import Control.Monad ( liftM, zipWithM )
import Data.List ( unzip4 )
-mAX_NDP_PROD :: Int
-mAX_NDP_PROD = 5
-
-mAX_NDP_SUM :: Int
-mAX_NDP_SUM = 3
-
-mAX_NDP_COMBINE :: Int
-mAX_NDP_COMBINE = 2
-
-mkNDPModule :: FastString -> Module
-mkNDPModule m = mkModule ndpPackageId (mkModuleNameFS m)
-
-nDP_PARRAY,
- nDP_REPR,
- nDP_CLOSURE,
- nDP_UNBOXED,
- nDP_INSTANCES,
- nDP_COMBINATORS,
- nDP_PRELUDE_PARR,
- nDP_PRELUDE_INT,
- nDP_PRELUDE_DOUBLE,
- nDP_PRELUDE_BOOL,
- nDP_PRELUDE_TUPLE :: Module
-
-nDP_PARRAY = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.PArray")
-nDP_REPR = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.Repr")
-nDP_CLOSURE = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.Closure")
-nDP_UNBOXED = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.Unboxed")
-nDP_INSTANCES = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.Instances")
-nDP_COMBINATORS = mkNDPModule (fsLit "Data.Array.Parallel.Lifted.Combinators")
-
-nDP_PRELUDE_PARR = mkNDPModule (fsLit "Data.Array.Parallel.Prelude.Base.PArr")
-nDP_PRELUDE_INT = mkNDPModule (fsLit "Data.Array.Parallel.Prelude.Base.Int")
-nDP_PRELUDE_DOUBLE = mkNDPModule (fsLit "Data.Array.Parallel.Prelude.Base.Double")
-nDP_PRELUDE_BOOL = mkNDPModule (fsLit "Data.Array.Parallel.Prelude.Base.Bool")
-nDP_PRELUDE_TUPLE = mkNDPModule (fsLit "Data.Array.Parallel.Prelude.Base.Tuple")
+mAX_DPH_PROD :: Int
+mAX_DPH_PROD = 5
+
+mAX_DPH_SUM :: Int
+mAX_DPH_SUM = 3
+
+mAX_DPH_COMBINE :: Int
+mAX_DPH_COMBINE = 2
+
+data Modules = Modules {
+ dph_PArray :: Module
+ , dph_Repr :: Module
+ , dph_Closure :: Module
+ , dph_Unboxed :: Module
+ , dph_Instances :: Module
+ , dph_Combinators :: Module
+ , dph_Prelude_PArr :: Module
+ , dph_Prelude_Int :: Module
+ , dph_Prelude_Double :: Module
+ , dph_Prelude_Bool :: Module
+ , dph_Prelude_Tuple :: Module
+ }
+
+dph_Modules :: PackageId -> Modules
+dph_Modules pkg = Modules {
+ dph_PArray = mk (fsLit "Data.Array.Parallel.Lifted.PArray")
+ , dph_Repr = mk (fsLit "Data.Array.Parallel.Lifted.Repr")
+ , dph_Closure = mk (fsLit "Data.Array.Parallel.Lifted.Closure")
+ , dph_Unboxed = mk (fsLit "Data.Array.Parallel.Lifted.Unboxed")
+ , dph_Instances = mk (fsLit "Data.Array.Parallel.Lifted.Instances")
+ , dph_Combinators = mk (fsLit "Data.Array.Parallel.Lifted.Combinators")
+
+ , dph_Prelude_PArr = mk (fsLit "Data.Array.Parallel.Prelude.Base.PArr")
+ , dph_Prelude_Int = mk (fsLit "Data.Array.Parallel.Prelude.Base.Int")
+ , dph_Prelude_Double = mk (fsLit "Data.Array.Parallel.Prelude.Base.Double")
