1. 30 Jan, 2013 1 commit
  2. 09 Oct, 2012 1 commit
    • ian@well-typed.com's avatar
      Make the opt_UF_* static flags dynamic · 0a768bcb
      ian@well-typed.com authored
      I also removed the default values from the "Discounts and thresholds"
      note: most of them were no longer up-to-date.
      
      Along the way I added FloatSuffix to the argument parser, analogous to
      IntSuffix.
      0a768bcb
  3. 04 Nov, 2011 1 commit
  4. 02 Nov, 2011 1 commit
    • Simon Marlow's avatar
      Overhaul of infrastructure for profiling, coverage (HPC) and breakpoints · 7bb0447d
      Simon Marlow authored
      User visible changes
      ====================
      
      Profilng
      --------
      
      Flags renamed (the old ones are still accepted for now):
      
        OLD            NEW
        ---------      ------------
        -auto-all      -fprof-auto
        -auto          -fprof-exported
        -caf-all       -fprof-cafs
      
      New flags:
      
        -fprof-auto              Annotates all bindings (not just top-level
                                 ones) with SCCs
      
        -fprof-top               Annotates just top-level bindings with SCCs
      
        -fprof-exported          Annotates just exported bindings with SCCs
      
        -fprof-no-count-entries  Do not maintain entry counts when profiling
                                 (can make profiled code go faster; useful with
                                 heap profiling where entry counts are not used)
      
      Cost-centre stacks have a new semantics, which should in most cases
      result in more useful and intuitive profiles.  If you find this not to
      be the case, please let me know.  This is the area where I have been
      experimenting most, and the current solution is probably not the
      final version, however it does address all the outstanding bugs and
      seems to be better than GHC 7.2.
      
      Stack traces
      ------------
      
      +RTS -xc now gives more information.  If the exception originates from
      a CAF (as is common, because GHC tends to lift exceptions out to the
      top-level), then the RTS walks up the stack and reports the stack in
      the enclosing update frame(s).
      
      Result: +RTS -xc is much more useful now - but you still have to
      compile for profiling to get it.  I've played around a little with
      adding 'head []' to GHC itself, and +RTS -xc does pinpoint the problem
      quite accurately.
      
      I plan to add more facilities for stack tracing (e.g. in GHCi) in the
      future.
      
      Coverage (HPC)
      --------------
      
       * derived instances are now coloured yellow if they weren't used
       * likewise record field names
       * entry counts are more accurate (hpc --fun-entry-count)
       * tab width is now correct (markup was previously off in source with
         tabs)
      
      Internal changes
      ================
      
      In Core, the Note constructor has been replaced by
      
              Tick (Tickish b) (Expr b)
      
      which is used to represent all the kinds of source annotation we
      support: profiling SCCs, HPC ticks, and GHCi breakpoints.
      
      Depending on the properties of the Tickish, different transformations
      apply to Tick.  See CoreUtils.mkTick for details.
      
      Tickets
      =======
      
      This commit closes the following tickets, test cases to follow:
      
        - Close #2552: not a bug, but the behaviour is now more intuitive
          (test is T2552)
      
        - Close #680 (test is T680)
      
        - Close #1531 (test is result001)
      
        - Close #949 (test is T949)
      
        - Close #2466: test case has bitrotted (doesn't compile against current
          version of vector-space package)
      7bb0447d
  5. 23 Sep, 2011 1 commit
    • Simon Peyton Jones's avatar
      Make a new type synonym CoreProgram = [CoreBind] · 488e21c8
      Simon Peyton Jones authored
      and comment its invariants in Note [CoreProgram] in CoreSyn
      
      I'm not totally convinced that CoreProgram is the right name
      (perhaps CoreTopBinds might better), but it is useful to have
      a clue that you are looking at the top-level bindings.
      
