{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE MultiWayIf #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
module Language.Haskell.GHC.ExactPrint.Print
(
exactPrint
, exactPrintWithOptions
, PrintOptions(epRigidity, epAstPrint, epTokenPrint, epWhitespacePrint)
, stringOptions
, printOptions
) where
import Language.Haskell.GHC.ExactPrint.Types
import Language.Haskell.GHC.ExactPrint.Utils
import Language.Haskell.GHC.ExactPrint.Annotate
import Language.Haskell.GHC.ExactPrint.Lookup
import Control.Monad.Identity
import Control.Monad.RWS
import Control.Monad.Trans.Free
import Data.Data (Data)
import Data.List (sortBy, elemIndex)
import Data.Maybe (fromMaybe)
import Data.Ord (comparing)
import qualified Data.Set as Set
import qualified GHC
{-# ANN module "HLint: ignore Eta reduce" #-}
{-# ANN module "HLint: ignore Redundant do" #-}
{-# ANN module "HLint: ignore Reduce duplication" #-}
exactPrint :: Annotate ast
=> GHC.Located ast
-> Anns
-> String
exactPrint ast as = runIdentity (exactPrintWithOptions stringOptions ast as)
exactPrintWithOptions :: (Annotate ast, Monoid b, Monad m)
=> PrintOptions m b
-> GHC.Located ast
-> Anns
-> m b
exactPrintWithOptions r ast as =
runEP r (annotate ast) as
data PrintOptions m a = PrintOptions
{
epAnn :: !Annotation
#if __GLASGOW_HASKELL__ > 806
, epAstPrint :: forall ast . (Data ast, GHC.HasSrcSpan ast) => ast -> a -> m a
#else
, epAstPrint :: forall ast . Data ast => GHC.Located ast -> a -> m a
#endif
, epTokenPrint :: String -> m a
, epWhitespacePrint :: String -> m a
, epRigidity :: Rigidity
, epContext :: !AstContextSet
}
-- | Helper to create a 'PrintOptions'
printOptions ::
#if __GLASGOW_HASKELL__ > 806
(forall ast . (Data ast, GHC.HasSrcSpan ast) => ast -> a -> m a)
#else
(forall ast . Data ast => GHC.Located ast -> a -> m a)
#endif
-> (String -> m a)
-> (String -> m a)
-> Rigidity
-> PrintOptions m a
printOptions astPrint tokenPrint wsPrint rigidity = PrintOptions
{
epAnn = annNone
, epAstPrint = astPrint
, epWhitespacePrint = wsPrint
, epTokenPrint = tokenPrint
, epRigidity = rigidity
, epContext = defaultACS
}
stringOptions :: PrintOptions Identity String
stringOptions = printOptions (\_ b -> return b) return return NormalLayout
data EPWriter a = EPWriter
{ output :: !a }
#if __GLASGOW_HASKELL__ >= 804
instance Monoid w => Semigroup (EPWriter w) where
(<>) = mappend
#endif
instance Monoid w => Monoid (EPWriter w) where
mempty = EPWriter mempty
(EPWriter a) `mappend` (EPWriter b) = EPWriter (a <> b)
data EPState = EPState
{ epPos :: !Pos
, epAnns :: !Anns
, epAnnKds :: ![[(KeywordId, DeltaPos)]]
, epMarkLayout :: Bool
, epLHS :: LayoutStartCol
}
type EP w m a = RWST (PrintOptions m w) (EPWriter w) EPState m a
runEP :: (Monad m, Monoid a)
=> PrintOptions m a
-> Annotated () -> Anns -> m a
runEP epReader action ans =
fmap (output . snd) .