+ , dph_Prelude_Bool = mk (fsLit "Data.Array.Parallel.Prelude.Base.Bool")
+ , dph_Prelude_Tuple = mk (fsLit "Data.Array.Parallel.Prelude.Base.Tuple")
+ }
+ where
+ mk = mkModule pkg . mkModuleNameFS
+
data Builtins = Builtins {
- parrayTyCon :: TyCon
+ dphModules :: Modules
+ , parrayTyCon :: TyCon
, paTyCon :: TyCon
, paDataCon :: DataCon
, preprTyCon :: TyCon
sumTyCon :: Int -> Builtins -> TyCon
sumTyCon n bi
- | n >= 2 && n <= mAX_NDP_SUM = sumTyCons bi ! n
+ | n >= 2 && n <= mAX_DPH_SUM = sumTyCons bi ! n
| otherwise = pprPanic "sumTyCon" (ppr n)
prodTyCon :: Int -> Builtins -> TyCon
prodTyCon n bi
| n == 1 = wrapTyCon bi
- | n >= 0 && n <= mAX_NDP_PROD = tupleTyCon Boxed n
+ | n >= 0 && n <= mAX_DPH_PROD = tupleTyCon Boxed n
| otherwise = pprPanic "prodTyCon" (ppr n)
combinePAVar :: Int -> Builtins -> Var
combinePAVar n bi
- | n >= 2 && n <= mAX_NDP_COMBINE = combinePAVars bi ! n
+ | n >= 2 && n <= mAX_DPH_COMBINE = combinePAVars bi ! n
| otherwise = pprPanic "combinePAVar" (ppr n)
-initBuiltins :: DsM Builtins
-initBuiltins
+initBuiltins :: PackageId -> DsM Builtins
+initBuiltins pkg
= do
- parrayTyCon <- externalTyCon nDP_PARRAY (fsLit "PArray")
- paTyCon <- externalTyCon nDP_PARRAY (fsLit "PA")
+ parrayTyCon <- externalTyCon dph_PArray (fsLit "PArray")
+ paTyCon <- externalTyCon dph_PArray (fsLit "PA")
let [paDataCon] = tyConDataCons paTyCon
- preprTyCon <- externalTyCon nDP_PARRAY (fsLit "PRepr")
- prTyCon <- externalTyCon nDP_PARRAY (fsLit "PR")
+ preprTyCon <- externalTyCon dph_PArray (fsLit "PRepr")
+ prTyCon <- externalTyCon dph_PArray (fsLit "PR")
let [prDataCon] = tyConDataCons prTyCon
- intPrimArrayTy <- externalType nDP_UNBOXED (fsLit "PArray_Int#")
- closureTyCon <- externalTyCon nDP_CLOSURE (fsLit ":->")
-
- voidTyCon <- externalTyCon nDP_REPR (fsLit "Void")
- wrapTyCon <- externalTyCon nDP_REPR (fsLit "Wrap")
- enumerationTyCon <- externalTyCon nDP_REPR (fsLit "Enumeration")
- sum_tcs <- mapM (externalTyCon nDP_REPR)
- [mkFastString ("Sum" ++ show i) | i <- [2..mAX_NDP_SUM]]
-
- let sumTyCons = listArray (2, mAX_NDP_SUM) sum_tcs
-
- voidVar <- externalVar nDP_REPR (fsLit "void")
- mkPRVar <- externalVar nDP_PARRAY (fsLit "mkPR")
- mkClosureVar <- externalVar nDP_CLOSURE (fsLit "mkClosure")
- applyClosureVar <- externalVar nDP_CLOSURE (fsLit "$:")
- mkClosurePVar <- externalVar nDP_CLOSURE (fsLit "mkClosureP")
- applyClosurePVar <- externalVar nDP_CLOSURE (fsLit "$:^")
- replicatePAIntPrimVar <- externalVar nDP_UNBOXED (fsLit "replicatePA_Int#")
- upToPAIntPrimVar <- externalVar nDP_UNBOXED (fsLit "upToPA_Int#")
