module CoreMonad (
CoreToDo(..), runWhen, runMaybe,
SimplMode(..),
FloatOutSwitches(..),
pprPassDetails,
CorePluginPass, bindsOnlyPass,
SimplCount, doSimplTick, doFreeSimplTick, simplCountN,
pprSimplCount, plusSimplCount, zeroSimplCount,
isZeroSimplCount, hasDetailedCounts, Tick(..),
CoreM, runCoreM,
getHscEnv, getRuleBase, getModule,
getDynFlags, getOrigNameCache, getPackageFamInstEnv,
getVisibleOrphanMods,
getPrintUnqualified, getSrcSpanM,
addSimplCount,
liftIO, liftIOWithCount,
liftIO1, liftIO2, liftIO3, liftIO4,
reinitializeGlobals,
getAnnotations, getFirstAnnotations,
putMsg, putMsgS, errorMsg, errorMsgS, warnMsg,
fatalErrorMsg, fatalErrorMsgS,
debugTraceMsg, debugTraceMsgS,
dumpIfSet_dyn
) where
import GhcPrelude hiding ( read )
import CoreSyn
import HscTypes
import Module
import DynFlags
import BasicTypes ( CompilerPhase(..) )
import Annotations
import IOEnv hiding ( liftIO, failM, failWithM )
import qualified IOEnv ( liftIO )
import Var
import Outputable
import FastString
import qualified ErrUtils as Err
import ErrUtils( Severity(..) )
import UniqSupply
import UniqFM ( UniqFM, mapUFM, filterUFM )
import MonadUtils
import NameCache
import SrcLoc
import Data.List
import Data.Ord
import Data.Dynamic
import Data.IORef
import Data.Map (Map)
import qualified Data.Map as Map
import qualified Data.Map.Strict as MapStrict
import Data.Word
import Control.Monad
import Control.Applicative ( Alternative(..) )
data CoreToDo
= CoreDoSimplify
Int
SimplMode
| CoreDoPluginPass String CorePluginPass
| CoreDoFloatInwards
| CoreDoFloatOutwards FloatOutSwitches
| CoreLiberateCase
| CoreDoPrintCore
| CoreDoStaticArgs
| CoreDoCallArity
| CoreDoExitify
| CoreDoStrictness
| CoreDoWorkerWrapper
| CoreDoSpecialising
| CoreDoSpecConstr
| CoreCSE
| CoreDoRuleCheck CompilerPhase String
| CoreDoNothing
| CoreDoPasses [CoreToDo]
| CoreDesugar
| CoreDesugarOpt
| CoreTidy
| CorePrep
| CoreOccurAnal
instance Outputable CoreToDo where
ppr (CoreDoSimplify _ _) = text "Simplifier"
ppr (CoreDoPluginPass s _) = text "Core plugin: " <+> text s
ppr CoreDoFloatInwards = text "Float inwards"
ppr (CoreDoFloatOutwards f) = text "Float out" <> parens (ppr f)
ppr CoreLiberateCase = text "Liberate case"
ppr CoreDoStaticArgs = text "Static argument"
ppr CoreDoCallArity = text "Called arity analysis"
ppr CoreDoExitify = text "Exitification transformation"
ppr CoreDoStrictness = text "Demand analysis"
ppr CoreDoWorkerWrapper = text "Worker Wrapper binds"
ppr CoreDoSpecialising = text "Specialise"
ppr CoreDoSpecConstr = text "SpecConstr"
ppr CoreCSE = text "Common sub-expression"
ppr CoreDesugar = text "Desugar (before optimization)"
ppr CoreDesugarOpt = text "Desugar (after optimization)"
ppr CoreTidy = text "Tidy Core"
ppr CorePrep = text "CorePrep"
ppr CoreOccurAnal = text "Occurrence analysis"
ppr CoreDoPrintCore = text "Print core"
ppr (CoreDoRuleCheck {}) = text "Rule check"
ppr CoreDoNothing = text "CoreDoNothing"
ppr (CoreDoPasses passes) = text "CoreDoPasses" <+> ppr passes
pprPassDetails :: CoreToDo -> SDoc
pprPassDetails (CoreDoSimplify n md) = vcat [ text "Max iterations =" <+> int n
, ppr md ]
pprPassDetails _ = Outputable.empty
data SimplMode
= SimplMode
{ sm_names :: [String]
, sm_phase :: CompilerPhase
, sm_dflags :: DynFlags
, sm_rules :: Bool
, sm_inline :: Bool
, sm_case_case :: Bool
