{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE FlexibleInstances #-}
module Compat.HieUtils where
import CoreMap
import DynFlags ( DynFlags )
import FastString ( FastString, mkFastString )
import IfaceType
import Name hiding (varName)
import Outputable ( renderWithStyle, ppr, defaultUserStyle )
import SrcLoc
import ToIface
import TyCon
import TyCoRep
import Type
import Var
import VarEnv
import Compat.HieTypes
import qualified Data.Map as M
import qualified Data.Set as S
import qualified Data.IntMap.Strict as IM
import qualified Data.Array as A
import Data.Data ( typeOf, typeRepTyCon, Data(toConstr) )
import Data.Maybe ( maybeToList )
import Data.Monoid
import Data.Traversable ( for )
import Control.Monad.Trans.State.Strict hiding (get)
generateReferencesMap
:: Foldable f
=> f (HieAST a)
-> M.Map Identifier [(Span, IdentifierDetails a)]
generateReferencesMap = foldr (\ast m -> M.unionWith (++) (go ast) m) M.empty
where
go ast = M.unionsWith (++) (this : map go (nodeChildren ast))
where
this = fmap (pure . (nodeSpan ast,)) $ nodeIdentifiers $ nodeInfo ast
renderHieType :: DynFlags -> HieTypeFix -> String
renderHieType df ht = renderWithStyle df (ppr $ hieTypeToIface ht) sty
where sty = defaultUserStyle df
resolveVisibility :: Type -> [Type] -> [(Bool,Type)]
resolveVisibility kind ty_args
= go (mkEmptyTCvSubst in_scope) kind ty_args
where
in_scope = mkInScopeSet (tyCoVarsOfTypes ty_args)
go _ _ [] = []
go env ty ts
| Just ty' <- coreView ty
= go env ty' ts
go env (ForAllTy (TvBndr tv vis) res) (t:ts)
| isVisibleArgFlag vis = (True , t) : ts'
| otherwise = (False, t) : ts'
where
ts' = go (extendTvSubst env tv t) res ts
go env (FunTy _ res) (t:ts)
= (True,t) : (go env res ts)
go env (TyVarTy tv) ts
| Just ki <- lookupTyVar env tv = go env ki ts
go env kind (t:ts) = (True, t) : (go env kind ts)
foldType :: (HieType a -> a) -> HieTypeFix -> a
foldType f (Roll t) = f $ fmap (foldType f) t
hieTypeToIface :: HieTypeFix -> IfaceType
hieTypeToIface = foldType go
where
go (HTyVarTy n) = IfaceTyVar $ occNameFS $ getOccName n
go (HAppTy a b) = IfaceAppTy a b
go (HLitTy l) = IfaceLitTy l
go (HForAllTy ((n,k),af) t) = let b = (occNameFS $ getOccName n, k)
in IfaceForAllTy (TvBndr b af) t
go (HFunTy a b) = IfaceFunTy a b
go (HQualTy pred b) = IfaceDFunTy pred b
go (HCastTy a) = a
go HCoercionTy = IfaceTyVar "<coercion type>"
go (HTyConApp a xs) = IfaceTyConApp a (hieToIfaceArgs xs)
hieToIfaceArgs :: HieArgs IfaceType -> IfaceTcArgs
hieToIfaceArgs (HieArgs xs) = go' xs
where
go' [] = ITC_Nil
go' ((True ,x):xs) = ITC_Vis x $ go' xs
go' ((False,x):xs) = ITC_Invis x $ go' xs
data HieTypeState
= HTS
{ tyMap :: !(TypeMap TypeIndex)
, htyTable :: !(IM.IntMap HieTypeFlat)
, freshIndex :: !TypeIndex
}
initialHTS :: HieTypeState
initialHTS = HTS emptyTypeMap IM.empty 0
freshTypeIndex :: State HieTypeState TypeIndex
freshTypeIndex = do
index <- gets freshIndex
modify' $ \hts -> hts { freshIndex = index+1 }
return index
compressTypes
:: HieASTs Type
