id,summary,reporter,owner,description,type,status,priority,milestone,component,version,resolution,keywords,cc,os,architecture,failure,testcase,blockedby,blocking,related,differential,wikipage
7080,Make RULES and SPECIALISE more consistent,simonpj,,"This [http://www.haskell.org/pipermail/glasgow-haskell-users/2012-July/022580.html glasgow-haskell-users email thread] describes the inconsistency between RULES and SPECIALISE pragmas. Consider
{{{
module Test where
import Data.Monoid
import Control.Monad.Writer.Strict
f :: Monad m => a -> m a
f = return
g :: Monoid w => a -> Writer w a
g = return
{-# RULES ""f->g"" f = g #-}
{-# SPECIALISE f :: Monoid w => a -> Writer w a #-}
}}}
Here, the SPECIALISE pragma is accepted, but the RULE is rejected thus:
{{{
Could not deduce (Monoid w) arising from a use of `g'
from the context (Monad (WriterT w Identity))
bound by the RULE ""f->g"" at Foo.hs:14:3-14
Possible fix: add (Monoid w) to the context of the RULE ""f->g""
In the expression: g
When checking the transformation rule ""f->g""
}}}
Rejecting the RULE is quite right. On the LHS you have an application
{{{
f (WriterT w Identity) d
where d :: Monad (WriterT w Identity)
}}}
Recall that `Writer w = WriterT w Identity`. For the rewrite to work you have to rewrite this to
{{{
g w d'
where
d' :: Monoid w
}}}
Well, how can you get a `Monoid w` dictionary from a `Monad (WriterT w Identity)`?
I was surprised that the SPECIALISE pragma worked, but here's what it does (you can see with -ddump-rules):
{{{
==================== Tidy Core rules ==================== ""SPEC Foo.f"" [ALWAYS]
forall (@ a) (@ w) ($dMonoid :: Data.Monoid.Monoid w).
Foo.f @ a
@ (Control.Monad.Trans.Writer.Strict.WriterT
w Data.Functor.Identity.Identity)
(Control.Monad.Trans.Writer.Strict.$fMonadWriterT
@ w
@ Data.Functor.Identity.Identity
$dMonoid
Data.Functor.Identity.$fMonadIdentity)
= Foo.f_f @ a @ w $dMonoid
}}}
Ah! This rule will only match if the LHS is exactly
{{{
f (WriterT w Identity) ($fMonadWriterT w Identity dm $fMonadIdentity)
}}}
So it's a nested pattern match. That makes the LHS match less often; namely only when the dictionary argument to `f` is an application of `$fMonadWriterT`, the function that arises from the instance decl
{{{
instance (Monoid w, Monad m) => Monad (WriterT w m) where
}}}
In exchange for matching less often, we now do get access to the `(Monoid w)` argument.
It is odd that this is inconsistent. Here is why. For a RULE, we must have a way to rewrite the LHS to an arbitrarily complicated RHS. For a SPECIALISE pragma
{{{
SPECIALISE f :: spec_ty
where f's type is
f :: poly_ty
}}}
we simply ask whether `poly_ty` is more polymorphic than `spec_ty`; that is, whether `f` can appear in a context requiring a value of type `spec_ty`. If so, we see what arguments `f` would need to do that, and that's the LHS pattern.
But
* It's odd that the behaviour is inconsistent
* The SPECIALISE rule is pretty fragile, beause it'll only match if the argument dictionary is constructed exactly as shown.
It's not clear to me what, if anything, to do about this, but this ticket records the issue.
",bug,new,normal,⊥,Compiler,7.4.2,,Specialise,tkn.akio@…,Unknown/Multiple,Unknown/Multiple,Runtime performance bug,,,,,,