Antoine Leblanc authored 1 year ago and Marge Bot committed 1 year ago

This commit performs boot-file consistency checking for TyCons into
checkValidTyCl. This ensures that we eagerly catch any mismatches,
which prevents the compiler from seeing these inconsistencies and
panicking as a result.

See Note [TyCon boot consistency checking] in GHC.Tc.TyCl.

Fixes #16127

sheaf authored 1 year ago and Marge Bot committed 1 year ago

This patch finishes migrating the error messages in GHC.Tc.Validity
to use the new diagnostic infrastructure.

It also refactors the error message datatypes for class and family
instances, to common them up under a single datatype as much as possible.

Hai Nguyen Quang authored 1 year ago and Marge Bot committed 1 year ago

This patch migrates the error messages in GHC.Tc.Validity to use
the new diagnostic infrastructure.

It adds the constructors:

  - TcRnSimplifiableConstraint
  - TcRnArityMismatch
  - TcRnIllegalInstanceDecl, with sub-datatypes for HasField errors
    and fundep coverage condition errors.

This change makes command line argument parsing use diagnostic
framework for producing warnings.

sheaf authored 1 year ago and Marge Bot committed 1 year ago

This commit migrates the errors in GHC.Tc.Module to use the new
diagnostic infrastructure.

It required a significant overhaul of the compatibility checks between
an hs-boot or signature module and its implementation; we now use
a Writer monad to accumulate errors; see the BootMismatch datatype
in GHC.Tc.Errors.Types, with its panoply of subtypes.
For the sake of readability, several local functions inside the
'checkBootTyCon' function were split off into top-level functions.

We split off GHC.Types.HscSource into a "boot or sig" vs "normal hs file"
datatype, as this mirrors the logic in several other places where we
want to treat hs-boot and hsig files in a similar fashion.

This commit also refactors the Backpack checks for type synonyms
implementing abstract data, to correctly reject implementations that
contain qualified or quantified types (this fixes #23342 and #23344).

Simon Peyton Jones authored 1 year ago and Marge Bot committed 1 year ago

Otherwise we get knock-on errors, such as #23252.

This makes GHC fail a bit sooner, and I have not attempted to add
recovery code, to add a fake TyCon place of the erroneous one,
in an attempt to get more type errors in one pass.  We could
do that (perhaps) if there was a call for it.

Torsten Schmits authored 2 years ago and Marge Bot committed 1 year ago

Tracking ticket: #20117

MR: !10183

This converts uses of `mkTcRnUnknownMessage` to newly added constructors
of `TcRnMessage`.

Andrei Borzenkov authored 2 years ago and Marge Bot committed 2 years ago

This patch implements a part of GHC Proposal #475.
The key change is in GHC.Tuple.Prim:

  - data () = ()
  - data (a,b) = (a,b)
  - data (a,b,c) = (a,b,c)
  ...
  + data Unit = ()
  + data Tuple2 a b = (a,b)
  + data Tuple3 a b c = (a,b,c)
  ...

And the rest of the patch makes sure that Unit and Tuple<n>
are pretty-printed as () and (,,...,,) in various contexts.

Updates the haddock submodule.

Co-authored-by: Vladislav Zavialov <vlad.z.4096@gmail.com>

Andrei Borzenkov authored 2 years ago and Marge Bot committed 2 years ago

I've turned almost all occurrences of TcRnUnknownMessage in GHC.Rename.Module
module into a proper TcRnMessage.
Instead, these TcRnMessage messages were introduced:
  TcRnIllegalInstanceHeadDecl
  TcRnUnexpectedStandaloneDerivingDecl
  TcRnUnusedVariableInRuleDecl
  TcRnUnexpectedStandaloneKindSig
  TcRnIllegalRuleLhs
  TcRnBadAssocRhs
  TcRnDuplicateRoleAnnot
  TcRnDuplicateKindSig
  TcRnIllegalDerivStrategy
  TcRnIllegalMultipleDerivClauses
  TcRnNoDerivStratSpecified
  TcRnStupidThetaInGadt
  TcRnBadImplicitSplice
  TcRnShadowedTyVarNameInFamResult
  TcRnIncorrectTyVarOnLhsOfInjCond
  TcRnUnknownTyVarsOnRhsOfInjCond

Was introduced one helper type:
  RuleLhsErrReason

Krzysztof Gogolewski authored 2 years ago and Marge Bot committed 2 years ago

Literals in Core were printed as e.g. 0xFF#16 :: Int16#.
The proposal 451 now specifies syntax 0xFF#Int16.
This change affects the Core printer only - more to be done later.

Part of #21422.

Vladislav Zavialov authored 2 years ago and Marge Bot committed 2 years ago

Before this patch, GHC unconditionally printed ticks before promoted
data constructors:

	ghci> type T = True  -- unticked (user-written)
	ghci> :kind! T
	T :: Bool
	= 'True              -- ticked (compiler output)

After this patch, GHC prints ticks only when necessary:

	ghci> type F = False    -- unticked (user-written)
	ghci> :kind! F
	F :: Bool
	= False                 -- unticked (compiler output)

	ghci> data False        -- introduce ambiguity
	ghci> :kind! F
	F :: Bool
	= 'False                -- ticked by necessity (compiler output)

The old behavior can be enabled by -fprint-redundant-promotion-ticks.