(\next -> execRWST next epReader
(defaultEPState ans))
. printInterpret $ action
defaultEPState :: Anns -> EPState
defaultEPState as = EPState
{ epPos = (1,1)
, epAnns = as
, epAnnKds = []
, epLHS = 1
, epMarkLayout = False
}
printInterpret :: forall w m a . (Monad m, Monoid w)
=> Annotated a -> EP w m a
printInterpret m = iterTM go (hoistFreeT (return . runIdentity) m)
where
go :: AnnotationF (EP w m a) -> EP w m a
go (MarkEOF next) =
printStringAtMaybeAnn (G GHC.AnnEofPos) (Just "") >> next
go (MarkPrim kwid mstr next) =
markPrim (G kwid) mstr >> next
go (MarkPPOptional kwid mstr next) =
markPrim (G kwid) mstr >> next
#if __GLASGOW_HASKELL__ >= 800
go (MarkInstead _ kwid next) =
printStringAtMaybeAnnAll kwid Nothing >> next
#endif
go (MarkOutside _ kwid next) =
printStringAtMaybeAnnAll kwid Nothing >> next
go (MarkInside akwid next) =
allAnns akwid >> next
go (MarkMany akwid next) =
allAnns akwid >> next
go (MarkManyOptional akwid next) =
allAnns akwid >> next
go (MarkOffsetPrim kwid _ mstr next) =
printStringAtMaybeAnn (G kwid) mstr >> next
go (MarkOffsetPrimOptional kwid _ mstr next) =
printStringAtMaybeAnn (G kwid) mstr >> next
go (WithAST lss action next) =
exactPC lss (printInterpret action) >> next
go (CountAnns kwid next) =
countAnnsEP (G kwid) >>= next
go (SetLayoutFlag r action next) = do
rigidity <- asks epRigidity
(if r <= rigidity then setLayout else id) (printInterpret action)
next
go (MarkAnnBeforeAnn ann1 ann2 next) = printMarkAnnBeforeAnn (G ann1) (G ann2) >> next
go (MarkExternal _ akwid s next) =
printStringAtMaybeAnn (G akwid) (Just s) >> next
go (StoreOriginalSrcSpan _ _ next) = storeOriginalSrcSpanPrint >>= next
go (GetSrcSpanForKw _ _ next) = return GHC.noSrcSpan >>= next
#if __GLASGOW_HASKELL__ <= 710
go (StoreString _ _ next) =
printStoredString >> next
#endif
go (AnnotationsToComments _ next) = next
#if __GLASGOW_HASKELL__ <= 710
go (AnnotationsToCommentsBF _ _ next) = next
go (FinalizeBF _ next) = next
#endif
go (WithSortKey ks next) = withSortKey ks >> next
go (WithSortKeyContexts ctx ks next) = withSortKeyContexts ctx ks >> next
go (SetContextLevel ctxt lvl action next) = setContextPrint ctxt lvl (printInterpret action) >> next
go (UnsetContext _ctxt action next) = printInterpret action >> next
go (IfInContext ctxt ifAction elseAction next) = ifInContextPrint ctxt ifAction elseAction >> next
go (TellContext _ next) = next
storeOriginalSrcSpanPrint :: (Monad m, Monoid w) => EP w m AnnKey
storeOriginalSrcSpanPrint = do
Ann{..} <- asks epAnn
case annCapturedSpan of
Nothing -> error "Missing captured SrcSpan"
Just v -> return v
#if __GLASGOW_HASKELL__ <= 710
printStoredString :: (Monad m, Monoid w) => EP w m ()
printStoredString = do
kd <- gets epAnnKds
let
isAnnString (AnnString _,_) = True
isAnnString _ = False
case filter isAnnString (ghead "printStoredString" kd) of
((AnnString ss,_):_) -> printStringAtMaybeAnn (AnnString ss) (Just ss)
_ -> return ()
#endif
withSortKey :: (Monad m, Monoid w) => [(GHC.SrcSpan, Annotated ())] -> EP w m ()