      This is only a matter of a type synonym change; no deep
      refactoring here.
      488e21c8
  6. 19 Apr, 2011 1 commit
    • Simon Peyton Jones's avatar
      This BIG PATCH contains most of the work for the New Coercion Representation · fdf86568
      Simon Peyton Jones authored
      See the paper "Practical aspects of evidence based compilation in System FC"
      
      * Coercion becomes a data type, distinct from Type
      
      * Coercions become value-level things, rather than type-level things,
        (although the value is zero bits wide, like the State token)
        A consequence is that a coerion abstraction increases the arity by 1
        (just like a dictionary abstraction)
      
      * There is a new constructor in CoreExpr, namely Coercion, to inject
        coercions into terms
      fdf86568
  7. 04 Feb, 2009 1 commit
    • simonpj@microsoft.com's avatar
      Two small improvements to LiberateCase · a77cfb5c
      simonpj@microsoft.com authored
      Max Bolingbroke suggested these two small improvements to LiberateCase
      (most of the size increase is comments :-)):
      
      a) Do LiberateCase on small functions even if they are mutually recursive
         See Note [Small enough]
      
      b) Don't do LiberateCase on functions for which it'd be fruitless,
         namely when a free varible is scrutinised *outside* the function
         See Note [Avoiding fruitless liberate-case]
      
      There is virtually no effect on nofib, but Max tripped over cases
      where it mattered slightly.
      
      a77cfb5c
  8. 30 Oct, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Add (a) CoreM monad, (b) new Annotations feature · 9bcd95ba
      simonpj@microsoft.com authored
      This patch, written by Max Bolingbroke,  does two things
      
      1.  It adds a new CoreM monad (defined in simplCore/CoreMonad),
          which is used as the top-level monad for all the Core-to-Core
          transformations (starting at SimplCore).  It supports
             * I/O (for debug printing)
             * Unique supply
             * Statistics gathering
             * Access to the HscEnv, RuleBase, Annotations, Module
          The patch therefore refactors the top "skin" of every Core-to-Core
          pass, but does not change their functionality.
      
      2.  It adds a completely new facility to GHC: Core "annotations".
          The idea is that you can say
             {#- ANN foo (Just "Hello") #-}
          which adds the annotation (Just "Hello") to the top level function
          foo.  These annotations can be looked up in any Core-to-Core pass,
          and are persisted into interface files.  (Hence a Core-to-Core pass
          can also query the annotations of imported things.)  Furthermore,
          a Core-to-Core pass can add new annotations (eg strictness info)
          of its own, which can be queried by importing modules.
      
      The design of the annotation system is somewhat in flux.  It's
      designed to work with the (upcoming) dynamic plug-ins mechanism,
      but is meanwhile independently useful.
      
      Do not merge to 6.10!  
      9bcd95ba
  9. 20 Sep, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Tidy up the treatment of dead binders · 7e8cba32
      simonpj@microsoft.com authored
      This patch does a lot of tidying up of the way that dead variables are
      handled in Core.  Just the sort of thing to do on an aeroplane.
      
      * The tricky "binder-swap" optimisation is moved from the Simplifier
        to the Occurrence Analyser.  See Note [Binder swap] in OccurAnal.
        This is really a nice change.  It should reduce the number of
        simplifier iteratoins (slightly perhaps).  And it means that
        we can be much less pessimistic about zapping occurrence info
        on binders in a case expression.  
      
      * For example:
      	case x of y { (a,b) -> e }
        Previously, each time around, even if y,a,b were all dead, the
        Simplifier would pessimistically zap their OccInfo, so that we
        can't see they are dead any more.  As a result virtually no 
        case expression ended up with dead binders.  This wasn't Bad
        in itself, but it always felt wrong.
      
      * I added a check to CoreLint to check that a dead binder really
        isn't used.  That showed up a couple of bugs in CSE. (Only in
        this sense -- they didn't really matter.)
        
      * I've changed the PprCore printer to print "_" for a dead variable.
        (Use -dppr-debug to see it again.)  This reduces clutter quite a
        bit, and of course it's much more useful with the above change.
      
      * Another benefit of the binder-swap change is that I could get rid of
        the Simplifier hack (working, but hacky) in which the InScopeSet was
        used to map a variable to a *different* variable. That allowed me
        to remove VarEnv.modifyInScopeSet, and to simplify lookupInScopeSet
        so that it doesn't look for a fixpoint.  This fixes no bugs, but 
        is a useful cleanup.
      