Summary of changes:
* Rename PrintUnqualified to NamePprCtx
* Add QueryPromotionTick to it
* Consult the GlobalRdrEnv to decide whether to print a tick (see mkPromTick)
* Introduce -fprint-redundant-promotion-ticks

Co-authored-by: Artyom Kuznetsov <hi@wzrd.ht>

Simon Peyton Jones authored 2 years ago and Simon Peyton Jones committed 2 years ago

Fixes #22416

Simon Peyton Jones authored 2 years ago and Simon Peyton Jones committed 2 years ago

This big patch addresses the rats-nest of issues that have plagued
us for years, about the relationship between Type and Constraint.
See #11715/#21623.

The main payload of the patch is:
* To introduce CONSTRAINT :: RuntimeRep -> Type
* To make TYPE and CONSTRAINT distinct throughout the compiler

Two overview Notes in GHC.Builtin.Types.Prim

* Note [TYPE and CONSTRAINT]

* Note [Type and Constraint are not apart]
  This is the main complication.

The specifics

* New primitive types (GHC.Builtin.Types.Prim)
  - CONSTRAINT
  - ctArrowTyCon (=>)
  - tcArrowTyCon (-=>)
  - ccArrowTyCon (==>)
  - funTyCon     FUN     -- Not new
  See Note [Function type constructors and FunTy]
  and Note [TYPE and CONSTRAINT]

* GHC.Builtin.Types:
  - New type Constraint = CONSTRAINT LiftedRep
  - I also stopped nonEmptyTyCon being built-in; it only needs to be wired-in

* Exploit the fact that Type and Constraint are distinct throughout GHC
  - Get rid of tcView in favour of coreView.
  - Many tcXX functions become XX functions.
    e.g. tcGetCastedTyVar --> getCastedTyVar

* Kill off Note [ForAllTy and typechecker equality], in (old)
  GHC.Tc.Solver.Canonical.  It said that typechecker-equality should ignore
  the specified/inferred distinction when comparein two ForAllTys.  But
  that wsa only weakly supported and (worse) implies that we need a separate
  typechecker equality, different from core equality. No no no.

* GHC.Core.TyCon: kill off FunTyCon in data TyCon.  There was no need for it,
  and anyway now we have four of them!

* GHC.Core.TyCo.Rep: add two FunTyFlags to FunCo
  See Note [FunCo] in that module.

* GHC.Core.Type.  Lots and lots of changes driven by adding CONSTRAINT.
  The key new function is sORTKind_maybe; most other changes are built
  on top of that.

  See also `funTyConAppTy_maybe` and `tyConAppFun_maybe`.

* Fix a longstanding bug in GHC.Core.Type.typeKind, and Core Lint, in
  kinding ForAllTys.  See new tules (FORALL1) and (FORALL2) in GHC.Core.Type.
  (The bug was that before (forall (cv::t1 ~# t2). blah), where
  blah::TYPE IntRep, would get kind (TYPE IntRep), but it should be
  (TYPE LiftedRep).  See Note [Kinding rules for types] in GHC.Core.Type.

* GHC.Core.TyCo.Compare is a new module in which we do eqType and cmpType.
  Of course, no tcEqType any more.

* GHC.Core.TyCo.FVs. I moved some free-var-like function into this module:
  tyConsOfType, visVarsOfType, and occCheckExpand.  Refactoring only.

* GHC.Builtin.Types.  Compiletely re-engineer boxingDataCon_maybe to
  have one for each /RuntimeRep/, rather than one for each /Type/.
  This dramatically widens the range of types we can auto-box.
  See Note [Boxing constructors] in GHC.Builtin.Types
  The boxing types themselves are declared in library ghc-prim:GHC.Types.

  GHC.Core.Make.  Re-engineer the treatment of "big" tuples (mkBigCoreVarTup
  etc) GHC.Core.Make, so that it auto-boxes unboxed values and (crucially)
  types of kind Constraint. That allows the desugaring for arrows to work;
  it gathers up free variables (including dictionaries) into tuples.
  See  Note [Big tuples] in GHC.Core.Make.

  There is still work to do here: #22336. But things are better than
  before.

* GHC.Core.Make.  We need two absent-error Ids, aBSENT_ERROR_ID for types of
  kind Type, and aBSENT_CONSTRAINT_ERROR_ID for vaues of kind Constraint.
  Ditto noInlineId vs noInlieConstraintId in GHC.Types.Id.Make;
  see Note [inlineId magic].

* GHC.Core.TyCo.Rep. Completely refactor the NthCo coercion.  It is now called
  SelCo, and its fields are much more descriptive than the single Int we used to
  have.  A great improvement.  See Note [SelCo] in GHC.Core.TyCo.Rep.

