1. 30 Jan, 2013 1 commit
  2. 24 Jan, 2013 1 commit
  3. 17 Jan, 2013 1 commit
    • Simon Peyton Jones's avatar
      Minor impovement to when we float a let out of · b4e86fa8
      Simon Peyton Jones authored
      a right-hand side:
      
      Note [Float when cheap or expandable]
      ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
      We want to float a let from a let if the residual RHS is
         a) cheap, such as (\x. blah)
         b) expandable, such as (f b) if f is CONLIKE
      But there are
        - cheap things that are not expandable (eg \x. expensive)
        - expandable things that are not cheap (eg (f b) where b is CONLIKE)
      so we must take the 'or' of the two.
      b4e86fa8
  4. 09 Oct, 2012 1 commit
  5. 05 Jun, 2012 1 commit
  6. 12 Jan, 2012 1 commit
    • Simon Peyton Jones's avatar
      Fix Trac #5658: strict bindings not floated in · 3beb1a83
      Simon Peyton Jones authored
      Two changes here
      
      * The main change here is to enhance the FloatIn pass so that it can
        float case-bindings inwards.  In particular the case bindings for
        array indexing.
      
      * Also change the code in Simplify, to allow a case on array
        indexing (ie can_fail is true) to be discarded altogether if its
        results are unused.
      
      Lots of new comments in PrimOp about can_fail and has_side_effects
      
      Some refactoring to share the FloatBind data structure between
      FloatIn and FloatOut
      3beb1a83
  7. 10 Nov, 2011 1 commit
  8. 04 Nov, 2011 1 commit
  9. 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
  10. 23 Jul, 2011 1 commit
    • Simon Peyton Jones's avatar
      A nice tidy-up for CvSubst and liftCoSubst · 525aca2c
      Simon Peyton Jones authored
      A "lifting substitition" takes a *type* to a *coercion*, using a
      substitution that takes a *type variable* to a *coercion*.  We were
      using a CvSubst for this purpose, which was an awkward exception: in
      every other use of CvSubst, type variables map only to types.
      
      Turned out that Coercion.liftCoSubst is quite a small function, so I
      rewrote it with a special substitution type Coercion.LiftCoSubst, just
      for that purpose.  In doing so I found that the function itself was
      bizarrely over-complicated ... a direct result of mis-using CvSubst.
      
      So this patch makes it all simpler, faster, and easier to understand.
      No bugs fixed though!
      525aca2c
  11. 21 Jul, 2011 1 commit
  12. 12 May, 2011 1 commit
    • Simon Peyton Jones's avatar
      The final batch of changes for the new coercion representation · c8c2f6bb
      Simon Peyton Jones authored
      * Fix bugs in the packing and unpacking of data
        constructors with equality predicates in their types
      
      * Remove PredCo altogether; instead, coercions between predicated
        types (like  (Eq a, [a]~b) => blah) are treated as if they
        were precisely their underlying representation type
             Eq a -> ((~) [a] b) -> blah
        in this case
      
      * Similarly, Type.coreView no longer treats equality
        predciates specially.
      
      * Implement the cast-of-coercion optimisation in
        Simplify.simplCoercionF
      
      Numerous other small bug-fixes and refactorings.
      
      Annoyingly, OptCoercion had Windows line endings, and this
      patch switches to Unix, so it looks as if every line has changed.
      c8c2f6bb
  13. 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
  14. 26 Nov, 2010 2 commits
  15. 16 Nov, 2010 1 commit
    • simonpj@microsoft.com's avatar
      Refactoring of the way that inlinings and rules are activated · c177e43f
      simonpj@microsoft.com authored
      Principally, the SimplifierMode now carries several (currently
      four) flags in *all* phases, not just the "Gentle" phase.
      This makes things simpler and more uniform.
      
      As usual I did more refactoring than I had intended.
      
      This stuff should go into 7.0.2 in due course, once
      we've checked it solves the DPH performance problems.
      c177e43f
  16. 27 Oct, 2010 1 commit
    • simonpj@microsoft.com's avatar
      Two signficant changes to the simplifier · f95a9542
      simonpj@microsoft.com authored
      1. Do eta-expansion at let-bindings, not lambdas.
         I have wanted to do this for a long time.
         See Note [Eta-expanding at let bindings] in SimplUtils
      
      2. Simplify the rather subtle way in which InlineRules (the
         template captured by an INLINE pragma) was simplified.
         Now, these templates are always simplified in "gentle"
         mode only, and only INLINE things inline inside them.
      