withSortKey xs = do
Ann{..} <- asks epAnn
let ordered = case annSortKey of
Nothing -> xs
Just keys -> orderByKey xs keys
`debug` ("withSortKey:" ++
showGhc (map fst (sortBy (comparing (flip elemIndex keys . fst)) xs),
map fst xs,
keys)
)
mapM_ (printInterpret . snd) ordered
withSortKeyContexts :: (Monad m, Monoid w) => ListContexts -> [(GHC.SrcSpan, Annotated ())] -> EP w m ()
withSortKeyContexts ctxts xs = do
Ann{..} <- asks epAnn
let ordered = case annSortKey of
Nothing -> xs
Just keys -> orderByKey xs keys
`debug` ("withSortKey:" ++
showGhc (map fst (sortBy (comparing (flip elemIndex keys . fst)) xs),
map fst xs,
keys)
)
withSortKeyContextsHelper printInterpret ctxts ordered
setContextPrint :: (Monad m, Monoid w) => Set.Set AstContext -> Int -> EP w m () -> EP w m ()
setContextPrint ctxt lvl =
local (\s -> s { epContext = setAcsWithLevel ctxt lvl (epContext s) } )
ifInContextPrint :: (Monad m, Monoid w) => Set.Set AstContext -> Annotated () -> Annotated () -> EP w m ()
ifInContextPrint ctxt ifAction elseAction = do
cur <- asks epContext
let inContext = inAcs ctxt cur
if inContext
then printInterpret ifAction
else printInterpret elseAction
allAnns :: (Monad m, Monoid w) => GHC.AnnKeywordId -> EP w m ()
allAnns kwid = printStringAtMaybeAnnAll (G kwid) Nothing
#if __GLASGOW_HASKELL__ > 806
exactPC :: (Data ast, Data (GHC.SrcSpanLess ast), GHC.HasSrcSpan ast, Monad m, Monoid w)
=> ast -> EP w m a -> EP w m a
#else
exactPC :: (Data ast, Monad m, Monoid w) => GHC.Located ast -> EP w m a -> EP w m a
#endif
exactPC ast action =
do
return () `debug` ("exactPC entered for:" ++ show (mkAnnKey ast))
ma <- getAndRemoveAnnotation ast
let an@Ann{ annEntryDelta=edp
, annPriorComments=comments
, annFollowingComments=fcomments
, annsDP=kds
} = fromMaybe annNone ma
PrintOptions{epAstPrint} <- ask
r <- withContext kds an
(mapM_ (uncurry printQueuedComment) comments
>> advance edp
>> censorM (epAstPrint ast) action
<* mapM_ (uncurry printQueuedComment) fcomments)
return r `debug` ("leaving exactPCfor:" ++ show (mkAnnKey ast))
censorM :: (Monoid w, Monad m) => (w -> m w) -> EP w m a -> EP w m a
censorM f m = passM (liftM (\x -> (x,f)) m)
passM :: (Monad m) => EP w m (a, w -> m w) -> EP w m a
passM m = RWST $ \r s -> do
~((a, f),s', EPWriter w) <- runRWST m r s
w' <- f w
return (a, s', EPWriter w')
advance :: (Monad m, Monoid w) => DeltaPos -> EP w m ()
advance cl = do
p <- getPos
colOffset <- getLayoutOffset
printWhitespace (undelta p cl colOffset)
#if __GLASGOW_HASKELL__ > 806
getAndRemoveAnnotation :: (Monad m, Monoid w, Data a, Data (GHC.SrcSpanLess a), GHC.HasSrcSpan a)
=> a -> EP w m (Maybe Annotation)
#else
getAndRemoveAnnotation :: (Monad m, Monoid w, Data a) => GHC.Located a -> EP w m (Maybe Annotation)
#endif
getAndRemoveAnnotation a = gets (getAnnotationEP a . epAnns)
markPrim :: (Monad m, Monoid w) => KeywordId -> Maybe String -> EP w m ()
markPrim kwid mstr =
printStringAtMaybeAnn kwid mstr
withContext :: (Monad m, Monoid w)
=> [(KeywordId, DeltaPos)]
