\begin{code}
module TyCon(
- TyCon, ArgVrcs,
+ TyCon, ArgVrcs, FieldLabel,
+
+ PrimRep(..),
+ tyConPrimRep,
AlgTyConRhs(..), visibleDataCons,
isAlgTyCon, isDataTyCon, isSynTyCon, isNewTyCon, isPrimTyCon,
isEnumerationTyCon,
isTupleTyCon, isUnboxedTupleTyCon, isBoxedTupleTyCon, tupleTyConBoxity,
- isRecursiveTyCon, newTyConRep, newTyConRhs, isHiBootTyCon,
+ isRecursiveTyCon, newTyConRep, newTyConRhs, newTyConRhs_maybe, isHiBootTyCon,
mkForeignTyCon, isForeignTyCon,
tyConTyVars,
tyConArgVrcs,
algTyConRhs, tyConDataCons, tyConDataCons_maybe, tyConFamilySize,
- tyConSelIds,
- tyConTheta,
- tyConPrimRep,
+ tyConFields, tyConSelIds,
+ tyConStupidTheta,
tyConArity,
isClassTyCon, tyConClass_maybe,
getSynTyConDefn,
-- Should just be Type(Type), but this fails due to bug present up to
-- and including 4.02 involving slurping of hi-boot files. Bug is now fixed.
-import {-# SOURCE #-} DataCon ( DataCon, isExistentialDataCon )
+import {-# SOURCE #-} DataCon ( DataCon, isVanillaDataCon )
import Var ( TyVar, Id )
import BasicTypes ( Arity, RecFlag(..), Boxity(..), isBoxed )
import Name ( Name, nameUnique, NamedThing(getName) )
import PrelNames ( Unique, Uniquable(..) )
-import PrimRep ( PrimRep(..) )
import Maybes ( orElse )
+import Util ( equalLength )
import Outputable
import FastString
\end{code}
tyConKind :: Kind,
tyConArity :: Arity,
- tyConTyVars :: [TyVar],
- argVrcs :: ArgVrcs,
- algTyConTheta :: [PredType],
+ tyConTyVars :: [TyVar], -- Scopes over (a) the [PredType] in AlgTyConRhs.DataTyCon
+ -- (b) the cached types in AlgTyConRhs.NewTyCon
+ -- (c) the types in algTcFields
+ -- But not over the data constructors
+ argVrcs :: ArgVrcs,
- selIds :: [Id], -- Its record selectors (if any)
+ algTcFields :: [(FieldLabel, Type, Id)],
+ -- Its fields (empty if none):
+ -- * field name
+ -- * its type (scoped over tby tyConTyVars)
+ -- * record selector (name = field name)
- algRhs :: AlgTyConRhs, -- Data constructors in here
+ algTcRhs :: AlgTyConRhs, -- Data constructors in here
- algTyConRec :: RecFlag, -- Tells whether the data type is part of
+ algTcRec :: RecFlag, -- Tells whether the data type is part of
-- a mutually-recursive group or not
hasGenerics :: Bool, -- True <=> generic to/from functions are available
-- (in the exports of the data type's source module)
- algTyConClass :: Maybe Class
+ algTcClass :: Maybe Class
-- Just cl if this tycon came from a class declaration
}
| PrimTyCon { -- Primitive types; cannot be defined in Haskell
-- Now includes foreign-imported types
- tyConUnique :: Unique,
- tyConName :: Name,
- tyConKind :: Kind,
- tyConArity :: Arity,
- argVrcs :: ArgVrcs,
- primTyConRep :: PrimRep, -- Many primitive tycons are unboxed, but some are
- -- boxed (represented by pointers). The PrimRep tells.
