1. 31 Mar, 2017 1 commit
  2. 29 Mar, 2017 1 commit
    • Simon Peyton Jones's avatar
      Allow unbound Refl binders in a RULE · 8674883c
      Simon Peyton Jones authored
      Trac #13410 was failing because we had a RULE with a binder
         (c :: t~t)
      and the /occurrences/ of c on the LHS were being optimised to Refl,
      leaving a binder that would not be filled in by matching the LHS
      of the rule.
      
      I flirted with trying to ensure that occurrences (c :: t~t) are
      not optimised to Relf, but that turned out to be fragile; it was
      being done, for good reasons, in multiple places, including
        - TyCoRep.substCoVarBndr
        - Simplify.simplCast
        - Corecion.mkCoVarCo
      
      So I fixed it in one place by making Rules.matchN deal happily
      with an unbound binder (c :: t~t).  Quite easy.  See "Coercion
      variables" in Note [Unbound RULE binders] in Rules.
      
      In addition, I needed to make CoreLint be happy with an bound
      RULE binder that is a Relf coercion variable
      
      In debugging this, I was perplexed that occurrences of a variable
      (c :: t~t) mysteriously turned into Refl.  I found out how it
      was happening, and decided to move it:
      
      * In TyCoRep.substCoVarBndr, do not substitute Refl for a
        binder (c :: t~t).
      
      * In mkCoVarCo do not optimise (c :: t~t) to Refl.
      
      Instead, we do this optimisation in optCoercion (specifically
      opt_co4) where, surprisingly, the optimisation was /not/
      being done.  This has no effect on what programs compile;
      it just moves a relatively-expensive optimisation to optCoercion,
      where it seems more properly to belong.  It's actually not clear
      to me which is really "better", but this way round is less
      surprising.
      
      One small simplifying refactoring
      
      * Eliminate TyCoRep.substCoVarBndrCallback, which was only
        called locally.
      8674883c
  3. 28 Mar, 2017 1 commit
  4. 27 Mar, 2017 1 commit
    • Richard Eisenberg's avatar
      Fix #13458 · cea71418
      Richard Eisenberg authored
      Core Lint shouldn't check representations of types that don't
      have representations.
      
      test case: typecheck/should_compile/T13458
      cea71418
  5. 17 Mar, 2017 1 commit
  6. 15 Mar, 2017 1 commit
    • Ben Gamari's avatar
      Introduce putLogMsg · 086b514b
      Ben Gamari authored
      This factors out the repetition of (log_action dflags dflags) and will
      hopefully allow us to someday better abstract log output.
      
      Test Plan: Validate
      
      Reviewers: austin, hvr, goldfire
      
      Subscribers: rwbarton, thomie
      
      Differential Revision: https://phabricator.haskell.org/D3334
      086b514b
  7. 11 Mar, 2017 1 commit
  8. 08 Mar, 2017 1 commit
    • Simon Peyton Jones's avatar
      Join points can be levity-polymorphic · 8e053700
      Simon Peyton Jones authored
      It's ok to have a levity-polymorphic join point, thus
         let j :: r :: TYPE l = blah
         in ...
      
      Usually we don't allow levity-polymorphic binders, but join points
      are different because they are not first class.  I updated the
      invariants in CoreSyn.
      
      This commit fixes Trac #13394.
      8e053700
  9. 21 Feb, 2017 1 commit
    • Simon Peyton Jones's avatar
      Improve Core Lint, mainly for join points · e790126c
      Simon Peyton Jones authored
      * lintSingleBinding: check that join points have
                           a valid join-point type
        (Trac #13281)
      
      * lintIdBinder: check that a JoinId is bound by
                      a non-top-level let
        i.e.  not a top level binder
              not lambda/case binder
      