- selectPAIntPrimVar <- externalVar nDP_UNBOXED (fsLit "selectPA_Int#")
- truesPABoolPrimVar <- externalVar nDP_UNBOXED (fsLit "truesPA_Bool#")
- lengthPAVar <- externalVar nDP_PARRAY (fsLit "lengthPA#")
- replicatePAVar <- externalVar nDP_PARRAY (fsLit "replicatePA#")
- emptyPAVar <- externalVar nDP_PARRAY (fsLit "emptyPA")
- packPAVar <- externalVar nDP_PARRAY (fsLit "packPA#")
-
- combines <- mapM (externalVar nDP_PARRAY)
+ intPrimArrayTy <- externalType dph_Unboxed (fsLit "PArray_Int#")
+ closureTyCon <- externalTyCon dph_Closure (fsLit ":->")
+
+ voidTyCon <- externalTyCon dph_Repr (fsLit "Void")
+ wrapTyCon <- externalTyCon dph_Repr (fsLit "Wrap")
+ enumerationTyCon <- externalTyCon dph_Repr (fsLit "Enumeration")
+ sum_tcs <- mapM (externalTyCon dph_Repr)
+ [mkFastString ("Sum" ++ show i) | i <- [2..mAX_DPH_SUM]]
+
+ let sumTyCons = listArray (2, mAX_DPH_SUM) sum_tcs
+
+ voidVar <- externalVar dph_Repr (fsLit "void")
+ mkPRVar <- externalVar dph_PArray (fsLit "mkPR")
+ mkClosureVar <- externalVar dph_Closure (fsLit "mkClosure")
+ applyClosureVar <- externalVar dph_Closure (fsLit "$:")
+ mkClosurePVar <- externalVar dph_Closure (fsLit "mkClosureP")
+ applyClosurePVar <- externalVar dph_Closure (fsLit "$:^")
+ replicatePAIntPrimVar <- externalVar dph_Unboxed (fsLit "replicatePA_Int#")
+ upToPAIntPrimVar <- externalVar dph_Unboxed (fsLit "upToPA_Int#")
+ selectPAIntPrimVar <- externalVar dph_Unboxed (fsLit "selectPA_Int#")
+ truesPABoolPrimVar <- externalVar dph_Unboxed (fsLit "truesPA_Bool#")
+ lengthPAVar <- externalVar dph_PArray (fsLit "lengthPA#")
+ replicatePAVar <- externalVar dph_PArray (fsLit "replicatePA#")
+ emptyPAVar <- externalVar dph_PArray (fsLit "emptyPA")
+ packPAVar <- externalVar dph_PArray (fsLit "packPA#")
+
+ combines <- mapM (externalVar dph_PArray)
[mkFastString ("combine" ++ show i ++ "PA#")
- | i <- [2..mAX_NDP_COMBINE]]
- let combinePAVars = listArray (2, mAX_NDP_COMBINE) combines
+ | i <- [2..mAX_DPH_COMBINE]]
+ let combinePAVars = listArray (2, mAX_DPH_COMBINE) combines
liftingContext <- liftM (\u -> mkSysLocal (fsLit "lc") u intPrimTy)
newUnique
return $ Builtins {
- parrayTyCon = parrayTyCon
+ dphModules = modules
+ , parrayTyCon = parrayTyCon
, paTyCon = paTyCon
, paDataCon = paDataCon
, preprTyCon = preprTyCon
, combinePAVars = combinePAVars
, liftingContext = liftingContext
}
+ where
+ modules@(Modules {
+ dph_PArray = dph_PArray
+ , dph_Repr = dph_Repr
+ , dph_Closure = dph_Closure
+ , dph_Unboxed = dph_Unboxed
+ })
+ = dph_Modules pkg
+