* GHC.Core.RoughMap.roughMatchTyConName.  Collapse TYPE and CONSTRAINT to
  a single TyCon, so that the rough-map does not distinguish them.

* GHC.Core.DataCon
  - Mainly just improve documentation

* Some significant renamings:
  GHC.Core.Multiplicity: Many -->  ManyTy (easier to grep for)
                         One  -->  OneTy
  GHC.Core.TyCo.Rep TyCoBinder      -->   GHC.Core.Var.PiTyBinder
  GHC.Core.Var      TyCoVarBinder   -->   ForAllTyBinder
                    AnonArgFlag     -->   FunTyFlag
                    ArgFlag         -->   ForAllTyFlag
  GHC.Core.TyCon    TyConTyCoBinder --> TyConPiTyBinder
  Many functions are renamed in consequence
  e.g. isinvisibleArgFlag becomes isInvisibleForAllTyFlag, etc

* I refactored FunTyFlag (was AnonArgFlag) into a simple, flat data type
    data FunTyFlag
      = FTF_T_T           -- (->)  Type -> Type
      | FTF_T_C           -- (-=>) Type -> Constraint
      | FTF_C_T           -- (=>)  Constraint -> Type
      | FTF_C_C           -- (==>) Constraint -> Constraint

* GHC.Tc.Errors.Ppr.  Some significant refactoring in the TypeEqMisMatch case
  of pprMismatchMsg.

* I made the tyConUnique field of TyCon strict, because I
  saw code with lots of silly eval's.  That revealed that
  GHC.Settings.Constants.mAX_SUM_SIZE can only be 63, because
  we pack the sum tag into a 6-bit field.  (Lurking bug squashed.)

Fixes
* #21530

Updates haddock submodule slightly.

Performance changes
~~~~~~~~~~~~~~~~~~~
I was worried that compile times would get worse, but after
some careful profiling we are down to a geometric mean 0.1%
increase in allocation (in perf/compiler).  That seems fine.

There is a big runtime improvement in T10359

Metric Decrease:
    LargeRecord
    MultiLayerModulesTH_OneShot
    T13386
    T13719
Metric Increase:
    T8095

Torsten Schmits authored 2 years ago and Marge Bot committed 2 years ago

Part of proposal 475 (https://github.com/ghc-proposals/ghc-proposals/blob/master/proposals/0475-tuple-syntax.rst)

Moves all tuples to GHC.Tuple.Prim
Updates ghc-prim version (and bumps bounds in dependents)

updates haddock submodule
updates deepseq submodule
updates text submodule

sheaf authored 2 years ago and Marge Bot committed 2 years ago

The testsuite output now contains diagnostic codes, so many tests need
to be updated at once.
We decided it was best to keep the diagnostic codes in the testsuite
output, so that contributors don't inadvertently make changes to the
diagnostic codes.

Vladislav Zavialov authored 2 years ago and Marge Bot committed 2 years ago

This patch implements a small part of GHC Proposal #475.
The key change is in GHC.Types:

	- data [] a = [] | a : [a]
	+ data List a = [] | a : List a

And the rest of the patch makes sure that List is pretty-printed as []
in various contexts.

Updates the haddock submodule.

* Users can define their own (~) type operator
* Haddock can display documentation for the built-in (~)
* New transitional warnings implemented:
    -Wtype-equality-out-of-scope
    -Wtype-equality-requires-operators

Updates the haddock submodule.

Ryan Scott authored 3 years ago and Marge Bot committed 3 years ago

`markNominal` is repsonsible for setting the roles of type variables
that appear underneath an `AppTy` to be nominal. However, `markNominal`
previously did not expand type synonyms, so in a data type like this:

```hs
data M f a = MkM (f (T a))

