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Poor DPH and its vectoriser have long been languishing; sadly it seems there is
little chance that the effort will be rekindled. Every few years we discuss
what to do with this mass of code and at least once we have agreed that it
should be archived on a branch and removed from `master`. Here we do just that,
eliminating heaps of dead code in the process.
Here we drop the ParallelArrays extension, the vectoriser, and the `vector` and
`primitive` submodules.
Test Plan: Validate
Reviewers: simonpj, simonmar, hvr, goldfire, alanz
Reviewed By: simonmar
Subscribers: goldfire, rwbarton, thomie, mpickering, carter
Differential Revision: https://phabricator.haskell.org/D4761
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This switches the compiler/ component to get compiled with
-XNoImplicitPrelude and a `import GhcPrelude` is inserted in all
modules.
This is motivated by the upcoming "Prelude" re-export of
`Semigroup((<>))` which would cause lots of name clashes in every
modulewhich imports also `Outputable`
Reviewers: austin, goldfire, bgamari, alanz, simonmar
Reviewed By: bgamari
Subscribers: goldfire, rwbarton, thomie, mpickering, bgamari
Differential Revision: https://phabricator.haskell.org/D3989
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The fundamental problem with `type UniqSet = UniqFM` is that `UniqSet`
has a key invariant `UniqFM` does not. For example, `fmap` over
`UniqSet` will generally produce nonsense.
* Upgrade `UniqSet` from a type synonym to a newtype.
* Remove unused and shady `extendVarSet_C` and `addOneToUniqSet_C`.
* Use cached unique in `tyConsOfType` by replacing
`unitNameEnv (tyConName tc) tc` with `unitUniqSet tc`.
Reviewers: austin, hvr, goldfire, simonmar, niteria, bgamari
Reviewed By: niteria
Subscribers: thomie
Differential Revision: https://phabricator.haskell.org/D3146
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This makes sure that we don't introduce unnecessary
nondeterminism from vectorization.
Also updates dph submodule to reflect the change in types.
GHC Trac: #4012
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We dump it in the interface file, so we need to do it in a
deterministic order. I haven't seen any problems with this
during my testing, but that's probably because it's unused.
Test Plan: ./validate
Reviewers: simonmar, austin, bgamari
Subscribers: thomie
Differential Revision: https://phabricator.haskell.org/D2313
GHC Trac Issues: #4012
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This implements the ideas originally put forward in
"System FC with Explicit Kind Equality" (ICFP'13).
There are several noteworthy changes with this patch:
* We now have casts in types. These change the kind
of a type. See new constructor `CastTy`.
* All types and all constructors can be promoted.
This includes GADT constructors. GADT pattern matches
take place in type family equations. In Core,
types can now be applied to coercions via the
`CoercionTy` constructor.
* Coercions can now be heterogeneous, relating types
of different kinds. A coercion proving `t1 :: k1 ~ t2 :: k2`
proves both that `t1` and `t2` are the same and also that
`k1` and `k2` are the same.
* The `Coercion` type has been significantly enhanced.
The documentation in `docs/core-spec/core-spec.pdf` reflects
the new reality.
* The type of `*` is now `*`. No more `BOX`.
* Users can write explicit kind variables in their code,
anywhere they can write type variables. For backward compatibility,
automatic inference of kind-variable binding is still permitted.
* The new extension `TypeInType` turns on the new user-facing
features.
* Type families and synonyms are now promoted to kinds. This causes
trouble with parsing `*`, leading to the somewhat awkward new
`HsAppsTy` constructor for `HsType`. This is dispatched with in
the renamer, where the kind `*` can be told apart from a
type-level multiplication operator. Without `-XTypeInType` the
old behavior persists. With `-XTypeInType`, you need to import
`Data.Kind` to get `*`, also known as `Type`.
* The kind-checking algorithms in TcHsType have been significantly
rewritten to allow for enhanced kinds.
* The new features are still quite experimental and may be in flux.
* TODO: Several open tickets: #11195, #11196, #11197, #11198, #11203.
* TODO: Update user manual.
Tickets addressed: #9017, #9173, #7961, #10524, #8566, #11142.
Updates Haddock submodule.
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Summary:
Amazingly, the fix for this very old bug is quite simple: when type-checking,
maintain a set of "visible orphan modules" based on the orphans list of
modules which we explicitly imported. When we import an instance and it
is an orphan, we check if it is in the visible modules set, and if not,
ignore it. A little bit of refactoring for when orphan-hood is calculated
happens so that we always know if an instance is an orphan or not.
For GHCi, we preinitialize the visible modules set based on the list of
interactive imports which are active.
Future work: Cache the visible orphan modules set for GHCi, rather than
recomputing it every type-checking round. (But it's tricky what to do when you
/remove/ a module: you need a data structure a little more complicated than
just a set of modules.)
