{-# LANGUAGE CPP #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} module Language.Haskell.GHC.ExactPrint.Utils ( -- * Manipulating Positons ss2pos , ss2posEnd , undelta , isPointSrcSpan , pos2delta , ss2delta , addDP , spanLength , isGoodDelta -- * Manipulating Comments , mkComment , mkKWComment , dpFromString , comment2dp -- * GHC Functions , srcSpanStartLine , srcSpanEndLine , srcSpanStartColumn , srcSpanEndColumn , rdrName2String , isSymbolRdrName , tokComment , isListComp -- * Manipulating Annotations , getAnnotationEP , annTrueEntryDelta , annCommentEntryDelta , annLeadingCommentEntryDelta -- * General Utility , orderByKey -- * For tests , debug , debugM , warn , showGhc , showAnnData -- AZ's baggage , ghead,glast,gtail,gfromJust ) where import Control.Monad.State import qualified Data.ByteString as B import Data.Data (Data, toConstr, showConstr, cast) import Data.Generics (extQ, ext1Q, ext2Q, gmapQ) import Data.List (intercalate, sortBy, elemIndex) import Data.Ord (comparing) import Language.Haskell.GHC.ExactPrint.Types import Language.Haskell.GHC.ExactPrint.Lookup import qualified GHC import qualified Bag as GHC import qualified DynFlags as GHC import qualified FastString as GHC import qualified Name as GHC import qualified NameSet as GHC import qualified Outputable as GHC import qualified RdrName as GHC import qualified Var as GHC import qualified OccName(occNameString) import Control.Arrow --import qualified Data.Generics as SYB import qualified Data.Map as Map import Debug.Trace -- --------------------------------------------------------------------- -- |Global switch to enable debug tracing in ghc-exactprint debugEnabledFlag :: Bool -- debugEnabledFlag = True debugEnabledFlag = False -- |Provide a version of trace the comes at the end of the line, so it can -- easily be commented out when debugging different things. debug :: c -> String -> c debug c s = if debugEnabledFlag then trace s c else c debugM :: Monad m => String -> m () debugM s = when debugEnabledFlag $ traceM s -- | Show a GHC.Outputable structure showGhc :: (GHC.Outputable a) => a -> String showGhc = GHC.showPpr GHC.unsafeGlobalDynFlags -- --------------------------------------------------------------------- warn :: c -> String -> c -- warn = flip trace warn c _ = c -- | A good delta has no negative values. isGoodDelta :: DeltaPos -> Bool isGoodDelta (DP (ro,co)) = ro >= 0 && co >= 0 -- | Create a delta from the current position to the start of the given -- @SrcSpan@. ss2delta :: Pos -> GHC.SrcSpan -> DeltaPos ss2delta ref ss = pos2delta ref (ss2pos ss) -- | Convert the start of the second @Pos@ to be an offset from the -- first. The assumption is the reference starts before the second @Pos@ pos2delta :: Pos -> Pos -> DeltaPos pos2delta (refl,refc) (l,c) = DP (lo,co) where lo = l - refl co = if lo == 0 then c - refc else c -- | Apply the delta to the current position, taking into account the -- current column offset if advancing to a new line undelta :: Pos -> DeltaPos -> LayoutStartCol -> Pos undelta (l,c) (DP (dl,dc)) (LayoutStartCol co) = (fl,fc) where fl = l + dl fc = if dl == 0 then c + dc else co + dc -- | Add together two @DeltaPos@ taking into account newlines -- -- > DP (0, 1) `addDP` DP (0, 2) == DP (0, 3) -- > DP (0, 9) `addDP` DP (1, 5) == DP (1, 5) -- > DP (1, 4) `addDP` DP (1, 3) == DP (2, 3) addDP :: DeltaPos -> DeltaPos -> DeltaPos