type T a = Int
```

The `a` in `M f a` would be marked nominal, even though `T a` would simply
expand to `Int`. The fix is simple: call `coreView` as appropriate in
`markNominal`. This is much like the fix for #14101, but in a different spot.

Fixes #20999.

Sylvain Henry authored 3 years ago and Marge Bot committed 3 years ago

This flag is used to remove the output of core stats per binding in Core
dumps.

This commit adds proper hints to most diagnostic types in the
`GHC.Parser.Errors.Types` module. By "proper" we mean that previous to
this commit the hints were bundled together with the diagnostic message,
whereas now we moved most of them as proper `[GhcHint]` in the
implementation of `diagnosticHints`.

More specifically, this is the list of constructors which now has
proper hints:

* PsErrIllegalBangPattern
* PsWarnOperatorWhitespaceExtConflict
* PsErrLambdaCase
* PsErrIllegalPatSynExport
* PsWarnOperatorWhitespace
* PsErrMultiWayIf
* PsErrIllegalQualifiedDo
* PsErrNumUnderscores
* PsErrLinearFunction
* PsErrIllegalTraditionalRecordSyntax
* PsErrIllegalExplicitNamespace
* PsErrOverloadedRecordUpdateNotEnabled
* PsErrIllegalDataTypeContext
* PsErrSemiColonsInCondExpr
* PsErrSemiColonsInCondCmd
* PsWarnStarIsType
* PsWarnImportPreQualified
* PsErrImportPostQualified
* PsErrEmptyDoubleQuotes
* PsErrIllegalRoleName
* PsWarnStarBinder

For some reason, this patch increases the peak_megabyte_allocated of
the T11545 test to 90 (from a baseline of 80) but that particular test
doesn't emit any parsing diagnostic or hint and the metric increase
happens only for the `aarch64-linux-deb10`.

Metric Increase:
    T11545

Matthew Pickering authored 3 years ago and Marge Bot committed 3 years ago

This commit modifies interface files so that *only* direct information
about modules and packages is stored in the interface file.

* Only direct module and direct package dependencies are stored in the
interface files.
* Trusted packages are now stored separately as they need to be checked
  transitively.
* hs-boot files below the compiled module in the home module are stored
  so that eps_is_boot can be calculated in one-shot mode without loading
  all interface files in the home package.
* The transitive closure of signatures is stored separately

This is important for two reasons

* Less recompilation is needed, as motivated by #16885, a lot of
redundant compilation was triggered when adding new imports deep in the
module tree as all the parent interface files had to be redundantly
updated.
* Checking an interface file is cheaper because you don't have to
perform a transitive traversal to check the dependencies are up-to-date.

In the code, places where we would have used the transitive closure, we
instead compute the necessary transitive closure. The closure is not
computed very often, was already happening in checkDependencies, and
was already happening in getLinkDeps.

Fixes #16885

-------------------------
Metric Decrease:
    MultiLayerModules
    T13701
    T13719
-------------------------

Alfredo Di Napoli authored 3 years ago and Marge Bot committed 3 years ago

Fixes #19616.

This commit changes the `GHC.Driver.Errors.handleFlagWarnings` function
to rely on the newly introduced `DiagnosticReason`. This allows us to
correctly pretty-print the flags which triggered some warnings and in
turn remove the cruft around this function (like the extra filtering
and the `shouldPrintWarning` function.

Richard Eisenberg authored 4 years ago and Marge Bot committed 4 years ago

This patch redesigns the flattener to simplify type family applications
directly instead of using flattening meta-variables and skolems. The key new
innovation is the CanEqLHS type and the new CEqCan constraint (Ct). A CanEqLHS
is either a type variable or exactly-saturated type family application; either
can now be rewritten using a CEqCan constraint in the inert set.

Because the flattener no longer reduces all type family applications to
variables, there was some performance degradation if a lengthy type family
application is now flattened over and over (not making progress). To
compensate, this patch contains some extra optimizations in the flattener,
leading to a number of performance improvements.

Close #18875.
Close #18910.

There are many extra parts of the compiler that had to be affected in writing
this patch:

* The family-application cache (formerly the flat-cache) sometimes stores
  coercions built from Given inerts. When these inerts get kicked out, we must
  kick out from the cache as well. (This was, I believe, true previously, but
  somehow never caused trouble.) Kicking out from the cache requires adding a
  filterTM function to TrieMap.

* This patch obviates the need to distinguish "blocking" coercion holes from
  non-blocking ones (which, previously, arose from CFunEqCans). There is thus
  some simplification around coercion holes.

* Extra commentary throughout parts of the code I read through, to preserve
  the knowledge I gained while working.

* A change in the pure unifier around unifying skolems with other types.
  Unifying a skolem now leads to SurelyApart, not MaybeApart, as documented
  in Note [Binding when looking up instances] in GHC.Core.InstEnv.

* Some more use of MCoercion where appropriate.

* Previously, class-instance lookup automatically noticed that e.g. C Int was
  a "unifier" to a target [W] C (F Bool), because the F Bool was flattened to
  a variable. Now, a little more care must be taken around checking for
  unifying instances.

* Previously, tcSplitTyConApp_maybe would split (Eq a => a). This is silly,
  because (=>) is not a tycon in Haskell. Fixed now, but there are some
  knock-on changes in e.g. TrieMap code and in the canonicaliser.

* New function anyFreeVarsOf{Type,Co} to check whether a free variable
  satisfies a certain predicate.

* Type synonyms now remember whether or not they are "forgetful"; a forgetful
  synonym drops at least one argument. This is useful when flattening; see
  flattenView.

* The pattern-match completeness checker invokes the solver. This invocation
  might need to look through newtypes when checking representational equality.
  Thus, the desugarer needs to keep track of the in-scope variables to know
  what newtype constructors are in scope. I bet this bug was around before but
  never noticed.

* Extra-constraints wildcards are no longer simplified before printing.
  See Note [Do not simplify ConstraintHoles] in GHC.Tc.Solver.

* Whether or not there are Given equalities has become slightly subtler.
  See the new HasGivenEqs datatype.

* Note [Type variable cycles in Givens] in GHC.Tc.Solver.Canonical
  explains a significant new wrinkle in the new approach.

* See Note [What might match later?] in GHC.Tc.Solver.Interact, which
  explains the fix to #18910.

* The inert_count field of InertCans wasn't actually used, so I removed
