[Haskell-cafe] Type parametrized modules (was Strong duck typing)
bugfact at gmail.com
Sat Sep 26 11:40:53 EDT 2009
Thanks a lot for the answers.
Another feature I really miss is type parameterized modules.
For example, suppose I have a module that defines simple geometry / linear
algebra math, with types like Vector a, Matrix a, Point a, Size a, Rectangle
Usually when you import such a module, you will be picking one particular
type for "a" across the whole module or even program, e.g. Double, Float,
I see such a type more like a "module global type", so instead of writing
import qualified MyGeometry (Vector, Matrix, Point, Size, Rectangle) as G
type Vector = G.Vector Float
type Matrix = G.Matrix Float
type Point = G.Point Float
I would like to write
import (MyGeometry Float)
module (MyGame real)
import (MyGeometry real)
and then I can just use Vector, Matrix, etc, without specifying the type. So
it's as if (MyGeometry Float) performs a "partial type application", just
like ((+) 1) does "partial value application"
However, when writing
one would have to use the parametrized version of Vector etc again.
I'm not sure if this makes any sense, or if it is even worth considering :-)
On Sat, Sep 26, 2009 at 6:30 AM, Sebastian Sylvan <
sebastian.sylvan at gmail.com> wrote:
> On Fri, Sep 25, 2009 at 10:55 PM, Casey Hawthorne <caseyh at istar.ca> wrote:
>> On Fri, 25 Sep 2009 23:25:21 +0200, you wrote:
>> >On Fri, Sep 25, 2009 at 8:14 PM, Job Vranish <jvranish at gmail.com> wrote:
>> >> Supposedly OCaml has an OO feature that does this but I haven't tried
>> >> out.
>> >Indeed, OCaml has stuctural polymorphism, it's a wonderful feature.
>> >*# let f myobj = myobj#foo "Hi !";;
>> >val f : < foo : string -> 'a; .. > -> 'a = <fun>*
>> >IIRC, there has been work on Template Haskell for structural
>> Structural subtyping/polymorphism:
>> - an object can be coerced to any compatible type, the types do not
>> have to be specified ahead of time, that is at compile time.
>> - may be overly permissive; some coercions might not make sense
>> I wonder how Haskell will minimize the cons, since it is strongly
> I kind of think there's no real problem here. If you say that you can
> accept any record with a given set of fields, then you have to make sure you
> make no other assumptions. This is, in principle, no different from passing
> a speed Double to a function that expects a mass Double (e.g. it may produce
> garbage for negative values). In both cases a function that requires extra
> invariants can enforce it by using a newtype that's constructed and
> manipulated in a way which preserves the extra semantic rules.
> Sebastian Sylvan
> Haskell-Cafe mailing list
> Haskell-Cafe at haskell.org
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