+{-# OPTIONS -fno-warn-missing-signatures #-}
+
module Vectorise( vectorise )
where
-#include "HsVersions.h"
-
-import VectMonad
-import VectUtils
-
-import DynFlags
-import HscTypes
-
-import CoreLint ( showPass, endPass )
+import Vectorise.Type.Env
+import Vectorise.Type.Type
+import Vectorise.Convert
+import Vectorise.Utils.Hoisting
+import Vectorise.Exp
+import Vectorise.Vect
+import Vectorise.Env
+import Vectorise.Monad
+
+import HscTypes hiding ( MonadThings(..) )
+import Module ( PackageId )
import CoreSyn
-import CoreUtils
+import CoreUnfold ( mkInlineUnfolding )
import CoreFVs
-import TyCon
-import Type
-import TypeRep
+import CoreMonad ( CoreM, getHscEnv )
+import FamInstEnv ( extendFamInstEnvList )
import Var
-import VarEnv
-import Name ( mkSysTvName )
-import NameEnv
import Id
+import OccName
+import BasicTypes ( isLoopBreaker )
+import Outputable
+import Util ( zipLazy )
+import MonadUtils
-import DsMonad hiding (mapAndUnzipM)
+import Control.Monad
-import PrelNames
+debug = False
+dtrace s x = if debug then pprTrace "Vectorise" s x else x
-import Outputable
-import FastString
-import Control.Monad ( liftM, liftM2, mapAndUnzipM )
-
-vectorise :: HscEnv -> ModGuts -> IO ModGuts
-vectorise hsc_env guts
- | not (Opt_Vectorise `dopt` dflags) = return guts
- | otherwise
- = do
- showPass dflags "Vectorisation"
+-- | Vectorise a single module.
+-- Takes the package containing the DPH backend we're using. Eg either dph-par or dph-seq.
+vectorise :: PackageId -> ModGuts -> CoreM ModGuts
+vectorise backend guts
+ = do hsc_env <- getHscEnv
+ liftIO $ vectoriseIO backend hsc_env guts
+
+
+-- | Vectorise a single monad, given its HscEnv (code gen environment).
+vectoriseIO :: PackageId -> HscEnv -> ModGuts -> IO ModGuts
+vectoriseIO backend hsc_env guts
+ = do -- Get information about currently loaded external packages.
eps <- hscEPS hsc_env
+
+ -- Combine vectorisation info from the current module, and external ones.
let info = hptVectInfo hsc_env `plusVectInfo` eps_vect_info eps
- Just (info', guts') <- initV hsc_env guts info (vectModule guts)
- endPass dflags "Vectorisation" Opt_D_dump_vect (mg_binds guts')
- return $ guts' { mg_vect_info = info' }
- where
- dflags = hsc_dflags hsc_env
-vectModule :: ModGuts -> VM ModGuts
-vectModule guts = return guts
-
--- ----------------------------------------------------------------------------
--- Bindings
-
-vectBndr :: Var -> VM (Var, Var)
-vectBndr v
- = do
- vty <- vectType (idType v)
- lty <- mkPArrayType vty
- let vv = v `Id.setIdType` vty
- lv = v `Id.setIdType` lty
- updLEnv (mapTo vv lv)
- return (vv, lv)
- where
- mapTo vv lv env = env { local_vars = extendVarEnv (local_vars env) v (Var vv, Var lv) }
-
-vectBndrIn :: Var -> VM a -> VM (Var, Var, a)
-vectBndrIn v p
- = localV
- $ do
- (vv, lv) <- vectBndr v
- x <- p
- return (vv, lv, x)
-
-vectBndrsIn :: [Var] -> VM a -> VM ([Var], [Var], a)
-vectBndrsIn vs p
- = localV
- $ do
- (vvs, lvs) <- mapAndUnzipM vectBndr vs
- x <- p
- return (vvs, lvs, x)
-
--- ----------------------------------------------------------------------------
--- Expressions
-
-replicateP :: CoreExpr -> CoreExpr -> VM CoreExpr
-replicateP expr len
- = do
- dict <- paDictOfType ty
- rep <- builtin replicatePAVar
- return $ mkApps (Var rep) [Type ty, dict, expr, len]
- where
- ty = exprType expr
-
-capply :: (CoreExpr, CoreExpr) -> (CoreExpr, CoreExpr) -> VM (CoreExpr, CoreExpr)
-capply (vfn, lfn) (varg, larg)
- = do
- apply <- builtin applyClosureVar
- applyP <- builtin applyClosurePVar
- return (mkApps (Var apply) [Type arg_ty, Type res_ty, vfn, varg],
- mkApps (Var applyP) [Type arg_ty, Type res_ty, lfn, larg])
- where
- fn_ty = exprType vfn
- (arg_ty, res_ty) = splitClosureTy fn_ty
+ -- Run the main VM computation.