      * Roman pointed out that Id.mkWildId is jolly dangerous, because
        of its fixed unique.  So I've 
      
           - localied it to MkCore, where it is private (not exported)
      
           - renamed it to 'mkWildBinder' to stress that you should only
             use it at binding sites, unless you really know what you are
             doing
      
           - provided a function MkCore.mkWildCase that emodies the most
             common use of mkWildId, and use that elsewhere
      
         So things are much better
      
      * A knock-on change is that I found a common pattern of localising
        a potentially global Id, and made a function for it: Id.localiseId
      7e8cba32
  10. 04 May, 2008 1 commit
  11. 14 Dec, 2007 1 commit
  12. 29 Oct, 2007 1 commit
    • simonpj@microsoft.com's avatar
      Fix LiberateCase · ebd091d5
      simonpj@microsoft.com authored
      	Merge to STABLE please
      
      Liberate case was being far too gung-ho about what to specialise. This
      bug only showed up when a recursive function 'f' has a nested recursive
      function 'g', where 'g' calls 'f' (as well as recursively calling 'g').
      This exact situation happens in GHC/IO.writeLines.
      
      This patch puts things right; see Note [When to specialise].  Result:
      much less code bloat.
      
      
      
      ebd091d5
  13. 04 Sep, 2007 1 commit
  14. 03 Sep, 2007 1 commit
  15. 01 Sep, 2007 1 commit
  16. 20 Jun, 2007 1 commit
    • simonpj@microsoft.com's avatar
      Fix egregious sharing bug in LiberateCase · da5b25fe
      simonpj@microsoft.com authored
      Andy Gill writes: consider the following code
      
             f = g (case v of
                      V a b -> a : t f)
      
      where g is expensive. Liberate case will turn this into
      
             f = g (case v of
                     V a b -> a : t (letrec f = g (case v of
                                                   V a b -> a : f t)
                                      in f)
                   )
      Yikes! We evaluate g twice. This leads to a O(2^n) explosion
      if g calls back to the same code recursively.
      
      This may be the same as Trac #1366.  
      
      da5b25fe
  17. 23 May, 2007 1 commit
    • simonpj@microsoft.com's avatar
      Improve the interaction of 'seq' and associated data types · 9670d664
      simonpj@microsoft.com authored
      Roman produced programs involving associated types that did not optimise well.
      His programs were something like this:
      
        data family T a
        data instance T Int = MkT Bool Char
      
        bar :: T Int -> Int
        bar t = t `seq` loop 0
      	where
      	  loop = ...
      
      You'd think that the `seq` should unbox 't' outside the loop, since
      a (T Int) is just a MkT pair.  
      
      The most robust way to make this happen is for the simplifier to understand
      a bit about type-family instances.   See 
      	Note [Improving seq]
      in Simplify.lhs.  We use FamInstEnv.topNormaliseType to do the interesting
      work.
      
      To make this happen I did a bit of refactoring to the simplifier
      monad.
      
      I'd previously done a very similar transformation in LiberateCase, but it
      was happening too late.  So this patch takes it out of LiberateCase as
      well as adding it to Simplify.
      
      
      9670d664
  18. 14 May, 2007 1 commit
    • chak@cse.unsw.edu.au.'s avatar
      Revised signature of tcLookupFamInst and lookupFamInstEnv · 4899cc82
      chak@cse.unsw.edu.au. authored
      - This changes the signature of FamInstEnv.lookupFamInstEnv and
        FamInstEnv.lookupFamInstEnvUnify in a manner similar to SPJ's
        previous patch for InstEnv.llokupInstEnv
      - tcLookupFamInst now permits the lookup of instances that are more
        general than the type instance requested.
      4899cc82
  19. 11 May, 2007 1 commit
  20. 10 May, 2007 1 commit
  21. 09 Feb, 2007 1 commit
    • simonpj@microsoft.com's avatar
      Major improvement to SpecConstr · cac2aca1
      simonpj@microsoft.com authored
      This patch improves the SpecConstr pass, by 
        a) making it work with join points
        b) making it generate specialisations transitively
      
      As part of it, SpecConstr now carries a substitution with it, which
      runs over the whole program as it goes.  This turned out to be 
      a big win; simplified the implementation quite a bit.
      
      I have *disabled* the specialisation on lambdas; it's pretty fragile,
      and sometimes generates more and more specialisations. Something to
      come back to, perhaps.
      