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity,
+ argVrcs :: ArgVrcs,
+
+ primTyConRep :: PrimRep,
+ -- Many primitive tycons are unboxed, but some are
+ -- boxed (represented by pointers). The CgRep tells.
isUnLifted :: Bool, -- Most primitive tycons are unlifted,
-- but foreign-imported ones may not be
argVrcs :: ArgVrcs
}
+type FieldLabel = Name
+
type ArgVrcs = [(Bool,Bool)] -- Tyvar variance info: [(occPos,occNeg)]
-- [] means "no information, assume the worst"
-- an hi file
| DataTyCon
+ (Maybe [PredType]) -- Just theta => this tycon was declared in H98 syntax
+ -- with the specified "stupid theta"
+ -- e.g. data Ord a => T a = ...
+ -- Nothing => this tycon was declared by giving the
+ -- type signatures for each constructor
+ -- (new GADT stuff)
+ -- e.g. data T a where { ... }
[DataCon] -- The constructors; can be empty if the user declares
-- the type to have no constructors
+ -- INVARIANT: Kept in order of increasing tag
+ -- (see the tag assignment in DataCon.mkDataCon)
Bool -- Cached: True <=> an enumeration type
| NewTyCon -- Newtypes always have exactly one constructor
-- newtypes.
visibleDataCons :: AlgTyConRhs -> [DataCon]
-visibleDataCons AbstractTyCon = []
-visibleDataCons (DataTyCon cs _) = cs
-visibleDataCons (NewTyCon c _ _) = [c]
+visibleDataCons AbstractTyCon = []
+visibleDataCons (DataTyCon _ cs _) = cs
+visibleDataCons (NewTyCon c _ _) = [c]
\end{code}
+%************************************************************************
+%* *
+\subsection{PrimRep}
+%* *
+%************************************************************************
+
+A PrimRep is an abstraction of a type. It contains information that
+the code generator needs in order to pass arguments, return results,
+and store values of this type.
+
+A PrimRep is somewhat similar to a CgRep (see codeGen/SMRep) and a
+MachRep (see cmm/MachOp), although each of these types has a distinct
+and clearly defined purpose:
+
+ - A PrimRep is a CgRep + information about signedness + information
+ about primitive pointers (AddrRep). Signedness and primitive
+ pointers are required when passing a primitive type to a foreign
+ function, but aren't needed for call/return conventions of Haskell
+ functions.
+
+ - A MachRep is a basic machine type (non-void, doesn't contain
+ information on pointerhood or signedness, but contains some
+ reps that don't have corresponding Haskell types).
+
+\begin{code}
+data PrimRep
+ = VoidRep
+ | PtrRep
+ | IntRep -- signed, word-sized
+ | WordRep -- unsinged, word-sized
+ | Int64Rep -- signed, 64 bit (32-bit words only)
+ | Word64Rep -- unsigned, 64 bit (32-bit words only)
+ | AddrRep -- a pointer, but not to a Haskell value
+ | FloatRep
+ | DoubleRep
+\end{code}
%************************************************************************
%* *
-- This is the making of a TyCon. Just the same as the old mkAlgTyCon,
-- but now you also have to pass in the generic information about the type
-- constructor - you can get hold of it easily (see Generics module)
-mkAlgTyCon name kind tyvars theta argvrcs rhs sels is_rec gen_info
+mkAlgTyCon name kind tyvars argvrcs rhs flds is_rec gen_info
= AlgTyCon {
- tyConName = name,
- tyConUnique = nameUnique name,
- tyConKind = kind,
- tyConArity = length tyvars,
- tyConTyVars = tyvars,
