{-# LANGUAGE BangPatterns #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeApplications #-} module Haddock.Backends.Hyperlinker.Ast (enrich) where import qualified Haddock.Syb as Syb import Haddock.Backends.Hyperlinker.Types import qualified GHC import Control.Applicative import Control.Monad (guard) import Data.Data import qualified Data.Map.Strict as Map import Data.Maybe import Prelude hiding (span) everythingInRenamedSource :: (Alternative f, Data x) => (forall a. Data a => a -> f r) -> x -> f r everythingInRenamedSource f = Syb.everythingButType @GHC.Name (<|>) f -- | Add more detailed information to token stream using GHC API. enrich :: GHC.RenamedSource -> [Token] -> [RichToken] enrich src = map $ \token -> RichToken { rtkToken = token , rtkDetails = enrichToken token detailsMap } where detailsMap = mkDetailsMap (concatMap ($ src) [ variables , types , decls , binds , imports ]) type LTokenDetails = [(GHC.SrcSpan, TokenDetails)] -- | A map containing association between source locations and "details" of -- this location. -- type DetailsMap = Map.Map Position (Span, TokenDetails) mkDetailsMap :: [(GHC.SrcSpan, TokenDetails)] -> DetailsMap mkDetailsMap xs = Map.fromListWith select_details [ (start, (token_span, token_details)) | (ghc_span, token_details) <- xs , Just !token_span <- [ghcSrcSpanToSpan ghc_span] , let start = spStart token_span ] where -- favour token details which appear earlier in the list select_details _new old = old lookupBySpan :: Span -> DetailsMap -> Maybe TokenDetails lookupBySpan span details = do (_, (tok_span, tok_details)) <- Map.lookupLE (spStart span) details guard (tok_span `containsSpan` span ) return tok_details ghcSrcSpanToSpan :: GHC.SrcSpan -> Maybe Span ghcSrcSpanToSpan (GHC.RealSrcSpan span) = Just (Span { spStart = Position (GHC.srcSpanStartLine span) (GHC.srcSpanStartCol span) , spEnd = Position (GHC.srcSpanEndLine span) (GHC.srcSpanEndCol span) }) ghcSrcSpanToSpan _ = Nothing enrichToken :: Token -> DetailsMap -> Maybe TokenDetails enrichToken (Token typ _ spn) dm | typ `elem` [TkIdentifier, TkOperator] = lookupBySpan spn dm enrichToken _ _ = Nothing -- | Obtain details map for variables ("normally" used identifiers). variables :: GHC.RenamedSource -> LTokenDetails variables = everythingInRenamedSource (var `Syb.combine` rec) where var term = case cast term of (Just (GHC.L sspan (GHC.HsVar name))) -> pure (sspan, RtkVar (GHC.unLoc name)) (Just (GHC.L _ (GHC.RecordCon (GHC.L sspan name) _ _ _))) -> pure (sspan, RtkVar name) _ -> empty rec term = case cast term of Just (GHC.HsRecField (GHC.L sspan name) (_ :: GHC.LHsExpr GHC.Name) _) -> pure (sspan, RtkVar name) _ -> empty -- | Obtain details map for types. types :: GHC.RenamedSource -> LTokenDetails types = everythingInRenamedSource ty where ty term = case cast term of (Just (GHC.L sspan (GHC.HsTyVar _ name))) -> pure (sspan, RtkType (GHC.unLoc name)) _ -> empty -- | Obtain details map for identifier bindings. -- -- That includes both identifiers bound by pattern matching or declared using -- ordinary assignment (in top-level declarations, let-expressions and where -- clauses). binds :: GHC.RenamedSource -> LTokenDetails binds = everythingInRenamedSource (fun `Syb.combine` pat `Syb.combine` tvar) where fun term = case cast term of (Just (GHC.FunBind (GHC.L sspan name) _ _ _ _ :: GHC.HsBind GHC.Name)) -> pure (sspan, RtkBind name) _ -> empty pat term = case cast term of (Just (GHC.L sspan (GHC.VarPat name))) -> pure (sspan, RtkBind (GHC.unLoc name)) (Just (GHC.L _ (GHC.ConPatIn (GHC.L sspan name) recs))) -> [(sspan, RtkVar name)] ++ everythingInRenamedSource rec recs (Just (GHC.L _ (GHC.AsPat (GHC.L sspan name) _))) -> pure (sspan, RtkBind name) _ -> empty rec term = case cast term of (Just (GHC.HsRecField (GHC.L sspan name) (_ :: GHC.LPat GHC.Name) _)) -> pure (sspan, RtkVar name) _ -> empty tvar term = case cast term of (Just (GHC.L sspan (GHC.UserTyVar name))) -> pure (sspan, RtkBind (GHC.unLoc name)) (Just (GHC.L _ (GHC.KindedTyVar (GHC.L sspan name) _))) -> pure (sspan, RtkBind name) _ -> empty -- | Obtain details map for top-level declarations. decls :: GHC.RenamedSource -> LTokenDetails decls (group, _, _, _) = concatMap ($ group) [ concat . map typ . concat . map GHC.group_tyclds . GHC.hs_tyclds , everythingInRenamedSource fun . GHC.hs_valds , everythingInRenamedSource (con `Syb.combine` ins) ] where typ (GHC.L _ t) = case t of GHC.DataDecl { tcdLName = name } -> pure . decl $ name GHC.SynDecl name _ _ _ _ -> pure . decl $ name GHC.FamDecl fam -> pure . decl $ GHC.fdLName fam GHC.ClassDecl{..} -> [decl tcdLName] ++ concatMap sig tcdSigs fun term = case cast term of (Just (GHC.FunBind (GHC.L sspan name) _ _ _ _ :: GHC.HsBind GHC.Name)) | GHC.isExternalName name -> pure (sspan, RtkDecl name) _ -> empty con term = case cast term of (Just cdcl) -> map decl (GHC.getConNames cdcl) ++ everythingInRenamedSource fld cdcl Nothing -> empty ins term = case cast term of (Just (GHC.DataFamInstD inst)) -> pure . tyref $ GHC.dfid_tycon inst (Just (GHC.TyFamInstD (GHC.TyFamInstDecl (GHC.L _ eqn) _))) -> pure . tyref $ GHC.tfe_tycon eqn _ -> empty fld term = case cast term of Just (field :: GHC.ConDeclField GHC.Name) -> map (decl . fmap GHC.selectorFieldOcc) $ GHC.cd_fld_names field Nothing -> empty sig (GHC.L _ (GHC.TypeSig names _)) = map decl names sig _ = [] decl (GHC.L sspan name) = (sspan, RtkDecl name) tyref (GHC.L sspan name) = (sspan, RtkType name) -- | Obtain details map for import declarations. -- -- This map also includes type and variable details for items in export and -- import lists. imports :: GHC.RenamedSource -> LTokenDetails imports src@(_, imps, _, _) = everythingInRenamedSource ie src ++ mapMaybe (imp . GHC.unLoc) imps where ie term = case cast term of (Just (GHC.IEVar v)) -> pure $ var $ GHC.ieLWrappedName v (Just (GHC.IEThingAbs t)) -> pure $ typ $ GHC.ieLWrappedName t (Just (GHC.IEThingAll t)) -> pure $ typ $ GHC.ieLWrappedName t (Just (GHC.IEThingWith t _ vs _fls)) -> [typ $ GHC.ieLWrappedName t] ++ map (var . GHC.ieLWrappedName) vs _ -> empty typ (GHC.L sspan name) = (sspan, RtkType name) var (GHC.L sspan name) = (sspan, RtkVar name) imp idecl | not . GHC.ideclImplicit $ idecl = let (GHC.L sspan name) = GHC.ideclName idecl in Just (sspan, RtkModule name) imp _ = Nothing