mkCoLetsMatchResult, mkGuardedMatchResult,
mkCoPrimCaseMatchResult, mkCoAlgCaseMatchResult,
- mkErrorAppDs, mkNilExpr, mkConsExpr,
- mkStringLit, mkStringLitFS, mkIntegerLit,
+ mkErrorAppDs, mkNilExpr, mkConsExpr, mkListExpr,
+ mkIntExpr, mkCharExpr,
+ mkStringLit, mkStringLitFS, mkIntegerExpr,
- mkSelectorBinds, mkTupleExpr, mkTupleSelector,
+ mkSelectorBinds, mkTupleExpr, mkTupleSelector, mkCoreTup,
selectMatchVar
) where
import {-# SOURCE #-} Match ( matchSimply )
import HsSyn
-import TcHsSyn ( TypecheckedPat, outPatType, collectTypedPatBinders )
+import TcHsSyn ( TypecheckedPat, hsPatType )
import CoreSyn
import DsMonad
import CoreUtils ( exprType, mkIfThenElse, mkCoerce )
-import PrelInfo ( iRREFUT_PAT_ERROR_ID )
-import MkId ( mkReboxingAlt, mkNewTypeBody )
+import MkId ( iRREFUT_PAT_ERROR_ID, mkReboxingAlt, mkNewTypeBody )
import Id ( idType, Id, mkWildId )
import Literal ( Literal(..), inIntRange, tARGET_MAX_INT )
-import TyCon ( isNewTyCon, tyConDataCons, isRecursiveTyCon )
+import TyCon ( isNewTyCon, tyConDataCons )
import DataCon ( DataCon, dataConSourceArity )
import Type ( mkFunTy, isUnLiftedType, Type, splitTyConApp )
import TcType ( tcTyConAppTyCon, isIntTy, isFloatTy, isDoubleTy )
-import TysPrim ( intPrimTy, charPrimTy, floatPrimTy, doublePrimTy )
+import TysPrim ( intPrimTy )
import TysWiredIn ( nilDataCon, consDataCon,
tupleCon,
unitDataConId, unitTy,
\begin{code}
tidyLitPat :: HsLit -> TypecheckedPat -> TypecheckedPat
-tidyLitPat (HsChar c) pat = ConPat charDataCon charTy [] [] [LitPat (HsCharPrim c) charPrimTy]
+tidyLitPat (HsChar c) pat = mkCharLitPat c
tidyLitPat lit pat = pat
tidyNPat :: HsLit -> Type -> TypecheckedPat -> TypecheckedPat
tidyNPat (HsString s) _ pat
| lengthFS s <= 1 -- Short string literals only
- = foldr (\c pat -> ConPat consDataCon stringTy [] [] [mk_char_lit c,pat])
- (ConPat nilDataCon stringTy [] [] []) (unpackIntFS s)
+ = foldr (\c pat -> mkPrefixConPat consDataCon [mkCharLitPat c,pat] stringTy)
+ (mkNilPat stringTy) (unpackIntFS s)
-- The stringTy is the type of the whole pattern, not
-- the type to instantiate (:) or [] with!
where
- mk_char_lit c = ConPat charDataCon charTy [] [] [LitPat (HsCharPrim c) charPrimTy]
tidyNPat lit lit_ty default_pat
- | isIntTy lit_ty = ConPat intDataCon lit_ty [] [] [LitPat (mk_int lit) intPrimTy]
- | isFloatTy lit_ty = ConPat floatDataCon lit_ty [] [] [LitPat (mk_float lit) floatPrimTy]
- | isDoubleTy lit_ty = ConPat doubleDataCon lit_ty [] [] [LitPat (mk_double lit) doublePrimTy]
+ | isIntTy lit_ty = mkPrefixConPat intDataCon [LitPat (mk_int lit)] lit_ty
+ | isFloatTy lit_ty = mkPrefixConPat floatDataCon [LitPat (mk_float lit)] lit_ty
+ | isDoubleTy lit_ty = mkPrefixConPat doubleDataCon [LitPat (mk_double lit)] lit_ty
| otherwise = default_pat
where
selectMatchVar (VarPat var) = returnDs var
selectMatchVar (AsPat var pat) = returnDs var
selectMatchVar (LazyPat pat) = selectMatchVar pat
-selectMatchVar other_pat = newSysLocalDs (outPatType other_pat) -- OK, better make up one...