-> (HieASTs TypeIndex, A.Array TypeIndex HieTypeFlat)
compressTypes asts = (a, arr)
where
(a, (HTS _ m i)) = flip runState initialHTS $
for asts $ \typ -> do
i <- getTypeIndex typ
return i
arr = A.array (0,i-1) (IM.toList m)
recoverFullType :: TypeIndex -> A.Array TypeIndex HieTypeFlat -> HieTypeFix
recoverFullType i m = go i
where
go i = Roll $ fmap go (m A.! i)
getTypeIndex :: Type -> State HieTypeState TypeIndex
getTypeIndex t
| otherwise = do
tm <- gets tyMap
case lookupTypeMap tm t of
Just i -> return i
Nothing -> do
ht <- go t
extendHTS t ht
where
extendHTS t ht = do
i <- freshTypeIndex
modify' $ \(HTS tm tt fi) ->
HTS (extendTypeMap tm t i) (IM.insert i ht tt) fi
return i
go (TyVarTy v) = return $ HTyVarTy $ varName v
go (AppTy a b) = do
ai <- getTypeIndex a
bi <- getTypeIndex b
return $ HAppTy ai bi
go (TyConApp f xs) = do
let visArgs = HieArgs $ resolveVisibility (tyConKind f) xs
is <- mapM getTypeIndex visArgs
return $ HTyConApp (toIfaceTyCon f) is
go (ForAllTy (TvBndr v a) t) = do
k <- getTypeIndex (varType v)
i <- getTypeIndex t
return $ HForAllTy ((varName v,k),a) i
go (FunTy a b) = do
ai <- getTypeIndex a
bi <- getTypeIndex b
return $ if isPredTy a
then HQualTy ai bi
else HFunTy ai bi
go (LitTy a) = return $ HLitTy $ toIfaceTyLit a
go (CastTy t _) = do
i <- getTypeIndex t
return $ HCastTy i
go (CoercionTy _) = return HCoercionTy
resolveTyVarScopes :: M.Map FastString (HieAST a) -> M.Map FastString (HieAST a)
resolveTyVarScopes asts = M.map go asts
where
go ast = resolveTyVarScopeLocal ast asts
resolveTyVarScopeLocal :: HieAST a -> M.Map FastString (HieAST a) -> HieAST a
resolveTyVarScopeLocal ast asts = go ast
where
resolveNameScope dets = dets{identInfo =
S.map resolveScope (identInfo dets)}
resolveScope (TyVarBind sc (UnresolvedScope names Nothing)) =
TyVarBind sc $ ResolvedScopes
[ LocalScope binding
| name <- names
, Just binding <- [getNameBinding name asts]
]
resolveScope (TyVarBind sc (UnresolvedScope names (Just sp))) =
TyVarBind sc $ ResolvedScopes
[ LocalScope binding
| name <- names
, Just binding <- [getNameBindingInClass name sp asts]
]
resolveScope scope = scope
go (Node info span children) = Node info' span $ map go children
where
info' = info { nodeIdentifiers = idents }
idents = M.map resolveNameScope $ nodeIdentifiers info
getNameBinding :: Name -> M.Map FastString (HieAST a) -> Maybe Span
getNameBinding n asts = do
(_,msp) <- getNameScopeAndBinding n asts
msp
getNameScope :: Name -> M.Map FastString (HieAST a) -> Maybe [Scope]
getNameScope n asts = do
(scopes,_) <- getNameScopeAndBinding n asts
return scopes
getNameBindingInClass
:: Name
-> Span
-> M.Map FastString (HieAST a)
-> Maybe Span
getNameBindingInClass n sp asts = do
ast <- M.lookup (srcSpanFile sp) asts
getFirst $ foldMap First $ do
child <- flattenAst ast
dets <- maybeToList
$ M.lookup (Right n) $ nodeIdentifiers $ nodeInfo child
let binding = foldMap (First . getBindSiteFromContext) (identInfo dets)
return (getFirst binding)
getNameScopeAndBinding
:: Name
-> M.Map FastString (HieAST a)
