-- |Simple vectorised constructors and projections. -- module Vectorise.Vect ( Vect, VVar, VExpr, VBind , vectorised , lifted , mapVect , vVarType , vNonRec , vRec , vVar , vType , vTick , vLet , vLams , vVarApps , vCaseDEFAULT ) where import CoreSyn import Type ( Type ) import Var -- |Contains the vectorised and lifted versions of some thing. -- type Vect a = (a,a) type VVar = Vect Var type VExpr = Vect CoreExpr type VBind = Vect CoreBind -- |Get the vectorised version of a thing. -- vectorised :: Vect a -> a vectorised = fst -- |Get the lifted version of a thing. -- lifted :: Vect a -> a lifted = snd -- |Apply some function to both the vectorised and lifted versions of a thing. -- mapVect :: (a -> b) -> Vect a -> Vect b mapVect f (x, y) = (f x, f y) -- |Combine vectorised and lifted versions of two things componentwise. -- zipWithVect :: (a -> b -> c) -> Vect a -> Vect b -> Vect c zipWithVect f (x1, y1) (x2, y2) = (f x1 x2, f y1 y2) -- |Get the type of a vectorised variable. -- vVarType :: VVar -> Type vVarType = varType . vectorised -- |Wrap a vectorised variable as a vectorised expression. -- vVar :: VVar -> VExpr vVar = mapVect Var -- |Wrap a vectorised type as a vectorised expression. -- vType :: Type -> VExpr vType ty = (Type ty, Type ty) -- |Make a vectorised note. -- vTick :: Tickish Id -> VExpr -> VExpr vTick = mapVect . Tick -- |Make a vectorised non-recursive binding. -- vNonRec :: VVar -> VExpr -> VBind vNonRec = zipWithVect NonRec -- |Make a vectorised recursive binding. -- vRec :: [VVar] -> [VExpr] -> VBind vRec vs es = (Rec (zip vvs ves), Rec (zip lvs les)) where (vvs, lvs) = unzip vs (ves, les) = unzip es -- |Make a vectorised let expresion. -- vLet :: VBind -> VExpr -> VExpr vLet = zipWithVect Let -- |Make a vectorised lambda abstraction. -- -- The lifted version also binds the lifting context 'lc'. -- vLams :: Var -- ^ Var bound to the lifting context. -> [VVar] -- ^ Parameter vars for the abstraction. -> VExpr -- ^ Body of the abstraction. -> VExpr vLams lc vs (ve, le) = (mkLams vvs ve, mkLams (lc:lvs) le) where (vvs, lvs) = unzip vs -- |Apply an expression to a set of argument variables. -- -- The lifted version is also applied to the variable of the lifting context. -- vVarApps :: Var -> VExpr -> [VVar] -> VExpr vVarApps lc (ve, le) vvs = (ve `mkVarApps` vs, le `mkVarApps` (lc : ls)) where (vs, ls) = unzip vvs vCaseDEFAULT :: VExpr -- scrutiniy -> VVar -- bnder -> Type -- type of vectorised version -> Type -- type of lifted version -> VExpr -- body of alternative. -> VExpr vCaseDEFAULT (vscrut, lscrut) (vbndr, lbndr) vty lty (vbody, lbody) = (Case vscrut vbndr vty (mkDEFAULT vbody), Case lscrut lbndr lty (mkDEFAULT lbody)) where mkDEFAULT e = [(DEFAULT, [], e)]