      * Check for empty Rec [] bindings
      
      * Rename lintIdBndrs to lintLetBndrs
      e790126c
  10. 18 Feb, 2017 2 commits
    • Ben Gamari's avatar
      Type-indexed Typeable · 8fa4bf9a
      Ben Gamari authored
      This at long last realizes the ideas for type-indexed Typeable discussed in A
      Reflection on Types (#11011). The general sketch of the project is described on
      the Wiki (Typeable/BenGamari). The general idea is that we are adding a type
      index to `TypeRep`,
      
          data TypeRep (a :: k)
      
      This index allows the typechecker to reason about the type represented by the `TypeRep`.
      This index representation mechanism is exposed as `Type.Reflection`, which also provides
      a number of patterns for inspecting `TypeRep`s,
      
      ```lang=haskell
      pattern TRFun :: forall k (fun :: k). ()
                    => forall (r1 :: RuntimeRep) (r2 :: RuntimeRep)
                              (arg :: TYPE r1) (res :: TYPE r2).
                       (k ~ Type, fun ~~ (arg -> res))
                    => TypeRep arg
                    -> TypeRep res
                    -> TypeRep fun
      
      pattern TRApp :: forall k2 (t :: k2). ()
                    => forall k1 (a :: k1 -> k2) (b :: k1). (t ~ a b)
                    => TypeRep a -> TypeRep b -> TypeRep t
      
      -- | Pattern match on a type constructor.
      pattern TRCon :: forall k (a :: k). TyCon -> TypeRep a
      
      -- | Pattern match on a type constructor including its instantiated kind
      -- variables.
      pattern TRCon' :: forall k (a :: k). TyCon -> [SomeTypeRep] -> TypeRep a
      ```
      
      In addition, we give the user access to the kind of a `TypeRep` (#10343),
      
          typeRepKind :: TypeRep (a :: k) -> TypeRep k
      
      Moreover, all of this plays nicely with 8.2's levity polymorphism, including the
      newly levity polymorphic (->) type constructor.
      
      Library changes
      ---------------
      
      The primary change here is the introduction of a Type.Reflection module to base.
      This module provides access to the new type-indexed TypeRep introduced in this
      patch. We also continue to provide the unindexed Data.Typeable interface, which
      is simply a type synonym for the existentially quantified SomeTypeRep,
      
          data SomeTypeRep where SomeTypeRep :: TypeRep a -> SomeTypeRep
      
      Naturally, this change also touched Data.Dynamic, which can now export the
      Dynamic data constructor. Moreover, I removed a blanket reexport of
      Data.Typeable from Data.Dynamic (which itself doesn't even import Data.Typeable
      now).
      
      We also add a kind heterogeneous type equality type, (:~~:), to
      Data.Type.Equality.
      
      Implementation
      --------------
      
      The implementation strategy is described in Note [Grand plan for Typeable] in
      TcTypeable. None of it was difficult, but it did exercise a number of parts of
      the new levity polymorphism story which had not yet been exercised, which took
      some sorting out.
      
      The rough idea is that we augment the TyCon produced for each type constructor
      with information about the constructor's kind (which we call a KindRep). This
      allows us to reconstruct the monomorphic result kind of an particular
      instantiation of a type constructor given its kind arguments.
      
      Unfortunately all of this takes a fair amount of work to generate and send
      through the compilation pipeline. In particular, the KindReps can unfortunately
      get quite large. Moreover, the simplifier will float out various pieces of them,
      resulting in numerous top-level bindings. Consequently we mark the KindRep
      bindings as noinline, ensuring that the float-outs don't make it into the
      interface file. This is important since there is generally little benefit to
      inlining KindReps and they would otherwise strongly affect compiler performance.
      
      Performance
      -----------
      
      Initially I was hoping to also clear up the remaining holes in Typeable's
      coverage by adding support for both unboxed tuples (#12409) and unboxed sums
      (#13276). While the former was fairly straightforward, the latter ended up being
      quite difficult: while the implementation can support them easily, enabling this
      support causes thousands of Typeable bindings to be emitted to the GHC.Types as
      each arity-N sum tycon brings with it N promoted datacons, each of which has a
      KindRep whose size which itself scales with N. Doing this was simply too
      expensive to be practical; consequently I've disabled support for the time
      being.
      
