-- GHC API
import CoreSyn
+import qualified Name
+import qualified Id
import qualified CoreSubst
import qualified CoreUtils
import Outputable ( showSDoc, ppr, nest )
import CLasH.Normalize.NormalizeTypes
import CLasH.Translator.TranslatorTypes
import CLasH.Utils.Pretty
+import qualified CLasH.Utils.Core.CoreTools as CoreTools
import CLasH.VHDL.VHDLTypes
import qualified CLasH.VHDL.VHDLTools as VHDLTools
-- Inline all let bindings that satisfy the given condition
inlinebind :: ((CoreBndr, CoreExpr) -> TransformMonad Bool) -> Transform
-inlinebind condition expr@(Let (Rec binds) res) = do
- -- Find all bindings that adhere to the condition
- res_eithers <- mapM docond binds
- case Either.partitionEithers res_eithers of
- -- No replaces? No change
- ([], _) -> return expr
- (replace, others) -> do
- -- Substitute the to be replaced binders with their expression
- let newexpr = substitute replace (Let (Rec others) res)
- change newexpr
- where
- docond :: (CoreBndr, CoreExpr) -> TransformMonad (Either (CoreBndr, CoreExpr) (CoreBndr, CoreExpr))
- docond b = do
- res <- condition b
- return $ case res of True -> Left b; False -> Right b
-
+inlinebind condition expr@(Let (NonRec bndr expr') res) = do
+ applies <- condition (bndr, expr')
+ if applies
+ then
+ -- Substitute the binding in res and return that
+ change $ substitute [(bndr, expr')] res
+ else
+ -- Don't change this let
+ return expr
-- Leave all other expressions unchanged
inlinebind _ expr = return expr
setChanged
return val
+-- Returns the given value and sets the changed flag if the bool given is
+-- True. Note that this will not unset the changed flag if the bool is False.
+changeif :: Bool -> a -> TransformMonad a
+changeif True val = change val
+changeif False val = return val
+
-- Replace each of the binders given with the coresponding expressions in the
-- given expression.
substitute :: [(CoreBndr, CoreExpr)] -> CoreExpr -> CoreExpr
subss' = map (Arrow.second (CoreSubst.substExpr subs)) subss
-- Is the given expression representable at runtime, based on the type?
-isRepr :: CoreSyn.CoreExpr -> TransformMonad Bool
-isRepr (Type ty) = return False
-isRepr expr = Trans.lift $ MonadState.lift tsType $ VHDLTools.isReprType (CoreUtils.exprType expr)
+isRepr :: (CoreTools.TypedThing t) => t -> TransformMonad Bool
+isRepr tything = case CoreTools.getType tything of
+ Nothing -> return False
+ Just ty -> Trans.lift $ MonadState.lift tsType $ VHDLTools.isReprType ty
is_local_var :: CoreSyn.CoreExpr -> TranslatorSession Bool
is_local_var (CoreSyn.Var v) = do
bndrs <- getGlobalBinders
return $ not $ v `elem` bndrs
is_local_var _ = return False
+
+-- Is the given binder defined by the user?
+isUserDefined :: CoreSyn.CoreBndr -> Bool
+-- System names are certain to not be user defined
+isUserDefined bndr | Name.isSystemName (Id.idName bndr) = False
+-- Check a list of typical compiler-defined names
+isUserDefined bndr = str `elem` compiler_names
+ where
+ str = Name.getOccString bndr
+ -- These are names of bindings usually generated by the compiler. For some
+ -- reason these are not marked as system, probably because the name itself
+ -- is not made up by the compiler, just this particular binding is.
+ compiler_names = ["fromInteger"]