         See Note Note [Gentle mode], Note [Inlining in gentle mode]
         and Note [RULEs enabled in SimplGently] in SimplUtils
      f95a9542
  17. 25 Oct, 2010 1 commit
    • simonpj@microsoft.com's avatar
      Do not (ever) use substExprSC in the simplifier · 2cda6f9f
      simonpj@microsoft.com authored
      "Short-cut" substitution means "do nothing if the substitution
      is empty". We *never* want do to that in the simplifier because
      even though the substitution is empty, the in-scope set has
      useful information:
      
       * We get up-to-date unfoldings; and that in turn may
         reduce the number of iterations of the simplifier
      
       * We avoid space leaks, because failing to substitute may
         hang on to old Ids from a previous iteration
      
      (This is what was causing the late inlining of foo in
      Trac #4428.)
      2cda6f9f
  18. 13 Sep, 2010 1 commit
  19. 24 Dec, 2009 1 commit
  20. 18 Dec, 2009 1 commit
    • simonpj@microsoft.com's avatar
      Move all the CoreToDo stuff into CoreMonad · 63e3a411
      simonpj@microsoft.com authored
      This patch moves a lot of code around, but has zero functionality change.
      The idea is that the types
      
          CoreToDo
          SimplifierSwitch	
          SimplifierMode
          FloatOutSwitches
      
      and 
      
          the main core-to-core pipeline construction
      
      belong in simplCore/, and *not* in DynFlags.
      63e3a411
  21. 16 Dec, 2009 1 commit
    • simonpj@microsoft.com's avatar
      Two improvements to optCoercion · 06481242
      simonpj@microsoft.com authored
      * Fix a bug that meant that 
           (right (inst (forall tv.co) ty)) 
        wasn't getting optimised.  This showed up in the
        compiled code for ByteCodeItbls
      
      * Add a substitution to optCoercion, so that it simultaneously
        substitutes and optimises.  Both call sites wanted this, and
        optCoercion itself can use it, so it seems a win all round.
      06481242
  22. 17 Nov, 2009 1 commit
    • simonpj@microsoft.com's avatar
      Apply RULES to simplified arguments · 0c9282a2
      simonpj@microsoft.com authored
      See Note [RULEs apply to simplified arguments] in Simplify.lhs
      A knock-on effect is that rules apply *after* we try inlining
      (which uses un-simplified arguments), but that seems fine.
      0c9282a2
  23. 10 Nov, 2009 1 commit
  24. 09 Nov, 2009 1 commit
  25. 29 Oct, 2009 1 commit
    • simonpj@microsoft.com's avatar
      The Big INLINE Patch: totally reorganise way that INLINE pragmas work · 72462499
      simonpj@microsoft.com authored
      This patch has been a long time in gestation and has, as a
      result, accumulated some extra bits and bobs that are only
      loosely related.  I separated the bits that are easy to split
      off, but the rest comes as one big patch, I'm afraid.
      
      Note that:
       * It comes together with a patch to the 'base' library
       * Interface file formats change slightly, so you need to
         recompile all libraries
      
      The patch is mainly giant tidy-up, driven in part by the
      particular stresses of the Data Parallel Haskell project. I don't
      expect a big performance win for random programs.  Still, here are the
      nofib results, relative to the state of affairs without the patch
      
              Program           Size    Allocs   Runtime   Elapsed
      --------------------------------------------------------------------------------
                  Min         -12.7%    -14.5%    -17.5%    -17.8%
                  Max          +4.7%    +10.9%     +9.1%     +8.4%
       Geometric Mean          +0.9%     -0.1%     -5.6%     -7.3%
      
      The +10.9% allocation outlier is rewrite, which happens to have a
      very delicate optimisation opportunity involving an interaction
      of CSE and inlining (see nofib/Simon-nofib-notes). The fact that
      the 'before' case found the optimisation is somewhat accidental.
      Runtimes seem to go down, but I never kno wwhether to really trust
      this number.  Binary sizes wobble a bit, but nothing drastic.
      
      
      The Main Ideas are as follows.
      
      InlineRules
      ~~~~~~~~~~~
      When you say 
            {-# INLINE f #-}
            f x = <rhs>
      you intend that calls (f e) are replaced by <rhs>[e/x] So we
      should capture (\x.<rhs>) in the Unfolding of 'f', and never meddle
      with it.  Meanwhile, we can optimise <rhs> to our heart's content,
      leaving the original unfolding intact in Unfolding of 'f'.
      
      So the representation of an Unfolding has changed quite a bit
      (see CoreSyn).  An INLINE pragma gives rise to an InlineRule 
      unfolding.  
      
      Moreover, it's only used when 'f' is applied to the
      specified number of arguments; that is, the number of argument on 
      the LHS of the '=' sign in the original source definition. 
      For example, (.) is now defined in the libraries like this
         {-# INLINE (.) #-}
         (.) f g = \x -> f (g x)
      so that it'll inline when applied to two arguments. If 'x' appeared
      on the left, thus
         (.) f g x = f (g x)
      it'd only inline when applied to three arguments.  This slightly-experimental
      change was requested by Roman, but it seems to make sense.
      
