-- Extract from a list of type constructors those (1) which need to be vectorised and (2) those -- that could be, but need not be vectorised (as a scalar representation is sufficient and more -- efficient). The type constructors that cannot be vectorised will be dropped. -- -- A type constructor will only be vectorised if it is -- -- (1) a data type constructor, with vanilla data constructors (i.e., data constructors admitted by -- Haskell 98) and -- (2) at least one of the type constructors that appears in its definition is also vectorised. -- -- If (1) is met, but not (2), the type constructor may appear in vectorised code, but there is no -- need to vectorise that type constructor itself. This holds, for example, for all enumeration -- types. As '([::])' is being vectorised, any type constructor whose definition involves -- '([::])', either directly or indirectly, will be vectorised. module Vectorise.Type.Classify ( classifyTyCons ) where import NameSet import UniqSet import UniqFM import DataCon import TyCon import TyCoRep import qualified Type import PrelNames import Digraph -- |From a list of type constructors, extract those that can be vectorised, returning them in two -- sets, where the first result list /must be/ vectorised and the second result list /need not be/ -- vectorised. The third result list are those type constructors that we cannot convert (either -- because they use language extensions or because they dependent on type constructors for which -- no vectorised version is available). -- -- NB: In order to be able to vectorise a type constructor, we require members of the depending set -- (i.e., those type constructors that the current one depends on) to be vectorised only if they -- are also parallel (i.e., appear in the second argument to the function). -- -- The first argument determines the /conversion status/ of external type constructors as follows: -- -- * tycons which have converted versions are mapped to 'True' -- * tycons which are not changed by vectorisation are mapped to 'False' -- * tycons which haven't been converted (because they can't or weren't vectorised) are not -- elements of the map -- classifyTyCons :: UniqFM Bool -- ^type constructor vectorisation status -> NameSet -- ^tycons involving parallel arrays -> [TyCon] -- ^type constructors that need to be classified -> ( [TyCon] -- to be converted , [TyCon] -- need not be converted (but could be) , [TyCon] -- involve parallel arrays (whether converted or not) , [TyCon] -- can't be converted ) classifyTyCons convStatus parTyCons tcs = classify [] [] [] [] convStatus parTyCons (tyConGroups tcs) where classify conv keep par novect _ _ [] = (conv, keep, par, novect) classify conv keep par novect cs pts ((tcs, ds) : rs) | can_convert && must_convert = classify (tcs ++ conv) keep (par ++ tcs_par) novect (cs `addListToUFM` [(tc, True) | tc <- tcs]) pts' rs | can_convert = classify conv (tcs ++ keep) (par ++ tcs_par) novect (cs `addListToUFM` [(tc, False) | tc <- tcs]) pts' rs | otherwise = classify conv keep (par ++ tcs_par) (tcs ++ novect) cs pts' rs where refs = ds `delListFromUniqSet` tcs -- the tycons that directly or indirectly depend on parallel arrays tcs_par | any ((`elemNameSet` parTyCons) . tyConName) . eltsUFM $ refs = tcs | otherwise = [] pts' = pts `extendNameSetList` map tyConName tcs_par can_convert = (isNullUFM (filterUniqSet ((`elemNameSet` pts) . tyConName) (refs `minusUFM` cs)) && all convertable tcs) || isShowClass tcs must_convert = foldUFM (||) False (intersectUFM_C const cs refs) && (not . isShowClass $ tcs) -- We currently admit Haskell 2011-style data and newtype declarations as well as type -- constructors representing classes. convertable tc = (isDataTyCon tc || isNewTyCon tc) && all isVanillaDataCon (tyConDataCons tc) || isClassTyCon tc -- !!!FIXME: currently we allow 'Show' in vectorised code without actually providing a -- vectorised definition (to be able to vectorise 'Num') isShowClass [tc] = tyConName tc == showClassName isShowClass _ = False -- Used to group type constructors into mutually dependent groups. -- type TyConGroup = ([TyCon], UniqSet TyCon) -- Compute mutually recursive groups of tycons in topological order. -- tyConGroups :: [TyCon] -> [TyConGroup] tyConGroups tcs = map mk_grp (stronglyConnCompFromEdgedVertices edges) where edges = [((tc, ds), tc, uniqSetToList ds) | tc <- tcs , let ds = tyConsOfTyCon tc] mk_grp (AcyclicSCC (tc, ds)) = ([tc], ds) mk_grp (CyclicSCC els) = (tcs, unionManyUniqSets dss) where (tcs, dss) = unzip els -- |Collect the set of TyCons used by the representation of some data type. -- tyConsOfTyCon :: TyCon -> UniqSet TyCon tyConsOfTyCon = tyConsOfTypes . concatMap dataConRepArgTys . tyConDataCons -- |Collect the set of TyCons that occur in these types. -- tyConsOfTypes :: [Type] -> UniqSet TyCon tyConsOfTypes = unionManyUniqSets . map tyConsOfType -- |Collect the set of TyCons that occur in this type. -- tyConsOfType :: Type -> UniqSet TyCon tyConsOfType ty = filterUniqSet not_tuple_or_unlifted $ Type.tyConsOfType ty where not_tuple_or_unlifted tc = not (isUnliftedTyCon tc || isTupleTyCon tc)