  it.

Though I (Richard) did the implementation, Simon PJ was very involved
in design and review.

This updates the Haddock submodule to avoid #18932 by adding
a type signature.

-------------------------
Metric Decrease:
    T12227
    T5030
    T9872a
    T9872b
    T9872c
Metric Increase:
    T9872d
-------------------------

Simon Peyton Jones authored 4 years ago and Marge Bot committed 4 years ago

There are two signficant changes here:

* Ticket #18815 showed that we were missing some opportunities for
  preInlineUnconditionally.  The one-line fix is in the code for
  GHC.Core.Opt.Simplify.Utils.preInlineUnconditionally, which now
  switches off only for INLINE pragmas.  I expanded
  Note [Stable unfoldings and preInlineUnconditionally] to explain.

* When doing this I discovered a way in which preInlineUnconditionally
  was occasionally /too/ eager.  It's all explained in
  Note [Occurrences in stable unfoldings] in GHC.Core.Opt.OccurAnal,
  and the one-line change adding markAllMany to occAnalUnfolding.

I also got confused about what NoUserInline meant, so I've renamed
it to NoUserInlinePrag, and changed its pretty-printing slightly.
That led to soem error messate wibbling, and touches quite a few
files, but there is no change in functionality.

I did a nofib run.  As expected, no significant changes.

        Program           Size    Allocs
----------------------------------------
         sphere          -0.0%     -0.4%
----------------------------------------
            Min          -0.0%     -0.4%
            Max          -0.0%     +0.0%
 Geometric Mean          -0.0%     -0.0%

I'm allowing a max-residency increase for T10370, which seems
very irreproducible. (See comments on !4241.)  There is always
sampling error for max-residency measurements; and in any case
the change shows up on some platforms but not others.

Metric Increase:
    T10370

Vladislav Zavialov authored 4 years ago and Marge Bot committed 4 years ago

A follow-up to !4020 (5830a12c)

Ryan Scott authored 4 years ago and Marge Bot committed 4 years ago

Fixes #18279. Bumps the `text` submodule.

* support detection of slow ghc-bignum backend (to replace the detection
  of integer-simple use). There are still some test cases that the
  native backend doesn't handle efficiently enough.

* remove tests for GMP only functions that have been removed from
  ghc-bignum

* fix test results showing dependent packages (e.g. integer-gmp) or
  showing suggested instances

* fix test using Integer/Natural API or showing internal names

Krzysztof Gogolewski authored 4 years ago and Ben Gamari committed 4 years ago

This is the first step towards implementation of the linear types proposal
(https://github.com/ghc-proposals/ghc-proposals/pull/111).

It features

* A language extension -XLinearTypes
* Syntax for linear functions in the surface language
* Linearity checking in Core Lint, enabled with -dlinear-core-lint
* Core-to-core passes are mostly compatible with linearity
* Fields in a data type can be linear or unrestricted; linear fields
  have multiplicity-polymorphic constructors.
  If -XLinearTypes is disabled, the GADT syntax defaults to linear fields

The following items are not yet supported:

* a # m -> b syntax (only prefix FUN is supported for now)
* Full multiplicity inference (multiplicities are really only checked)
* Decent linearity error messages
* Linear let, where, and case expressions in the surface language
  (each of these currently introduce the unrestricted variant)
* Multiplicity-parametric fields
* Syntax for annotating lambda-bound or let-bound with a multiplicity
* Syntax for non-linear/multiple-field-multiplicity records
* Linear projections for records with a single linear field
* Linear pattern synonyms
* Multiplicity coercions (test LinearPolyType)

A high-level description can be found at
https://ghc.haskell.org/trac/ghc/wiki/LinearTypes/Implementation
Following the link above you will find a description of the changes made to Core.
This commit has been authored by

* Richard Eisenberg
* Krzysztof Gogolewski
* Matthew Pickering
* Arnaud Spiwack

With contributions from:

* Mark Barbone
* Alexander Vershilov

Updates haddock submodule.

Sylvain Henry authored 4 years ago and Marge Bot committed 4 years ago

Introduce GHC.Unit.* hierarchy for everything concerning units, packages
and modules.

Update Haddock submodule

Sylvain Henry authored 5 years ago and Marge Bot committed 4 years ago

Update Haddock submodule

This patch removes all CafInfo predictions and various hacks to preserve
predicted CafInfos from the compiler and assigns final CafInfos to
interface Ids after code generation. SRT analysis is extended to support
static data, and Cmm generator is modified to allow generating
static_link fields after SRT analysis.

This also fixes `-fcatch-bottoms`, which introduces error calls in case
expressions in CorePrep, which runs *after* CoreTidy (which is where we
decide on CafInfos) and turns previously non-CAFFY things into CAFFY.

Fixes #17648
Fixes #9718

Evaluation
==========

NoFib
-----

Boot with: `make boot mode=fast`
Run: `make mode=fast EXTRA_RUNTEST_OPTS="-cachegrind" NoFibRuns=1`

--------------------------------------------------------------------------------
        Program           Size    Allocs    Instrs     Reads    Writes
--------------------------------------------------------------------------------
             CS          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            CSD          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
             FS          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
              S          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
             VS          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            VSD          -0.0%      0.0%     -0.0%     -0.0%     -0.5%
            VSM          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           anna          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
           ansi          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           atom          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         awards          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         banner          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
     bernouilli          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   binary-trees          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          boyer          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         boyer2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           bspt          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      cacheprof          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       calendar          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       cichelli          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        circsim          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       clausify          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