      Even after disabling sums this change regresses compiler performance far more
      than I would like. In particular there are several testcases in the testsuite
      which consist mostly of types which regress by over 30% in compiler allocations.
      These include (considering the "bytes allocated" metric),
      
       * T1969:  +10%
       * T10858: +23%
       * T3294:  +19%
       * T5631:  +41%
       * T6048:  +23%
       * T9675:  +20%
       * T9872a: +5.2%
       * T9872d: +12%
       * T9233:  +10%
       * T10370: +34%
       * T12425: +30%
       * T12234: +16%
       * 13035:  +17%
       * T4029:  +6.1%
      
      I've spent quite some time chasing down the source of this regression and while
      I was able to make som improvements, I think this approach of generating
      Typeable bindings at time of type definition is doomed to give us unnecessarily
      large compile-time overhead.
      
      In the future I think we should consider moving some of all of the Typeable
      binding generation logic back to the solver (where it was prior to
      91c6b1f5). I've opened #13261 documenting this
      proposal.
      8fa4bf9a
    • Ben Gamari's avatar
      Generalize kind of the (->) tycon · b207b536
      Ben Gamari authored
      This is generalizes the kind of `(->)`, as discussed in #11714.
      
      This involves a few things,
      
       * Generalizing the kind of `funTyCon`, adding two new `RuntimeRep`
      binders,
        ```lang=haskell
      (->) :: forall (r1 :: RuntimeRep) (r2 :: RuntimeRep)
                     (a :: TYPE r1) (b :: TYPE r2).
              a -> b -> *
        ```
      
       * Unsaturated applications of `(->)` are expressed as explicit
      `TyConApp`s
      
       * Saturated applications of `(->)` are expressed as `FunTy` as they are
      currently
      
       * Saturated applications of `(->)` are expressed by a new `FunCo`
      constructor in coercions
      
       * `splitTyConApp` needs to ensure that `FunTy`s are split to a
      `TyConApp`
         of `(->)` with the appropriate `RuntimeRep` arguments
      
       * Teach CoreLint to check that all saturated applications of `(->)` are
      represented with `FunTy`
      
      At the moment I assume that `Constraint ~ *`, which is an annoying
      source of complexity. This will
      be simplified once D3023 is resolved.
      
      Also, this introduces two known regressions,
      
      `tcfail181`, `T10403`
      =====================
      Only shows the instance,
      
          instance Monad ((->) r) -- Defined in ‘GHC.Base’
      
      in its error message when -fprint-potential-instances is used. This is
      because its instance head now mentions 'LiftedRep which is not in scope.
      I'm not entirely sure of the right way to fix this so I'm just accepting
      the new output for now.
      
      T5963 (Typeable)
      ================
      
      T5963 is now broken since Data.Typeable.Internals.mkFunTy computes its
      fingerprint without the RuntimeRep variables that (->) expects. This
      will be fixed with the merge of D2010.
      
      Haddock performance
      ===================
      
      The `haddock.base` and `haddock.Cabal` tests regress in allocations by
      about 20%. This certainly hurts, but it's also not entirely unexpected:
      the size of every function type grows with this patch and Haddock has a
      lot of functions in its heap.
      b207b536
  11. 16 Feb, 2017 1 commit
    • Simon Peyton Jones's avatar
      Improve checking of joins in Core Lint · 6bab649b
      Simon Peyton Jones authored
      This patch addresses the rather expensive treatment of join points,
      identified in Trac #13220 comment:17
      
      Before we were tracking the "bad joins".  Now we track the good ones.
      That is easier to think about, and much more efficient; see CoreLint
      Note [Join points].
      
      On the way I did some other modest refactoring, among other things
      removing a duplicated call of lintIdBndr for let-bindings.
      
