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|
{- |
(c) The GRASP/AQUA Project, Glasgow University, 1993-1998
A lint pass to check basic STG invariants:
- Variables should be defined before used.
- Let bindings should not have unboxed types (unboxed bindings should only
appear in case), except when they're join points (see Note [Core let/app
invariant] and #14117).
- If linting after unarisation, invariants listed in Note [Post-unarisation
invariants].
Because we don't have types and coercions in STG we can't really check types
here.
Some history:
StgLint used to check types, but it never worked and so it was disabled in 2000
with this note:
WARNING:
~~~~~~~~
This module has suffered bit-rot; it is likely to yield lint errors
for Stg code that is currently perfectly acceptable for code
generation. Solution: don't use it! (KSW 2000-05).
Since then there were some attempts at enabling it again, as summarised in #14787.
It's finally decided that we remove all type checking and only look for
basic properties listed above.
-}
{-# LANGUAGE ScopedTypeVariables, FlexibleContexts, TypeFamilies,
DeriveFunctor #-}
module GHC.Stg.Lint ( lintStgTopBindings ) where
import GHC.Prelude
import GHC.Stg.Syntax
import GHC.Driver.Session
import GHC.Data.Bag ( Bag, emptyBag, isEmptyBag, snocBag, bagToList )
import GHC.Types.Basic ( TopLevelFlag(..), isTopLevel )
import GHC.Types.CostCentre ( isCurrentCCS )
import GHC.Types.Id ( Id, idType, isJoinId, idName )
import GHC.Types.Var.Set
import GHC.Core.DataCon
import GHC.Core ( AltCon(..) )
import GHC.Types.Name ( getSrcLoc, nameIsLocalOrFrom )
import GHC.Utils.Error ( Severity(..), mkLocMessage )
import GHC.Core.Type
import GHC.Types.RepType
import GHC.Types.SrcLoc
import GHC.Utils.Logger
import GHC.Utils.Outputable
import GHC.Unit.Module ( Module )
import qualified GHC.Utils.Error as Err
import Control.Applicative ((<|>))
import Control.Monad
lintStgTopBindings :: forall a . (OutputablePass a, BinderP a ~ Id)
=> Logger
-> DynFlags
-> Module -- ^ module being compiled
-> Bool -- ^ have we run Unarise yet?
-> String -- ^ who produced the STG?
-> [GenStgTopBinding a]
-> IO ()
lintStgTopBindings logger dflags this_mod unarised whodunnit binds
= {-# SCC "StgLint" #-}
case initL this_mod unarised opts top_level_binds (lint_binds binds) of
Nothing ->
return ()
Just msg -> do
putLogMsg logger dflags NoReason Err.SevDump noSrcSpan
$ withPprStyle defaultDumpStyle
(vcat [ text "*** Stg Lint ErrMsgs: in" <+>
text whodunnit <+> text "***",
msg,
text "*** Offending Program ***",
pprGenStgTopBindings opts binds,
text "*** End of Offense ***"])
Err.ghcExit logger dflags 1
where
opts = initStgPprOpts dflags
-- Bring all top-level binds into scope because CoreToStg does not generate
-- bindings in dependency order (so we may see a use before its definition).
top_level_binds = mkVarSet (bindersOfTopBinds binds)
lint_binds :: [GenStgTopBinding a] -> LintM ()
lint_binds [] = return ()
lint_binds (bind:binds) = do
binders <- lint_bind bind
addInScopeVars binders $
lint_binds binds
lint_bind (StgTopLifted bind) = lintStgBinds TopLevel bind
lint_bind (StgTopStringLit v _) = return [v]
lintStgArg :: StgArg -> LintM ()
lintStgArg (StgLitArg _) = return ()
lintStgArg (StgVarArg v) = lintStgVar v
lintStgVar :: Id -> LintM ()
lintStgVar id = checkInScope id
lintStgBinds
:: (OutputablePass a, BinderP a ~ Id)
=> TopLevelFlag -> GenStgBinding a -> LintM [Id] -- Returns the binders
lintStgBinds top_lvl (StgNonRec binder rhs) = do
lint_binds_help top_lvl (binder,rhs)
return [binder]
lintStgBinds top_lvl (StgRec pairs)
= addInScopeVars binders $ do
mapM_ (lint_binds_help top_lvl) pairs
return binders
where
binders = [b | (b,_) <- pairs]
lint_binds_help
:: (OutputablePass a, BinderP a ~ Id)
=> TopLevelFlag
-> (Id, GenStgRhs a)
-> LintM ()
lint_binds_help top_lvl (binder, rhs)
= addLoc (RhsOf binder) $ do
when (isTopLevel top_lvl) (checkNoCurrentCCS rhs)
lintStgRhs rhs
opts <- getStgPprOpts
-- Check binder doesn't have unlifted type or it's a join point
checkL (isJoinId binder || not (isUnliftedType (idType binder)))
(mkUnliftedTyMsg opts binder rhs)
-- | Top-level bindings can't inherit the cost centre stack from their
-- (static) allocation site.
