X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=CoreTools.hs;h=73904b935f7b266b8be6e84c7553287d91a60c22;hb=dc9b719e624788cd0ced12ba45f8761382755ad5;hp=63bca94c23225ef84e94e8ee9e3755dd976b3a3f;hpb=1c0c371527493b595d8ee767c1ed5cedc0891a30;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git a/CoreTools.hs b/CoreTools.hs index 63bca94..73904b9 100644 --- a/CoreTools.hs +++ b/CoreTools.hs @@ -3,7 +3,10 @@ -- Core and Haskell (it uses HsTools for this), but only the functions that -- know about various libraries and know which functions to call. module CoreTools where - + +--Standard modules +import qualified Maybe + -- GHC API import qualified GHC import qualified Type @@ -19,7 +22,10 @@ import qualified DynFlags import qualified SrcLoc import qualified CoreSyn import qualified Var +import qualified VarSet import qualified Unique +import qualified CoreUtils +import qualified CoreFVs import GhcTools import HsTools @@ -60,24 +66,24 @@ sized_word_len ty = -- | 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 +-- 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 -fsvec_len :: Type.Type -> Int -fsvec_len ty = - eval_type_level_int len +tfvec_len :: Type.Type -> Int +tfvec_len ty = + eval_tfp_int len where (tycon, args) = Type.splitTyConApp ty [len, el_ty] = args @@ -89,3 +95,35 @@ is_wild :: CoreSyn.CoreBndr -> Bool -- occstring for now... TODO --(Var.varUnique bndr) == (Unique.mkBuiltinUnique 1) is_wild bndr = "wild" == (OccName.occNameString . Name.nameOccName . Var.varName) bndr + +-- Is the given core expression a lambda abstraction? +is_lam :: CoreSyn.CoreExpr -> Bool +is_lam (CoreSyn.Lam _ _) = True +is_lam _ = False + +-- Is the given core expression of a function type? +is_fun :: CoreSyn.CoreExpr -> Bool +-- Treat Type arguments differently, because exprType is not defined for them. +is_fun (CoreSyn.Type _) = False +is_fun expr = (Type.isFunTy . CoreUtils.exprType) expr + +-- Is the given core expression polymorphic (i.e., does it accept type +-- arguments?). +is_poly :: CoreSyn.CoreExpr -> Bool +-- Treat Type arguments differently, because exprType is not defined for them. +is_poly (CoreSyn.Type _) = False +is_poly expr = (Maybe.isJust . Type.splitForAllTy_maybe . CoreUtils.exprType) expr + +-- Is the given core expression a variable reference? +is_var :: CoreSyn.CoreExpr -> Bool +is_var (CoreSyn.Var _) = True +is_var _ = False + +-- Can the given core expression be applied to something? This is true for +-- applying to a value as well as a type. +is_applicable :: CoreSyn.CoreExpr -> Bool +is_applicable expr = is_fun expr || is_poly expr + +-- Does the given CoreExpr have any free type vars? +has_free_tyvars :: CoreSyn.CoreExpr -> Bool +has_free_tyvars = not . VarSet.isEmptyVarSet . (CoreFVs.exprSomeFreeVars Var.isTyVar)