Signed-off-by: Edward Z. Yang <ezyang@cs.stanford.edu>
Test Plan: new tests and validate
Reviewers: simonpj, austin
Subscribers: thomie, carter
Differential Revision: https://phabricator.haskell.org/D488
GHC Trac Issues: #2182
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This commit changes the syntax and story around overlapping type
family instances. Before, we had "unbranched" instances and
"branched" instances. Now, we have closed type families and
open ones.
The behavior of open families is completely unchanged. In particular,
coincident overlap of open type family instances still works, despite
emails to the contrary.
A closed type family is declared like this:
> type family F a where
> F Int = Bool
> F a = Char
The equations are tried in order, from top to bottom, subject to
certain constraints, as described in the user manual. It is not
allowed to declare an instance of a closed family.
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Conflicts:
compiler/rename/RnSource.lhs
compiler/simplCore/OccurAnal.lhs
compiler/vectorise/Vectorise/Exp.hs
NB: Merging instead of rebasing for a change. During rebase Git got confused due to the lack of the submodules in my quite old fork.
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* By default '-fvectorisation-avoidance' is enabled at all optimisation levels (but it only matters in combination with '-fvectorise').
* The new vectoriser always uses vectorisation avoidance, but with '-fno-vectorisation-avoidance' it restricts it to simple scalar applications (and dictionary computations)
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* We need to keep the vectorised version of a variable alive while the original is alive.
* This implies that the vectorised version needs to get into the iface if the original appears in an unfolding.
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* Vectorisation avoidance is now the default
* Types and values from unvectorised modules are permitted in scalar code
* Simplified the VECTORISE pragmas (see http://hackage.haskell.org/trac/ghc/wiki/DataParallel/VectPragma for the spec)
* Vectorisation information is now included in the annotated Core AST
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An ordered, overlapping type family instance is introduced by 'type
instance
where', followed by equations. See the new section in the user manual
(7.7.2.2) for details. The canonical example is Boolean equality at the
type
level:
type family Equals (a :: k) (b :: k) :: Bool
type instance where
Equals a a = True
Equals a b = False
A branched family instance, such as this one, checks its equations in
order
and applies only the first the matches. As explained in the note
[Instance
checking within groups] in FamInstEnv.lhs, we must be careful not to
simplify,
say, (Equals Int b) to False, because b might later unify with Int.
This commit includes all of the commits on the overlapping-tyfams
branch. SPJ
requested that I combine all my commits over the past several months
into one
monolithic commit. The following GHC repos are affected: ghc, testsuite,
utils/haddock, libraries/template-haskell, and libraries/dph.
Here are some details for the interested:
- The definition of CoAxiom has been moved from TyCon.lhs to a
new file CoAxiom.lhs. I made this decision because of the
number of definitions necessary to support BranchList.
- BranchList is a GADT whose type tracks whether it is a
singleton list or not-necessarily-a-singleton-list. The reason
I introduced this type is to increase static checking of places
where GHC code assumes that a FamInst or CoAxiom is indeed a
singleton. This assumption takes place roughly 10 times
throughout the code. I was worried that a future change to GHC
would invalidate the assumption, and GHC might subtly fail to
do the right thing. By explicitly labeling CoAxioms and
FamInsts as being Unbranched (singleton) or
Branched (not-necessarily-singleton), we make this assumption
explicit and checkable. Furthermore, to enforce the accuracy of
this label, the list of branches of a CoAxiom or FamInst is
stored using a BranchList, whose constructors constrain its
type index appropriately.
I think that the decision to use BranchList is probably the most
controversial decision I made from a code design point of view.
Although I provide conversions to/from ordinary lists, it is more
efficient to use the brList... functions provided in CoAxiom than
always to convert. The use of these functions does not wander far
from the core CoAxiom/FamInst logic.
BranchLists are motivated and explained in the note [Branched axioms] in
CoAxiom.lhs.
- The CoAxiom type has changed significantly. You can see the new
type in CoAxiom.lhs. It uses a CoAxBranch type to track
branches of the CoAxiom. Correspondingly various functions
producing and consuming CoAxioms had to change, including the
binary layout of interface files.
- To get branched axioms to work correctly, it is important to have a
notion
of type "apartness": two types are apart if they cannot unify, and no
substitution of variables can ever get them to unify, even after type
family
simplification. (This is different than the normal failure to unify
because
of the type family bit.) This notion in encoded in tcApartTys, in
Unify.lhs.
Because apartness is finer-grained than unification, the tcUnifyTys
now
calls tcApartTys.
- CoreLinting axioms has been updated, both to reflect the new
form of CoAxiom and to enforce the apartness rules of branch
application. The formalization of the new rules is in
docs/core-spec/core-spec.pdf.