      Other associated changes
      
      * Moving the deck chairs in DsBinds, which processes the INLINE pragmas
      
      * In the old system an INLINE pragma made the RHS look like
         (Note InlineMe <rhs>)
        The Note switched off optimisation in <rhs>.  But it was quite
        fragile in corner cases. The new system is more robust, I believe.
        In any case, the InlineMe note has disappeared 
      
      * The workerInfo of an Id has also been combined into its Unfolding,
        so it's no longer a separate field of the IdInfo.
      
      * Many changes in CoreUnfold, esp in callSiteInline, which is the critical
        function that decides which function to inline.  Lots of comments added!
      
      * exprIsConApp_maybe has moved to CoreUnfold, since it's so strongly
        associated with "does this expression unfold to a constructor application".
        It can now do some limited beta reduction too, which Roman found 
        was an important.
      
      Instance declarations
      ~~~~~~~~~~~~~~~~~~~~~
      It's always been tricky to get the dfuns generated from instance
      declarations to work out well.  This is particularly important in 
      the Data Parallel Haskell project, and I'm now on my fourth attempt,
      more or less.
      
      There is a detailed description in TcInstDcls, particularly in
      Note [How instance declarations are translated].   Roughly speaking
      we now generate a top-level helper function for every method definition
      in an instance declaration, so that the dfun takes a particularly
      stylised form:
        dfun a d1 d2 = MkD (op1 a d1 d2) (op2 a d1 d2) ...etc...
      
      In fact, it's *so* stylised that we never need to unfold a dfun.
      Instead ClassOps have a special rewrite rule that allows us to
      short-cut dictionary selection.  Suppose dfun :: Ord a -> Ord [a]
                                                  d :: Ord a
      Then   
          compare (dfun a d)  -->   compare_list a d 
      in one rewrite, without first inlining the 'compare' selector
      and the body of the dfun.
      
      To support this
      a) ClassOps have a BuiltInRule (see MkId.dictSelRule)
      b) DFuns have a special form of unfolding (CoreSyn.DFunUnfolding)
         which is exploited in CoreUnfold.exprIsConApp_maybe
      
      Implmenting all this required a root-and-branch rework of TcInstDcls
      and bits of TcClassDcl.
      
      
      Default methods
      ~~~~~~~~~~~~~~~
      If you give an INLINE pragma to a default method, it should be just
      as if you'd written out that code in each instance declaration, including
      the INLINE pragma.  I think that it now *is* so.  As a result, library
      code can be simpler; less duplication.
      
      
      The CONLIKE pragma
      ~~~~~~~~~~~~~~~~~~
      In the DPH project, Roman found cases where he had
      
         p n k = let x = replicate n k
                 in ...(f x)...(g x)....
      
         {-# RULE f (replicate x) = f_rep x #-}
      
      Normally the RULE would not fire, because doing so involves 
      (in effect) duplicating the redex (replicate n k).  A new
      experimental modifier to the INLINE pragma, {-# INLINE CONLIKE
      replicate #-}, allows you to tell GHC to be prepared to duplicate
      a call of this function if it allows a RULE to fire.
      
      See Note [CONLIKE pragma] in BasicTypes
      
      
      Join points
      ~~~~~~~~~~~
      See Note [Case binders and join points] in Simplify
      
      
      Other refactoring
      ~~~~~~~~~~~~~~~~~
      * I moved endPass from CoreLint to CoreMonad, with associated jigglings
      
      * Better pretty-printing of Core
      
      * The top-level RULES (ones that are not rules for locally-defined things)
        are now substituted on every simplifier iteration.  I'm not sure how
        we got away without doing this before.  This entails a bit more plumbing
        in SimplCore.
      
      * The necessary stuff to serialise and deserialise the new
        info across interface files.
      
      * Something about bottoming floats in SetLevels
            Note [Bottoming floats]
      