checkNoCurrentCCS
:: (OutputablePass a, BinderP a ~ Id)
=> GenStgRhs a
-> LintM ()
checkNoCurrentCCS rhs = do
opts <- getStgPprOpts
let rhs' = pprStgRhs opts rhs
case rhs of
StgRhsClosure _ ccs _ _ _
| isCurrentCCS ccs
-> addErrL (text "Top-level StgRhsClosure with CurrentCCS" $$ rhs')
StgRhsCon ccs _ _
| isCurrentCCS ccs
-> addErrL (text "Top-level StgRhsCon with CurrentCCS" $$ rhs')
_ -> return ()
lintStgRhs :: (OutputablePass a, BinderP a ~ Id) => GenStgRhs a -> LintM ()
lintStgRhs (StgRhsClosure _ _ _ [] expr)
= lintStgExpr expr
lintStgRhs (StgRhsClosure _ _ _ binders expr)
= addLoc (LambdaBodyOf binders) $
addInScopeVars binders $
lintStgExpr expr
lintStgRhs rhs@(StgRhsCon _ con args) = do
when (isUnboxedTupleDataCon con || isUnboxedSumDataCon con) $ do
opts <- getStgPprOpts
addErrL (text "StgRhsCon is an unboxed tuple or sum application" $$
pprStgRhs opts rhs)
mapM_ lintStgArg args
mapM_ checkPostUnariseConArg args
lintStgExpr :: (OutputablePass a, BinderP a ~ Id) => GenStgExpr a -> LintM ()
lintStgExpr (StgLit _) = return ()
lintStgExpr (StgApp fun args) = do
lintStgVar fun
mapM_ lintStgArg args
lintStgExpr app@(StgConApp con args _arg_tys) = do
-- unboxed sums should vanish during unarise
lf <- getLintFlags
when (lf_unarised lf && isUnboxedSumDataCon con) $ do
opts <- getStgPprOpts
addErrL (text "Unboxed sum after unarise:" $$
pprStgExpr opts app)
mapM_ lintStgArg args
mapM_ checkPostUnariseConArg args
lintStgExpr (StgOpApp _ args _) =
mapM_ lintStgArg args
lintStgExpr (StgLet _ binds body) = do
binders <- lintStgBinds NotTopLevel binds
addLoc (BodyOfLetRec binders) $
addInScopeVars binders $
lintStgExpr body
lintStgExpr (StgLetNoEscape _ binds body) = do
binders <- lintStgBinds NotTopLevel binds
addLoc (BodyOfLetRec binders) $
addInScopeVars binders $
lintStgExpr body
lintStgExpr (StgTick _ expr) = lintStgExpr expr
lintStgExpr (StgCase scrut bndr alts_type alts) = do
lintStgExpr scrut
lf <- getLintFlags
let in_scope = stgCaseBndrInScope alts_type (lf_unarised lf)
addInScopeVars [bndr | in_scope] (mapM_ lintAlt alts)
lintAlt
:: (OutputablePass a, BinderP a ~ Id)
=> (AltCon, [Id], GenStgExpr a) -> LintM ()
lintAlt (DEFAULT, _, rhs) =
lintStgExpr rhs
lintAlt (LitAlt _, _, rhs) =
lintStgExpr rhs
lintAlt (DataAlt _, bndrs, rhs) = do
mapM_ checkPostUnariseBndr bndrs
addInScopeVars bndrs (lintStgExpr rhs)
{-
************************************************************************
* *
The Lint monad
* *
************************************************************************
-}
newtype LintM a = LintM
{ unLintM :: Module
-> LintFlags
-> StgPprOpts -- Pretty-printing options
-> [LintLocInfo] -- Locations
-> IdSet -- Local vars in scope
-> Bag SDoc -- Error messages so far
-> (a, Bag SDoc) -- Result and error messages (if any)
}
deriving (Functor)
data LintFlags = LintFlags { lf_unarised :: !Bool
-- ^ have we run the unariser yet?
