+defaultDataConWorkers = [trueDataCon, falseDataCon, unitDataCon]
+
+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)
+
+
+-- | Mapping of prelude functions to vectorised versions.
+-- Functions like filterP currently have a working but naive version in GHC.PArr
+-- During vectorisation we replace these by calls to filterPA, which are
+-- defined in dph-common Data.Array.Parallel.Lifted.Combinators
+--
+-- As renamer only sees the GHC.PArr functions, if you want to add a new function
+-- to the vectoriser there has to be a definition for it in GHC.PArr, even though
+-- it will never be used at runtime.
+--
+preludeVars :: Modules -> [(Module, FastString, Module, FastString)]
+preludeVars (Modules { dph_Combinators = dph_Combinators
+ , dph_PArray = dph_PArray
+ , dph_Prelude_Int = dph_Prelude_Int
+ , dph_Prelude_Word8 = dph_Prelude_Word8
+ , dph_Prelude_Double = dph_Prelude_Double
+ , dph_Prelude_Bool = dph_Prelude_Bool
+ , dph_Prelude_PArr = dph_Prelude_PArr
+ })
+
+ -- Functions that work on whole PArrays, defined in GHC.PArr
+ = [ 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 "sliceP") dph_Combinators (fsLit "slicePA")
+ , 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")
+
+ -- Map scalar functions to versions using closures.
+ , 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_Word8
+ ++ vars_Num dph_Prelude_Word8
+ ++
+ [ mk' dph_Prelude_Word8 "div" "divV"
+ , mk' dph_Prelude_Word8 "mod" "modV"
+ , mk' dph_Prelude_Word8 "fromInt" "fromIntV"
+ , mk' dph_Prelude_Word8 "toInt" "toIntV"
+ ]
+
+ ++ 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 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' 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"
+ ]
+
+
+-- | Get a list of names to `TyCon`s in the mock prelude.
+initBuiltinTyCons :: Builtins -> DsM [(Name, TyCon)]
+initBuiltinTyCons bi
+ = do
+ -- parr <- externalTyCon dph_Prelude_PArr (fsLit "PArr")
+ dft_tcs <- defaultTyCons
+ return $ (tyConName funTyCon, closureTyCon bi)
+ : (parrTyConName, parrayTyCon bi)
+
+ -- FIXME: temporary
+ : (tyConName $ parrayTyCon bi, parrayTyCon bi)