      * substUnfolding has moved from SimplEnv to CoreSubs, where it belongs
      
      
      --------------------------------------------------------------------------------
              Program           Size    Allocs   Runtime   Elapsed
      --------------------------------------------------------------------------------
                 anna          +2.4%     -0.5%      0.16      0.17
                 ansi          +2.6%     -0.1%      0.00      0.00
                 atom          -3.8%     -0.0%     -1.0%     -2.5%
               awards          +3.0%     +0.7%      0.00      0.00
               banner          +3.3%     -0.0%      0.00      0.00
           bernouilli          +2.7%     +0.0%     -4.6%     -6.9%
                boyer          +2.6%     +0.0%      0.06      0.07
               boyer2          +4.4%     +0.2%      0.01      0.01
                 bspt          +3.2%     +9.6%      0.02      0.02
            cacheprof          +1.4%     -1.0%    -12.2%    -13.6%
             calendar          +2.7%     -1.7%      0.00      0.00
             cichelli          +3.7%     -0.0%      0.13      0.14
              circsim          +3.3%     +0.0%     -2.3%     -9.9%
             clausify          +2.7%     +0.0%      0.05      0.06
        comp_lab_zift          +2.6%     -0.3%     -7.2%     -7.9%
             compress          +3.3%     +0.0%     -8.5%     -9.6%
            compress2          +3.6%     +0.0%    -15.1%    -17.8%
          constraints          +2.7%     -0.6%    -10.0%    -10.7%
         cryptarithm1          +4.5%     +0.0%     -4.7%     -5.7%
         cryptarithm2          +4.3%    -14.5%      0.02      0.02
                  cse          +4.4%     -0.0%      0.00      0.00
                eliza          +2.8%     -0.1%      0.00      0.00
                event          +2.6%     -0.0%     -4.9%     -4.4%
               exp3_8          +2.8%     +0.0%     -4.5%     -9.5%
               expert          +2.7%     +0.3%      0.00      0.00
                  fem          -2.0%     +0.6%      0.04      0.04
                  fft          -6.0%     +1.8%      0.05      0.06
                 fft2          -4.8%     +2.7%      0.13      0.14
             fibheaps          +2.6%     -0.6%      0.05      0.05
                 fish          +4.1%     +0.0%      0.03      0.04
                fluid          -2.1%     -0.2%      0.01      0.01
               fulsom          -4.8%     +9.2%     +9.1%     +8.4%
               gamteb          -7.1%     -1.3%      0.10      0.11
                  gcd          +2.7%     +0.0%      0.05      0.05
          gen_regexps          +3.9%     -0.0%      0.00      0.00
               genfft          +2.7%     -0.1%      0.05      0.06
                   gg          -2.7%     -0.1%      0.02      0.02
                 grep          +3.2%     -0.0%      0.00      0.00
               hidden          -0.5%     +0.0%    -11.9%    -13.3%
                  hpg          -3.0%     -1.8%     +0.0%     -2.4%
                  ida          +2.6%     -1.2%      0.17     -9.0%
                infer          +1.7%     -0.8%      0.08      0.09
              integer          +2.5%     -0.0%     -2.6%     -2.2%
            integrate          -5.0%     +0.0%     -1.3%     -2.9%
              knights          +4.3%     -1.5%      0.01      0.01
                 lcss          +2.5%     -0.1%     -7.5%     -9.4%
                 life          +4.2%     +0.0%     -3.1%     -3.3%
                 lift          +2.4%     -3.2%      0.00      0.00
            listcompr          +4.0%     -1.6%      0.16      0.17
             listcopy          +4.0%     -1.4%      0.17      0.18
             maillist          +4.1%     +0.1%      0.09      0.14
               mandel          +2.9%     +0.0%      0.11      0.12
              mandel2          +4.7%     +0.0%      0.01      0.01
              minimax          +3.8%     -0.0%      0.00      0.00
              mkhprog          +3.2%     -4.2%      0.00      0.00
           multiplier          +2.5%     -0.4%     +0.7%     -1.3%
             nucleic2          -9.3%     +0.0%      0.10      0.10
                 para          +2.9%     +0.1%     -0.7%     -1.2%
            paraffins         -10.4%     +0.0%      0.20     -1.9%
               parser          +3.1%     -0.0%      0.05      0.05
              parstof          +1.9%     -0.0%      0.00      0.01
                  pic          -2.8%     -0.8%      0.01      0.02
                power          +2.1%     +0.1%     -8.5%     -9.0%
               pretty         -12.7%     +0.1%      0.00      0.00
               primes          +2.8%     +0.0%      0.11      0.11
            primetest          +2.5%     -0.0%     -2.1%     -3.1%
               prolog          +3.2%     -7.2%      0.00      0.00
               puzzle          +4.1%     +0.0%     -3.5%     -8.0%
               queens          +2.8%     +0.0%      0.03      0.03
              reptile          +2.2%     -2.2%      0.02      0.02
              rewrite          +3.1%    +10.9%      0.03      0.03
                 rfib          -5.2%     +0.2%      0.03      0.03
                  rsa          +2.6%     +0.0%      0.05      0.06
                  scc          +4.6%     +0.4%      0.00      0.00
                sched          +2.7%     +0.1%      0.03      0.03
                  scs          -2.6%     -0.9%     -9.6%    -11.6%
               simple          -4.0%     +0.4%    -14.6%    -14.9%
                solid          -5.6%     -0.6%     -9.3%    -14.3%
              sorting          +3.8%     +0.0%      0.00      0.00
               sphere          -3.6%     +8.5%      0.15      0.16
               symalg          -1.3%     +0.2%      0.03      0.03
                  tak          +2.7%     +0.0%      0.02      0.02
            transform          +2.0%     -2.9%     -8.0%     -8.8%
             treejoin          +3.1%     +0.0%    -17.5%    -17.8%
            typecheck          +2.9%     -0.3%     -4.6%     -6.6%
              veritas          +3.9%     -0.3%      0.00      0.00
                 wang          -6.2%     +0.0%      0.18     -9.8%
            wave4main         -10.3%     +2.6%     -2.1%     -2.3%
         wheel-sieve1          +2.7%     -0.0%     +0.3%     -0.6%
         wheel-sieve2          +2.7%     +0.0%     -3.7%     -7.5%
                 x2n1          -4.1%     +0.1%      0.03      0.04
      --------------------------------------------------------------------------------
                  Min         -12.7%    -14.5%    -17.5%    -17.8%
                  Max          +4.7%    +10.9%     +9.1%     +8.4%
       Geometric Mean          +0.9%     -0.1%     -5.6%     -7.3%
      72462499
  26. 18 Mar, 2009 1 commit
    • simonpj@microsoft.com's avatar
      Add the notion of "constructor-like" Ids for rule-matching · 4bc25e8c
      simonpj@microsoft.com authored
      This patch adds an optional CONLIKE modifier to INLINE/NOINLINE pragmas, 
         {-# NOINLINE CONLIKE [1] f #-}
      The effect is to allow applications of 'f' to be expanded in a potential
      rule match.  Example
        {-# RULE "r/f" forall v. r (f v) = f (v+1) #-}
      