initBuiltinVars :: Builtins -> DsM [(Var, Var)]
-initBuiltinVars _
+initBuiltinVars (Builtins { dphModules = mods })
= do
uvars <- zipWithM externalVar umods ufs
vvars <- zipWithM externalVar vmods vfs
++ zip (map dataConWorkId cons) cvars
++ zip uvars vvars
where
- (umods, ufs, vmods, vfs) = unzip4 preludeVars
+ (umods, ufs, vmods, vfs) = unzip4 (preludeVars mods)
- (cons, cmods, cfs) = unzip3 preludeDataCons
+ (cons, cmods, cfs) = unzip3 (preludeDataCons mods)
defaultDataConWorkers :: [DataCon]
defaultDataConWorkers = [trueDataCon, falseDataCon, unitDataCon]
-preludeDataCons :: [(DataCon, Module, FastString)]
-preludeDataCons
- = [mk_tup n nDP_PRELUDE_TUPLE (mkFastString $ "tup" ++ show n) | n <- [2..3]]
+preludeDataCons :: Modules -> [(DataCon, Module, FastString)]
+preludeDataCons (Modules { dph_Prelude_Tuple = dph_Prelude_Tuple })
+ = [mk_tup n dph_Prelude_Tuple (mkFastString $ "tup" ++ show n) | n <- [2..3]]
where
mk_tup n mod name = (tupleCon Boxed n, mod, name)
-preludeVars :: [(Module, FastString, Module, FastString)]
-preludeVars
+preludeVars :: Modules -> [(Module, FastString, Module, FastString)]
+preludeVars (Modules { dph_Combinators = dph_Combinators
+ , dph_PArray = dph_PArray
+ , dph_Prelude_Int = dph_Prelude_Int
+ , dph_Prelude_Double = dph_Prelude_Double
+ , dph_Prelude_Bool = dph_Prelude_Bool
+ , dph_Prelude_PArr = dph_Prelude_PArr
+ })
= [
- mk gHC_PARR (fsLit "mapP") nDP_COMBINATORS (fsLit "mapPA")
- , mk gHC_PARR (fsLit "zipWithP") nDP_COMBINATORS (fsLit "zipWithPA")
- , mk gHC_PARR (fsLit "zipP") nDP_COMBINATORS (fsLit "zipPA")
- , mk gHC_PARR (fsLit "unzipP") nDP_COMBINATORS (fsLit "unzipPA")
- , mk gHC_PARR (fsLit "filterP") nDP_COMBINATORS (fsLit "filterPA")
- , mk gHC_PARR (fsLit "lengthP") nDP_COMBINATORS (fsLit "lengthPA")
- , mk gHC_PARR (fsLit "replicateP") nDP_COMBINATORS (fsLit "replicatePA")
- , mk gHC_PARR (fsLit "!:") nDP_COMBINATORS (fsLit "indexPA")
- , mk gHC_PARR (fsLit "crossMapP") nDP_COMBINATORS (fsLit "crossMapPA")
- , mk gHC_PARR (fsLit "singletonP") nDP_COMBINATORS (fsLit "singletonPA")
- , mk gHC_PARR (fsLit "concatP") nDP_COMBINATORS (fsLit "concatPA")
- , mk gHC_PARR (fsLit "+:+") nDP_COMBINATORS (fsLit "appPA")
- , mk gHC_PARR (fsLit "emptyP") nDP_PARRAY (fsLit "emptyPA")
-
- , mk nDP_PRELUDE_INT (fsLit "plus") nDP_PRELUDE_INT (fsLit "plusV")
- , mk nDP_PRELUDE_INT (fsLit "minus") nDP_PRELUDE_INT (fsLit "minusV")
- , mk nDP_PRELUDE_INT (fsLit "mult") nDP_PRELUDE_INT (fsLit "multV")
- , mk nDP_PRELUDE_INT (fsLit "intDiv") nDP_PRELUDE_INT (fsLit "intDivV")
