{-# LANGUAGE CPP, MagicHash #-} ----------------------------------------------------------------------------- -- | -- Module : Haddock.Interface.AttachInstances -- Copyright : (c) Simon Marlow 2006, -- David Waern 2006-2009, -- Isaac Dupree 2009 -- License : BSD-like -- -- Maintainer : haddock@projects.haskell.org -- Stability : experimental -- Portability : portable ----------------------------------------------------------------------------- module Haddock.Interface.AttachInstances (attachInstances) where import Haddock.Types import Haddock.Convert import Haddock.GhcUtils import Control.Arrow hiding ((<+>)) import Data.List import Data.Ord (comparing) import Data.Maybe ( maybeToList, mapMaybe, fromMaybe ) import qualified Data.Map as Map import qualified Data.Set as Set import Class import DynFlags import CoreSyn (isOrphan) import ErrUtils import FamInstEnv import FastString import GHC import InstEnv import MonadUtils (liftIO) import Name import NameEnv import Outputable (text, sep, (<+>)) import PrelNames import SrcLoc import TyCon import TyCoRep import TysPrim( funTyCon ) import Var hiding (varName) #define FSLIT(x) (mkFastString# (x#)) type ExportedNames = Set.Set Name type Modules = Set.Set Module type ExportInfo = (ExportedNames, Modules) -- Also attaches fixities attachInstances :: ExportInfo -> [Interface] -> InstIfaceMap -> Ghc [Interface] attachInstances expInfo ifaces instIfaceMap = do (_msgs, mb_index) <- getNameToInstancesIndex mapM (attach $ fromMaybe emptyNameEnv mb_index) ifaces where -- TODO: take an IfaceMap as input ifaceMap = Map.fromList [ (ifaceMod i, i) | i <- ifaces ] attach index iface = do newItems <- mapM (attachToExportItem index expInfo iface ifaceMap instIfaceMap) (ifaceExportItems iface) let orphanInstances = attachOrphanInstances expInfo iface ifaceMap instIfaceMap (ifaceInstances iface) return $ iface { ifaceExportItems = newItems , ifaceOrphanInstances = orphanInstances } attachOrphanInstances :: ExportInfo -> Interface -> IfaceMap -> InstIfaceMap -> [ClsInst] -> [DocInstance Name] attachOrphanInstances expInfo iface ifaceMap instIfaceMap cls_instances = [ (synifyInstHead i, instLookup instDocMap n iface ifaceMap instIfaceMap, (L (getSrcSpan n) n)) | let is = [ (instanceSig i, getName i) | i <- cls_instances, isOrphan (is_orphan i) ] , (i@(_,_,cls,tys), n) <- sortBy (comparing $ first instHead) is , not $ isInstanceHidden expInfo cls tys ] attachToExportItem :: NameEnv ([ClsInst], [FamInst]) -> ExportInfo -> Interface -> IfaceMap -> InstIfaceMap -> ExportItem Name -> Ghc (ExportItem Name) attachToExportItem index expInfo iface ifaceMap instIfaceMap export = case attachFixities export of e@ExportDecl { expItemDecl = L eSpan (TyClD d) } -> do insts <- let mb_instances = lookupNameEnv index (tcdName d) cls_instances = maybeToList mb_instances >>= fst fam_instances = maybeToList mb_instances >>= snd fam_insts = [ (synifyFamInst i opaque, doc,spanNameE n (synifyFamInst i opaque) (L eSpan (tcdName d)) ) | i <- sortBy (comparing instFam) fam_instances , let n = getName i , let doc = instLookup instDocMap n iface ifaceMap instIfaceMap , not $ isNameHidden expInfo (fi_fam i) , not $ any (isTypeHidden expInfo) (fi_tys i) , let opaque = isTypeHidden expInfo (fi_rhs i) ] cls_insts = [ (synifyInstHead i, instLookup instDocMap n iface ifaceMap instIfaceMap, spanName n (synifyInstHead i) (L eSpan (tcdName d))) | let is = [ (instanceSig i, getName i) | i <- cls_instances ] , (i@(_,_,cls,tys), n) <- sortBy (comparing $ first instHead) is , not $ isInstanceHidden expInfo cls tys ] -- fam_insts but with failing type fams filtered out cleanFamInsts = [ (fi, n, L l r) | (Right fi, n, L l (Right r)) <- fam_insts ] famInstErrs = [ errm | (Left errm, _, _) <- fam_insts ] in do dfs <- getDynFlags let mkBug = (text "haddock-bug:" <+>) . text liftIO $ putMsg dfs (sep $ map mkBug famInstErrs) return $ cls_insts ++ cleanFamInsts return $ e { expItemInstances = insts } e -> return e where attachFixities e@ExportDecl{ expItemDecl = L _ d , expItemPats = patsyns } = e { expItemFixities = nubByName fst $ expItemFixities e ++ [ (n',f) | n <- getMainDeclBinder d , Just subs <- [instLookup instSubMap n iface ifaceMap instIfaceMap] , n' <- n : (subs ++ patsyn_names) , Just f <- [instLookup instFixMap n' iface