      I rejigged the flag-handling a bit.  Now the specification of passes
      in DynFlags is a bit nicer; see
      	- optLevelFlags top-level data structure
      	- runWhen function
      	- CoreDoPasses constructor
      
      There are now command-line flags
      	-fspec-constr
      	-fliberate-case
      	-fspec-threshold=N
      which do the obvious thing.  -O2 switches on both spec-constr and liberate-case.
      You can use -fno-liberate-case, -fno-spec-constr after -O2 to switch them off again.
      
      The spec-threshold applies to both these transformations; default value 200 for now.
      
      
      
      
      cac2aca1
  22. 31 Jan, 2007 1 commit
  23. 11 Jan, 2007 1 commit
    • simonpj@microsoft.com's avatar
      Make the LiberateCase transformation understand associated types · 7aa3f524
      simonpj@microsoft.com authored
      Consider this FC program:
      	data family AT a :: *
      	data instance AT Int = T1 Int Int
      
      	f :: AT Int -> Int
      	f t = case t of DEFAULT -> <body>
      
      We'd like to replace the DEFAULT by a use of T1, so that if 
      we scrutinise t inside <body> we share the evaluation:
      
      	f t = case (t `cast` co) of T1 x y -> <body>
      
      I decided to do this as part of the liberate-case transformation,
      which is already trying to avoid redundant evals.  
      
      The new transformation requires knowledge of the family instance
      environment, so I had to extend ModGuts to carry the fam_inst_env,
      and put that envt into the liberate-case environment. 
      
      Otherwise it's all pretty straightforward.
      7aa3f524
  24. 03 Jan, 2007 1 commit
  25. 04 Oct, 2006 1 commit
    • simonpj@microsoft.com's avatar
      Improve liberate-case to take account of coercions · 21174275
      simonpj@microsoft.com authored
      Note [Scrutinee with cast]
      ~~~~~~~~~~~~~~~~~~~~~~~~~~
      Consider this:
          f = \ t -> case (v `cast` co) of
      	         V a b -> a : f t
      
      Exactly the same optimistaion (unrolling one call to f) will work here, 
      despite the cast.  See mk_alt_env in the Case branch of libCase.
      
      This patch does the job.  For a change, it was really easy.
      21174275
  26. 01 Aug, 2006 1 commit
  27. 07 Apr, 2006 1 commit
    • Simon Marlow's avatar
      Reorganisation of the source tree · 0065d5ab
      Simon Marlow authored
      Most of the other users of the fptools build system have migrated to
      Cabal, and with the move to darcs we can now flatten the source tree
      without losing history, so here goes.
      
      The main change is that the ghc/ subdir is gone, and most of what it
      contained is now at the top level.  The build system now makes no
      pretense at being multi-project, it is just the GHC build system.
      
      No doubt this will break many things, and there will be a period of
      instability while we fix the dependencies.  A straightforward build
      should work, but I haven't yet fixed binary/source distributions.
      Changes to the Building Guide will follow, too.
      0065d5ab
  28. 18 Mar, 2005 1 commit
    • simonmar's avatar
      [project @ 2005-03-18 13:37:27 by simonmar] · d1c1b7d0
      simonmar authored
      Flags cleanup.
      
      Basically the purpose of this commit is to move more of the compiler's
      global state into DynFlags, which is moving in the direction we need
      to go for the GHC API which can have multiple active sessions
      supported by a single GHC instance.
      
      Before:
      
      $ grep 'global_var' */*hs | wc -l
           78
      
      After:
      
      $ grep 'global_var' */*hs | wc -l
           27
      
      Well, it's an improvement.  Most of what's left won't really affect
      our ability to host multiple sessions.
      
      Lots of static flags have become dynamic flags (yay!).  Notably lots
      of flags that we used to think of as "driver" flags, like -I and -L,
      are now dynamic.  The most notable static flags left behind are the
      "way" flags, eg. -prof.  It would be nice to fix this, but it isn't
      urgent.
      