+selectMatchVar other_pat = newSysLocalDs (hsPatType other_pat) -- OK, better make up one...
\end{code}
panic "DsUtils: You may not mix `[:...:]' with `PArr' patterns"
--
mk_parrCase fail =
- dsLookupGlobalValue lengthPName `thenDs` \lengthP ->
+ dsLookupGlobalId lengthPName `thenDs` \lengthP ->
unboxAlt `thenDs` \alt ->
returnDs (Case (len lengthP) (mkWildId intTy) [alt])
where
--
unboxAlt =
newSysLocalDs intPrimTy `thenDs` \l ->
- dsLookupGlobalValue indexPName `thenDs` \indexP ->
+ dsLookupGlobalId indexPName `thenDs` \indexP ->
mapDs (mkAlt indexP) match_alts `thenDs` \alts ->
returnDs (DataAlt intDataCon, [l], (Case (Var l) wild (dft : alts)))
where
lit = MachInt $ toInteger (dataConSourceArity con)
binds = [NonRec arg (indexExpr i) | (i, arg) <- zip [1..] args]
--
- indexExpr i = mkApps (Var indexP) [Type elemTy, Var var, toInt i]
- toInt i = mkConApp intDataCon [Lit $ MachInt i]
+ indexExpr i = mkApps (Var indexP) [Type elemTy, Var var, mkIntExpr i]
\end{code}
%************************************************************************
\begin{code}
-mkIntegerLit :: Integer -> DsM CoreExpr
-mkIntegerLit i
+mkCharExpr :: Int -> CoreExpr -- Returns C# c :: Int
+mkIntExpr :: Integer -> CoreExpr -- Returns I# i :: Int
+mkIntegerExpr :: Integer -> DsM CoreExpr -- Result :: Integer
+mkStringLit :: String -> DsM CoreExpr -- Result :: String
+mkStringLitFS :: FastString -> DsM CoreExpr -- Result :: String
+
+mkIntExpr i = mkConApp intDataCon [mkIntLit i]
+mkCharExpr c = mkConApp charDataCon [mkLit (MachChar c)]
+
+mkIntegerExpr i
| inIntRange i -- Small enough, so start from an Int
= returnDs (mkSmallIntegerLit i)
-- integral literals. This improves constant folding.
| otherwise -- Big, so start from a string
- = dsLookupGlobalValue plusIntegerName `thenDs` \ plus_id ->
- dsLookupGlobalValue timesIntegerName `thenDs` \ times_id ->
+ = dsLookupGlobalId plusIntegerName `thenDs` \ plus_id ->
+ dsLookupGlobalId timesIntegerName `thenDs` \ times_id ->
let
plus a b = Var plus_id `App` a `App` b
times a b = Var times_id `App` a `App` b
mkSmallIntegerLit i = mkConApp smallIntegerDataCon [mkIntLit i]
-mkStringLit :: String -> DsM CoreExpr
mkStringLit str = mkStringLitFS (mkFastString str)
-mkStringLitFS :: FastString -> DsM CoreExpr
mkStringLitFS str
| nullFastString str
= returnDs (mkNilExpr charTy)
| lengthFS str == 1
= let
- the_char = mkConApp charDataCon [mkLit (MachChar (headIntFS str))]
+ the_char = mkCharExpr (headIntFS str)
in
returnDs (mkConsExpr charTy the_char (mkNilExpr charTy))
| all safeChar int_chars
- = dsLookupGlobalValue unpackCStringName `thenDs` \ unpack_id ->
+ = dsLookupGlobalId unpackCStringName `thenDs` \ unpack_id ->
returnDs (App (Var unpack_id) (Lit (MachStr str)))
| otherwise
- = dsLookupGlobalValue unpackCStringUtf8Name `thenDs` \ unpack_id ->
+ = dsLookupGlobalId unpackCStringUtf8Name `thenDs` \ unpack_id ->
returnDs (App (Var unpack_id) (Lit (MachStr (mkFastString (intsToUtf8 int_chars)))))
where
mkSelectorBinds pat val_expr
| isSingleton binders || is_simple_pat pat
- = newSysLocalDs (exprType val_expr) `thenDs` \ val_var ->
+ = -- Given p = e, where p binds x,y
+ -- we are going to make
+ -- v = p (where v is fresh)
+ -- x = case v of p -> x
+ -- y = case v of p -> x
+
+ -- Make up 'v'
+ -- NB: give it the type of *pattern* p, not the type of the *rhs* e.