, sm_eta_expand :: Bool
}
instance Outputable SimplMode where
ppr (SimplMode { sm_phase = p, sm_names = ss
, sm_rules = r, sm_inline = i
, sm_eta_expand = eta, sm_case_case = cc })
= text "SimplMode" <+> braces (
sep [ text "Phase =" <+> ppr p <+>
brackets (text (concat $ intersperse "," ss)) <> comma
, pp_flag i (sLit "inline") <> comma
, pp_flag r (sLit "rules") <> comma
, pp_flag eta (sLit "eta-expand") <> comma
, pp_flag cc (sLit "case-of-case") ])
where
pp_flag f s = ppUnless f (text "no") <+> ptext s
data FloatOutSwitches = FloatOutSwitches {
floatOutLambdas :: Maybe Int,
floatOutConstants :: Bool,
floatOutOverSatApps :: Bool,
floatToTopLevelOnly :: Bool
}
instance Outputable FloatOutSwitches where
ppr = pprFloatOutSwitches
pprFloatOutSwitches :: FloatOutSwitches -> SDoc
pprFloatOutSwitches sw
= text "FOS" <+> (braces $
sep $ punctuate comma $
[ text "Lam =" <+> ppr (floatOutLambdas sw)
, text "Consts =" <+> ppr (floatOutConstants sw)
, text "OverSatApps =" <+> ppr (floatOutOverSatApps sw) ])
runWhen :: Bool -> CoreToDo -> CoreToDo
runWhen True do_this = do_this
runWhen False _ = CoreDoNothing
runMaybe :: Maybe a -> (a -> CoreToDo) -> CoreToDo
runMaybe (Just x) f = f x
runMaybe Nothing _ = CoreDoNothing
type CorePluginPass = ModGuts -> CoreM ModGuts
bindsOnlyPass :: (CoreProgram -> CoreM CoreProgram) -> ModGuts -> CoreM ModGuts
bindsOnlyPass pass guts
= do { binds' <- pass (mg_binds guts)
; return (guts { mg_binds = binds' }) }
getVerboseSimplStats :: (Bool -> SDoc) -> SDoc
getVerboseSimplStats = getPprDebug
zeroSimplCount :: DynFlags -> SimplCount
isZeroSimplCount :: SimplCount -> Bool
hasDetailedCounts :: SimplCount -> Bool
pprSimplCount :: SimplCount -> SDoc
doSimplTick :: DynFlags -> Tick -> SimplCount -> SimplCount
doFreeSimplTick :: Tick -> SimplCount -> SimplCount
plusSimplCount :: SimplCount -> SimplCount -> SimplCount
data SimplCount
= VerySimplCount !Int
| SimplCount {
ticks :: !Int,
details :: !TickCounts,
n_log :: !Int,
log1 :: [Tick],
log2 :: [Tick]
}
type TickCounts = Map Tick Int
simplCountN :: SimplCount -> Int
simplCountN (VerySimplCount n) = n
simplCountN (SimplCount { ticks = n }) = n
zeroSimplCount dflags
| dopt Opt_D_dump_simpl_stats dflags
= SimplCount {ticks = 0, details = Map.empty,
n_log = 0, log1 = [], log2 = []}
| otherwise
= VerySimplCount 0
isZeroSimplCount (VerySimplCount n) = n==0
isZeroSimplCount (SimplCount { ticks = n }) = n==0
hasDetailedCounts (VerySimplCount {}) = False
hasDetailedCounts (SimplCount {}) = True
doFreeSimplTick tick sc@SimplCount { details = dts }
= sc { details = dts `addTick` tick }
doFreeSimplTick _ sc = sc
doSimplTick dflags tick
sc@(SimplCount { ticks = tks, details = dts, n_log = nl, log1 = l1 })
| nl >= historySize dflags = sc1 { n_log = 1, log1 = [tick], log2 = l1 }
| otherwise = sc1 { n_log = nl+1, log1 = tick : l1 }
where
sc1 = sc { ticks = tks+1, details = dts `addTick` tick }
doSimplTick _ _ (VerySimplCount n) = VerySimplCount (n+1)
addTick :: TickCounts -> Tick -> TickCounts
addTick fm tick = MapStrict.insertWith (+) tick 1 fm
plusSimplCount sc1@(SimplCount { ticks = tks1, details = dts1 })
sc2@(SimplCount { ticks = tks2, details = dts2 })
= log_base { ticks = tks1 + tks2
, details = MapStrict.unionWith (+) dts1 dts2 }
where
log_base | null (log1 sc2) = sc1
| null (log2 sc2) = sc2 { log2 = log1 sc1 }