ifaceMap instIfaceMap] ] } where patsyn_names = concatMap (getMainDeclBinder . fst) patsyns attachFixities e = e -- spanName: attach the location to the name that is the same file as the instance location spanName s (InstHead { ihdClsName = clsn }) (L instL instn) = let s1 = getSrcSpan s sn = if srcSpanFileName_maybe s1 == srcSpanFileName_maybe instL then instn else clsn in L (getSrcSpan s) sn -- spanName on Either spanNameE s (Left e) _ = L (getSrcSpan s) (Left e) spanNameE s (Right ok) linst = let L l r = spanName s ok linst in L l (Right r) instLookup :: (InstalledInterface -> Map.Map Name a) -> Name -> Interface -> IfaceMap -> InstIfaceMap -> Maybe a instLookup f name iface ifaceMap instIfaceMap = case Map.lookup name (f $ toInstalledIface iface) of res@(Just _) -> res Nothing -> do let ifaceMaps = Map.union (fmap toInstalledIface ifaceMap) instIfaceMap iface' <- Map.lookup (nameModule name) ifaceMaps Map.lookup name (f iface') -------------------------------------------------------------------------------- -- Collecting and sorting instances -------------------------------------------------------------------------------- -- | Simplified type for sorting types, ignoring qualification (not visible -- in Haddock output) and unifying special tycons with normal ones. -- For the benefit of the user (looks nice and predictable) and the -- tests (which prefer output to be deterministic). data SimpleType = SimpleType Name [SimpleType] | SimpleTyLit TyLit deriving (Eq,Ord) instHead :: ([TyVar], [PredType], Class, [Type]) -> ([Int], Name, [SimpleType]) instHead (_, _, cls, args) = (map argCount args, className cls, map simplify args) argCount :: Type -> Int argCount (AppTy t _) = argCount t + 1 argCount (TyConApp _ ts) = length ts argCount (FunTy _ _ ) = 2 argCount (ForAllTy _ t) = argCount t argCount (CastTy t _) = argCount t argCount _ = 0 simplify :: Type -> SimpleType simplify (FunTy t1 t2) = SimpleType funTyConName [simplify t1, simplify t2] simplify (ForAllTy _ t) = simplify t simplify (AppTy t1 t2) = SimpleType s (ts ++ maybeToList (simplify_maybe t2)) where (SimpleType s ts) = simplify t1 simplify (TyVarTy v) = SimpleType (tyVarName v) [] simplify (TyConApp tc ts) = SimpleType (tyConName tc) (mapMaybe simplify_maybe ts) simplify (LitTy l) = SimpleTyLit l simplify (CastTy ty _) = simplify ty simplify (CoercionTy _) = error "simplify:Coercion" simplify_maybe :: Type -> Maybe SimpleType simplify_maybe (CoercionTy {}) = Nothing simplify_maybe ty = Just (simplify ty) -- Used for sorting instFam :: FamInst -> ([Int], Name, [SimpleType], Int, SimpleType) instFam FamInst { fi_fam = n, fi_tys = ts, fi_rhs = t } = (map argCount ts, n, map simplify ts, argCount t, simplify t) funTyConName :: Name funTyConName = mkWiredInName gHC_PRIM (mkOccNameFS tcName FSLIT("(->)")) funTyConKey (ATyCon funTyCon) -- Relevant TyCon BuiltInSyntax -------------------------------------------------------------------------------- -- Filtering hidden instances -------------------------------------------------------------------------------- -- | A class or data type is hidden iff -- -- * it is defined in one of the modules that are being processed -- -- * and it is not exported by any non-hidden module isNameHidden :: ExportInfo -> Name -> Bool isNameHidden (names, modules) name = nameModule name `Set.member` modules && not (name `Set.member` names) -- | We say that an instance is «hidden» iff its class or any (part) -- of its type(s) is hidden. isInstanceHidden :: ExportInfo -> Class -> [Type] -> Bool isInstanceHidden expInfo cls tys = instClassHidden || instTypeHidden where instClassHidden :: Bool instClassHidden = isNameHidden expInfo $ getName cls instTypeHidden :: Bool instTypeHidden = any (isTypeHidden expInfo) tys isTypeHidden :: ExportInfo -> Type -> Bool isTypeHidden expInfo = typeHidden where typeHidden :: Type -> Bool typeHidden t = case t of TyVarTy {} -> False AppTy t1 t2 -> typeHidden t1 || typeHidden t2 FunTy t1 t2 -> typeHidden t1 || typeHidden t2 TyConApp tcon args -> nameHidden (getName tcon) || any typeHidden args ForAllTy bndr ty -> typeHidden (tyVarKind (binderVar bndr)) || typeHidden ty LitTy _ -> False CastTy ty _ -> typeHidden ty CoercionTy {} -> False nameHidden :: Name -> Bool nameHidden = isNameHidden expInfo