  comp_lab_zift          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       compress          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      compress2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
    constraints          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   cryptarithm1          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   cryptarithm2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            cse          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   digits-of-e1          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   digits-of-e2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         dom-lt          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          eliza          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          event          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
    exact-reals          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         exp3_8          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         expert          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
 fannkuch-redux          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          fasta          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            fem          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            fft          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           fft2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       fibheaps          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           fish          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          fluid          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
         fulsom          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         gamteb          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            gcd          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
    gen_regexps          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         genfft          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
             gg          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           grep          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         hidden          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            hpg          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
            ida          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          infer          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        integer          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      integrate          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   k-nucleotide          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          kahan          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        knights          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         lambda          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
     last-piece          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           lcss          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           life          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           lift          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         linear          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
      listcompr          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       listcopy          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       maillist          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         mandel          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        mandel2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           mate          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        minimax          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        mkhprog          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
     multiplier          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         n-body          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       nucleic2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           para          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      paraffins          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         parser          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
        parstof          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
            pic          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       pidigits          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          power          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         pretty          -0.0%      0.0%     -0.3%     -0.4%     -0.4%
         primes          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      primetest          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         prolog          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         puzzle          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         queens          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        reptile          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
reverse-complem          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        rewrite          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           rfib          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            rsa          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            scc          -0.0%      0.0%     -0.3%     -0.5%     -0.4%
          sched          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            scs          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         simple          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
          solid          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        sorting          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
  spectral-norm          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         sphere          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
         symalg          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
            tak          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      transform          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       treejoin          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      typecheck          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
