of type 'Void': this type is nonsensical.
>> >>>
>> >>>
>> >>> That's the whole point, and it actually makes sense: If you see
>> "Ptr Void", you can't do much with it, apart from passing it around or
>> using castPtr on it. This is exactly what should be achieved by using "Ptr
>> Void" in an API. This is basically the same as "void *" in C/C++.
>> >>
>> >>
>> >> No, it does not make sense. The approximate equivalent of C's
>> void* is Ptr Any. Ptr Void promises to give you anything you want on
>> dereference, which is nonsense.
>> >>
>> >>>
>> >>> You can't store or read "()", so the same holds as for Void
>> (which didn't exist when the FFI was created IIRC).
>> >>
>> >>
>> >> Sure you can. Storing () does nothing and reading it gives ().
>> Our () is somewhat similar to C's void return type.
>> >> _______________________________________________
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>>
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