      On teh
      6bab649b
  12. 03 Feb, 2017 1 commit
    • Sylvain Henry's avatar
      Ditch static flags · bbd3c399
      Sylvain Henry authored
      This patch converts the 4 lasting static flags (read from the command
      line and unsafely stored in immutable global variables) into dynamic
      flags. Most use cases have been converted into reading them from a DynFlags.
      
      In cases for which we don't have easy access to a DynFlags, we read from
      'unsafeGlobalDynFlags' that is set at the beginning of each 'runGhc'.
      It's not perfect (not thread-safe) but it is still better as we can
      set/unset these 4 flags before each run when using GHC API.
      
      Updates haddock submodule.
      
      Rebased and finished by: bgamari
      
      Test Plan: validate
      
      Reviewers: goldfire, erikd, hvr, austin, simonmar, bgamari
      
      Reviewed By: simonmar
      
      Subscribers: thomie
      
      Differential Revision: https://phabricator.haskell.org/D2839
      
      GHC Trac Issues: #8440
      bbd3c399
  13. 01 Feb, 2017 1 commit
  14. 20 Jan, 2017 1 commit
    • takano-akio's avatar
      Allow top-level string literals in Core (#8472) · d49b2bb2
      takano-akio authored
      This commits relaxes the invariants of the Core syntax so that a
      top-level variable can be bound to a primitive string literal of type
      Addr#.
      
      This commit:
      
      * Relaxes the invatiants of the Core, and allows top-level bindings whose
        type is Addr# as long as their RHS is either a primitive string literal or
        another variable.
      
      * Allows the simplifier and the full-laziness transformer to float out
        primitive string literals to the top leve.
      
      * Introduces the new StgGenTopBinding type to accomodate top-level Addr#
        bindings.
      
      * Introduces a new type of labels in the object code, with the suffix "_bytes",
        for exported top-level Addr# bindings.
      
      * Makes some built-in rules more robust. This was necessary to keep them
        functional after the above changes.
      
      This is a continuation of D2554.
      
      Rebasing notes:
      This had two slightly suspicious performance regressions:
      
      * T12425: bytes allocated regressed by roughly 5%
      * T4029: bytes allocated regressed by a bit over 1%
      * T13035: bytes allocated regressed by a bit over 5%
      
      These deserve additional investigation.
      
      Rebased by: bgamari.
      
      Test Plan: ./validate --slow
      
      Reviewers: goldfire, trofi, simonmar, simonpj, austin, hvr, bgamari
      
      Reviewed By: trofi, simonpj, bgamari
      
      Subscribers: trofi, simonpj, gridaphobe, thomie
      
      Differential Revision: https://phabricator.haskell.org/D2605
      
      GHC Trac Issues: #8472
      d49b2bb2
  15. 19 Jan, 2017 1 commit
    • Richard Eisenberg's avatar
      Update levity polymorphism · e7985ed2
      Richard Eisenberg authored
      This commit implements the proposal in
      https://github.com/ghc-proposals/ghc-proposals/pull/29 and
      https://github.com/ghc-proposals/ghc-proposals/pull/35.
      
      Here are some of the pieces of that proposal:
      
      * Some of RuntimeRep's constructors have been shortened.
      
      * TupleRep and SumRep are now parameterized over a list of RuntimeReps.
      * This
      means that two types with the same kind surely have the same
      representation.
      Previously, all unboxed tuples had the same kind, and thus the fact
      above was
      false.
      
      * RepType.typePrimRep and friends now return a *list* of PrimReps. These
      functions can now work successfully on unboxed tuples. This change is
      necessary because we allow abstraction over unboxed tuple types and so
      cannot
      always handle unboxed tuples specially as we did before.
      
      * We sometimes have to create an Id from a PrimRep. I thus split PtrRep
      * into
      LiftedRep and UnliftedRep, so that the created Ids have the right
      strictness.
      
      * The RepType.RepType type was removed, as it didn't seem to help with
      * much.
      
      * The RepType.repType function is also removed, in favor of typePrimRep.
      