        veritas          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           wang          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
      wave4main          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   wheel-sieve1          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
   wheel-sieve2          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           x2n1          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
--------------------------------------------------------------------------------
            Min          -0.1%      0.0%     -0.3%     -0.5%     -0.5%
            Max          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
 Geometric Mean          -0.0%     -0.0%     -0.0%     -0.0%     -0.0%

--------------------------------------------------------------------------------
        Program           Size    Allocs    Instrs     Reads    Writes
--------------------------------------------------------------------------------
        circsim          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
    constraints          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       fibheaps          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
       gc_bench          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           hash          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
           lcss          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
          power          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
     spellcheck          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
--------------------------------------------------------------------------------
            Min          -0.1%      0.0%     -0.0%     -0.0%     -0.0%
            Max          -0.0%      0.0%     -0.0%     -0.0%     -0.0%
 Geometric Mean          -0.0%     +0.0%     -0.0%     -0.0%     -0.0%

Manual inspection of programs in testsuite/tests/programs
---------------------------------------------------------

I built these programs with a bunch of dump flags and `-O` and compared
STG, Cmm, and Asm dumps and file sizes.

(Below the numbers in parenthesis show number of modules in the program)

These programs have identical compiler (same .hi and .o sizes, STG, and
Cmm and Asm dumps):

- Queens (1), andre_monad (1), cholewo-eval (2), cvh_unboxing (3),
  andy_cherry (7), fun_insts (1), hs-boot (4), fast2haskell (2),
  jl_defaults (1), jq_readsPrec (1), jules_xref (1), jtod_circint (4),
  jules_xref2 (1), lennart_range (1), lex (1), life_space_leak (1),
  bargon-mangler-bug (7), record_upd (1), rittri (1), sanders_array (1),
  strict_anns (1), thurston-module-arith (2), okeefe_neural (1),
  joao-circular (6), 10queens (1)

Programs with different compiler outputs:

- jl_defaults (1): For some reason GHC HEAD marks a lot of top-level
  `[Int]` closures as CAFFY for no reason. With this patch we no longer
  make them CAFFY and generate less SRT entries. For some reason Main.o
  is slightly larger with this patch (1.3%) and the executable sizes are
  the same. (I'd expect both to be smaller)

- launchbury (1): Same as jl_defaults: top-level `[Int]` closures marked
  as CAFFY for no reason. Similarly `Main.o` is 1.4% larger but the
  executable sizes are the same.

- galois_raytrace (13): Differences are in the Parse module. There are a
  lot, but some of the changes are caused by the fact that for some
  reason (I think a bug) GHC HEAD marks the dictionary for `Functor
  Identity` as CAFFY. Parse.o is 0.4% larger, the executable size is the
  same.

- north_array: We now generate less SRT entries because some of array
  primops used in this program like `NewArrayOp` get eliminated during
  Stg-to-Cmm and turn some CAFFY things into non-CAFFY. Main.o gets 24%
  larger (9224 bytes from 9000 bytes), executable sizes are the same.

- seward-space-leak: Difference in this program is better shown by this
  smaller example:

      module Lib where

      data CDS
        = Case [CDS] [(Int, CDS)]
        | Call CDS CDS

      instance Eq CDS where
        Case sels1 rets1 == Case sels2 rets2 =
            sels1 == sels2 && rets1 == rets2
        Call a1 b1 == Call a2 b2 =
            a1 == a2 && b1 == b2
        _ == _ =
            False

   In this program GHC HEAD builds a new SRT for the recursive group of
   `(==)`, `(/=)` and the dictionary closure. Then `/=` points to `==`
   in its SRT field, and `==` uses the SRT object as its SRT. With this
   patch we use the closure for `/=` as the SRT and add `==` there. Then
   `/=` gets an empty SRT field and `==` points to `/=` in its SRT
   field.

   This change looks fine to me.

   Main.o gets 0.07% larger, executable sizes are identical.

head.hackage
------------

head.hackage's CI script builds 428 packages from Hackage using this
patch with no failures.

Compiler performance
--------------------

The compiler perf tests report that the compiler allocates slightly more
(worst case observed so far is 4%). However most programs in the test
suite are small, single file programs. To benchmark compiler performance
on something more realistic I build Cabal (the library, 236 modules)
with different optimisation levels. For the "max residency" row I run
GHC with `+RTS -s -A100k -i0 -h` for more accurate numbers. Other rows
are generated with just `-s`. (This is because `-i0` causes running GC
much more frequently and as a result "bytes copied" gets inflated by
more than 25x in some cases)

* -O0

|                 | GHC HEAD       | This MR        | Diff   |
| --------------- | -------------- | -------------- | ------ |
| Bytes allocated | 54,413,350,872 | 54,701,099,464 | +0.52% |
| Bytes copied    |  4,926,037,184 |  4,990,638,760 | +1.31% |
| Max residency   |    421,225,624 |    424,324,264 | +0.73% |

* -O1

|                 | GHC HEAD        | This MR         | Diff   |
| --------------- | --------------- | --------------- | ------ |
| Bytes allocated | 245,849,209,992 | 246,562,088,672 | +0.28% |
| Bytes copied    |  26,943,452,560 |  27,089,972,296 | +0.54% |
| Max residency   |     982,643,440 |     991,663,432 | +0.91% |

* -O2

|                 | GHC HEAD        | This MR         | Diff   |
| --------------- | --------------- | --------------- | ------ |
| Bytes allocated | 291,044,511,408 | 291,863,910,912 | +0.28% |
| Bytes copied    |  37,044,237,616 |  36,121,690,472 | -2.49% |
| Max residency   |   1,071,600,328 |   1,086,396,256 | +1.38% |

Extra compiler allocations
--------------------------

Runtime allocations of programs are as reported above (NoFib section).

The compiler now allocates more than before. Main source of allocation
in this patch compared to base commit is the new SRT algorithm