}
data LintLocInfo
= RhsOf Id -- The variable bound
| LambdaBodyOf [Id] -- The lambda-binder
| BodyOfLetRec [Id] -- One of the binders
dumpLoc :: LintLocInfo -> (SrcSpan, SDoc)
dumpLoc (RhsOf v) =
(srcLocSpan (getSrcLoc v), text " [RHS of " <> pp_binders [v] <> char ']' )
dumpLoc (LambdaBodyOf bs) =
(srcLocSpan (getSrcLoc (head bs)), text " [in body of lambda with binders " <> pp_binders bs <> char ']' )
dumpLoc (BodyOfLetRec bs) =
(srcLocSpan (getSrcLoc (head bs)), text " [in body of letrec with binders " <> pp_binders bs <> char ']' )
pp_binders :: [Id] -> SDoc
pp_binders bs
= sep (punctuate comma (map pp_binder bs))
where
pp_binder b
= hsep [ppr b, dcolon, ppr (idType b)]
initL :: Module -> Bool -> StgPprOpts -> IdSet -> LintM a -> Maybe SDoc
initL this_mod unarised opts locals (LintM m) = do
let (_, errs) = m this_mod (LintFlags unarised) opts [] locals emptyBag
if isEmptyBag errs then
Nothing
else
Just (vcat (punctuate blankLine (bagToList errs)))
instance Applicative LintM where
pure a = LintM $ \_mod _lf _opts _loc _scope errs -> (a, errs)
(<*>) = ap
(*>) = thenL_
instance Monad LintM where
(>>=) = thenL
(>>) = (*>)
thenL :: LintM a -> (a -> LintM b) -> LintM b
thenL m k = LintM $ \mod lf opts loc scope errs
-> case unLintM m mod lf opts loc scope errs of
(r, errs') -> unLintM (k r) mod lf opts loc scope errs'
thenL_ :: LintM a -> LintM b -> LintM b
thenL_ m k = LintM $ \mod lf opts loc scope errs
-> case unLintM m mod lf opts loc scope errs of
(_, errs') -> unLintM k mod lf opts loc scope errs'
checkL :: Bool -> SDoc -> LintM ()
checkL True _ = return ()
checkL False msg = addErrL msg
-- Case alts shouldn't have unboxed sum, unboxed tuple, or void binders.
checkPostUnariseBndr :: Id -> LintM ()
checkPostUnariseBndr bndr = do
lf <- getLintFlags
when (lf_unarised lf) $
forM_ (checkPostUnariseId bndr) $ \unexpected ->
addErrL $
text "After unarisation, binder " <>
ppr bndr <> text " has " <> text unexpected <> text " type " <>
ppr (idType bndr)
-- Arguments shouldn't have sum, tuple, or void types.
checkPostUnariseConArg :: StgArg -> LintM ()
checkPostUnariseConArg arg = case arg of
StgLitArg _ ->
return ()
StgVarArg id -> do
lf <- getLintFlags
when (lf_unarised lf) $
forM_ (checkPostUnariseId id) $ \unexpected ->
addErrL $
text "After unarisation, arg " <>
ppr id <> text " has " <> text unexpected <> text " type " <>
ppr (idType id)
-- Post-unarisation args and case alt binders should not have unboxed tuple,
-- unboxed sum, or void types. Return what the binder is if it is one of these.
checkPostUnariseId :: Id -> Maybe String
checkPostUnariseId id =
let
id_ty = idType id
is_sum, is_tuple, is_void :: Maybe String
is_sum = guard (isUnboxedSumType id_ty) >> return "unboxed sum"
is_tuple = guard (isUnboxedTupleType id_ty) >> return "unboxed tuple"
is_void = guard (isVoidTy id_ty) >> return "void"
in
is_sum <|> is_tuple <|> is_void
addErrL :: SDoc -> LintM ()
addErrL msg = LintM $ \_mod _lf _opts loc _scope errs -> ((), addErr errs msg loc)
addErr :: Bag SDoc -> SDoc -> [LintLocInfo] -> Bag SDoc
addErr errs_so_far msg locs
= errs_so_far `snocBag` mk_msg locs
where
mk_msg (loc:_) = let (l,hdr) = dumpLoc loc
in mkLocMessage SevWarning l (hdr $$ msg)
mk_msg [] = msg
addLoc :: LintLocInfo -> LintM a -> LintM a
addLoc extra_loc m = LintM $ \mod lf opts loc scope errs
-> unLintM m mod lf opts (extra_loc:loc) scope errs
addInScopeVars :: [Id] -> LintM a -> LintM a
addInScopeVars ids m = LintM $ \mod lf opts loc scope errs
-> let
new_set = mkVarSet ids
in unLintM m mod lf opts loc (scope `unionVarSet` new_set) errs
getLintFlags :: LintM LintFlags
getLintFlags = LintM $ \_mod lf _opts _loc _scope errs -> (lf, errs)
getStgPprOpts :: LintM StgPprOpts
getStgPprOpts = LintM $ \_mod _lf opts _loc _scope errs -> (opts, errs)
checkInScope :: Id -> LintM ()
checkInScope id = LintM $ \mod _lf _opts loc scope errs
-> if nameIsLocalOrFrom mod (idName id) && not (id `elemVarSet` scope) then
((), addErr errs (hsep [ppr id, dcolon, ppr (idType id),
text "is out of scope"]) loc)
else
((), errs)
mkUnliftedTyMsg :: OutputablePass a => StgPprOpts -> Id -> GenStgRhs a -> SDoc
mkUnliftedTyMsg opts binder rhs
= (text "Let(rec) binder" <+> quotes (ppr binder) <+>
text "has unlifted type" <+> quotes (ppr (idType binder)))
$$
(text "RHS:" <+> pprStgRhs opts rhs)
|