+ -- This does not matter after desugaring, but there's a subtle
+ -- issue with implicit parameters. Consider
+ -- (x,y) = ?i
+ -- Then, ?i is given type {?i :: Int}, a SourceType, which is opaque
+ -- to the desugarer. (Why opaque? Because newtypes have to be. Why
+ -- does it get that type? So that when we abstract over it we get the
+ -- right top-level type (?i::Int) => ...)
+ --
+ -- So to get the type of 'v', use the pattern not the rhs. Often more
+ -- efficient too.
+ newSysLocalDs (hsPatType pat) `thenDs` \ val_var ->
-- For the error message we make one error-app, to avoid duplication.
-- But we need it at different types... so we use coerce for that
in
returnDs ( (tuple_var, tuple_expr) : map mk_tup_bind binders )
where
- binders = collectTypedPatBinders pat
+ binders = collectPatBinders pat
local_tuple = mkTupleExpr binders
tuple_ty = exprType local_tuple
where
error_expr = mkCoerce (idType bndr_var) (Var err_var)
- is_simple_pat (TuplePat ps Boxed) = all is_triv_pat ps
- is_simple_pat (ConPat _ _ _ _ ps) = all is_triv_pat ps
- is_simple_pat (VarPat _) = True
- is_simple_pat (RecPat _ _ _ _ ps) = and [is_triv_pat p | (_,p,_) <- ps]
- is_simple_pat other = False
+ is_simple_pat (TuplePat ps Boxed) = all is_triv_pat ps
+ is_simple_pat (ConPatOut _ ps _ _ _) = all is_triv_pat (hsConArgs ps)
+ is_simple_pat (VarPat _) = True
+ is_simple_pat (ParPat p) = is_simple_pat p
+ is_simple_pat other = False
is_triv_pat (VarPat v) = True
is_triv_pat (WildPat _) = True
+ is_triv_pat (ParPat p) = is_triv_pat p
is_triv_pat other = False
\end{code}
\begin{code}
mkTupleExpr :: [Id] -> CoreExpr
+{- This code has been replaced by mkCoreTup below
mkTupleExpr [] = Var unitDataConId
mkTupleExpr [id] = Var id
mkTupleExpr ids = mkConApp (tupleCon Boxed (length ids))
- (map (Type . idType) ids ++ [ Var i | i <- ids ])
+ (map (Type . idType) ids ++ [ Var i | i <-ids])
+-}
+
+mkTupleExpr ids = mkCoreTup(map Var ids)
+
+mkCoreTup :: [CoreExpr] -> CoreExpr
+mkCoreTup [] = Var unitDataConId
+mkCoreTup [c] = c
+mkCoreTup cs = mkConApp (tupleCon Boxed (length cs))
+ (map (Type . exprType) cs ++ cs)
+
\end{code}
mkConsExpr :: Type -> CoreExpr -> CoreExpr -> CoreExpr
mkConsExpr ty hd tl = mkConApp consDataCon [Type ty, hd, tl]
+
+mkListExpr :: Type -> [CoreExpr] -> CoreExpr
+mkListExpr ty xs = foldr (mkConsExpr ty) (mkNilExpr ty) xs
+
\end{code}