| otherwise = sc2
plusSimplCount (VerySimplCount n) (VerySimplCount m) = VerySimplCount (n+m)
plusSimplCount _ _ = panic "plusSimplCount"
pprSimplCount (VerySimplCount n) = text "Total ticks:" <+> int n
pprSimplCount (SimplCount { ticks = tks, details = dts, log1 = l1, log2 = l2 })
= vcat [text "Total ticks: " <+> int tks,
blankLine,
pprTickCounts dts,
getVerboseSimplStats $ \dbg -> if dbg
then
vcat [blankLine,
text "Log (most recent first)",
nest 4 (vcat (map ppr l1) $$ vcat (map ppr l2))]
else Outputable.empty
]
pprTickCounts :: Map Tick Int -> SDoc
pprTickCounts counts
= vcat (map pprTickGroup groups)
where
groups :: [[(Tick,Int)]]
groups = groupBy same_tag (Map.toList counts)
same_tag (tick1,_) (tick2,_) = tickToTag tick1 == tickToTag tick2
pprTickGroup :: [(Tick, Int)] -> SDoc
pprTickGroup group@((tick1,_):_)
= hang (int (sum [n | (_,n) <- group]) <+> text (tickString tick1))
2 (vcat [ int n <+> pprTickCts tick
| (tick,n) <- sortBy (flip (comparing snd)) group])
pprTickGroup [] = panic "pprTickGroup"
data Tick
= PreInlineUnconditionally Id
| PostInlineUnconditionally Id
| UnfoldingDone Id
| RuleFired FastString
| LetFloatFromLet
| EtaExpansion Id
| EtaReduction Id
| BetaReduction Id
| CaseOfCase Id
| KnownBranch Id
| CaseMerge Id
| AltMerge Id
| CaseElim Id
| CaseIdentity Id
| FillInCaseDefault Id
| SimplifierDone
instance Outputable Tick where
ppr tick = text (tickString tick) <+> pprTickCts tick
instance Eq Tick where
a == b = case a `cmpTick` b of
EQ -> True
_ -> False
instance Ord Tick where
compare = cmpTick
tickToTag :: Tick -> Int
tickToTag (PreInlineUnconditionally _) = 0
tickToTag (PostInlineUnconditionally _) = 1
tickToTag (UnfoldingDone _) = 2
tickToTag (RuleFired _) = 3
tickToTag LetFloatFromLet = 4
tickToTag (EtaExpansion _) = 5
tickToTag (EtaReduction _) = 6
tickToTag (BetaReduction _) = 7
tickToTag (CaseOfCase _) = 8
tickToTag (KnownBranch _) = 9
tickToTag (CaseMerge _) = 10
tickToTag (CaseElim _) = 11
tickToTag (CaseIdentity _) = 12
tickToTag (FillInCaseDefault _) = 13
tickToTag SimplifierDone = 16
tickToTag (AltMerge _) = 17
tickString :: Tick -> String
tickString (PreInlineUnconditionally _) = "PreInlineUnconditionally"
tickString (PostInlineUnconditionally _)= "PostInlineUnconditionally"
tickString (UnfoldingDone _) = "UnfoldingDone"
tickString (RuleFired _) = "RuleFired"
tickString LetFloatFromLet = "LetFloatFromLet"
tickString (EtaExpansion _) = "EtaExpansion"
tickString (EtaReduction _) = "EtaReduction"
tickString (BetaReduction _) = "BetaReduction"
tickString (CaseOfCase _) = "CaseOfCase"
tickString (KnownBranch _) = "KnownBranch"
tickString (CaseMerge _) = "CaseMerge"
tickString (AltMerge _) = "AltMerge"
tickString (CaseElim _) = "CaseElim"
tickString (CaseIdentity _) = "CaseIdentity"
tickString (FillInCaseDefault _) = "FillInCaseDefault"
tickString SimplifierDone = "SimplifierDone"
pprTickCts :: Tick -> SDoc
pprTickCts (PreInlineUnconditionally v) = ppr v
pprTickCts (PostInlineUnconditionally v)= ppr v
pprTickCts (UnfoldingDone v) = ppr v
pprTickCts (RuleFired v) = ppr v
pprTickCts LetFloatFromLet = Outputable.empty
pprTickCts (EtaExpansion v) = ppr v
pprTickCts (EtaReduction v) = ppr v
pprTickCts (BetaReduction v) = ppr v
pprTickCts (CaseOfCase v) = ppr v
pprTickCts (KnownBranch v) = ppr v
pprTickCts (CaseMerge v) = ppr v
