1. 25 Feb, 2013 1 commit
  2. 15 Feb, 2013 1 commit
  3. 14 Feb, 2013 1 commit
    • Simon Peyton Jones's avatar
      Add OverloadedLists, allowing list syntax to be overloaded · 3234a4ad
      Simon Peyton Jones authored
      This work was all done by
         Achim Krause <achim.t.krause@gmail.com>
         George Giorgidze <giorgidze@gmail.com>
         Weijers Jeroen <jeroen.weijers@uni-tuebingen.de>
      
      It allows list syntax, such as [a,b], [a..b] and so on, to be
      overloaded so that it works for a variety of types.
      
      The design is described here:
          http://hackage.haskell.org/trac/ghc/wiki/OverloadedLists
      
      Eg. you can use it for maps, so that
              [(1,"foo"), (4,"bar")] :: Map Int String
      
      The main changes
       * The ExplicitList constructor of HsExpr gets witness field
       * Ditto ArithSeq constructor
       * Ditto the ListPat constructor of HsPat
      
      Everything else flows from this.
      3234a4ad
  4. 12 Feb, 2013 2 commits
    • jpm@cs.ox.ac.uk's avatar
    • jpm@cs.ox.ac.uk's avatar
      Implement poly-kinded Typeable · 72b0ba09
      jpm@cs.ox.ac.uk authored
      This patch makes the Data.Typeable.Typeable class work with arguments of any
      kind. In particular, this removes the Typeable1..7 class hierarchy, greatly
      simplyfing the whole Typeable story. Also added is the AutoDeriveTypeable
      language extension, which will automatically derive Typeable for all types and
      classes declared in that module. Since there is now no good reason to give
      handwritten instances of the Typeable class, those are ignored (for backwards
      compatibility), and a warning is emitted.
      
      The old, kind-* Typeable class is now called OldTypeable, and lives in the
      Data.OldTypeable module. It is deprecated, and should be removed in some future
      version of GHC.
      72b0ba09
  5. 30 Jan, 2013 1 commit
  6. 18 Jan, 2013 1 commit
  7. 04 Jan, 2013 1 commit
    • Simon Peyton Jones's avatar
      Allow empty case expressions (and lambda-case) with -XEmptyCase · 3671e674
      Simon Peyton Jones authored
      The main changes are:
        * Parser accepts empty case alternatives
        * Renamer checks that -XEmptyCase is on in that case
        * (Typechecker is pretty much unchanged.)
        * Desugarer desugars empty case alternatives, esp:
            - Match.matchWrapper and Match.match now accept empty eqns
            - New function matchEmpty deals with the empty case
            - See Note [Empty case alternatives] in Match
      
      This patch contains most of the work, but it's a bit mixed up
      with a refactoring of MatchGroup that I did at the same time
      (next commit).
      3671e674
  8. 01 Jan, 2013 1 commit
  9. 22 Dec, 2012 1 commit
    • eir@cis.upenn.edu's avatar
      Implement overlapping type family instances. · 8366792e
      eir@cis.upenn.edu authored
      An ordered, overlapping type family instance is introduced by 'type
      instance
      where', followed by equations. See the new section in the user manual
      (7.7.2.2) for details. The canonical example is Boolean equality at the
      type
      level:
      
      type family Equals (a :: k) (b :: k) :: Bool
      type instance where
        Equals a a = True
        Equals a b = False
      
      A branched family instance, such as this one, checks its equations in
      order
      and applies only the first the matches. As explained in the note
      [Instance
      checking within groups] in FamInstEnv.lhs, we must be careful not to
      simplify,
      say, (Equals Int b) to False, because b might later unify with Int.
      
      This commit includes all of the commits on the overlapping-tyfams
      branch. SPJ
      requested that I combine all my commits over the past several months
      into one
      monolithic commit. The following GHC repos are affected: ghc, testsuite,
      utils/haddock, libraries/template-haskell, and libraries/dph.
      
      Here are some details for the interested:
      
      - The definition of CoAxiom has been moved from TyCon.lhs to a
        new file CoAxiom.lhs. I made this decision because of the
        number of definitions necessary to support BranchList.
      
      - BranchList is a GADT whose type tracks whether it is a
        singleton list or not-necessarily-a-singleton-list. The reason
        I introduced this type is to increase static checking of places
        where GHC code assumes that a FamInst or CoAxiom is indeed a
        singleton. This assumption takes place roughly 10 times
        throughout the code. I was worried that a future change to GHC
        would invalidate the assumption, and GHC might subtly fail to
        do the right thing. By explicitly labeling CoAxioms and
        FamInsts as being Unbranched (singleton) or
        Branched (not-necessarily-singleton), we make this assumption
        explicit and checkable. Furthermore, to enforce the accuracy of
        this label, the list of branches of a CoAxiom or FamInst is
        stored using a BranchList, whose constructors constrain its
        type index appropriately.
      
      I think that the decision to use BranchList is probably the most
      controversial decision I made from a code design point of view.
      Although I provide conversions to/from ordinary lists, it is more
      efficient to use the brList... functions provided in CoAxiom than
      always to convert. The use of these functions does not wander far
      from the core CoAxiom/FamInst logic.
      
      BranchLists are motivated and explained in the note [Branched axioms] in
      CoAxiom.lhs.
      
      - The CoAxiom type has changed significantly. You can see the new
        type in CoAxiom.lhs. It uses a CoAxBranch type to track
        branches of the CoAxiom. Correspondingly various functions
        producing and consuming CoAxioms had to change, including the
        binary layout of interface files.
      
