module SimplMonad (
SimplM,
initSmpl, traceSmpl,
getSimplRules, getFamEnvs,
MonadUnique(..), newId, newJoinId,
SimplCount, tick, freeTick, checkedTick,
getSimplCount, zeroSimplCount, pprSimplCount,
plusSimplCount, isZeroSimplCount
) where
import GhcPrelude
import Var ( Var, isTyVar, mkLocalVar )
import Name ( mkSystemVarName )
import Id ( Id, mkSysLocalOrCoVar )
import IdInfo ( IdDetails(..), vanillaIdInfo, setArityInfo )
import Type ( Type, mkLamTypes )
import FamInstEnv ( FamInstEnv )
import CoreSyn ( RuleEnv(..) )
import UniqSupply
import DynFlags
import CoreMonad
import Outputable
import FastString
import MonadUtils
import ErrUtils as Err
import Panic (throwGhcExceptionIO, GhcException (..))
import BasicTypes ( IntWithInf, treatZeroAsInf, mkIntWithInf )
import Control.Monad ( liftM, ap )
newtype SimplM result
= SM { unSM :: SimplTopEnv
-> UniqSupply
-> SimplCount
-> IO (result, UniqSupply, SimplCount)}
data SimplTopEnv
= STE { st_flags :: DynFlags
, st_max_ticks :: IntWithInf
, st_rules :: RuleEnv
, st_fams :: (FamInstEnv, FamInstEnv) }
initSmpl :: DynFlags -> RuleEnv -> (FamInstEnv, FamInstEnv)
-> UniqSupply
-> Int
-> SimplM a
-> IO (a, SimplCount)
initSmpl dflags rules fam_envs us size m
= do (result, _, count) <- unSM m env us (zeroSimplCount dflags)
return (result, count)
where
env = STE { st_flags = dflags, st_rules = rules
, st_max_ticks = computeMaxTicks dflags size
, st_fams = fam_envs }
computeMaxTicks :: DynFlags -> Int -> IntWithInf
computeMaxTicks dflags size
= treatZeroAsInf $
fromInteger ((toInteger (size + base_size)
* toInteger (tick_factor * magic_multiplier))
`div` 100)
where
tick_factor = simplTickFactor dflags
base_size = 100
magic_multiplier = 40
instance Functor SimplM where
fmap = liftM
instance Applicative SimplM where
pure = returnSmpl
(<*>) = ap
(*>) = thenSmpl_
instance Monad SimplM where
(>>) = (*>)
(>>=) = thenSmpl
returnSmpl :: a -> SimplM a
returnSmpl e = SM (\_st_env us sc -> return (e, us, sc))
thenSmpl :: SimplM a -> (a -> SimplM b) -> SimplM b
thenSmpl_ :: SimplM a -> SimplM b -> SimplM b
thenSmpl m k
= SM $ \st_env us0 sc0 -> do
(m_result, us1, sc1) <- unSM m st_env us0 sc0
unSM (k m_result) st_env us1 sc1
thenSmpl_ m k
= SM $ \st_env us0 sc0 -> do
(_, us1, sc1) <- unSM m st_env us0 sc0
unSM k st_env us1 sc1
traceSmpl :: String -> SDoc -> SimplM ()
traceSmpl herald doc
= do { dflags <- getDynFlags
; liftIO $ Err.dumpIfSet_dyn dflags Opt_D_dump_simpl_trace "Simpl Trace"
(hang (text herald) 2 doc) }
instance MonadUnique SimplM where
getUniqueSupplyM
= SM (\_st_env us sc -> case splitUniqSupply us of
(us1, us2) -> return (us1, us2, sc))
getUniqueM
= SM (\_st_env us sc -> case takeUniqFromSupply us of
(u, us') -> return (u, us', sc))
getUniquesM
= SM (\_st_env us sc -> case splitUniqSupply us of
(us1, us2) -> return (uniqsFromSupply us1, us2, sc))
instance HasDynFlags SimplM where
getDynFlags = SM (\st_env us sc -> return (st_flags st_env, us, sc))
instance MonadIO SimplM where
liftIO m = SM $ \_ us sc -> do
x <- m
return (x, us, sc)
getSimplRules :: SimplM RuleEnv
getSimplRules = SM (\st_env us sc -> return (st_rules st_env, us, sc))
getFamEnvs :: SimplM (FamInstEnv, FamInstEnv)
getFamEnvs = SM (\st_env us sc -> return (st_fams st_env, us, sc))
newId :: FastString -> Type -> SimplM Id
newId fs ty = do uniq <- getUniqueM
return (mkSysLocalOrCoVar fs uniq ty)
newJoinId :: [Var] -> Type -> SimplM Id
newJoinId bndrs body_ty
= do { uniq <- getUniqueM
; let name = mkSystemVarName uniq (fsLit "$j")
join_id_ty = mkLamTypes bndrs body_ty
arity = length (filter (not . isTyVar) bndrs)
join_arity = length bndrs
details = JoinId join_arity
id_info = vanillaIdInfo `setArityInfo` arity
; return (mkLocalVar details name join_id_ty id_info) }
getSimplCount :: SimplM SimplCount
getSimplCount = SM (\_st_env us sc -> return (sc, us, sc))
tick :: Tick -> SimplM ()
tick t = SM (\st_env us sc -> let sc' = doSimplTick (st_flags st_env) t sc
in sc' `seq` return ((), us, sc'))
checkedTick :: Tick -> SimplM ()
checkedTick t
= SM (\st_env us sc ->
if st_max_ticks st_env <= mkIntWithInf (simplCountN sc)
then throwGhcExceptionIO $
PprProgramError "Simplifier ticks exhausted" (msg sc)
else let sc' = doSimplTick (st_flags st_env) t sc
in sc' `seq` return ((), us, sc'))
where
msg sc = vcat
[ text "When trying" <+> ppr t
, text "To increase the limit, use -fsimpl-tick-factor=N (default 100)."
, space
, text "If you need to increase the limit substantially, please file a"
, text "bug report and indicate the factor you needed."
, space
, text "If GHC was unable to complete compilation even"
<+> text "with a very large factor"
, text "(a thousand or more), please consult the"
<+> doubleQuotes (text "Known bugs or infelicities")
, text "section in the Users Guide before filing a report. There are a"
, text "few situations unlikely to occur in practical programs for which"
, text "simplifier non-termination has been judged acceptable."
, space
, pp_details sc
, pprSimplCount sc ]
pp_details sc
| hasDetailedCounts sc = empty
| otherwise = text "To see detailed counts use -ddump-simpl-stats"
freeTick :: Tick -> SimplM ()
freeTick t
= SM (\_st_env us sc -> let sc' = doFreeSimplTick t sc
in sc' `seq` return ((), us, sc'))