      On the way, lots of cleanup has happened.  Everything related to
      static and dynamic flags lives in StaticFlags and DynFlags
      respectively, and they share a common command-line parser library in
      CmdLineParser.  The flags related to modes (--makde, --interactive
      etc.) are now private to the front end: in fact private to Main
      itself, for now.
      d1c1b7d0
  29. 16 Mar, 2005 1 commit
  30. 07 Mar, 2005 1 commit
    • simonpj's avatar
      [project @ 2005-03-07 17:46:24 by simonpj] · a1636622
      simonpj authored
      -----------------------------------------
             Make sure that LiberateCase only binds Internal Names
      	-----------------------------------------
      
      	Merge to STABLE
      
      The nested bindings generated by LiberateCase should be Internal as
      well as not-exported.  Otherwise an External Name can float to top level,
      where it might name-clash with another one.
      a1636622
  31. 24 Dec, 2004 1 commit
  32. 22 Dec, 2004 1 commit
    • simonpj's avatar
      [project @ 2004-12-22 12:06:13 by simonpj] · d7c402a3
      simonpj authored
      ----------------------------------------
           New Core invariant: keep case alternatives in sorted order
      	----------------------------------------
      
      We now keep the alternatives of a Case in the Core language in sorted
      order.  Sorted, that is,
      	by constructor tag	for DataAlt
      	by literal		for LitAlt
      
      The main reason is that it makes matching and equality testing more robust.
      But in fact some lines of code vanished from SimplUtils.mkAlts.
      
      
      WARNING: no change to interface file formats, but you'll need to recompile
      your libraries so that they generate interface files that respect the
      invariant.
      d7c402a3
  33. 30 Sep, 2004 1 commit
    • simonpj's avatar
      [project @ 2004-09-30 10:35:15 by simonpj] · 23f40f0e
      simonpj authored
      ------------------------------------
      	Add Generalised Algebraic Data Types
      	------------------------------------
      
      This rather big commit adds support for GADTs.  For example,
      
          data Term a where
       	  Lit :: Int -> Term Int
      	  App :: Term (a->b) -> Term a -> Term b
      	  If  :: Term Bool -> Term a -> Term a
      	  ..etc..
      
          eval :: Term a -> a
          eval (Lit i) = i
          eval (App a b) = eval a (eval b)
          eval (If p q r) | eval p    = eval q
          		    | otherwise = eval r
      
      
      Lots and lots of of related changes throughout the compiler to make
      this fit nicely.
      
      One important change, only loosely related to GADTs, is that skolem
      constants in the typechecker are genuinely immutable and constant, so
      we often get better error messages from the type checker.  See
      TcType.TcTyVarDetails.
      
      There's a new module types/Unify.lhs, which has purely-functional
      unification and matching for Type. This is used both in the typechecker
      (for type refinement of GADTs) and in Core Lint (also for type refinement).
      23f40f0e
  34. 05 Apr, 2002 1 commit
  35. 03 Oct, 2001 1 commit
    • simonpj's avatar
      [project @ 2001-10-03 13:58:50 by simonpj] · f659cb97
      simonpj authored
      ---------------------
      	Clear up infelicities
      	---------------------
      	CorePrep, CoreUtils, SimplUtils
      	LiberateCase (wibbles only)
      
      * Previously CorePrep was floating LocalIds to top level, which
        breaks the invariant that after CorePrep all top level Ids are
        GlobalIds.  But it didn't really need to, and this pass makes it
        so.  It's much tidier now.
      
      * Make CorePrep do eta expansion on partial applications
      	x = foldr f y  ==>   x = \ys -> foldr f y ys
        (This used to be done in the simplifier, but now the
        simplifier only eta expands where there is at least one
        lambda already.)
      
      * Omit CoreUtils.etaReduce.  (Never called.)
      
      * Improve CoreUtils.etaExpand, so that it doesn't add gratuitous
        beta redexes.
      f659cb97
  36. 26 Sep, 2001 1 commit
    • simonpj's avatar
      [project @ 2001-09-26 16:19:28 by simonpj] · 6858f7c1
      simonpj authored
      ------------------
      		Simon's big commit
      		------------------
      	[ These files seem to have been left out for some reason ]
      
      
      This commit, which I don't think I can sensibly do piecemeal, consists
      of the things I've been doing recently, mainly directed at making
      Manuel, George, and Marcin happier with RULES.
      
      
      Reogranise the simplifier
      ~~~~~~~~~~~~~~~~~~~~~~~~~
      1. The simplifier's environment is now an explicit parameter.  This
      makes it a bit easier to figure out where it is going.
      
