X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=c%CE%BBash%2FCLasH%2FUtils%2FCore%2FCoreTools.hs;h=2bb688bb7f0c023a1d9b7986a97eb581f22b808c;hb=6b25abd35ae3cfe2fe42b9d0446d35d0dd118f98;hp=9b276d659eabac9731b8f1fcb6c6205c00ebb1cc;hpb=20e2625d1199e3642b73188471e9804efa1ab763;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git "a/c\316\273ash/CLasH/Utils/Core/CoreTools.hs" "b/c\316\273ash/CLasH/Utils/Core/CoreTools.hs" index 9b276d6..2bb688b 100644 --- "a/c\316\273ash/CLasH/Utils/Core/CoreTools.hs" +++ "b/c\316\273ash/CLasH/Utils/Core/CoreTools.hs" @@ -8,6 +8,8 @@ module CLasH.Utils.Core.CoreTools where --Standard modules import qualified Maybe import qualified System.IO.Unsafe +import qualified Data.Map as Map +import qualified Data.Accessor.Monad.Trans.State as MonadState -- GHC API import qualified GHC @@ -46,7 +48,40 @@ import qualified CLasH.Utils.Core.BinderTools as BinderTools type Binding = (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -- | Evaluate a core Type representing type level int from the tfp --- library to a real int. +-- library to a real int. Checks if the type really is a Dec type and +-- caches the results. +tfp_to_int :: Type.Type -> TypeSession Int +tfp_to_int ty = do + hscenv <- MonadState.get tsHscEnv + let norm_ty = normalize_tfp_int hscenv ty + case Type.splitTyConApp_maybe norm_ty of + Just (tycon, args) -> do + let name = Name.getOccString (TyCon.tyConName tycon) + case name of + "Dec" -> + tfp_to_int' ty + otherwise -> do + return $ error ("Callin tfp_to_int on non-dec:" ++ (show ty)) + Nothing -> return $ error ("Callin tfp_to_int on non-dec:" ++ (show ty)) + +-- | Evaluate a core Type representing type level int from the tfp +-- library to a real int. Caches the results. Do not use directly, use +-- tfp_to_int instead. +tfp_to_int' :: Type.Type -> TypeSession Int +tfp_to_int' ty = do + lens <- MonadState.get tsTfpInts + hscenv <- MonadState.get tsHscEnv + let norm_ty = normalize_tfp_int hscenv ty + let existing_len = Map.lookup (OrdType norm_ty) lens + case existing_len of + Just len -> return len + Nothing -> do + let new_len = eval_tfp_int hscenv ty + MonadState.modify tsTfpInts (Map.insert (OrdType norm_ty) (new_len)) + return new_len + +-- | Evaluate a core Type representing type level int from the tfp +-- library to a real int. Do not use directly, use tfp_to_int instead. eval_tfp_int :: HscTypes.HscEnv -> Type.Type -> Int eval_tfp_int env ty = unsafeRunGhc libdir $ do @@ -66,15 +101,11 @@ eval_tfp_int env ty = libdir = DynFlags.topDir dynflags dynflags = HscTypes.hsc_dflags env -normalise_tfp_int :: HscTypes.HscEnv -> Type.Type -> Type.Type -normalise_tfp_int env ty = +normalize_tfp_int :: HscTypes.HscEnv -> Type.Type -> Type.Type +normalize_tfp_int env ty = System.IO.Unsafe.unsafePerformIO $ - normaliseType env ty + normalizeType env ty --- | Get the width of a SizedWord type --- sized_word_len :: HscTypes.HscEnv -> Type.Type -> Int --- sized_word_len env ty = eval_tfp_int env (sized_word_len_ty ty) - sized_word_len_ty :: Type.Type -> Type.Type sized_word_len_ty ty = len where @@ -83,10 +114,6 @@ sized_word_len_ty ty = len Nothing -> error $ "\nCoreTools.sized_word_len_ty: Not a sized word type: " ++ (pprString ty) [len] = args --- | Get the width of a SizedInt type --- sized_int_len :: HscTypes.HscEnv -> Type.Type -> Int --- sized_int_len env ty = eval_tfp_int env (sized_int_len_ty ty) - sized_int_len_ty :: Type.Type -> Type.Type sized_int_len_ty ty = len where @@ -95,10 +122,6 @@ sized_int_len_ty ty = len Nothing -> error $ "\nCoreTools.sized_int_len_ty: Not a sized int type: " ++ (pprString ty) [len] = args --- | Get the upperbound of a RangedWord type --- ranged_word_bound :: HscTypes.HscEnv -> Type.Type -> Int --- ranged_word_bound env ty = eval_tfp_int env (ranged_word_bound_ty ty) - ranged_word_bound_ty :: Type.Type -> Type.Type