pprTickCts (AltMerge v) = ppr v
pprTickCts (CaseElim v) = ppr v
pprTickCts (CaseIdentity v) = ppr v
pprTickCts (FillInCaseDefault v) = ppr v
pprTickCts _ = Outputable.empty
cmpTick :: Tick -> Tick -> Ordering
cmpTick a b = case (tickToTag a `compare` tickToTag b) of
GT -> GT
EQ -> cmpEqTick a b
LT -> LT
cmpEqTick :: Tick -> Tick -> Ordering
cmpEqTick (PreInlineUnconditionally a) (PreInlineUnconditionally b) = a `compare` b
cmpEqTick (PostInlineUnconditionally a) (PostInlineUnconditionally b) = a `compare` b
cmpEqTick (UnfoldingDone a) (UnfoldingDone b) = a `compare` b
cmpEqTick (RuleFired a) (RuleFired b) = a `compare` b
cmpEqTick (EtaExpansion a) (EtaExpansion b) = a `compare` b
cmpEqTick (EtaReduction a) (EtaReduction b) = a `compare` b
cmpEqTick (BetaReduction a) (BetaReduction b) = a `compare` b
cmpEqTick (CaseOfCase a) (CaseOfCase b) = a `compare` b
cmpEqTick (KnownBranch a) (KnownBranch b) = a `compare` b
cmpEqTick (CaseMerge a) (CaseMerge b) = a `compare` b
cmpEqTick (AltMerge a) (AltMerge b) = a `compare` b
cmpEqTick (CaseElim a) (CaseElim b) = a `compare` b
cmpEqTick (CaseIdentity a) (CaseIdentity b) = a `compare` b
cmpEqTick (FillInCaseDefault a) (FillInCaseDefault b) = a `compare` b
cmpEqTick _ _ = EQ
newtype CoreState = CoreState {
cs_uniq_supply :: UniqSupply
}
data CoreReader = CoreReader {
cr_hsc_env :: HscEnv,
cr_rule_base :: RuleBase,
cr_module :: Module,
cr_print_unqual :: PrintUnqualified,
cr_loc :: SrcSpan,
cr_visible_orphan_mods :: !ModuleSet
}
newtype CoreWriter = CoreWriter {
cw_simpl_count :: SimplCount
}
emptyWriter :: DynFlags -> CoreWriter
emptyWriter dflags = CoreWriter {
cw_simpl_count = zeroSimplCount dflags
}
plusWriter :: CoreWriter -> CoreWriter -> CoreWriter
plusWriter w1 w2 = CoreWriter {
cw_simpl_count = (cw_simpl_count w1) `plusSimplCount` (cw_simpl_count w2)
}
type CoreIOEnv = IOEnv CoreReader
newtype CoreM a = CoreM { unCoreM :: CoreState -> CoreIOEnv (a, CoreState, CoreWriter) }
instance Functor CoreM where
fmap = liftM
instance Monad CoreM where
mx >>= f = CoreM $ \s -> do
(x, s', w1) <- unCoreM mx s
(y, s'', w2) <- unCoreM (f x) s'
let w = w1 `plusWriter` w2
return $ seq w (y, s'', w)
instance Applicative CoreM where
pure x = CoreM $ \s -> nop s x
(<*>) = ap
m *> k = m >>= \_ -> k
instance Alternative CoreM where
empty = CoreM (const Control.Applicative.empty)
m <|> n = CoreM (\rs -> unCoreM m rs <|> unCoreM n rs)
instance MonadPlus CoreM
instance MonadUnique CoreM where
getUniqueSupplyM = do
us <- getS cs_uniq_supply
let (us1, us2) = splitUniqSupply us
modifyS (\s -> s { cs_uniq_supply = us2 })
return us1
getUniqueM = do
us <- getS cs_uniq_supply
let (u,us') = takeUniqFromSupply us
modifyS (\s -> s { cs_uniq_supply = us' })
return u
runCoreM :: HscEnv
-> RuleBase
-> UniqSupply
-> Module
-> ModuleSet
-> PrintUnqualified
-> SrcSpan
-> CoreM a
-> IO (a, SimplCount)
runCoreM hsc_env rule_base us mod orph_imps print_unqual loc m
= liftM extract $ runIOEnv reader $ unCoreM m state
where
reader = CoreReader {
cr_hsc_env = hsc_env,
cr_rule_base = rule_base,
cr_module = mod,
cr_visible_orphan_mods = orph_imps,
cr_print_unqual = print_unqual,
cr_loc = loc
}
state = CoreState {
cs_uniq_supply = us
}
extract :: (a, CoreState, CoreWriter) -> (a, SimplCount)
extract (value, _, writer) = (value, cw_simpl_count writer)