      2. Constructor arguments can now be arbitrary expressions, except
      when the application is the RHS of a let(rec).  This makes it much
      easier to match rules like
      
      	RULES
      	    "foo"  f (h x, g y) = f' x y
      
      In the simplifier, it's Simplify.mkAtomicArgs that ANF-ises a
      constructor application where necessary.  In the occurrence analyser,
      there's a new piece of context info (OccEncl) to say whether a
      constructor app is in a place where it should be in ANF.  (Unless
      it knows this it'll give occurrence info which will inline the
      argument back into the constructor app.)
      
      3. I'm experimenting with doing the "float-past big lambda" transformation
      in the full laziness pass, rather than mixed in with the simplifier (was
      tryRhsTyLam).
      
      4.  Arrange that
      	case (coerce (S,T) (x,y)) of ...
      will simplify.  Previous it didn't.
      A local change to CoreUtils.exprIsConApp_maybe.
      
      5. Do a better job in CoreUtils.exprEtaExpandArity when there's an
      error function in one branch.
      
      
      Phase numbers, RULES, and INLINE pragmas
      ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
      1.  Phase numbers decrease from N towards zero (instead of increasing).
      This makes it easier to add new earlier phases, which is what users want
      to do.
      
      2.  RULES get their own phase number, N, and are disabled in phases before N.
      
      e.g. 	{-# RULES "foo" [2] forall x y.  f (x,y) = f' x y #-}
      
      Note the [2], which says "only active in phase 2 and later".
      
      3.  INLINE and NOINLINE pragmas have a phase number to.  This is now treated
      in just the same way as the phase number on RULE; that is, the Id is not inlined
      in phases earlier than N.  In phase N and later the Id *may* be inlined, and
      here is where INLINE and NOINLINE differ: INLNE makes the RHS look small, so
      as soon as it *may* be inlined it probably *will* be inlined.
      
      The syntax of the phase number on an INLINE/NOINLINE pragma has changed to be
      like the RULES case (i.e. in square brackets).  This should also make sure
      you examine all such phase numbers; many will need to change now the numbering
      is reversed.
      
      Inlining Ids is no longer affected at all by whether the Id appears on the
      LHS of a rule.  Now it's up to the programmer to put a suitable INLINE/NOINLINE
      pragma to stop it being inlined too early.
      
      
      Implementation notes:
      
      *  A new data type, BasicTypes.Activation says when a rule or inline pragma
      is active.   Functions isAlwaysActive, isNeverActive, isActive, do the
      obvious thing (all in BasicTypes).
      
      * Slight change in the SimplifierSwitch data type, which led to a lot of
      simplifier-specific code moving from CmdLineOpts to SimplMonad; a Good Thing.
      
      * The InlinePragma in the IdInfo of an Id is now simply an Activation saying
      when the Id can be inlined.  (It used to be a rather bizarre pair of a
      Bool and a (Maybe Phase), so this is much much easier to understand.)
      
      * The simplifier has a "mode" environment switch, replacing the old
      black list.  Unfortunately the data type decl has to be in
      CmdLineOpts, because it's an argument to the CoreDoSimplify switch
      
          data SimplifierMode = SimplGently | SimplPhase Int
      
      Here "gently" means "no rules, no inlining".   All the crucial
      inlining decisions are now collected together in SimplMonad
      (preInlineUnconditionally, postInlineUnconditionally, activeInline,
      activeRule).
      
      
      Specialisation
      ~~~~~~~~~~~~~~
      1.  Only dictionary *functions* are made INLINE, not dictionaries that
      have no parameters.  (This inline-dictionary-function thing is Marcin's
      idea and I'm still not sure whether it's a good idea.  But it's definitely
      a Bad Idea when there are no arguments.)
      
      2.  Be prepared to specialise an INLINE function: an easy fix in
      Specialise.lhs
      
      But there is still a problem, which is that the INLINE wins
      at the call site, so we don't use the specialised version anyway.
      I'm still unsure whether it makes sense to SPECIALISE something
      you want to INLINE.
      
      
      
      
      
      Random smaller things
      ~~~~~~~~~~~~~~~~~~~~~~
      
      * builtinRules (there was only one, but may be more) in PrelRules are now
        incorporated.   They were being ignored before...
      
      * OrdList.foldOL -->  OrdList.foldrOL, OrdList.foldlOL
      
      * Some tidying up of the tidyOpenTyVar, tidyTyVar functions.  I've
        forgotten exactly what!
      6858f7c1
  37. 25 Jun, 2001 1 commit
  38. 08 Dec, 2000 3 commits