ranged_word_bound_ty ty = len where @@ -107,26 +130,6 @@ ranged_word_bound_ty ty = len Nothing -> error $ "\nCoreTools.ranged_word_bound_ty: Not a sized word type: " ++ (pprString ty) [len] = args --- | Evaluate a core Type representing type level int from the TypeLevel --- library to a real int. --- eval_type_level_int :: Type.Type -> Int --- eval_type_level_int ty = --- unsafeRunGhc $ do --- -- Automatically import modules for any fully qualified identifiers --- setDynFlag DynFlags.Opt_ImplicitImportQualified --- --- let to_int_name = mkRdrName "Data.TypeLevel.Num.Sets" "toInt" --- let to_int = SrcLoc.noLoc $ HsExpr.HsVar to_int_name --- let undef = hsTypedUndef $ coreToHsType ty --- let app = HsExpr.HsApp (to_int) (undef) --- --- core <- toCore [] app --- execCore core - --- | Get the length of a FSVec type --- tfvec_len :: HscTypes.HscEnv -> Type.Type -> Int --- tfvec_len env ty = eval_tfp_int env (tfvec_len_ty ty) - tfvec_len_ty :: Type.Type -> Type.Type tfvec_len_ty ty = len where @@ -227,21 +230,27 @@ get_val_args ty args = drop n args -- arguments, to get at the value arguments. n = length tyvars + length predtypes -getLiterals :: HscTypes.HscEnv -> CoreSyn.CoreExpr -> [CoreSyn.CoreExpr] -getLiterals _ app@(CoreSyn.App _ _) = literals - where - (CoreSyn.Var f, args) = CoreSyn.collectArgs app - literals = filter (is_lit) args - -getLiterals _ lit@(CoreSyn.Lit _) = [lit] - -getLiterals hscenv letrec@(CoreSyn.Let (CoreSyn.NonRec letBind (letExpr)) letRes) = [lit] - where - ty = Var.varType letBind - litInt = eval_tfp_int hscenv ty - lit = CoreSyn.Lit (Literal.mkMachInt (toInteger litInt)) - -getLiterals _ expr = error $ "\nCoreTools.getLiterals: Not a known Lit: " ++ pprString expr +-- Finds out what literal Integer this expression represents. +getIntegerLiteral :: CoreSyn.CoreExpr -> TranslatorSession Integer +getIntegerLiteral expr = + case CoreSyn.collectArgs expr of + (CoreSyn.Var f, [CoreSyn.Lit (Literal.MachInt integer)]) + | getFullString f == "GHC.Integer.smallInteger" -> return integer + (CoreSyn.Var f, [CoreSyn.Lit (Literal.MachInt64 integer)]) + | getFullString f == "GHC.Integer.int64ToInteger" -> return integer + (CoreSyn.Var f, [CoreSyn.Lit (Literal.MachWord integer)]) + | getFullString f == "GHC.Integer.wordToInteger" -> return integer + (CoreSyn.Var f, [CoreSyn.Lit (Literal.MachWord64 integer)]) + | getFullString f == "GHC.Integer.word64ToInteger" -> return integer + -- fromIntegerT returns the integer corresponding to the type of its + -- (third) argument. Since it is polymorphic, the type of that + -- argument is passed as the first argument, so we can just use that + -- one. + (CoreSyn.Var f, [CoreSyn.Type dec_ty, dec_dict, CoreSyn.Type num_ty, num_dict, arg]) + | getFullString f == "Types.Data.Num.Ops.fromIntegerT" -> do + int <- MonadState.lift tsType $ tfp_to_int dec_ty + return $ toInteger int + _ -> error $ "CoreTools.getIntegerLiteral: Unsupported Integer literal: " ++ pprString expr reduceCoreListToHsList :: [HscTypes.CoreModule] -- ^ The modules where parts of the list are hidden @@ -451,4 +460,4 @@ mkSelCase scrut i = do let binders = take i wildbndrs ++ [sel_bndr] ++ drop (i+1) wildbndrs return $ CoreSyn.Case scrut scrut_bndr scrut_ty [(CoreSyn.DataAlt datacon, binders, CoreSyn.Var sel_bndr)] dcs -> error $ "CoreTools.mkSelCase: Scrutinee type must have exactly one datacon. Extracting element " ++ (show i) ++ " from '" ++ pprString scrut ++ "' Datacons: " ++ (show dcs) ++ " Type: " ++ (pprString scrut_ty) - Nothing -> error $ "CoreTools.mkSelCase: Creating extractor case, but scrutinee has no tycon? Extracting element " ++ (show i) ++ " from '" ++ pprString scrut ++ "'" + Nothing -> error $ "CoreTools.mkSelCase: Creating extractor case, but scrutinee has no tycon? Extracting element " ++ (show i) ++ " from '" ++ pprString scrut ++ "'" ++ " Type: " ++ (pprString scrut_ty)