- , mk nDP_PRELUDE_INT (fsLit "intMod") nDP_PRELUDE_INT (fsLit "intModV")
- , mk nDP_PRELUDE_INT (fsLit "intSquareRoot") nDP_PRELUDE_INT (fsLit "intSquareRootV")
- , mk nDP_PRELUDE_INT (fsLit "intSumP") nDP_PRELUDE_INT (fsLit "intSumPA")
- , mk nDP_PRELUDE_INT (fsLit "enumFromToP") nDP_PRELUDE_INT (fsLit "enumFromToPA")
- , mk nDP_PRELUDE_INT (fsLit "upToP") nDP_PRELUDE_INT (fsLit "upToPA")
-
- , mk nDP_PRELUDE_INT (fsLit "eq") nDP_PRELUDE_INT (fsLit "eqV")
- , mk nDP_PRELUDE_INT (fsLit "neq") nDP_PRELUDE_INT (fsLit "neqV")
- , mk nDP_PRELUDE_INT (fsLit "le") nDP_PRELUDE_INT (fsLit "leV")
- , mk nDP_PRELUDE_INT (fsLit "lt") nDP_PRELUDE_INT (fsLit "ltV")
- , mk nDP_PRELUDE_INT (fsLit "ge") nDP_PRELUDE_INT (fsLit "geV")
- , mk nDP_PRELUDE_INT (fsLit "gt") nDP_PRELUDE_INT (fsLit "gtV")
-
- , mk nDP_PRELUDE_DOUBLE (fsLit "plus") nDP_PRELUDE_DOUBLE (fsLit "plusV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "minus") nDP_PRELUDE_DOUBLE (fsLit "minusV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "mult") nDP_PRELUDE_DOUBLE (fsLit "multV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "divide") nDP_PRELUDE_DOUBLE (fsLit "divideV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "squareRoot") nDP_PRELUDE_DOUBLE (fsLit "squareRootV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "doubleSumP") nDP_PRELUDE_DOUBLE (fsLit "doubleSumPA")
- , mk nDP_PRELUDE_DOUBLE (fsLit "minIndexP")
- nDP_PRELUDE_DOUBLE (fsLit "minIndexPA")
- , mk nDP_PRELUDE_DOUBLE (fsLit "maxIndexP")
- nDP_PRELUDE_DOUBLE (fsLit "maxIndexPA")
-
- , mk nDP_PRELUDE_DOUBLE (fsLit "eq") nDP_PRELUDE_DOUBLE (fsLit "eqV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "neq") nDP_PRELUDE_DOUBLE (fsLit "neqV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "le") nDP_PRELUDE_DOUBLE (fsLit "leV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "lt") nDP_PRELUDE_DOUBLE (fsLit "ltV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "ge") nDP_PRELUDE_DOUBLE (fsLit "geV")
- , mk nDP_PRELUDE_DOUBLE (fsLit "gt") nDP_PRELUDE_DOUBLE (fsLit "gtV")
-
- , mk nDP_PRELUDE_BOOL (fsLit "andP") nDP_PRELUDE_BOOL (fsLit "andPA")
- , mk nDP_PRELUDE_BOOL (fsLit "orP") nDP_PRELUDE_BOOL (fsLit "orPA")
+ mk gHC_PARR (fsLit "mapP") dph_Combinators (fsLit "mapPA")
+ , mk gHC_PARR (fsLit "zipWithP") dph_Combinators (fsLit "zipWithPA")
+ , mk gHC_PARR (fsLit "zipP") dph_Combinators (fsLit "zipPA")
+ , mk gHC_PARR (fsLit "unzipP") dph_Combinators (fsLit "unzipPA")
+ , mk gHC_PARR (fsLit "filterP") dph_Combinators (fsLit "filterPA")
+ , mk gHC_PARR (fsLit "lengthP") dph_Combinators (fsLit "lengthPA")