      Consider the term
           let x = f v in ..x...x...(r x)...
      Normally the (r x) would not match the rule, because GHC would be scared
      about duplicating the redex (f v). However the CONLIKE modifier says to
      treat 'f' like a constructor in this situation, and "look through" the
      unfolding for x.  So (r x) fires, yielding (f (v+1)).
      
      The main changes are:
        - Syntax
      
        - The inlinePragInfo field of an IdInfo has a RuleMatchInfo
          component, which records whether or not the Id is CONLIKE.
          Of course, this needs to be serialised in interface files too.
      
        - The occurrence analyser (OccAnal) and simplifier (Simplify) treat
          CONLIKE thing like constructors, by ANF-ing them
      
        - New function coreUtils.exprIsExpandable is like exprIsCheap, but
          additionally spots applications of CONLIKE functions
      
        - A CoreUnfolding has a field that caches exprIsExpandable
      
        - The rule matcher consults this field.  See 
          Note [Expanding variables] in Rules.lhs.
      
      On the way I fixed a lurking variable bug in the way variables are
      expanded.  See Note [Do not expand locally-bound variables] in
      Rule.lhs.  I also did a bit of reformatting and refactoring in
      Rules.lhs, so the module has more lines changed than are really
      different.
      4bc25e8c
  27. 16 Dec, 2008 1 commit
    • Simon Marlow's avatar
      Rollback INLINE patches · e79c9ce0
      Simon Marlow authored
      rolling back:
      
      Fri Dec  5 16:54:00 GMT 2008  simonpj@microsoft.com
        * Completely new treatment of INLINE pragmas (big patch)
        
        This is a major patch, which changes the way INLINE pragmas work.
        Although lots of files are touched, the net is only +21 lines of
        code -- and I bet that most of those are comments!
        
        HEADS UP: interface file format has changed, so you'll need to
        recompile everything.
        
        There is not much effect on overall performance for nofib, 
        probably because those programs don't make heavy use of INLINE pragmas.
        
                Program           Size    Allocs   Runtime   Elapsed
                    Min         -11.3%     -6.9%     -9.2%     -8.2%
                    Max          -0.1%     +4.6%     +7.5%     +8.9%
         Geometric Mean          -2.2%     -0.2%     -1.0%     -0.8%
        
        (The +4.6% for on allocs is cichelli; see other patch relating to
        -fpass-case-bndr-to-join-points.)
        
        The old INLINE system
        ~~~~~~~~~~~~~~~~~~~~~
        The old system worked like this. A function with an INLINE pragam
        got a right-hand side which looked like
             f = __inline_me__ (\xy. e)
        The __inline_me__ part was an InlineNote, and was treated specially
        in various ways.  Notably, the simplifier didn't inline inside an
        __inline_me__ note.  
        
        As a result, the code for f itself was pretty crappy. That matters
        if you say (map f xs), because then you execute the code for f,
        rather than inlining a copy at the call site.
        
        The new story: InlineRules
        ~~~~~~~~~~~~~~~~~~~~~~~~~~
        The new system removes the InlineMe Note altogether.  Instead there
        is a new constructor InlineRule in CoreSyn.Unfolding.  This is a 
        bit like a RULE, in that it remembers the template to be inlined inside
        the InlineRule.  No simplification or inlining is done on an InlineRule,
        just like RULEs.  
        