-> Annotation
-> EP w m a -> EP w m a
withContext kds an x = withKds kds (withOffset an x)
withOffset :: (Monad m, Monoid w) => Annotation -> (EP w m a -> EP w m a)
withOffset a =
local (\s -> s { epAnn = a, epContext = pushAcs (epContext s) })
withKds :: (Monad m, Monoid w) => [(KeywordId, DeltaPos)] -> EP w m a -> EP w m a
withKds kd action = do
modify (\s -> s { epAnnKds = kd : epAnnKds s })
r <- action
modify (\s -> s { epAnnKds = tail (epAnnKds s) })
return r
setLayout :: (Monad m, Monoid w) => EP w m () -> EP w m ()
setLayout k = do
oldLHS <- gets epLHS
modify (\a -> a { epMarkLayout = True } )
let reset = modify (\a -> a { epMarkLayout = False
, epLHS = oldLHS } )
k <* reset
getPos :: (Monad m, Monoid w) => EP w m Pos
getPos = gets epPos
setPos :: (Monad m, Monoid w) => Pos -> EP w m ()
setPos l = modify (\s -> s {epPos = l})
getLayoutOffset :: (Monad m, Monoid w) => EP w m LayoutStartCol
getLayoutOffset = gets epLHS
printMarkAnnBeforeAnn :: (Monad m, Monoid w) => KeywordId -> KeywordId -> EP w m ()
printMarkAnnBeforeAnn annBefore annAfter = do
kd <- gets epAnnKds
case kd of
[] -> return ()
(k:_kds) -> do
let find a = (\(kw,_) -> kw == a)
case break (find annBefore) k of
(_,[]) -> return ()
(_,rest) -> if null (snd $ break (find annAfter) rest)
then return ()
else markPrim annBefore (Nothing)
printStringAtMaybeAnn :: (Monad m, Monoid w) => KeywordId -> Maybe String -> EP w m ()
printStringAtMaybeAnn an mstr = printStringAtMaybeAnnThen an mstr (return ())
printStringAtMaybeAnnAll :: (Monad m, Monoid w) => KeywordId -> Maybe String -> EP w m ()
printStringAtMaybeAnnAll an mstr = go
where
go = printStringAtMaybeAnnThen an mstr go
printStringAtMaybeAnnThen :: (Monad m, Monoid w) => KeywordId -> Maybe String -> EP w m () -> EP w m ()
printStringAtMaybeAnnThen an mstr next = do
let str = fromMaybe (keywordToString an) mstr
annFinal <- getAnnFinal an
case (annFinal, an) of
#if __GLASGOW_HASKELL__ <= 710
(Nothing, G kw) -> do
res <- getAnnFinal (AnnUnicode kw)
return () `debug` ("printStringAtMaybeAnn:missed:Unicode:(an,res)" ++ show (an,res))
unless (null res) $ do
forM_
res
(\(comments, ma) -> printStringAtLsDelta comments ma (unicodeString (G kw)))
next
#else
(Nothing, G kw') -> do
let kw = GHC.unicodeAnn kw'
let str' = fromMaybe (keywordToString (G kw)) mstr
res <- getAnnFinal (G kw)
return () `debug` ("printStringAtMaybeAnn:missed:Unicode:(an,res)" ++ show (an,res))
unless (null res) $ do
forM_
res
(\(comments, ma) -> printStringAtLsDelta comments ma str')
next
#endif
(Just (comments, ma),_) -> printStringAtLsDelta comments ma str >> next
(Nothing, _) -> return () `debug` ("printStringAtMaybeAnn:missed:(an)" ++ show an)
getAnnFinal :: (Monad m, Monoid w) => KeywordId -> EP w m (Maybe ([(Comment, DeltaPos)], DeltaPos))
getAnnFinal kw = do
kd <- gets epAnnKds
case kd of
[] -> return Nothing
(k:kds) -> do
let (res, kd') = destructiveGetFirst kw ([],k)
modify (\s -> s { epAnnKds = kd' : kds })
return res
destructiveGetFirst :: KeywordId