+ , mk gHC_PARR (fsLit "replicateP") dph_Combinators (fsLit "replicatePA")
+ , mk gHC_PARR (fsLit "!:") dph_Combinators (fsLit "indexPA")
+ , mk gHC_PARR (fsLit "crossMapP") dph_Combinators (fsLit "crossMapPA")
+ , mk gHC_PARR (fsLit "singletonP") dph_Combinators (fsLit "singletonPA")
+ , mk gHC_PARR (fsLit "concatP") dph_Combinators (fsLit "concatPA")
+ , mk gHC_PARR (fsLit "+:+") dph_Combinators (fsLit "appPA")
+ , mk gHC_PARR (fsLit "emptyP") dph_PArray (fsLit "emptyPA")
+
+ , mk' dph_Prelude_Int "div" "divV"
+ , mk' dph_Prelude_Int "mod" "modV"
+ , mk' dph_Prelude_Int "sqrt" "sqrtV"
+ , mk' dph_Prelude_Int "enumFromToP" "enumFromToPA"
+ , mk' dph_Prelude_Int "upToP" "upToPA"
+ ]
+ ++ vars_Ord dph_Prelude_Int
+ ++ vars_Num dph_Prelude_Int
+
+ ++ vars_Ord dph_Prelude_Double
+ ++ vars_Num dph_Prelude_Double
+ ++ vars_Fractional dph_Prelude_Double
+ ++ vars_Floating dph_Prelude_Double
+ ++ vars_RealFrac dph_Prelude_Double
+ ++
+ [ mk dph_Prelude_Bool (fsLit "andP") dph_Prelude_Bool (fsLit "andPA")
+ , mk dph_Prelude_Bool (fsLit "orP") dph_Prelude_Bool (fsLit "orPA")
-- FIXME: temporary
- , mk nDP_PRELUDE_PARR (fsLit "fromPArrayP") nDP_PRELUDE_PARR (fsLit "fromPArrayPA")
- , mk nDP_PRELUDE_PARR (fsLit "toPArrayP") nDP_PRELUDE_PARR (fsLit "toPArrayPA")
- , mk nDP_PRELUDE_PARR (fsLit "fromNestedPArrayP") nDP_PRELUDE_PARR (fsLit "fromNestedPArrayPA")
- , mk nDP_PRELUDE_PARR (fsLit "combineP") nDP_COMBINATORS (fsLit "combine2PA")
+ , mk dph_Prelude_PArr (fsLit "fromPArrayP") dph_Prelude_PArr (fsLit "fromPArrayPA")
+ , mk dph_Prelude_PArr (fsLit "toPArrayP") dph_Prelude_PArr (fsLit "toPArrayPA")
+ , mk dph_Prelude_PArr (fsLit "fromNestedPArrayP") dph_Prelude_PArr (fsLit "fromNestedPArrayPA")
+ , mk dph_Prelude_PArr (fsLit "combineP") dph_Combinators (fsLit "combine2PA")
]
where
- mk = (,,,)
+ mk = (,,,)
+ mk' mod v v' = mk mod (fsLit v) mod (fsLit v')
+
+ vars_Ord mod = [mk' mod "==" "eqV"
+ ,mk' mod "/=" "neqV"
+ ,mk' mod "<=" "leV"
+ ,mk' mod "<" "ltV"
+ ,mk' mod ">=" "geV"
+ ,mk' mod ">" "gtV"
+ ,mk' mod "min" "minV"
+ ,mk' mod "max" "maxV"
+ ,mk' mod "minimumP" "minimumPA"
+ ,mk' mod "maximumP" "maximumPA"
+ ,mk' mod "minIndexP" "minIndexPA"
+ ,mk' mod "maxIndexP" "maxIndexPA"
+ ]
+
+ vars_Num mod = [mk' mod "+" "plusV"
+ ,mk' mod "-" "minusV"
+ ,mk' mod "*" "multV"
+ ,mk' mod "negate" "negateV"
+ ,mk' mod "abs" "absV"
+ ,mk' mod "sumP" "sumPA"
+ ,mk' mod "productP" "productPA"
+ ]
+
+ vars_Fractional mod = [mk' mod "/" "divideV"
+ ,mk' mod "recip" "recipV"
+ ]
+