        An Id can have an InlineRule *or* a CoreUnfolding (since these are two
        constructors from Unfolding). The simplifier treats them differently:
        
          - An InlineRule is has the substitution applied (like RULES) but 
            is otherwise left undisturbed.
        
          - A CoreUnfolding is updated with the new RHS of the definition,
            on each iteration of the simplifier.
        
        An InlineRule fires regardless of size, but *only* when the function
        is applied to enough arguments.  The "arity" of the rule is specified
        (by the programmer) as the number of args on the LHS of the "=".  So
        it makes a difference whether you say
          	{-# INLINE f #-}
        	f x = \y -> e     or     f x y = e
        This is one of the big new features that InlineRule gives us, and it
        is one that Roman really wanted.
        
        In contrast, a CoreUnfolding can fire when it is applied to fewer
        args than than the function has lambdas, provided the result is small
        enough.
        
        
        Consequential stuff
        ~~~~~~~~~~~~~~~~~~~
        * A 'wrapper' no longer has a WrapperInfo in the IdInfo.  Instead,
          the InlineRule has a field identifying wrappers.
        
        * Of course, IfaceSyn and interface serialisation changes appropriately.
        
        * Making implication constraints inline nicely was a bit fiddly. In
          the end I added a var_inline field to HsBInd.VarBind, which is why
          this patch affects the type checker slightly
        
        * I made some changes to the way in which eta expansion happens in
          CorePrep, mainly to ensure that *arguments* that become let-bound
          are also eta-expanded.  I'm still not too happy with the clarity
          and robustness fo the result.
        
        * We now complain if the programmer gives an INLINE pragma for
          a recursive function (prevsiously we just ignored it).  Reason for
          change: we don't want an InlineRule on a LoopBreaker, because then
          we'd have to check for loop-breaker-hood at occurrence sites (which
          isn't currenlty done).  Some tests need changing as a result.
        
        This patch has been in my tree for quite a while, so there are
        probably some other minor changes.
        
      
          M ./compiler/basicTypes/Id.lhs -11
          M ./compiler/basicTypes/IdInfo.lhs -82
          M ./compiler/basicTypes/MkId.lhs -2 +2
          M ./compiler/coreSyn/CoreFVs.lhs -2 +25
          M ./compiler/coreSyn/CoreLint.lhs -5 +1
          M ./compiler/coreSyn/CorePrep.lhs -59 +53
          M ./compiler/coreSyn/CoreSubst.lhs -22 +31
          M ./compiler/coreSyn/CoreSyn.lhs -66 +92
          M ./compiler/coreSyn/CoreUnfold.lhs -112 +112
          M ./compiler/coreSyn/CoreUtils.lhs -185 +184
          M ./compiler/coreSyn/MkExternalCore.lhs -1
          M ./compiler/coreSyn/PprCore.lhs -4 +40
          M ./compiler/deSugar/DsBinds.lhs -70 +118
          M ./compiler/deSugar/DsForeign.lhs -2 +4
          M ./compiler/deSugar/DsMeta.hs -4 +3
          M ./compiler/hsSyn/HsBinds.lhs -3 +3
          M ./compiler/hsSyn/HsUtils.lhs -2 +7
          M ./compiler/iface/BinIface.hs -11 +25
          M ./compiler/iface/IfaceSyn.lhs -13 +21
          M ./compiler/iface/MkIface.lhs -24 +19
          M ./compiler/iface/TcIface.lhs -29 +23
          M ./compiler/main/TidyPgm.lhs -55 +49
          M ./compiler/parser/ParserCore.y -5 +6
          M ./compiler/simplCore/CSE.lhs -2 +1
          M ./compiler/simplCore/FloatIn.lhs -6 +1
          M ./compiler/simplCore/FloatOut.lhs -23
          M ./compiler/simplCore/OccurAnal.lhs -36 +5
          M ./compiler/simplCore/SetLevels.lhs -59 +54
          M ./compiler/simplCore/SimplCore.lhs -48 +52
          M ./compiler/simplCore/SimplEnv.lhs -26 +22
          M ./compiler/simplCore/SimplUtils.lhs -28 +4
          M ./compiler/simplCore/Simplify.lhs -91 +109
          M ./compiler/specialise/Specialise.lhs -15 +18
          M ./compiler/stranal/WorkWrap.lhs -14 +11
          M ./compiler/stranal/WwLib.lhs -2 +2
          M ./compiler/typecheck/Inst.lhs -1 +3
          M ./compiler/typecheck/TcBinds.lhs -17 +27
          M ./compiler/typecheck/TcClassDcl.lhs -1 +2
          M ./compiler/typecheck/TcExpr.lhs -4 +6
          M ./compiler/typecheck/TcForeign.lhs -1 +1
          M ./compiler/typecheck/TcGenDeriv.lhs -14 +13
          M ./compiler/typecheck/TcHsSyn.lhs -3 +2
          M ./compiler/typecheck/TcInstDcls.lhs -5 +4
          M ./compiler/typecheck/TcRnDriver.lhs -2 +11
          M ./compiler/typecheck/TcSimplify.lhs -10 +17
          M ./compiler/vectorise/VectType.hs +7
      