(GHC.Cmm.Info.Build). Below is some of the extra work we do with this
patch, numbers generated by profiled stage 2 compiler when building a
pathological case (the test 'ManyConstructors') with '-O2':

- We now sort the final STG for a module, which means traversing the
  entire program, generating free variable set for each top-level
  binding, doing SCC analysis, and re-ordering the program. In
  ManyConstructors this step allocates 97,889,952 bytes.

- We now do SRT analysis on static data, which in a program like
  ManyConstructors causes analysing 10,000 bindings that we would
  previously just skip. This step allocates 70,898,352 bytes.

- We now maintain an SRT map for the entire module as we compile Cmm
  groups:

      data ModuleSRTInfo = ModuleSRTInfo
        { ...
        , moduleSRTMap :: SRTMap
        }

   (SRTMap is just a strict Map from the 'containers' library)

   This map gets an entry for most bindings in a module (exceptions are
   THUNKs and CAFFY static functions). For ManyConstructors this map
   gets 50015 entries.

- Once we're done with code generation we generate a NameSet from SRTMap
  for the non-CAFFY names in the current module. This set gets the same
  number of entries as the SRTMap.

- Finally we update CafInfos in ModDetails for the non-CAFFY Ids, using
  the NameSet generated in the previous step. This usually does the
  least amount of allocation among the work listed here.

Only place with this patch where we do less work in the CAF analysis in
the tidying pass (CoreTidy). However that doesn't save us much, as the
pass still needs to traverse the whole program and update IdInfos for
other reasons. Only thing we don't here do is the `hasCafRefs` pass over
the RHS of bindings, which is a stateless pass that returns a boolean
value, so it doesn't allocate much.

(Metric changes blow are all increased allocations)

Metric changes
--------------

Metric Increase:
    ManyAlternatives
    ManyConstructors
    T13035
    T14683
    T1969
    T9961

Ryan Scott authored 5 years ago and Marge Bot committed 5 years ago

This brings the pretty-printer for Core in line with how visible
type applications are normally printed: namely, with no whitespace
after the `@` character (i.e., `f @a` instead of `f @ a`). While I'm
in town, I also give the same treatment to type abstractions (i.e.,
`\(@a)` instead of `\(@ a)`) and coercion applications (i.e.,
`f @~x` instead of `f @~ x`).

Fixes #17643.

This patch implements a part of GHC Proposal #229 that covers five
operators:

* the bang operator (!)
* the tilde operator (~)
* the at operator (@)
* the dollar operator ($)
* the double dollar operator ($$)

Based on surrounding whitespace, these operators are disambiguated into
bang patterns, lazy patterns, strictness annotations, type
applications, splices, and typed splices.

This patch doesn't cover the (-) operator or the -Woperator-whitespace
warning, which are left as future work.

Implements GHC Proposal #54: .../ghc-proposals/blob/master/proposals/0054-kind-signatures.rst

With this patch, a type constructor can now be given an explicit
standalone kind signature:

  {-# LANGUAGE StandaloneKindSignatures #-}
  type Functor :: (Type -> Type) -> Constraint
  class Functor f where
    fmap :: (a -> b) -> f a -> f b

This is a replacement for CUSKs (complete user-specified
kind signatures), which are now scheduled for deprecation.

User-facing changes
-------------------

* A new extension flag has been added, -XStandaloneKindSignatures, which
  implies -XNoCUSKs.

* There is a new syntactic construct, a standalone kind signature:

    type <name> :: <kind>

  Declarations of data types, classes, data families, type families, and
  type synonyms may be accompanied by a standalone kind signature.

* A standalone kind signature enables polymorphic recursion in types,
  just like a function type signature enables polymorphic recursion in
  terms. This obviates the need for CUSKs.

* TemplateHaskell AST has been extended with 'KiSigD' to represent
  standalone kind signatures.

* GHCi :info command now prints the kind signature of type constructors:

    ghci> :info Functor
    type Functor :: (Type -> Type) -> Constraint
    ...

Limitations
-----------

* 'forall'-bound type variables of a standalone kind signature do not
  scope over the declaration body, even if the -XScopedTypeVariables is
  enabled. See #16635 and #16734.

* Wildcards are not allowed in standalone kind signatures, as partial
  signatures do not allow for polymorphic recursion.

* Associated types may not be given an explicit standalone kind
  signature. Instead, they are assumed to have a CUSK if the parent class
  has a standalone kind signature and regardless of the -XCUSKs flag.

* Standalone kind signatures do not support multiple names at the moment:

    type T1, T2 :: Type -> Type   -- rejected
    type T1 = Maybe
    type T2 = Either String

  See #16754.

* Creative use of equality constraints in standalone kind signatures may
  lead to GHC panics:

    type C :: forall (a :: Type) -> a ~ Int => Constraint
    class C a where
      f :: C a => a -> Int

  See #16758.

Implementation notes
--------------------

* The heart of this patch is the 'kcDeclHeader' function, which is used to
  kind-check a declaration header against its standalone kind signature.
  It does so in two rounds:

    1. check user-written binders
    2. instantiate invisible binders a la 'checkExpectedKind'

* 'kcTyClGroup' now partitions declarations into declarations with a
  standalone kind signature or a CUSK (kinded_decls) and declarations
  without either (kindless_decls):

    * 'kinded_decls' are kind-checked with 'checkInitialKinds'
    * 'kindless_decls' are kind-checked with 'getInitialKinds'

* DerivInfo has been extended with a new field:

    di_scoped_tvs :: ![(Name,TyVar)]

  These variables must be added to the context in case the deriving clause
  references tcTyConScopedTyVars. See #16731.

Ömer Sinan Ağacan authored 5 years ago and Marge Bot committed 5 years ago

- Rename requires_th to req_th for consistency with other req functions
  (e.g. req_interp, req_profiling etc.)

- req_th (previously requires_th) now checks for interpreter (via
  req_interp). With this running TH tests are skipped when running the
  test suite with stage=1.

- Test tweaks:
    - T9360a, T9360b: Use req_interp
    - recomp009, T13938, RAE_T32a: Use req_th

- Fix check-makefiles linter: it now looks for Makefiles instead of .T
  files (which are actually Python files)

Ben Gamari authored 5 years ago and Marge Bot committed 5 years ago

Previously there were a few cases where operations like `omit_ways`
were incorrectly passed a single way (e.g. `omit_ways('threaded2')`).
This won't work as the author expected.

Since we can't load profiled objects when GhcDynamic==YES. Affects:

* T16737
* T16384
* T16718
* T16619
* T16190