- The FamInst type (in types/FamInstEnv.lhs) has changed
significantly, paralleling the changes to CoAxiom. Of course,
this forced minor changes in many files.
- There are several new Notes in FamInstEnv.lhs, including one
discussing confluent overlap and why we're not doing it.
- lookupFamInstEnv, lookupFamInstEnvConflicts, and
lookup_fam_inst_env' (the function that actually does the work)
have all been more-or-less completely rewritten. There is a
Note [lookup_fam_inst_env' implementation] describing the
implementation. One of the changes that affects other files is
to change the type of matches from a pair of (FamInst, [Type])
to a new datatype (which now includes the index of the matching
branch). This seemed a better design.
- The TySynInstD constructor in Template Haskell was updated to
use the new datatype TySynEqn. I also bumped the TH version
number, requiring changes to DPH cabal files. (That's why the
DPH repo has an overlapping-tyfams branch.)
- As SPJ requested, I refactored some of the code in HsDecls:
* splitting up TyDecl into SynDecl and DataDecl, correspondingly
changing HsTyDefn to HsDataDefn (with only one constructor)
* splitting FamInstD into TyFamInstD and DataFamInstD and
splitting FamInstDecl into DataFamInstDecl and TyFamInstDecl
* making the ClsInstD take a ClsInstDecl, for parallelism with
InstDecl's other constructors
* changing constructor TyFamily into FamDecl
* creating a FamilyDecl type that stores the details for a family
declaration; this is useful because FamilyDecls can appear in classes
but
other decls cannot
* restricting the associated types and associated type defaults for a
* class
to be the new, more restrictive types
* splitting cid_fam_insts into cid_tyfam_insts and cid_datafam_insts,
according to the new types
* perhaps one or two more that I'm overlooking
None of these changes has far-reaching implications.
- The user manual, section 7.7.2.2, is updated to describe the new type
family
instances.
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Switched off by default. Use -favoid-vect to activate
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Although scalar functions can use any scalar data type, their arguments and functions may only involve primitive types at the moment.
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- (->), [::], & PArray are now vectorised via pragmas (and related clean up)
- Repeatedly vectorising a variable or type constructor now raises an error
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instance pragmas
* Correct usage of new type wrappers from MkId
* 'VECTORISE [SCALAR] type T = S' didn't work correctly across module boundaries
* Clean up 'VECTORISE SCALAR instance'
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* Frontend support (not yet used in the vectoriser)
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* No more use of hardcoded original names
* Initialisation of the desugarer monad loads 'Data.Array.Parallel.Prim' if -fdph-* given
* Initialisation of the vectoriser gets all built-in names from there
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This is work mostly done by Daniel Winograd-Cort during his
internship at MSR Cambridge, with some further refactoring by me.
This commit adds support to GHCi for most top-level declarations that
can be used in Haskell source files. Class, data, newtype, type,
instance are all supported, as are Type Family-related declarations.
The current set of declarations are shown by :show bindings. As with
variable bindings, entities bound by newer declarations shadow earlier
ones.
Tests are in testsuite/tests/ghci/scripts/ghci039--ghci054.
Documentation to follow.
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they are not declared, but only imported
- Types already gained this functionality already in a previous commit
- This commit adds the capability for functions
This is a crucial step towards being able to use the standard Prelude, instead of a special vectorised one.
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- Pragma to determine how a given type is vectorised
- At this stage only the VECTORISE SCALAR variant is used by the vectoriser.
- '{-# VECTORISE SCALAR type t #-}' implies that 't' cannot contain parallel arrays and may be used in vectorised code. However, its constructors can only be used in scalar code. We use this, e.g., for 'Int'.
- May be used on imported types
See also http://hackage.haskell.org/trac/ghc/wiki/DataParallel/VectPragma
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toplevel variable 'f'.
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'HscTypes.VectInfo'.
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- The pragma {-# VECTORISE SCALAR foo #-} marks 'foo' as a
scalar function for for vectorisation and generates a
vectorised version by applying 'scalar_map' and friends.
- The set of scalar functions is not yet emitted into
interface files. This will be added in a subsequent
patch via 'VectInfo'.
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- Added a pragma {-# VECTORISE var = exp #-} that prevents
the vectoriser from vectorising the definition of 'var'.
Instead it uses the binding '$v_var = exp' to vectorise
'var'. The vectoriser checks that the Core type of 'exp'
matches the vectorised Core type of 'var'. (It would be
quite complicated to perform that check in the type checker
as the vectorisation of a type needs the state of the VM
monad.)
- Added parts of a related VECTORISE SCALAR pragma
- Documented -ddump-vect
- Added -ddump-vt-trace
- Some clean up
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