      Mon Dec  8 12:43:10 GMT 2008  simonpj@microsoft.com
        * White space only
      
          M ./compiler/simplCore/Simplify.lhs -2
      
      Mon Dec  8 12:48:40 GMT 2008  simonpj@microsoft.com
        * Move simpleOptExpr from CoreUnfold to CoreSubst
      
          M ./compiler/coreSyn/CoreSubst.lhs -1 +87
          M ./compiler/coreSyn/CoreUnfold.lhs -72 +1
      
      Mon Dec  8 17:30:18 GMT 2008  simonpj@microsoft.com
        * Use CoreSubst.simpleOptExpr in place of the ad-hoc simpleSubst (reduces code too)
      
          M ./compiler/deSugar/DsBinds.lhs -50 +16
      
      Tue Dec  9 17:03:02 GMT 2008  simonpj@microsoft.com
        * Fix Trac #2861: bogus eta expansion
        
        Urghlhl!  I "tided up" the treatment of the "state hack" in CoreUtils, but
        missed an unexpected interaction with the way that a bottoming function
        simply swallows excess arguments.  There's a long
             Note [State hack and bottoming functions]
        to explain (which accounts for most of the new lines of code).
        
      
          M ./compiler/coreSyn/CoreUtils.lhs -16 +53
      
      Mon Dec 15 10:02:21 GMT 2008  Simon Marlow <marlowsd@gmail.com>
        * Revert CorePrep part of "Completely new treatment of INLINE pragmas..."
        
        The original patch said:
        
        * I made some changes to the way in which eta expansion happens in
          CorePrep, mainly to ensure that *arguments* that become let-bound
          are also eta-expanded.  I'm still not too happy with the clarity
          and robustness fo the result.
          
        Unfortunately this change apparently broke some invariants that were
        relied on elsewhere, and in particular lead to panics when compiling
        with profiling on.
        
        Will re-investigate in the new year.
      
          M ./compiler/coreSyn/CorePrep.lhs -53 +58
          M ./configure.ac -1 +1
      
      Mon Dec 15 12:28:51 GMT 2008  Simon Marlow <marlowsd@gmail.com>
        * revert accidental change to configure.ac
      
          M ./configure.ac -1 +1
      e79c9ce0
  28. 05 Dec, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Completely new treatment of INLINE pragmas (big patch) · d95ce839
      simonpj@microsoft.com authored
      This is a major patch, which changes the way INLINE pragmas work.
      Although lots of files are touched, the net is only +21 lines of
      code -- and I bet that most of those are comments!
      
      HEADS UP: interface file format has changed, so you'll need to
      recompile everything.
      
      There is not much effect on overall performance for nofib, 
      probably because those programs don't make heavy use of INLINE pragmas.
      
              Program           Size    Allocs   Runtime   Elapsed
                  Min         -11.3%     -6.9%     -9.2%     -8.2%
                  Max          -0.1%     +4.6%     +7.5%     +8.9%
       Geometric Mean          -2.2%     -0.2%     -1.0%     -0.8%
      
      (The +4.6% for on allocs is cichelli; see other patch relating to
      -fpass-case-bndr-to-join-points.)
      
      The old INLINE system
      ~~~~~~~~~~~~~~~~~~~~~
      The old system worked like this. A function with an INLINE pragam
      got a right-hand side which looked like
           f = __inline_me__ (\xy. e)
      The __inline_me__ part was an InlineNote, and was treated specially
      in various ways.  Notably, the simplifier didn't inline inside an
      __inline_me__ note.  
      
      As a result, the code for f itself was pretty crappy. That matters
      if you say (map f xs), because then you execute the code for f,
      rather than inlining a copy at the call site.
      
      The new story: InlineRules
      ~~~~~~~~~~~~~~~~~~~~~~~~~~
      The new system removes the InlineMe Note altogether.  Instead there
      is a new constructor InlineRule in CoreSyn.Unfolding.  This is a 
      bit like a RULE, in that it remembers the template to be inlined inside
      the InlineRule.  No simplification or inlining is done on an InlineRule,
      just like RULEs.  
      
      An Id can have an InlineRule *or* a CoreUnfolding (since these are two
      constructors from Unfolding). The simplifier treats them differently:
      
        - An InlineRule is has the substitution applied (like RULES) but 
          is otherwise left undisturbed.
      
        - A CoreUnfolding is updated with the new RHS of the definition,
          on each iteration of the simplifier.
      
