futhark-0.20.2: src/Futhark/Internalise/Monad.hs
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE TypeFamilies #-}
module Futhark.Internalise.Monad
( InternaliseM,
runInternaliseM,
throwError,
VarSubsts,
InternaliseEnv (..),
FunInfo,
substitutingVars,
lookupSubst,
addFunDef,
lookupFunction,
lookupFunction',
lookupConst,
bindFunction,
bindConstant,
localConstsScope,
assert,
-- * Convenient reexports
module Futhark.Tools,
)
where
import Control.Monad.Except
import Control.Monad.Reader
import Control.Monad.State
import qualified Data.Map.Strict as M
import Futhark.IR.SOACS
import Futhark.MonadFreshNames
import Futhark.Tools
import Futhark.Util (takeLast)
type FunInfo =
( [VName],
[DeclType],
[FParam],
[(SubExp, Type)] -> Maybe [DeclExtType]
)
type FunTable = M.Map VName FunInfo
-- | A mapping from external variable names to the corresponding
-- internalised subexpressions.
type VarSubsts = M.Map VName [SubExp]
data InternaliseEnv = InternaliseEnv
{ envSubsts :: VarSubsts,
envDoBoundsChecks :: Bool,
envSafe :: Bool,
envAttrs :: Attrs
}
data InternaliseState = InternaliseState
{ stateNameSource :: VNameSource,
stateFunTable :: FunTable,
stateConstSubsts :: VarSubsts,
stateConstScope :: Scope SOACS,
stateFuns :: [FunDef SOACS]
}
newtype InternaliseM a
= InternaliseM
(BuilderT SOACS (ReaderT InternaliseEnv (State InternaliseState)) a)
deriving
( Functor,
Applicative,
Monad,
MonadReader InternaliseEnv,
MonadState InternaliseState,
MonadFreshNames,
HasScope SOACS,
LocalScope SOACS
)
instance MonadFreshNames (State InternaliseState) where
getNameSource = gets stateNameSource
putNameSource src = modify $ \s -> s {stateNameSource = src}
instance MonadBuilder InternaliseM where
type Rep InternaliseM = SOACS
mkExpDecM pat e = InternaliseM $ mkExpDecM pat e
mkBodyM stms res = InternaliseM $ mkBodyM stms res
mkLetNamesM pat e = InternaliseM $ mkLetNamesM pat e
addStms = InternaliseM . addStms
collectStms (InternaliseM m) = InternaliseM $ collectStms m
runInternaliseM ::
MonadFreshNames m =>
Bool ->
InternaliseM () ->
m (Stms SOACS, [FunDef SOACS])
runInternaliseM safe (InternaliseM m) =
modifyNameSource $ \src ->
let ((_, consts), s) =
runState (runReaderT (runBuilderT m mempty) newEnv) (newState src)
in ((consts, reverse $ stateFuns s), stateNameSource s)
where
newEnv =
InternaliseEnv
{ envSubsts = mempty,
envDoBoundsChecks = True,
envSafe = safe,
envAttrs = mempty
}
newState src =
InternaliseState
{ stateNameSource = src,
stateFunTable = mempty,
stateConstSubsts = mempty,
stateConstScope = mempty,
stateFuns = mempty
}
substitutingVars :: VarSubsts -> InternaliseM a -> InternaliseM a
substitutingVars substs = local $ \env -> env {envSubsts = substs <> envSubsts env}
lookupSubst :: VName -> InternaliseM (Maybe [SubExp])
lookupSubst v = do
env_substs <- asks $ M.lookup v . envSubsts
const_substs <- gets $ M.lookup v . stateConstSubsts
return $ env_substs `mplus` const_substs
-- | Add a function definition to the program being constructed.
addFunDef :: FunDef SOACS -> InternaliseM ()
addFunDef fd = modify $ \s -> s {stateFuns = fd : stateFuns s}
lookupFunction' :: VName -> InternaliseM (Maybe FunInfo)
lookupFunction' fname = gets $ M.lookup fname . stateFunTable
lookupFunction :: VName -> InternaliseM FunInfo
lookupFunction fname = maybe bad return =<< lookupFunction' fname
where
bad = error $ "Internalise.lookupFunction: Function '" ++ pretty fname ++ "' not found."
lookupConst :: VName -> InternaliseM (Maybe [SubExp])
lookupConst fname = gets $ M.lookup fname . stateConstSubsts
bindFunction :: VName -> FunDef SOACS -> FunInfo -> InternaliseM ()
bindFunction fname fd info = do
addFunDef fd
modify $ \s -> s {stateFunTable = M.insert fname info $ stateFunTable s}
bindConstant :: VName -> FunDef SOACS -> InternaliseM ()
bindConstant cname fd = do
let stms = bodyStms $ funDefBody fd
substs =
takeLast (length (funDefRetType fd)) $
map resSubExp $ bodyResult $ funDefBody fd
addStms stms
modify $ \s ->
s
{ stateConstSubsts = M.insert cname substs $ stateConstSubsts s,
stateConstScope = scopeOf stms <> stateConstScope s
}
localConstsScope :: InternaliseM a -> InternaliseM a
localConstsScope m = do
scope <- gets stateConstScope
localScope scope m
-- | Construct an 'Assert' statement, but taking attributes into
-- account. Always use this function, and never construct 'Assert'
-- directly in the internaliser!
assert ::
String ->
SubExp ->
ErrorMsg SubExp ->
SrcLoc ->
InternaliseM Certs
assert desc se msg loc = assertingOne $ do
attrs <- asks $ attrsForAssert . envAttrs
attributing attrs $
letExp desc $
BasicOp $ Assert se msg (loc, mempty)
-- | Execute the given action if 'envDoBoundsChecks' is true, otherwise
-- just return an empty list.
asserting ::
InternaliseM Certs ->
InternaliseM Certs
asserting m = do
doBoundsChecks <- asks envDoBoundsChecks
if doBoundsChecks
then m
else return mempty
-- | Execute the given action if 'envDoBoundsChecks' is true, otherwise
-- just return an empty list.
assertingOne ::
InternaliseM VName ->
InternaliseM Certs
assertingOne m = asserting $ Certs . pure <$> m