addDP (DP (a, b)) (DP (c, d)) = if c >= 1 then DP (a+c, d) else DP (a, b+d) -- | "Subtract" two @DeltaPos@ from each other, in the sense of calculating the -- remaining delta for the second after the first has been applied. -- invariant : if c = a `addDP` b -- then a `stepDP` c == b -- -- Cases where first DP is <= than second -- > DP (0, 1) `addDP` DP (0, 2) == DP (0, 1) -- > DP (1, 1) `addDP` DP (2, 0) == DP (1, 0) -- > DP (1, 3) `addDP` DP (1, 4) == DP (0, 1) -- > DP (1, 4) `addDP` DP (1, 4) == DP (1, 4) -- -- Cases where first DP is > than second -- > DP (0, 3) `addDP` DP (0, 2) == DP (0,1) -- advance one at least -- > DP (3, 3) `addDP` DP (2, 4) == DP (1, 4) -- go one line forward and to expected col -- > DP (3, 3) `addDP` DP (0, 4) == DP (0, 1) -- maintain col delta at least -- > DP (1, 21) `addDP` DP (1, 4) == DP (1, 4) -- go one line forward and to expected col stepDP :: DeltaPos -> DeltaPos -> DeltaPos stepDP (DP (a,b)) (DP (c,d)) | (a,b) == (c,d) = DP (a,b) | a == c = if b < d then DP (0,d - b) else if d == 0 then DP (1,0) -- else DP (0,1) else DP (c,d) | a < c = DP (c - a,d) | otherwise = DP (1,d) -- --------------------------------------------------------------------- ss2pos :: GHC.SrcSpan -> Pos ss2pos ss = (srcSpanStartLine ss,srcSpanStartColumn ss) ss2posEnd :: GHC.SrcSpan -> Pos ss2posEnd ss = (srcSpanEndLine ss,srcSpanEndColumn ss) srcSpanEndColumn :: GHC.SrcSpan -> Int srcSpanEndColumn (GHC.RealSrcSpan s) = GHC.srcSpanEndCol s srcSpanEndColumn _ = 0 srcSpanStartColumn :: GHC.SrcSpan -> Int srcSpanStartColumn (GHC.RealSrcSpan s) = GHC.srcSpanStartCol s srcSpanStartColumn _ = 0 srcSpanEndLine :: GHC.SrcSpan -> Int srcSpanEndLine (GHC.RealSrcSpan s) = GHC.srcSpanEndLine s srcSpanEndLine _ = 0 srcSpanStartLine :: GHC.SrcSpan -> Int srcSpanStartLine (GHC.RealSrcSpan s) = GHC.srcSpanStartLine s srcSpanStartLine _ = 0 spanLength :: GHC.SrcSpan -> Int spanLength = (-) <$> srcSpanEndColumn <*> srcSpanStartColumn -- --------------------------------------------------------------------- -- | Checks whether a SrcSpan has zero length. isPointSrcSpan :: GHC.SrcSpan -> Bool isPointSrcSpan ss = spanLength ss == 0 && srcSpanStartLine ss == srcSpanEndLine ss -- --------------------------------------------------------------------- -- |Given a list of items and a list of keys, returns a list of items -- ordered by their position in the list of keys. orderByKey :: [(GHC.SrcSpan,a)] -> [GHC.SrcSpan] -> [a] orderByKey keys order -- AZ:TODO: if performance becomes a problem, consider a Map of the order -- SrcSpan to an index, and do a lookup instead of elemIndex. -- Items not in the ordering are placed to the start = map snd (sortBy (comparing (flip elemIndex order . fst)) keys) -- --------------------------------------------------------------------- isListComp :: GHC.HsStmtContext name -> Bool isListComp cts = case cts of GHC.ListComp -> True GHC.MonadComp -> True GHC.PArrComp -> True GHC.DoExpr -> False GHC.MDoExpr -> False GHC.ArrowExpr -> False GHC.GhciStmtCtxt -> False GHC.PatGuard {} -> False GHC.ParStmtCtxt {} -> False GHC.TransStmtCtxt {} -> False -- --------------------------------------------------------------------- ghcCommentText :: GHC.Located GHC.AnnotationComment -> String ghcCommentText (GHC.L _ (GHC.AnnDocCommentNext s)) = s ghcCommentText (GHC.L _ (GHC.AnnDocCommentPrev s)) = s ghcCommentText (GHC.L _ (GHC.AnnDocCommentNamed