module CLasH.Normalize.NormalizeTools where
-- Standard modules
-import Debug.Trace
-import qualified List
import qualified Data.Monoid as Monoid
-import qualified Data.Either as Either
-import qualified Control.Arrow as Arrow
import qualified Control.Monad as Monad
-import qualified Control.Monad.Trans.State as State
import qualified Control.Monad.Trans.Writer as Writer
import qualified "transformers" Control.Monad.Trans as Trans
-import qualified Data.Map as Map
-import Data.Accessor
-import Data.Accessor.Monad.Trans.State as MonadState
+import qualified Data.Accessor.Monad.Trans.State as MonadState
+-- import Debug.Trace
-- GHC API
import CoreSyn
import qualified Name
import qualified Id
import qualified CoreSubst
-import qualified CoreUtils
import qualified Type
-import Outputable ( showSDoc, ppr, nest )
+-- import qualified CoreUtils
+-- import Outputable ( showSDoc, ppr, nest )
-- Local imports
import CLasH.Normalize.NormalizeTypes
import CLasH.Translator.TranslatorTypes
import CLasH.Utils
-import CLasH.Utils.Pretty
import qualified CLasH.Utils.Core.CoreTools as CoreTools
-import CLasH.VHDL.VHDLTypes
import qualified CLasH.VHDL.VHDLTools as VHDLTools
-- Apply the given transformation to all expressions in the given expression,
-- Apply the first transformation, followed by the second transformation, and
-- keep applying both for as long as expression still changes.
applyboth :: Transform -> (String, Transform) -> Transform
-applyboth first (name, second) expr = do
+applyboth first (name, second) expr = do
-- Apply the first
expr' <- first expr
-- Apply the second
(expr'', changed) <- Writer.listen $ second expr'
if Monoid.getAny $
--- trace ("Trying to apply transform " ++ name ++ " to:\n" ++ showSDoc (nest 4 $ ppr expr') ++ "\nType: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr') ++ "\n") $
+ -- trace ("Trying to apply transform " ++ name ++ " to:\n" ++ showSDoc (nest 4 $ ppr expr') ++ "\nType: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr') ++ "\n")
changed
then
--- trace ("Applying transform " ++ name ++ " to:\n" ++ showSDoc (nest 4 $ ppr expr') ++ "\nType: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr') ++ "\n") $
--- trace ("Result of applying " ++ name ++ ":\n" ++ showSDoc (nest 4 $ ppr expr'') ++ "\n" ++ "Type: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr'') ++ "\n" ) $
- applyboth first (name, second) $
+ -- trace ("Applying transform " ++ name ++ " to:\n" ++ showSDoc (nest 4 $ ppr expr') ++ "\nType: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr') ++ "\n") $
+ -- trace ("Result of applying " ++ name ++ ":\n" ++ showSDoc (nest 4 $ ppr expr'') ++ "\n" ++ "Type: \n" ++ (showSDoc $ nest 4 $ ppr $ CoreUtils.exprType expr'') ++ "\n" ) $
+ applyboth first (name, second)
expr''
else
--- trace ("No changes") $
+ -- trace ("No changes") $
return expr''
-- Apply the given transformation to all direct subexpressions (only), not the
is_local_var :: CoreSyn.CoreExpr -> TranslatorSession Bool
is_local_var (CoreSyn.Var v) = do
bndrs <- getGlobalBinders
- return $ not $ v `elem` bndrs
+ return $ v `notElem` bndrs
is_local_var _ = return False
-- Is the given binder defined by the user?
-- 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 = not $ str `elem` compiler_names
+isUserDefined bndr = str `notElem` 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"]
+ compiler_names = ["fromInteger", "head", "tail", "init", "last", "+", "*", "-", "!"]
-- Is the given binder normalizable? This means that its type signature can be
-- represented in hardware, which should (?) guarantee that it can be made