- argVrcs = argvrcs,
- algTyConTheta = theta,
- algRhs = rhs,
- selIds = sels,
- algTyConClass = Nothing,
- algTyConRec = is_rec,
- hasGenerics = gen_info
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = length tyvars,
+ tyConTyVars = tyvars,
+ argVrcs = argvrcs,
+ algTcRhs = rhs,
+ algTcFields = flds,
+ algTcClass = Nothing,
+ algTcRec = is_rec,
+ hasGenerics = gen_info
}
mkClassTyCon name kind tyvars argvrcs rhs clas is_rec
= AlgTyCon {
- tyConName = name,
- tyConUnique = nameUnique name,
- tyConKind = kind,
- tyConArity = length tyvars,
- tyConTyVars = tyvars,
- argVrcs = argvrcs,
- algTyConTheta = [],
- algRhs = rhs,
- selIds = [],
- algTyConClass = Just clas,
- algTyConRec = is_rec,
- hasGenerics = False
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = length tyvars,
+ tyConTyVars = tyvars,
+ argVrcs = argvrcs,
+ algTcRhs = rhs,
+ algTcFields = [],
+ algTcClass = Just clas,
+ algTcRec = is_rec,
+ hasGenerics = False
}
-- as primitive, but *lifted*, TyCons for now. They are lifted
-- because the Haskell type T representing the (foreign) .NET
-- type T is actually implemented (in ILX) as a thunk<T>
--- They have PtrRep
mkForeignTyCon name ext_name kind arity arg_vrcs
= PrimTyCon {
tyConName = name,
tyConKind = kind,
tyConArity = arity,
argVrcs = arg_vrcs,
- primTyConRep = PtrRep,
+ primTyConRep = PtrRep, -- they all do
isUnLifted = False,
tyConExtName = ext_name
}
isFunTyCon _ = False
isAbstractTyCon :: TyCon -> Bool
-isAbstractTyCon (AlgTyCon { algRhs = AbstractTyCon }) = True
+isAbstractTyCon (AlgTyCon { algTcRhs = AbstractTyCon }) = True
isAbstractTyCon _ = False
isPrimTyCon :: TyCon -> Bool
isAlgTyCon (TupleTyCon {}) = True
isAlgTyCon other = False
-algTyConRhs :: TyCon -> AlgTyConRhs
-algTyConRhs (AlgTyCon {algRhs = rhs}) = rhs
-algTyConRhs (TupleTyCon {dataCon = dc}) = DataTyCon [dc] False
-
isDataTyCon :: TyCon -> Bool
-- isDataTyCon returns True for data types that are represented by
-- heap-allocated constructors.
-- True for all @data@ types
-- False for newtypes
-- unboxed tuples
-isDataTyCon (AlgTyCon {algRhs = rhs})
+isDataTyCon (AlgTyCon {algTcRhs = rhs})
= case rhs of
- DataTyCon _ _ -> True
- NewTyCon _ _ _ -> False
- AbstractTyCon -> panic "isDataTyCon"
+ DataTyCon _ _ _ -> True
+ NewTyCon _ _ _ -> False
+ AbstractTyCon -> panic "isDataTyCon"
isDataTyCon (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity
isDataTyCon other = False
isNewTyCon :: TyCon -> Bool
-isNewTyCon (AlgTyCon {algRhs = NewTyCon _ _ _}) = True
-isNewTyCon other = False
+isNewTyCon (AlgTyCon {algTcRhs = NewTyCon _ _ _}) = True
+isNewTyCon other = False
isProductTyCon :: TyCon -> Bool
-- A "product" tycon
-- may be DataType or NewType,
-- may be unboxed or not,
-- may be recursive or not
-isProductTyCon tc@(AlgTyCon {}) = case algRhs tc of
- DataTyCon [data_con] _ -> not (isExistentialDataCon data_con)
- NewTyCon _ _ _ -> True
- other -> False
+isProductTyCon tc@(AlgTyCon {}) = case algTcRhs tc of
+ DataTyCon _ [data_con] _ -> isVanillaDataCon data_con
+ NewTyCon _ _ _ -> True
+ other -> False
isProductTyCon (TupleTyCon {}) = True
isProductTyCon other = False
isSynTyCon _ = False
isEnumerationTyCon :: TyCon -> Bool
-isEnumerationTyCon (AlgTyCon {algRhs = DataTyCon _ is_enum}) = is_enum
-isEnumerationTyCon other = False