+ Just (info', guts') <- initV backend hsc_env guts info (vectModule guts)
+ return (guts' { mg_vect_info = info' })
-vectVar :: CoreExpr -> Var -> VM (CoreExpr, CoreExpr)
-vectVar lc v = local v `orElseV` global v
- where
- local v = maybeV (readLEnv $ \env -> lookupVarEnv (local_vars env) v)
- global v = do
- vexpr <- maybeV (readGEnv $ \env -> lookupVarEnv (global_vars env) v)
- lexpr <- replicateP vexpr lc
- return (vexpr, lexpr)
-
-vectExpr :: CoreExpr -> CoreExprWithFVs -> VM (CoreExpr, CoreExpr)
-vectExpr lc (_, AnnType ty)
- = do
- vty <- vectType ty
- return (Type vty, Type vty)
-vectExpr lc (_, AnnVar v) = vectVar lc v
-vectExpr lc (_, AnnLit lit)
- = do
- let vexpr = Lit lit
- lexpr <- replicateP vexpr lc
- return (vexpr, lexpr)
-vectExpr lc (_, AnnNote note expr)
- = do
- (vexpr, lexpr) <- vectExpr lc expr
- return (Note note vexpr, Note note lexpr)
-vectExpr lc (_, AnnApp fn arg)
- = do
- fn' <- vectExpr lc fn
- arg' <- vectExpr lc arg
- capply fn' arg'
-vectExpr lc (_, AnnCase expr bndr ty alts)
- = panic "vectExpr: case"
-vectExpr lc (_, AnnLet (AnnNonRec bndr rhs) body)
- = do
- (vrhs, lrhs) <- vectExpr lc rhs
- (vbndr, lbndr, (vbody, lbody)) <- vectBndrIn bndr (vectExpr lc body)
- return (Let (NonRec vbndr vrhs) vbody,
- Let (NonRec lbndr lrhs) lbody)
-vectExpr lc (_, AnnLet (AnnRec prs) body)
- = do
- (vbndrs, lbndrs, (vrhss, vbody, lrhss, lbody)) <- vectBndrsIn bndrs vect
- return (Let (Rec (zip vbndrs vrhss)) vbody,
- Let (Rec (zip lbndrs lrhss)) lbody)
- where
- (bndrs, rhss) = unzip prs
-
- vect = do
- (vrhss, lrhss) <- mapAndUnzipM (vectExpr lc) rhss
- (vbody, lbody) <- vectExpr lc body
- return (vrhss, vbody, lrhss, lbody)
-vectExpr lc (_, AnnLam bndr body)
- | isTyVar bndr
- = do
- r <- paDictArgType bndr
- (upd_env, add_lam) <- get_upd r
- (vbody, lbody) <- localV (upd_env >> vectExpr lc body)
- return (Lam bndr (add_lam vbody), Lam bndr (add_lam lbody))
+
+-- | Vectorise a single module, in the VM monad.
+vectModule :: ModGuts -> VM ModGuts
+vectModule guts
+ = do -- Vectorise the type environment.
+ -- This may add new TyCons and DataCons.
+ -- TODO: What new binds do we get back here?
+ (types', fam_insts, tc_binds) <- vectTypeEnv (mg_types guts)
+
+ -- TODO: What is this?
+ let fam_inst_env' = extendFamInstEnvList (mg_fam_inst_env guts) fam_insts
+ updGEnv (setFamInstEnv fam_inst_env')
+
+ -- dicts <- mapM buildPADict pa_insts
+ -- workers <- mapM vectDataConWorkers pa_insts
+
+ -- Vectorise all the top level bindings.
+ binds' <- mapM vectTopBind (mg_binds guts)
+
+ return $ guts { mg_types = types'
+ , mg_binds = Rec tc_binds : binds'
+ , mg_fam_inst_env = fam_inst_env'
+ , mg_fam_insts = mg_fam_insts guts ++ fam_insts
+ }
+
+
+-- | Try to vectorise a top-level binding.
+-- If it doesn't vectorise then return it unharmed.
+--
+-- For example, for the binding
+--
+-- @
+-- foo :: Int -> Int
+-- foo = \x -> x + x
+-- @
+--
+-- we get
+-- @
+-- foo :: Int -> Int
+-- foo = \x -> vfoo $: x
+--
+-- v_foo :: Closure void vfoo lfoo
+-- v_foo = closure vfoo lfoo void
+--
+-- vfoo :: Void -> Int -> Int
+-- vfoo = ...
+--
+-- lfoo :: PData Void -> PData Int -> PData Int
+-- lfoo = ...
+-- @
+--
+-- @vfoo@ is the "vectorised", or scalar, version that does the same as the original
+-- function foo, but takes an explicit environment.
+--
+-- @lfoo@ is the "lifted" version that works on arrays.
+--
+-- @v_foo@ combines both of these into a `Closure` that also contains the
+-- environment.
+--
+-- The original binding @foo@ is rewritten to call the vectorised version
+-- present in the closure.
+--
+vectTopBind :: CoreBind -> VM CoreBind
+vectTopBind b@(NonRec var expr)
+ = do
+ (inline, expr') <- vectTopRhs var expr
+ var' <- vectTopBinder var inline expr'
+
+ -- Vectorising the body may create other top-level bindings.