-> Maybe ([Scope], Maybe Span)
getNameScopeAndBinding n asts = case nameSrcSpan n of
RealSrcSpan sp -> do
ast <- M.lookup (srcSpanFile sp) asts
defNode <- selectLargestContainedBy sp ast
getFirst $ foldMap First $ do
node <- flattenAst defNode
dets <- maybeToList
$ M.lookup (Right n) $ nodeIdentifiers $ nodeInfo node
scopes <- maybeToList $ foldMap getScopeFromContext (identInfo dets)
let binding = foldMap (First . getBindSiteFromContext) (identInfo dets)
return $ Just (scopes, getFirst binding)
_ -> Nothing
getScopeFromContext :: ContextInfo -> Maybe [Scope]
getScopeFromContext (ValBind _ sc _) = Just [sc]
getScopeFromContext (PatternBind a b _) = Just [a, b]
getScopeFromContext (ClassTyDecl _) = Just [ModuleScope]
getScopeFromContext (Decl _ _) = Just [ModuleScope]
getScopeFromContext (TyVarBind a (ResolvedScopes xs)) = Just $ a:xs
getScopeFromContext (TyVarBind a _) = Just [a]
getScopeFromContext _ = Nothing
getBindSiteFromContext :: ContextInfo -> Maybe Span
getBindSiteFromContext (ValBind _ _ sp) = sp
getBindSiteFromContext (PatternBind _ _ sp) = sp
getBindSiteFromContext _ = Nothing
flattenAst :: HieAST a -> [HieAST a]
flattenAst n =
n : concatMap flattenAst (nodeChildren n)
smallestContainingSatisfying
:: Span
-> (HieAST a -> Bool)
-> HieAST a
-> Maybe (HieAST a)
smallestContainingSatisfying sp cond node
| nodeSpan node `containsSpan` sp = getFirst $ mconcat
[ foldMap (First . smallestContainingSatisfying sp cond) $
nodeChildren node
, First $ if cond node then Just node else Nothing
]
| sp `containsSpan` nodeSpan node = Nothing
| otherwise = Nothing
selectLargestContainedBy :: Span -> HieAST a -> Maybe (HieAST a)
selectLargestContainedBy sp node
| sp `containsSpan` nodeSpan node = Just node
| nodeSpan node `containsSpan` sp =
getFirst $ foldMap (First . selectLargestContainedBy sp) $
nodeChildren node
| otherwise = Nothing
selectSmallestContaining :: Span -> HieAST a -> Maybe (HieAST a)
selectSmallestContaining sp node
| nodeSpan node `containsSpan` sp = getFirst $ mconcat
[ foldMap (First . selectSmallestContaining sp) $ nodeChildren node
, First (Just node)
]
| sp `containsSpan` nodeSpan node = Nothing
| otherwise = Nothing
definedInAsts :: M.Map FastString (HieAST a) -> Name -> Bool
definedInAsts asts n = case nameSrcSpan n of
RealSrcSpan sp -> srcSpanFile sp `elem` M.keys asts
_ -> False
isOccurrence :: ContextInfo -> Bool
isOccurrence Use = True
isOccurrence _ = False
scopeContainsSpan :: Scope -> Span -> Bool
scopeContainsSpan NoScope _ = False
scopeContainsSpan ModuleScope _ = True
scopeContainsSpan (LocalScope a) b = a `containsSpan` b
combineAst :: HieAST Type -> HieAST Type -> HieAST Type
combineAst a@(Node aInf aSpn xs) b@(Node bInf bSpn ys)
| aSpn == bSpn = Node (aInf `combineNodeInfo` bInf) aSpn (mergeAsts xs ys)
| aSpn `containsSpan` bSpn = combineAst b a
combineAst a (Node xs span children) = Node xs span (insertAst a children)
insertAst :: HieAST Type -> [HieAST Type] -> [HieAST Type]
insertAst x = mergeAsts [x]