      An InlineRule fires regardless of size, but *only* when the function
      is applied to enough arguments.  The "arity" of the rule is specified
      (by the programmer) as the number of args on the LHS of the "=".  So
      it makes a difference whether you say
        	{-# INLINE f #-}
      	f x = \y -> e     or     f x y = e
      This is one of the big new features that InlineRule gives us, and it
      is one that Roman really wanted.
      
      In contrast, a CoreUnfolding can fire when it is applied to fewer
      args than than the function has lambdas, provided the result is small
      enough.
      
      
      Consequential stuff
      ~~~~~~~~~~~~~~~~~~~
      * A 'wrapper' no longer has a WrapperInfo in the IdInfo.  Instead,
        the InlineRule has a field identifying wrappers.
      
      * Of course, IfaceSyn and interface serialisation changes appropriately.
      
      * Making implication constraints inline nicely was a bit fiddly. In
        the end I added a var_inline field to HsBInd.VarBind, which is why
        this patch affects the type checker slightly
      
      * I made some changes to the way in which eta expansion happens in
        CorePrep, mainly to ensure that *arguments* that become let-bound
        are also eta-expanded.  I'm still not too happy with the clarity
        and robustness fo the result.
      
      * We now complain if the programmer gives an INLINE pragma for
        a recursive function (prevsiously we just ignored it).  Reason for
        change: we don't want an InlineRule on a LoopBreaker, because then
        we'd have to check for loop-breaker-hood at occurrence sites (which
        isn't currenlty done).  Some tests need changing as a result.
      
      This patch has been in my tree for quite a while, so there are
      probably some other minor changes.
      d95ce839
  29. 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
  30. 17 Sep, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Fix nasty infelicity: do not short-cut empty substitution in the simplifier · 3b896bc3
      simonpj@microsoft.com authored
      I was perplexed about why an arity-related WARN was tripping. It took 
      me _day_ (sigh) to find that it was because SimplEnv.substExpr was taking
      a short cut when the substitution was empty, thereby not subsituting for
      Ids in scope, which must be done (CoreSubst Note [Extending the Subst]).
      
      The fix is a matter of deleting the "optimisation".  Same with
      CoreSubst.substSpec, although I don't know if that actually caused a
      probem.
      3b896bc3
  31. 03 Sep, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Improved specialisation of recursive groups · 78260da4
      simonpj@microsoft.com authored
      This patch significantly improves the way in which recursive groups
      are specialised.  This turns out ot be very important when specilising
      the bindings that (now) emerge from instance declarations.
      
      Consider
          let rec { f x = ...g x'...
                  ; g y = ...f y'.... }
          in f 'a'
      Here we specialise 'f' at Char; but that is very likely to lead to 
      a specialisation of 'g' at Char.  We must do the latter, else the
      whole point of specialisation is lost.  This was not happening before.
      
      The whole thing is desribed in 
          Note [Specialising a recursive group]
      
      
      Simon
      78260da4
  32. 20 Jul, 2008 1 commit
  33. 14 Jun, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Fix nasty Simplifier scoping bug · 562ce83f
      simonpj@microsoft.com authored
      This bug was somehow tickled by the new code for desugaring
      polymorphic bindings, but the bug has been there a long time.  The
      bindings floated out in simplLazyBind, generated by abstractFloats,
      were getting processed by postInlineUnconditionally. But that was
      wrong because part of their scope has already been processed.
      
      That led to a bit of refactoring in the simplifier.  See comments
      with Simplify.addPolyBind.
      
      In principle this might happen in 6.8.3, but in practice it doesn't seem
      to, so probably not worth merging.
      562ce83f
  34. 04 May, 2008 1 commit
  35. 12 Apr, 2008 1 commit
  36. 22 Apr, 2008 1 commit
    • simonpj@microsoft.com's avatar
      Simplify SimplCont, plus some other small changes to the Simplifier · 53f99d84
      simonpj@microsoft.com authored
      The main change in this patch is this:
        
        * The Stop constructor of SimplCont no longer contains the OutType
          of the whole continuation.  This is a nice simplification in 
          lots of places where we build a Stop continuation.  For example,
          rebuildCall no longer needs to maintain the type of the function.
      
        * Similarly StrictArg no longer needs an OutType
      
        * The consequential complication is that contResultType (not called
          much) needs to be given the type of the thing in the middle.  No
          big deal.
      
        * Lots of other small knock-on effects
      
      Other changes in here
      
        * simplLazyBind does do the type-abstraction thing if there's
          a lambda inside.  See comments in simplLazyBind
      
        * simplLazyBind reduces simplifier iterations by keeping 
          unfolding information for stuff for which type abstraction is 
          done (see add_poly_bind)
      
      All of this came up when implementing System IF, but seems worth applying
      to the HEAD
      53f99d84
  37. 29 Mar, 2008 1 commit
  38. 17 Jan, 2008 2 commits