+ vars_Floating mod = [mk' mod "pi" "pi"
+ ,mk' mod "exp" "expV"
+ ,mk' mod "sqrt" "sqrtV"
+ ,mk' mod "log" "logV"
+ ,mk' mod "sin" "sinV"
+ ,mk' mod "tan" "tanV"
+ ,mk' mod "cos" "cosV"
+ ,mk' mod "asin" "asinV"
+ ,mk' mod "atan" "atanV"
+ ,mk' mod "acos" "acosV"
+ ,mk' mod "sinh" "sinhV"
+ ,mk' mod "tanh" "tanhV"
+ ,mk' mod "cosh" "coshV"
+ ,mk' mod "asinh" "asinhV"
+ ,mk' mod "atanh" "atanhV"
+ ,mk' mod "acosh" "acoshV"
+ ,mk' mod "**" "powV"
+ ,mk' mod "logBase" "logBaseV"
+ ]
+
+ vars_RealFrac mod = [mk' mod "fromInt" "fromIntV"
+ ,mk' mod "truncate" "truncateV"
+ ,mk' mod "round" "roundV"
+ ,mk' mod "ceiling" "ceilingV"
+ ,mk' mod "floor" "floorV"
+ ]
initBuiltinTyCons :: Builtins -> DsM [(Name, TyCon)]
initBuiltinTyCons bi
= do
- -- parr <- externalTyCon nDP_PRELUDE_PARR (fsLit "PArr")
+ -- parr <- externalTyCon dph_Prelude_PArr (fsLit "PArr")
return $ (tyConName funTyCon, closureTyCon bi)
: (parrTyConName, parrayTyCon bi)
initBuiltinPAs = initBuiltinDicts . builtinPAs
builtinPAs :: Builtins -> [(Name, Module, FastString)]
-builtinPAs bi
+builtinPAs bi@(Builtins { dphModules = mods })
= [
- mk (tyConName $ closureTyCon bi) nDP_CLOSURE (fsLit "dPA_Clo")
- , mk (tyConName $ voidTyCon bi) nDP_REPR (fsLit "dPA_Void")
- , mk (tyConName $ parrayTyCon bi) nDP_INSTANCES (fsLit "dPA_PArray")
- , mk unitTyConName nDP_INSTANCES (fsLit "dPA_Unit")
-
- , mk intTyConName nDP_INSTANCES (fsLit "dPA_Int")
- , mk doubleTyConName nDP_INSTANCES (fsLit "dPA_Double")
- , mk boolTyConName nDP_INSTANCES (fsLit "dPA_Bool")
+ mk (tyConName $ closureTyCon bi) (dph_Closure mods) (fsLit "dPA_Clo")
+ , mk (tyConName $ voidTyCon bi) (dph_Repr mods) (fsLit "dPA_Void")
+ , mk (tyConName $ parrayTyCon bi) (dph_Instances mods) (fsLit "dPA_PArray")
+ , mk unitTyConName (dph_Instances mods) (fsLit "dPA_Unit")
+
+ , mk intTyConName (dph_Instances mods) (fsLit "dPA_Int")
+ , mk doubleTyConName (dph_Instances mods) (fsLit "dPA_Double")
+ , mk boolTyConName (dph_Instances mods) (fsLit "dPA_Bool")
]
++ tups
where
mk name mod fs = (name, mod, fs)
- tups = map mk_tup [2..mAX_NDP_PROD]
+ tups = map mk_tup [2..mAX_DPH_PROD]
mk_tup n = mk (tyConName $ tupleTyCon Boxed n)
- nDP_INSTANCES
+ (dph_Instances mods)
(mkFastString $ "dPA_" ++ show n)
initBuiltinPRs :: Builtins -> DsM [(Name, Var)]
initBuiltinPRs = initBuiltinDicts . builtinPRs
builtinPRs :: Builtins -> [(Name, Module, FastString)]
-builtinPRs bi =
+builtinPRs bi@(Builtins { dphModules = mods }) =
[
- mk (tyConName unitTyCon) nDP_REPR (fsLit "dPR_Unit")
- , mk (tyConName $ voidTyCon bi) nDP_REPR (fsLit "dPR_Void")