+isEnumerationTyCon (AlgTyCon {algTcRhs = DataTyCon _ _ is_enum}) = is_enum
+isEnumerationTyCon other = False
isTupleTyCon :: TyCon -> Bool
-- The unit tycon didn't used to be classed as a tuple tycon
tupleTyConBoxity tc = tyConBoxed tc
isRecursiveTyCon :: TyCon -> Bool
-isRecursiveTyCon (AlgTyCon {algTyConRec = Recursive}) = True
+isRecursiveTyCon (AlgTyCon {algTcRec = Recursive}) = True
isRecursiveTyCon other = False
isHiBootTyCon :: TyCon -> Bool
-- Used for knot-tying in hi-boot files
-isHiBootTyCon (AlgTyCon {algRhs = AbstractTyCon}) = True
-isHiBootTyCon other = False
+isHiBootTyCon (AlgTyCon {algTcRhs = AbstractTyCon}) = True
+isHiBootTyCon other = False
isForeignTyCon :: TyCon -> Bool
-- isForeignTyCon identifies foreign-imported type constructors
--- For the moment, they are primitive but lifted, but that may change
-isForeignTyCon (PrimTyCon {isUnLifted = is_unlifted}) = not is_unlifted
-isForeignTyCon other = False
+isForeignTyCon (PrimTyCon {tyConExtName = Just _}) = True
+isForeignTyCon other = False
\end{code}
\begin{code}
tyConDataCons tycon = tyConDataCons_maybe tycon `orElse` []
tyConDataCons_maybe :: TyCon -> Maybe [DataCon]
-tyConDataCons_maybe (AlgTyCon {algRhs = DataTyCon cons _}) = Just cons
-tyConDataCons_maybe (AlgTyCon {algRhs = NewTyCon con _ _}) = Just [con]
-tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con]
-tyConDataCons_maybe other = Nothing
+tyConDataCons_maybe (AlgTyCon {algTcRhs = DataTyCon _ cons _}) = Just cons
+tyConDataCons_maybe (AlgTyCon {algTcRhs = NewTyCon con _ _}) = Just [con]
+tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con]
+tyConDataCons_maybe other = Nothing
tyConFamilySize :: TyCon -> Int
-tyConFamilySize (AlgTyCon {algRhs = DataTyCon cons _}) = length cons
-tyConFamilySize (AlgTyCon {algRhs = NewTyCon _ _ _}) = 1
-tyConFamilySize (TupleTyCon {}) = 1
+tyConFamilySize (AlgTyCon {algTcRhs = DataTyCon _ cons _}) = length cons
+tyConFamilySize (AlgTyCon {algTcRhs = NewTyCon _ _ _}) = 1
+tyConFamilySize (TupleTyCon {}) = 1
#ifdef DEBUG
tyConFamilySize other = pprPanic "tyConFamilySize:" (ppr other)
#endif
+tyConFields :: TyCon -> [(FieldLabel,Type,Id)]
+tyConFields (AlgTyCon {algTcFields = fs}) = fs
+tyConFields other_tycon = []
+
tyConSelIds :: TyCon -> [Id]
-tyConSelIds (AlgTyCon {selIds = sels}) = sels
-tyConSelIds other_tycon = []
+tyConSelIds tc = [id | (_,_,id) <- tyConFields tc]
+
+algTyConRhs :: TyCon -> AlgTyConRhs
+algTyConRhs (AlgTyCon {algTcRhs = rhs}) = rhs
+algTyConRhs (TupleTyCon {dataCon = con}) = DataTyCon (Just []) [con] False
+algTyConRhs other = pprPanic "algTyConRhs" (ppr other)
\end{code}
\begin{code}
-newTyConRep :: TyCon -> ([TyVar], Type)
-newTyConRep (AlgTyCon {tyConTyVars = tvs, algRhs = NewTyCon _ _ rep}) = (tvs, rep)
-
newTyConRhs :: TyCon -> ([TyVar], Type)
-newTyConRhs (AlgTyCon {tyConTyVars = tvs, algRhs = NewTyCon _ rhs _}) = (tvs, rhs)
+newTyConRhs (AlgTyCon {tyConTyVars = tvs, algTcRhs = NewTyCon _ rhs _}) = (tvs, rhs)
+
+newTyConRhs_maybe :: TyCon
+ -> [Type] -- Args to tycon
+ -> Maybe ([(TyVar,Type)], -- Substitution
+ Type) -- Body type (not yet substituted)
+-- Non-recursive newtypes are transparent to Core;
+-- Given an application to some types, return Just (tenv, ty)
+-- if it's a saturated, non-recursive newtype.