nop :: CoreState -> a -> CoreIOEnv (a, CoreState, CoreWriter)
nop s x = do
r <- getEnv
return (x, s, emptyWriter $ (hsc_dflags . cr_hsc_env) r)
read :: (CoreReader -> a) -> CoreM a
read f = CoreM (\s -> getEnv >>= (\r -> nop s (f r)))
getS :: (CoreState -> a) -> CoreM a
getS f = CoreM (\s -> nop s (f s))
modifyS :: (CoreState -> CoreState) -> CoreM ()
modifyS f = CoreM (\s -> nop (f s) ())
write :: CoreWriter -> CoreM ()
write w = CoreM (\s -> return ((), s, w))
liftIOEnv :: CoreIOEnv a -> CoreM a
liftIOEnv mx = CoreM (\s -> mx >>= (\x -> nop s x))
instance MonadIO CoreM where
liftIO = liftIOEnv . IOEnv.liftIO
liftIOWithCount :: IO (SimplCount, a) -> CoreM a
liftIOWithCount what = liftIO what >>= (\(count, x) -> addSimplCount count >> return x)
getHscEnv :: CoreM HscEnv
getHscEnv = read cr_hsc_env
getRuleBase :: CoreM RuleBase
getRuleBase = read cr_rule_base
getVisibleOrphanMods :: CoreM ModuleSet
getVisibleOrphanMods = read cr_visible_orphan_mods
getPrintUnqualified :: CoreM PrintUnqualified
getPrintUnqualified = read cr_print_unqual
getSrcSpanM :: CoreM SrcSpan
getSrcSpanM = read cr_loc
addSimplCount :: SimplCount -> CoreM ()
addSimplCount count = write (CoreWriter { cw_simpl_count = count })
instance HasDynFlags CoreM where
getDynFlags = fmap hsc_dflags getHscEnv
instance HasModule CoreM where
getModule = read cr_module
getOrigNameCache :: CoreM OrigNameCache
getOrigNameCache = do
nameCacheRef <- fmap hsc_NC getHscEnv
liftIO $ fmap nsNames $ readIORef nameCacheRef
getPackageFamInstEnv :: CoreM PackageFamInstEnv
getPackageFamInstEnv = do
hsc_env <- getHscEnv
eps <- liftIO $ hscEPS hsc_env
return $ eps_fam_inst_env eps
reinitializeGlobals :: CoreM ()
reinitializeGlobals = return ()
getAnnotations :: Typeable a => ([Word8] -> a) -> ModGuts -> CoreM (UniqFM [a])
getAnnotations deserialize guts = do
hsc_env <- getHscEnv
ann_env <- liftIO $ prepareAnnotations hsc_env (Just guts)
return (deserializeAnns deserialize ann_env)
getFirstAnnotations :: Typeable a => ([Word8] -> a) -> ModGuts -> CoreM (UniqFM a)
getFirstAnnotations deserialize guts
= liftM (mapUFM head . filterUFM (not . null))
$ getAnnotations deserialize guts
msg :: Severity -> SDoc -> CoreM ()
msg sev doc
= do { dflags <- getDynFlags
; loc <- getSrcSpanM
; unqual <- getPrintUnqualified
; let sty = case sev of
SevError -> err_sty
SevWarning -> err_sty
SevDump -> dump_sty
_ -> user_sty
err_sty = mkErrStyle dflags unqual
user_sty = mkUserStyle dflags unqual AllTheWay
dump_sty = mkDumpStyle dflags unqual
; liftIO $ putLogMsg dflags NoReason sev loc sty doc }
putMsgS :: String -> CoreM ()
putMsgS = putMsg . text
putMsg :: SDoc -> CoreM ()
putMsg = msg SevInfo
errorMsgS :: String -> CoreM ()
errorMsgS = errorMsg . text
errorMsg :: SDoc -> CoreM ()
errorMsg = msg SevError
warnMsg :: SDoc -> CoreM ()
warnMsg = msg SevWarning
fatalErrorMsgS :: String -> CoreM ()
fatalErrorMsgS = fatalErrorMsg . text
fatalErrorMsg :: SDoc -> CoreM ()
fatalErrorMsg = msg SevFatal
debugTraceMsgS :: String -> CoreM ()
debugTraceMsgS = debugTraceMsg . text
debugTraceMsg :: SDoc -> CoreM ()
debugTraceMsg = msg SevDump
dumpIfSet_dyn :: DumpFlag -> String -> SDoc -> CoreM ()
dumpIfSet_dyn flag str doc
= do { dflags <- getDynFlags
; unqual <- getPrintUnqualified
; when (dopt flag dflags) $ liftIO $
Err.dumpSDoc dflags unqual flag str doc }