-> ([(KeywordId, v)],[(KeywordId,v)])
-> (Maybe ([(Comment, v)], v),[(KeywordId,v)])
destructiveGetFirst _key (acc,[]) = (Nothing, acc)
destructiveGetFirst key (acc, (k,v):kvs )
| k == key = (Just (skippedComments, v), others ++ kvs)
| otherwise = destructiveGetFirst key (acc ++ [(k,v)], kvs)
where
(skippedComments, others) = foldr comments ([], []) acc
comments (AnnComment comment , dp ) (cs, kws) = ((comment, dp) : cs, kws)
comments kw (cs, kws) = (cs, kw : kws)
printStringAtLsDelta :: (Monad m, Monoid w) => [(Comment, DeltaPos)] -> DeltaPos -> String -> EP w m ()
printStringAtLsDelta cs cl s = do
p <- getPos
colOffset <- getLayoutOffset
if isGoodDeltaWithOffset cl colOffset
then do
mapM_ (uncurry printQueuedComment) cs
printStringAt (undelta p cl colOffset) s
`debug` ("printStringAtLsDelta:(pos,s):" ++ show (undelta p cl colOffset,s))
else return () `debug` ("printStringAtLsDelta:bad delta for (mc,s):" ++ show (cl,s))
isGoodDeltaWithOffset :: DeltaPos -> LayoutStartCol -> Bool
isGoodDeltaWithOffset dp colOffset = isGoodDelta (DP (undelta (0,0) dp colOffset))
printQueuedComment :: (Monad m, Monoid w) => Comment -> DeltaPos -> EP w m ()
printQueuedComment Comment{commentContents} dp = do
p <- getPos
colOffset <- getLayoutOffset
let (dr,dc) = undelta (0,0) dp colOffset
when (isGoodDelta (DP (dr,max 0 dc))) $
printCommentAt (undelta p dp colOffset) commentContents
peekAnnFinal :: (Monad m, Monoid w) => KeywordId -> EP w m (Maybe DeltaPos)
peekAnnFinal kw = do
(r, _) <- (\kd -> destructiveGetFirst kw ([], kd)) <$> gets (ghead "peekAnnFinal" . epAnnKds)
return (snd <$> r)
countAnnsEP :: (Monad m, Monoid w) => KeywordId -> EP w m Int
countAnnsEP an = length <$> peekAnnFinal an
printString :: (Monad m, Monoid w) => Bool -> String -> EP w m ()
printString layout str = do
EPState{epPos = (_,c), epMarkLayout} <- get
PrintOptions{epTokenPrint, epWhitespacePrint} <- ask
when (epMarkLayout && layout) $
modify (\s -> s { epLHS = LayoutStartCol c, epMarkLayout = False } )
let strDP@(DP (cr,_cc)) = dpFromString str
p <- getPos
colOffset <- getLayoutOffset
if cr == 0
then setPos (undelta p strDP colOffset)
else setPos (undelta p strDP 1)
if not layout && c == 0
then lift (epWhitespacePrint str) >>= \s -> tell EPWriter { output = s}
else lift (epTokenPrint str) >>= \s -> tell EPWriter { output = s}
newLine :: (Monad m, Monoid w) => EP w m ()
newLine = do
(l,_) <- getPos
printString False "\n"
setPos (l+1,1)
padUntil :: (Monad m, Monoid w) => Pos -> EP w m ()
padUntil (l,c) = do
(l1,c1) <- getPos
if | l1 == l && c1 <= c -> printString False $ replicate (c - c1) ' '
| l1 < l -> newLine >> padUntil (l,c)
| otherwise -> return ()
printWhitespace :: (Monad m, Monoid w) => Pos -> EP w m ()
printWhitespace = padUntil
printCommentAt :: (Monad m, Monoid w) => Pos -> String -> EP w m ()
printCommentAt p str = printWhitespace p >> printString False str
printStringAt :: (Monad m, Monoid w) => Pos -> String -> EP w m ()
printStringAt p str = printWhitespace p >> printString True str