      * I have waffled a good deal on whether or not to keep VoidRep in
      TyCon.PrimRep. In the end, I decided to keep it there. PrimRep is *not*
      represented in RuntimeRep, and typePrimRep will never return a list
      including
      VoidRep. But it's handy to have in, e.g., ByteCodeGen and friends. I can
      imagine another design choice where we have a PrimRepV type that is
      PrimRep
      with an extra constructor. That seemed to be a heavier design, though,
      and I'm
      not sure what the benefit would be.
      
      * The last, unused vestiges of # (unliftedTypeKind) have been removed.
      
      * There were several pretty-printing bugs that this change exposed;
      * these are fixed.
      
      * We previously checked for levity polymorphism in the types of binders.
      * But we
      also must exclude levity polymorphism in function arguments. This is
      hard to check
      for, requiring a good deal of care in the desugarer. See Note [Levity
      polymorphism
      checking] in DsMonad.
      
      * In order to efficiently check for levity polymorphism in functions, it
      * was necessary
      to add a new bit of IdInfo. See Note [Levity info] in IdInfo.
      
      * It is now safe for unlifted types to be unsaturated in Core. Core Lint
      * is updated
      accordingly.
      
      * We can only know strictness after zonking, so several checks around
      * strictness
      in the type-checker (checkStrictBinds, the check for unlifted variables
      under a ~
      pattern) have been moved to the desugarer.
      
      * Along the way, I improved the treatment of unlifted vs. banged
      * bindings. See
      Note [Strict binds checks] in DsBinds and #13075.
      
      * Now that we print type-checked source, we must be careful to print
      * ConLikes correctly.
      This is facilitated by a new HsConLikeOut constructor to HsExpr.
      Particularly troublesome
      are unlifted pattern synonyms that get an extra void# argument.
      
      * Includes a submodule update for haddock, getting rid of #.
      
      * New testcases:
        typecheck/should_fail/StrictBinds
        typecheck/should_fail/T12973
        typecheck/should_run/StrictPats
        typecheck/should_run/T12809
        typecheck/should_fail/T13105
        patsyn/should_fail/UnliftedPSBind
        typecheck/should_fail/LevPolyBounded
        typecheck/should_compile/T12987
        typecheck/should_compile/T11736
      
      * Fixed tickets:
        #12809
        #12973
        #11736
        #13075
        #12987
      
      * This also adds a test case for #13105. This test case is
      * "compile_fail" and
      succeeds, because I want the testsuite to monitor the error message.
      When #13105 is fixed, the test case will compile cleanly.
      e7985ed2
  16. 13 Jan, 2017 1 commit
  17. 06 Jan, 2017 3 commits
  18. 05 Jan, 2017 1 commit
    • Simon Peyton Jones's avatar
      Ensure nested binders have Internal Names · baf9ebe5
      Simon Peyton Jones authored
      This is a long-standing bug.  A nested (non-top-level) binder
      in Core should not have an External Name, like M.x. But
      
      - Lint was not checking this invariant
      
      - The desugarer could generate programs that failed the
        invariant.  An example is in
        tests/deSugar/should_compile/T13043, which had
           let !_ = M.scState in ...
        This desugared to
           let ds = case M.scSate of M.scState { DEFAULT -> () }
           in case ds of () -> ...
      
        We were wrongly re-using that scrutinee as a case binder.
        And Trac #13043 showed that could ultimately lead to two
        top-level bindings with the same closure name.  Alas!
      
      - The desugarer had one other place (in DsUtils.mkCoreAppDs)
        that could generate bogus code
      
      This patch fixes all three bugs, and adds a regression test.
      baf9ebe5
  19. 21 Dec, 2016 2 commits
    • Simon Peyton Jones's avatar
      Move InId/OutId to CoreSyn · 05d233e8
      Simon Peyton Jones authored
      It turned out that many different modules defined the same type
      synonyms (InId, OutId, InType, OutType, etc) for the same purpose.
      