      - To get branched axioms to work correctly, it is important to have a
        notion
        of type "apartness": two types are apart if they cannot unify, and no
        substitution of variables can ever get them to unify, even after type
      family
        simplification. (This is different than the normal failure to unify
      because
        of the type family bit.) This notion in encoded in tcApartTys, in
      Unify.lhs.
        Because apartness is finer-grained than unification, the tcUnifyTys
      now
        calls tcApartTys.
      
      - CoreLinting axioms has been updated, both to reflect the new
        form of CoAxiom and to enforce the apartness rules of branch
        application. The formalization of the new rules is in
        docs/core-spec/core-spec.pdf.
      
      - The FamInst type (in types/FamInstEnv.lhs) has changed
        significantly, paralleling the changes to CoAxiom. Of course,
        this forced minor changes in many files.
      
      - There are several new Notes in FamInstEnv.lhs, including one
        discussing confluent overlap and why we're not doing it.
      
      - lookupFamInstEnv, lookupFamInstEnvConflicts, and
        lookup_fam_inst_env' (the function that actually does the work)
        have all been more-or-less completely rewritten. There is a
        Note [lookup_fam_inst_env' implementation] describing the
        implementation. One of the changes that affects other files is
        to change the type of matches from a pair of (FamInst, [Type])
        to a new datatype (which now includes the index of the matching
        branch). This seemed a better design.
      
      - The TySynInstD constructor in Template Haskell was updated to
        use the new datatype TySynEqn. I also bumped the TH version
        number, requiring changes to DPH cabal files. (That's why the
        DPH repo has an overlapping-tyfams branch.)
      
      - As SPJ requested, I refactored some of the code in HsDecls:
      
       * splitting up TyDecl into SynDecl and DataDecl, correspondingly
         changing HsTyDefn to HsDataDefn (with only one constructor)
      
       * splitting FamInstD into TyFamInstD and DataFamInstD and
         splitting FamInstDecl into DataFamInstDecl and TyFamInstDecl
      
       * making the ClsInstD take a ClsInstDecl, for parallelism with
         InstDecl's other constructors
      
       * changing constructor TyFamily into FamDecl
      
       * creating a FamilyDecl type that stores the details for a family
         declaration; this is useful because FamilyDecls can appear in classes
      but
         other decls cannot
      
       * restricting the associated types and associated type defaults for a
       * class
         to be the new, more restrictive types
      
       * splitting cid_fam_insts into cid_tyfam_insts and cid_datafam_insts,
         according to the new types
      
       * perhaps one or two more that I'm overlooking
      
      None of these changes has far-reaching implications.
      
      - The user manual, section 7.7.2.2, is updated to describe the new type
        family
        instances.
      8366792e
  10. 21 Dec, 2012 3 commits
  11. 19 Dec, 2012 1 commit
  12. 11 Dec, 2012 1 commit
  13. 05 Dec, 2012 1 commit
  14. 16 Nov, 2012 1 commit
  15. 15 Nov, 2012 1 commit
  16. 13 Nov, 2012 1 commit
  17. 31 Oct, 2012 1 commit
  18. 26 Oct, 2012 1 commit
  19. 25 Oct, 2012 1 commit
  20. 12 Oct, 2012 1 commit
  21. 03 Oct, 2012 1 commit
  22. 27 Sep, 2012 1 commit
  23. 06 Sep, 2012 1 commit
  24. 20 Aug, 2012 1 commit
  25. 14 Aug, 2012 1 commit
  26. 13 Aug, 2012 1 commit
  27. 16 Jul, 2012 2 commits
  28. 26 Jun, 2012 1 commit
  29. 15 Jun, 2012 1 commit
  30. 12 Jun, 2012 2 commits
    • Ross Paterson's avatar
      tweak documentation of mdo/rec · 96a37685
      Ross Paterson authored
      96a37685
    • Simon Peyton Jones's avatar
      Revive 'mdo' expressions, per discussion in Trac #4148 · 4f8e86b4
      Simon Peyton Jones authored
      Summary:
        - mdo expressions are enabled by RecursiveDo pragma
      
        - mdo expressions perform full segmentation
      
        - 'rec' groups inside 'do' are changed so they do *not*
          perform any segmentation.
      
        - Both 'mdo' and 'rec' are enabled by 'RecursiveDo'
          'DoRec' is deprecated in favour of 'RecursiveDo'
          (The 'rec' keyword is also enabled by 'Arrows', as now.)
      
      Thanks to Levent for doing all the work
      4f8e86b4
  31. 07 Jun, 2012 2 commits
    • Simon Peyton Jones's avatar
      Support polymorphic kind recursion · c9117200
      Simon Peyton Jones authored
      This is (I hope) the last major patch for kind polymorphism.
      The big new feature is polymorphic kind recursion when you
      supply a complete kind signature for a type constructor.
      (I've documented it in the user manual too.)
      
      This fixes Trac #6137, #6093, #6049.
      
      The patch also makes type/data families less polymorphic by default.
         data family T a
      now defaults to T :: * -> *
      If you want T :: forall k. k -> *, use
         data family T (a :: k)
      
      This defaulting to * is done whenever there is a
      "complete, user-specified kind signature", something that is
      carefully defined in the user manual.
      
      Hurrah!
      c9117200
    • Simon Peyton Jones's avatar
  32. 31 Mar, 2012 1 commit
  33. 30 Mar, 2012 1 commit
  34. 16 Mar, 2012 1 commit