- , mk (tyConName $ wrapTyCon bi) nDP_REPR (fsLit "dPR_Wrap")
- , mk (tyConName $ enumerationTyCon bi) nDP_REPR (fsLit "dPR_Enumeration")
- , mk (tyConName $ closureTyCon bi) nDP_CLOSURE (fsLit "dPR_Clo")
+ mk (tyConName unitTyCon) (dph_Repr mods) (fsLit "dPR_Unit")
+ , mk (tyConName $ voidTyCon bi) (dph_Repr mods) (fsLit "dPR_Void")
+ , mk (tyConName $ wrapTyCon bi) (dph_Repr mods) (fsLit "dPR_Wrap")
+ , mk (tyConName $ enumerationTyCon bi) (dph_Repr mods) (fsLit "dPR_Enumeration")
+ , mk (tyConName $ closureTyCon bi) (dph_Closure mods) (fsLit "dPR_Clo")
-- temporary
- , mk intTyConName nDP_INSTANCES (fsLit "dPR_Int")
- , mk doubleTyConName nDP_INSTANCES (fsLit "dPR_Double")
+ , mk intTyConName (dph_Instances mods) (fsLit "dPR_Int")
+ , mk doubleTyConName (dph_Instances mods) (fsLit "dPR_Double")
]
- ++ map mk_sum [2..mAX_NDP_SUM]
- ++ map mk_prod [2..mAX_NDP_PROD]
+ ++ map mk_sum [2..mAX_DPH_SUM]
+ ++ map mk_prod [2..mAX_DPH_PROD]
where
mk name mod fs = (name, mod, fs)
- mk_sum n = (tyConName $ sumTyCon n bi, nDP_REPR,
+ mk_sum n = (tyConName $ sumTyCon n bi, dph_Repr mods,
mkFastString ("dPR_Sum" ++ show n))
- mk_prod n = (tyConName $ prodTyCon n bi, nDP_REPR,
+ mk_prod n = (tyConName $ prodTyCon n bi, dph_Repr mods,
mkFastString ("dPR_" ++ show n))
initBuiltinBoxedTyCons :: Builtins -> DsM [(Name, TyCon)]
externalTyCon :: Module -> FastString -> DsM TyCon
externalTyCon mod fs
- = dsLookupTyCon =<< lookupOrig mod (mkOccNameFS tcName fs)
+ = dsLookupTyCon =<< lookupOrig mod (mkTcOccFS fs)
externalType :: Module -> FastString -> DsM Type
externalType mod fs
unitTyConName = tyConName unitTyCon
-primMethod :: TyCon -> String -> DsM (Maybe Var)
-primMethod tycon method
+primMethod :: TyCon -> String -> Builtins -> DsM (Maybe Var)
+primMethod tycon method (Builtins { dphModules = mods })
| Just suffix <- lookupNameEnv prim_ty_cons (tyConName tycon)
= liftM Just
- $ dsLookupGlobalId =<< lookupOrig nDP_UNBOXED (mkVarOcc $ method ++ suffix)
+ $ dsLookupGlobalId =<< lookupOrig (dph_Unboxed mods)
+ (mkVarOcc $ method ++ suffix)
| otherwise = return Nothing
-primPArray :: TyCon -> DsM (Maybe TyCon)
-primPArray tycon
+primPArray :: TyCon -> Builtins -> DsM (Maybe TyCon)
+primPArray tycon (Builtins { dphModules = mods })
| Just suffix <- lookupNameEnv prim_ty_cons (tyConName tycon)
= liftM Just
- $ dsLookupTyCon =<< lookupOrig nDP_UNBOXED (mkOccName tcName $ "PArray" ++ suffix)
+ $ dsLookupTyCon =<< lookupOrig (dph_Unboxed mods)
+ (mkTcOcc $ "PArray" ++ suffix)
| otherwise = return Nothing