combineNodeInfo :: NodeInfo Type -> NodeInfo Type -> NodeInfo Type
(NodeInfo as ai ad) `combineNodeInfo` (NodeInfo bs bi bd) =
NodeInfo (S.union as bs) (mergeSorted ai bi) (M.unionWith (<>) ad bd)
where
mergeSorted :: [Type] -> [Type] -> [Type]
mergeSorted la@(a:as) lb@(b:bs) = case nonDetCmpType a b of
LT -> a : mergeSorted as lb
EQ -> a : mergeSorted as bs
GT -> b : mergeSorted la bs
mergeSorted as [] = as
mergeSorted [] bs = bs
mergeAsts :: [HieAST Type] -> [HieAST Type] -> [HieAST Type]
mergeAsts xs [] = xs
mergeAsts [] ys = ys
mergeAsts xs@(a:as) ys@(b:bs)
| span_a `containsSpan` span_b = mergeAsts (combineAst a b : as) bs
| span_b `containsSpan` span_a = mergeAsts as (combineAst a b : bs)
| span_a `rightOf` span_b = b : mergeAsts xs bs
| span_a `leftOf` span_b = a : mergeAsts as ys
| span_a `startsRightOf` span_b = b : mergeAsts as ys
| otherwise = a : mergeAsts as ys
where
span_a = nodeSpan a
span_b = nodeSpan b
rightOf :: Span -> Span -> Bool
rightOf s1 s2
= (srcSpanStartLine s1, srcSpanStartCol s1)
>= (srcSpanEndLine s2, srcSpanEndCol s2)
&& (srcSpanFile s1 == srcSpanFile s2)
leftOf :: Span -> Span -> Bool
leftOf s1 s2
= (srcSpanEndLine s1, srcSpanEndCol s1)
<= (srcSpanStartLine s2, srcSpanStartCol s2)
&& (srcSpanFile s1 == srcSpanFile s2)
startsRightOf :: Span -> Span -> Bool
startsRightOf s1 s2
= (srcSpanStartLine s1, srcSpanStartCol s1)
>= (srcSpanStartLine s2, srcSpanStartCol s2)
mergeSortAsts :: [HieAST Type] -> [HieAST Type]
mergeSortAsts = go . map pure
where
go [] = []
go [xs] = xs
go xss = go (mergePairs xss)
mergePairs [] = []
mergePairs [xs] = [xs]
mergePairs (xs:ys:xss) = mergeAsts xs ys : mergePairs xss
simpleNodeInfo :: FastString -> FastString -> NodeInfo a
simpleNodeInfo cons typ = NodeInfo (S.singleton (cons, typ)) [] M.empty
locOnly :: SrcSpan -> [HieAST a]
locOnly (RealSrcSpan span) =
[Node e span []]
where e = NodeInfo S.empty [] M.empty
locOnly _ = []
mkScope :: SrcSpan -> Scope
mkScope (RealSrcSpan sp) = LocalScope sp
mkScope _ = NoScope
mkLScope :: Located a -> Scope
mkLScope = mkScope . getLoc
combineScopes :: Scope -> Scope -> Scope
combineScopes ModuleScope _ = ModuleScope
combineScopes _ ModuleScope = ModuleScope
combineScopes NoScope x = x
combineScopes x NoScope = x
combineScopes (LocalScope a) (LocalScope b) =
mkScope $ combineSrcSpans (RealSrcSpan a) (RealSrcSpan b)
{-# INLINEABLE makeNode #-}
makeNode
:: (Applicative m, Data a)
=> a
-> SrcSpan
-> m [HieAST b]
makeNode x spn = pure $ case spn of
RealSrcSpan span -> [Node (simpleNodeInfo cons typ) span []]
_ -> []
where
cons = mkFastString . show . toConstr $ x
typ = mkFastString . show . typeRepTyCon . typeOf $ x
{-# INLINEABLE makeTypeNode #-}
makeTypeNode
:: (Applicative m, Data a)
=> a
-> SrcSpan
-> Type
-> m [HieAST Type]
makeTypeNode x spn etyp = pure $ case spn of
RealSrcSpan span ->
[Node (NodeInfo (S.singleton (cons,typ)) [etyp] M.empty) span []]
_ -> []
where
cons = mkFastString . show . toConstr $ x
typ = mkFastString . show . typeRepTyCon . typeOf $ x