      This patch is refactoring only: it moves all those definitions to
      CoreSyn.
      05d233e8
    • Simon Peyton Jones's avatar
      Lint DFunUnfoldings · 0a18231b
      Simon Peyton Jones authored
      Previously we simply failed to Lint these DFunUnfoldings, which led
      to a very delayed error message for Trac #12944
      0a18231b
  20. 30 Nov, 2016 1 commit
  21. 29 Nov, 2016 1 commit
  22. 13 Nov, 2016 1 commit
    • Ben Gamari's avatar
      Kill Type pretty-printer · 6c0f10fa
      Ben Gamari authored
      Here we consolidate the pretty-printing logic for types in IfaceType. We
      need IfaceType regardless and the printer for Type can be implemented in
      terms of that for IfaceType. See #11660.
      
      Note that this is very much a work-in-progress. Namely I still have yet
      to ponder how to ease the hs-boot file situation, still need to rip out
      more dead code, need to move some of the special cases for, e.g., `*` to
      the IfaceType printer, and need to get it to validate. That being said,
      it comes close to validating as-is.
      
      Test Plan: Validate
      
      Reviewers: goldfire, austin
      
      Subscribers: goldfire, thomie, simonpj
      
      Differential Revision: https://phabricator.haskell.org/D2528
      
      GHC Trac Issues: #11660
      6c0f10fa
  23. 25 Aug, 2016 1 commit
  24. 14 Aug, 2016 1 commit
  25. 21 Jul, 2016 1 commit
    • Ömer Sinan Ağacan's avatar
      Implement unboxed sum primitive type · 714bebff
      Ömer Sinan Ağacan authored
      Summary:
      This patch implements primitive unboxed sum types, as described in
      https://ghc.haskell.org/trac/ghc/wiki/UnpackedSumTypes.
      
      Main changes are:
      
      - Add new syntax for unboxed sums types, terms and patterns. Hidden
        behind `-XUnboxedSums`.
      
      - Add unlifted unboxed sum type constructors and data constructors,
        extend type and pattern checkers and desugarer.
      
      - Add new RuntimeRep for unboxed sums.
      
      - Extend unarise pass to translate unboxed sums to unboxed tuples right
        before code generation.
      
      - Add `StgRubbishArg` to `StgArg`, and a new type `CmmArg` for better
        code generation when sum values are involved.
      
      - Add user manual section for unboxed sums.
      
      Some other changes:
      
      - Generalize `UbxTupleRep` to `MultiRep` and `UbxTupAlt` to
        `MultiValAlt` to be able to use those with both sums and tuples.
      
      - Don't use `tyConPrimRep` in `isVoidTy`: `tyConPrimRep` is really
        wrong, given an `Any` `TyCon`, there's no way to tell what its kind
        is, but `kindPrimRep` and in turn `tyConPrimRep` returns `PtrRep`.
      
      - Fix some bugs on the way: #12375.
      
      Not included in this patch:
      
      - Update Haddock for new the new unboxed sum syntax.
      
      - `TemplateHaskell` support is left as future work.
      
      For reviewers:
      
      - Front-end code is mostly trivial and adapted from unboxed tuple code
        for type checking, pattern checking, renaming, desugaring etc.
      
      - Main translation routines are in `RepType` and `UnariseStg`.
        Documentation in `UnariseStg` should be enough for understanding
        what's going on.
      
      Credits:
      
      - Johan Tibell wrote the initial front-end and interface file
        extensions.
      
      - Simon Peyton Jones reviewed this patch many times, wrote some code,
        and helped with debugging.
      
      Reviewers: bgamari, alanz, goldfire, RyanGlScott, simonpj, austin,
                 simonmar, hvr, erikd
      
      Reviewed By: simonpj
      
      Subscribers: Iceland_jack, ggreif, ezyang, RyanGlScott, goldfire,
                   thomie, mpickering
      
      Differential Revision: https://phabricator.haskell.org/D2259
      714bebff
  26. 28 Jun, 2016 1 commit
    • Facundo Domínguez's avatar
      Stop the simplifier from removing StaticPtr binds. · dd92c67b
      Facundo Domínguez authored
      Summary:
      We have the FloatOut pass create exported ids for floated StaticPtr
      bindings. The simplifier doesn't try to remove those.
      