+ hs <- takeHoisted
+
+ -- To get the same functionality as the original body we project
+ -- out its vectorised version from the closure.
+ cexpr <- tryConvert var var' expr
+
+ return . Rec $ (var, cexpr) : (var', expr') : hs
+ `orElseV`
+ return b
+
+vectTopBind b@(Rec bs)
+ = do
+ (vars', _, exprs')
+ <- fixV $ \ ~(_, inlines, rhss) ->
+ do vars' <- sequence [vectTopBinder var inline rhs
+ | (var, ~(inline, rhs)) <- zipLazy vars (zip inlines rhss)]
+ (inlines', exprs')
+ <- mapAndUnzipM (uncurry vectTopRhs) bs
+
+ return (vars', inlines', exprs')
+
+ hs <- takeHoisted
+ cexprs <- sequence $ zipWith3 tryConvert vars vars' exprs
+ return . Rec $ zip vars cexprs ++ zip vars' exprs' ++ hs
+ `orElseV`
+ return b
where
- get_upd Nothing = return (deleteTyVarPA bndr, id)
- get_upd (Just pa_ty) = do
- pa_var <- newLocalVar FSLIT("dPA") pa_ty
- return (extendTyVarPA bndr (Var pa_var),
- Lam pa_var)
-
--- ----------------------------------------------------------------------------
--- Types
-
-vectTyCon :: TyCon -> VM TyCon
-vectTyCon tc
- | isFunTyCon tc = builtin closureTyCon
- | isBoxedTupleTyCon tc = return tc
- | isUnLiftedTyCon tc = return tc
- | otherwise = do
- r <- lookupTyCon tc
- case r of
- Just tc' -> return tc'
-
- -- FIXME: just for now
- Nothing -> pprTrace "ccTyCon:" (ppr tc) $ return tc
-
-vectType :: Type -> VM Type
-vectType ty | Just ty' <- coreView ty = vectType ty
-vectType (TyVarTy tv) = return $ TyVarTy tv
-vectType (AppTy ty1 ty2) = liftM2 AppTy (vectType ty1) (vectType ty2)
-vectType (TyConApp tc tys) = liftM2 TyConApp (vectTyCon tc) (mapM vectType tys)
-vectType (FunTy ty1 ty2) = liftM2 TyConApp (builtin closureTyCon)
- (mapM vectType [ty1,ty2])
-vectType (ForAllTy tv ty)
- = do
- r <- paDictArgType tv
- ty' <- vectType ty
- return $ ForAllTy tv (wrap r ty')
+ (vars, exprs) = unzip bs
+
+
+-- | Make the vectorised version of this top level binder, and add the mapping
+-- between it and the original to the state. For some binder @foo@ the vectorised
+-- version is @$v_foo@
+--
+-- NOTE: vectTopBinder *MUST* be lazy in inline and expr because of how it is
+-- used inside of fixV in vectTopBind
+vectTopBinder
+ :: Var -- ^ Name of the binding.
+ -> Inline -- ^ Whether it should be inlined, used to annotate it.
+ -> CoreExpr -- ^ RHS of the binding, used to set the `Unfolding` of the returned `Var`.
+ -> VM Var -- ^ Name of the vectorised binding.
+
+vectTopBinder var inline expr
+ = do
+ -- Vectorise the type attached to the var.
+ vty <- vectType (idType var)
+
+ -- Make the vectorised version of binding's name, and set the unfolding used for inlining.
+ var' <- liftM (`setIdUnfoldingLazily` unfolding)
+ $ cloneId mkVectOcc var vty
+
+ -- Add the mapping between the plain and vectorised name to the state.
+ defGlobalVar var var'
+
+ return var'
where
- wrap Nothing = id
- wrap (Just pa_ty) = FunTy pa_ty
-
-vectType ty = pprPanic "vectType:" (ppr ty)
+ unfolding = case inline of
+ Inline arity -> mkInlineUnfolding (Just arity) expr
+ DontInline -> noUnfolding
+
+
+-- | Vectorise the RHS of a top-level binding, in an empty local environment.
+vectTopRhs
+ :: Var -- ^ Name of the binding.
+ -> CoreExpr -- ^ Body of the binding.
+ -> VM (Inline, CoreExpr)
+
+vectTopRhs var expr
+ = dtrace (vcat [text "vectTopRhs", ppr expr])
+ $ closedV
+ $ do (inline, vexpr) <- inBind var
+ $ vectPolyExpr (isLoopBreaker $ idOccInfo var)
+ (freeVars expr)
+ return (inline, vectorised vexpr)
+
+
+-- | Project out the vectorised version of a binding from some closure,
+-- or return the original body if that doesn't work.
+tryConvert
+ :: Var -- ^ Name of the original binding (eg @foo@)
+ -> Var -- ^ Name of vectorised version of binding (eg @$vfoo@)
+ -> CoreExpr -- ^ The original body of the binding.
+ -> VM CoreExpr
+
+tryConvert var vect_var rhs
+ = fromVect (idType var) (Var vect_var) `orElseV` return rhs
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