s)) = s ghcCommentText (GHC.L _ (GHC.AnnDocSection _ s)) = s ghcCommentText (GHC.L _ (GHC.AnnDocOptions s)) = s ghcCommentText (GHC.L _ (GHC.AnnDocOptionsOld s)) = s ghcCommentText (GHC.L _ (GHC.AnnLineComment s)) = s ghcCommentText (GHC.L _ (GHC.AnnBlockComment s)) = s tokComment :: GHC.Located GHC.AnnotationComment -> Comment tokComment t@(GHC.L lt _) = mkComment (ghcCommentText t) lt mkComment :: String -> GHC.SrcSpan -> Comment mkComment c ss = Comment c ss Nothing -- | Makes a comment which originates from a specific keyword. mkKWComment :: GHC.AnnKeywordId -> GHC.SrcSpan -> Comment mkKWComment kw ss = Comment (keywordToString $ G kw) ss (Just kw) comment2dp :: (Comment, DeltaPos) -> (KeywordId, DeltaPos) comment2dp = first AnnComment getAnnotationEP :: (Data a) => GHC.Located a -> Anns -> Maybe Annotation getAnnotationEP la as = Map.lookup (mkAnnKey la) as -- | The "true entry" is the distance from the last concrete element to the -- start of the current element. annTrueEntryDelta :: Annotation -> DeltaPos annTrueEntryDelta Ann{annEntryDelta, annPriorComments} = foldr addDP (DP (0,0)) (map (\(a, b) -> addDP b (dpFromString $ commentContents a)) annPriorComments ) `addDP` annEntryDelta -- | Take an annotation and a required "true entry" and calculate an equivalent -- one relative to the last comment in the annPriorComments. annCommentEntryDelta :: Annotation -> DeltaPos -> DeltaPos annCommentEntryDelta Ann{annPriorComments} trueDP = dp where commentDP = foldr addDP (DP (0,0)) (map (\(a, b) -> addDP b (dpFromString $ commentContents a)) annPriorComments ) dp = stepDP commentDP trueDP -- | Return the DP of the first item that generates output, either a comment or the entry DP annLeadingCommentEntryDelta :: Annotation -> DeltaPos annLeadingCommentEntryDelta Ann{annPriorComments,annEntryDelta} = dp where dp = case annPriorComments of [] -> annEntryDelta ((_,ed):_) -> ed -- | Calculates the distance from the start of a string to the end of -- a string. dpFromString :: String -> DeltaPos dpFromString xs = dpFromString' xs 0 0 where dpFromString' "" line col = DP (line, col) dpFromString' ('\n': cs) line _ = dpFromString' cs (line + 1) 0 dpFromString' (_:cs) line col = dpFromString' cs line (col + 1) -- --------------------------------------------------------------------- isSymbolRdrName :: GHC.RdrName -> Bool isSymbolRdrName n = GHC.isSymOcc $ GHC.rdrNameOcc n rdrName2String :: GHC.RdrName -> String rdrName2String r = case GHC.isExact_maybe r of Just n -> name2String n Nothing -> case r of GHC.Unqual occ -> GHC.occNameString occ GHC.Qual modname occ -> GHC.moduleNameString modname ++ "." ++ GHC.occNameString occ GHC.Orig _ occ -> GHC.occNameString occ GHC.Exact _ -> error $ "GHC.Exact introduced after renaming" ++ showGhc r name2String :: GHC.Name -> String name2String = showGhc -- --------------------------------------------------------------------- -- | Show a GHC AST with interleaved Annotation information. showAnnData :: Data a => Anns -> Int -> a -> String showAnnData anns n = generic -- `ext1Q` located `ext1Q` list `extQ` string `extQ` fastString `extQ` srcSpan `extQ` bytestring `extQ` name `extQ` occName `extQ` moduleName `extQ` var `extQ` dataCon `extQ` overLit `extQ` bagName `extQ` bagRdrName `extQ` bagVar `extQ` nameSet `extQ` fixity `ext2Q` located where generic :: Data a => a -> String generic t = indent n ++ "(" ++ showConstr (toConstr t) ++ space (unwords (gmapQ (showAnnData anns (n+1)) t)) ++ ")" space "" = "" space s = ' ':s indent i = "\n" ++ replicate i ' ' string = show :: String -> String fastString = ("{FastString: "++) . (++"}") . show :: GHC.FastString -> String bytestring = show :: B.ByteString -> String list l = indent n ++ "[" ++ intercalate "," (map (showAnnData anns (n+1)) l) ++ "]" name = ("{Name: "++) . (++"}") . showSDocDebug_ . GHC.ppr :: GHC.Name -> String occName = ("{OccName: "++) . (++"}") . OccName.occNameString moduleName = ("{ModuleName: "++) . (++"}") . showSDoc_ . GHC.ppr :: GHC.ModuleName -> String -- srcSpan = ("{"++) . (++"}") . showSDoc_ . GHC.ppr :: GHC.SrcSpan -> String srcSpan :: GHC.SrcSpan -> String srcSpan ss = "{ "++ showSDoc_ (GHC.hang (GHC.ppr ss) (n+2) -- (GHC.ppr (Map.lookup ss anns) (GHC.text "") ) ++"}" var = ("{Var: "++) . (++"}") . showSDocDebug_ . GHC.ppr :: GHC.Var -> String dataCon = ("{DataCon: "++) . (++"}") . showSDoc_ . GHC.ppr :: GHC.DataCon -> String overLit :: GHC.HsOverLit GHC.RdrName -> String overLit = ("{HsOverLit:"++) . (++"}") . showSDoc_ . GHC.ppr bagRdrName:: GHC.Bag (GHC.Located (GHC.HsBind GHC.RdrName)) -> String bagRdrName = ("{Bag(Located (HsBind RdrName)): "++) . (++"}") . list . GHC.bagToList bagName :: GHC.Bag (GHC.Located (GHC.HsBind GHC.Name)) -> String bagName = ("{Bag(Located (HsBind Name)): "++) . (++"}") . list . GHC.bagToList bagVar :: GHC.Bag (GHC.Located (GHC.HsBind GHC.Var)) -> String bagVar = ("{Bag(Located (HsBind Var)): "++) . (++"}") . list . GHC.bagToList nameSet = ("{NameSet: "++) . (++"}") . list . GHC.nameSetElems fixity = ("{Fixity: "++) . (++"}") . showSDoc_ . GHC.ppr :: GHC.Fixity -> String located :: (Data b,Data loc) => GHC.GenLocated loc b -> String -- located la = show (getAnnotationEP la anns) located (GHC.L ss a) = indent n ++ "(" ++ case cast ss of Just (s :: GHC.SrcSpan) -> srcSpan s ++ indent (n + 1) ++ show (getAnnotationEP (GHC.L s a) anns) -- ++ case showWrappedDeclAnns (GHC.L s a) of -- Nothing -> "" -- Just annStr -> indent (n + 1) ++ annStr Nothing -> "nnnnnnnn" ++ showAnnData anns (n+1) a ++ ")" {- showWrappedDeclAnns :: (Data a) => GHC.Located a -> Maybe String showWrappedDeclAnns t = everything mappend (Nothing `mkQ` showDecl) t where showDecl :: GHC.LHsDecl GHC.RdrName -> Maybe String showDecl d = Just $ declFun doShowAnn d doShowAnn :: (Data a) => GHC.Located a -> String doShowAnn a = show (getAnnotationEP a anns) -} -- --------------------------------------------------------------------- showSDoc_ :: GHC.SDoc -> String showSDoc_ = GHC.showSDoc GHC.unsafeGlobalDynFlags showSDocDebug_ :: GHC.SDoc -> String #if __GLASGOW_HASKELL__ <= 710 showSDocDebug_ = GHC.showSDoc GHC.unsafeGlobalDynFlags #else showSDocDebug_ = GHC.showSDocDebug GHC.unsafeGlobalDynFlags #endif -- --------------------------------------------------------------------- -- Putting these here for the time being, to avoid import loops ghead :: String -> [a] -> a ghead info [] = error $ "ghead "++info++" []" ghead _info (h:_) = h glast :: String -> [a] -> a glast info [] = error $ "glast " ++ info ++ " []" glast _info h = last h gtail :: String -> [a] -> [a] gtail info [] = error $ "gtail " ++ info ++ " []" gtail _info h = tail h gfromJust :: String -> Maybe a -> a gfromJust _info (Just h) = h gfromJust info Nothing = error $ "gfromJust " ++ info ++ " Nothing"