+newTyConRhs_maybe (AlgTyCon {tyConTyVars = tvs,
+ algTcRec = NonRecursive, -- Not recursive
+ algTcRhs = NewTyCon _ rhs _}) tys
+ | tvs `equalLength` tys -- Saturated
+ = Just (tvs `zip` tys, rhs)
+
+newTyConRhs_maybe other_tycon tys = Nothing
+
+
+newTyConRep :: TyCon -> ([TyVar], Type)
+newTyConRep (AlgTyCon {tyConTyVars = tvs, algTcRhs = NewTyCon _ _ rep}) = (tvs, rep)
tyConPrimRep :: TyCon -> PrimRep
tyConPrimRep (PrimTyCon {primTyConRep = rep}) = rep
-tyConPrimRep tc = ASSERT( not (isUnboxedTupleTyCon tc) )
- PtrRep
- -- We should not be asking what the representation of an
- -- unboxed tuple is, because it isn't a first class value.
+tyConPrimRep tc = ASSERT(not (isUnboxedTupleTyCon tc)) PtrRep
\end{code}
\begin{code}
-tyConTheta :: TyCon -> [PredType]
-tyConTheta (AlgTyCon {algTyConTheta = theta}) = theta
-tyConTheta (TupleTyCon {}) = []
+tyConStupidTheta :: TyCon -> [PredType]
+tyConStupidTheta (AlgTyCon {algTcRhs = DataTyCon mb_th _ _}) = mb_th `orElse` []
+tyConStupidTheta (AlgTyCon {algTcRhs = other}) = []
+tyConStupidTheta (TupleTyCon {}) = []
-- shouldn't ask about anything else
\end{code}
\begin{code}
maybeTyConSingleCon :: TyCon -> Maybe DataCon
-maybeTyConSingleCon (AlgTyCon {algRhs = DataTyCon [c] _}) = Just c
-maybeTyConSingleCon (AlgTyCon {algRhs = NewTyCon c _ _}) = Just c
-maybeTyConSingleCon (AlgTyCon {}) = Nothing
-maybeTyConSingleCon (TupleTyCon {dataCon = con}) = Just con
-maybeTyConSingleCon (PrimTyCon {}) = Nothing
-maybeTyConSingleCon (FunTyCon {}) = Nothing -- case at funty
+maybeTyConSingleCon (AlgTyCon {algTcRhs = DataTyCon _ [c] _}) = Just c
+maybeTyConSingleCon (AlgTyCon {algTcRhs = NewTyCon c _ _}) = Just c
+maybeTyConSingleCon (AlgTyCon {}) = Nothing
+maybeTyConSingleCon (TupleTyCon {dataCon = con}) = Just con
+maybeTyConSingleCon (PrimTyCon {}) = Nothing
+maybeTyConSingleCon (FunTyCon {}) = Nothing -- case at funty
maybeTyConSingleCon tc = pprPanic "maybeTyConSingleCon: unexpected tycon " $ ppr tc
\end{code}
\begin{code}
isClassTyCon :: TyCon -> Bool
-isClassTyCon (AlgTyCon {algTyConClass = Just _}) = True
+isClassTyCon (AlgTyCon {algTcClass = Just _}) = True
isClassTyCon other_tycon = False
tyConClass_maybe :: TyCon -> Maybe Class
-tyConClass_maybe (AlgTyCon {algTyConClass = maybe_clas}) = maybe_clas
+tyConClass_maybe (AlgTyCon {algTcClass = maybe_clas}) = maybe_clas
tyConClass_maybe ther_tycon = Nothing
\end{code}