      This patch also improves on 7fc20b by making a common definition
      collectStaticPtrSatArgs to test for StaticPtr binds.
      
      Fixes #12207.
      
      Test Plan: ./validate
      
      Reviewers: simonpj, austin, bgamari, simonmar, goldfire
      
      Reviewed By: simonpj
      
      Subscribers: thomie
      
      Differential Revision: https://phabricator.haskell.org/D2366
      
      GHC Trac Issues: #12207
      dd92c67b
  27. 23 Jun, 2016 1 commit
  28. 22 Jun, 2016 1 commit
  29. 17 Jun, 2016 1 commit
  30. 15 Jun, 2016 1 commit
    • Simon Peyton Jones's avatar
      Re-add FunTy (big patch) · 77bb0927
      Simon Peyton Jones authored
      With TypeInType Richard combined ForAllTy and FunTy, but that was often
      awkward, and yielded little benefit becuase in practice the two were
      always treated separately.  This patch re-introduces FunTy.  Specfically
      
      * New type
          data TyVarBinder = TvBndr TyVar VisibilityFlag
        This /always/ has a TyVar it.  In many places that's just what
        what we want, so there are /lots/ of TyBinder -> TyVarBinder changes
      
      * TyBinder still exists:
          data TyBinder = Named TyVarBinder | Anon Type
      
      * data Type = ForAllTy TyVarBinder Type
                  | FunTy Type Type
                  |  ....
      
      There are a LOT of knock-on changes, but they are all routine.
      
      The Haddock submodule needs to be updated too
      77bb0927
  31. 08 Jun, 2016 1 commit
  32. 18 May, 2016 1 commit
    • niteria's avatar
      Kill varEnvElts in tcPragExpr · 13e40f99
      niteria authored
      I had to refactor some things to take VarSet instead of [Var],
      but I think it's more precise this way.
      
      Test Plan: ./validate
      
      Reviewers: simonmar, simonpj, austin, bgamari, goldfire
      
      Reviewed By: simonpj
      
      Subscribers: thomie
      
      Differential Revision: https://phabricator.haskell.org/D2227
      
      GHC Trac Issues: #4012
      13e40f99
  33. 10 May, 2016 1 commit
  34. 06 May, 2016 1 commit
  35. 02 May, 2016 1 commit
    • Facundo Domínguez's avatar
      StaticPointers: Allow closed vars in the static form. · 36d29f7c
      Facundo Domínguez authored
      Summary:
      With this patch closed variables are allowed regardless of whether
      they are bound at the top level or not.
      
      The FloatOut pass is always performed. When optimizations are
      disabled, only expressions that go to the top level are floated.
      Thus, the applications of the StaticPtr data constructor are always
      floated.
      
      The CoreTidy pass makes sure the floated applications appear in the
      symbol table of object files. It also collects the floated bindings
      and inserts them in the static pointer table.
      
      The renamer does not check anymore if free variables appearing in the
      static form are top-level. Instead, the typechecker looks at the
      tct_closed flag to decide if the free variables are closed.
      
      The linter checks that applications of StaticPtr only occur at the
      top of top-level bindings after the FloatOut pass.
      
      The field spInfoName of StaticPtrInfo has been removed. It used to
      contain the name of the top-level binding that contains the StaticPtr
      application. However, this information is no longer available when the
      StaticPtr is constructed, as the binding name is determined now by the
      FloatOut pass.
      
      Test Plan: ./validate
      
      Reviewers: goldfire, simonpj, austin, hvr, bgamari
      
      Reviewed By: simonpj
      
      Subscribers: thomie, mpickering, mboes
      
      Differential Revision: https://phabricator.haskell.org/D2104
      
      GHC Trac Issues: #11656
      36d29f7c
  36. 28 Apr, 2016 1 commit