haddock-2.29.1: haddock-api/src/Haddock/Backends/Hoogle.hs
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE TypeFamilies #-}
-----------------------------------------------------------------------------
-- |
-- Module : Haddock.Backends.Hoogle
-- Copyright : (c) Neil Mitchell 2006-2008
-- License : BSD-like
--
-- Maintainer : haddock@projects.haskell.org
-- Stability : experimental
-- Portability : portable
--
-- Write out Hoogle compatible documentation
-- http://www.haskell.org/hoogle/
-----------------------------------------------------------------------------
module Haddock.Backends.Hoogle (
-- * Main entry point to Hoogle output generation
ppHoogle
-- * Utilities for generating Hoogle output during interface creation
, ppExportD
, outWith
) where
import Documentation.Haddock.Markup
import Haddock.GhcUtils
import Haddock.Types hiding (Version)
import Haddock.Utils hiding (out)
import GHC
import GHC.Driver.Ppr
import GHC.Plugins (TopLevelFlag(..))
import GHC.Utils.Outputable as Outputable
import GHC.Utils.Panic
import GHC.Unit.State
import Data.Char
import Data.Foldable (toList)
import Data.List (intercalate, isPrefixOf)
import Data.Maybe
import Data.Version
import System.Directory
import System.FilePath
prefix :: [String]
prefix = ["-- Hoogle documentation, generated by Haddock"
,"-- See Hoogle, http://www.haskell.org/hoogle/"
,""]
ppHoogle :: DynFlags -> String -> Version -> String -> Maybe (Doc RdrName) -> [Interface] -> FilePath -> IO ()
ppHoogle dflags package version synopsis prologue ifaces odir = do
let -- Since Hoogle is line based, we want to avoid breaking long lines.
dflags' = dflags{ pprCols = maxBound }
filename = package ++ ".txt"
contents = prefix ++
docWith dflags' (drop 2 $ dropWhile (/= ':') synopsis) prologue ++
["@package " ++ package] ++
["@version " ++ showVersion version
| not (null (versionBranch version))
] ++
concat [ppModule dflags' i | i <- ifaces, OptHide `notElem` ifaceOptions i]
createDirectoryIfMissing True odir
writeUtf8File (odir </> filename) (unlines contents)
ppModule :: DynFlags -> Interface -> [String]
ppModule dflags iface =
"" : ppDocumentation dflags (ifaceDoc iface) ++
["module " ++ moduleString (ifaceMod iface)] ++
concatMap ppExportItem (ifaceRnExportItems $ iface) ++
map (fromMaybe "" . haddockClsInstPprHoogle) (ifaceInstances iface)
-- | If the export item is an 'ExportDecl', get the attached Hoogle textual
-- database entries for that export declaration.
ppExportItem :: ExportItem DocNameI -> [String]
ppExportItem (ExportDecl RnExportD { rnExpDHoogle = o }) = o
ppExportItem _ = []
---------------------------------------------------------------------
-- Utility functions
dropHsDocTy :: HsSigType GhcRn -> HsSigType GhcRn
dropHsDocTy = drop_sig_ty
where
drop_sig_ty (HsSig x a b) = HsSig x a (drop_lty b)
drop_sig_ty x@XHsSigType{} = x
drop_lty (L src x) = L src (drop_ty x)
drop_ty (HsForAllTy x a e) = HsForAllTy x a (drop_lty e)
drop_ty (HsQualTy x a e) = HsQualTy x a (drop_lty e)
drop_ty (HsBangTy x a b) = HsBangTy x a (drop_lty b)
drop_ty (HsAppTy x a b) = HsAppTy x (drop_lty a) (drop_lty b)
drop_ty (HsAppKindTy x a b) = HsAppKindTy x (drop_lty a) (drop_lty b)
drop_ty (HsFunTy x w a b) = HsFunTy x w (drop_lty a) (drop_lty b)
drop_ty (HsListTy x a) = HsListTy x (drop_lty a)
drop_ty (HsTupleTy x a b) = HsTupleTy x a (map drop_lty b)
drop_ty (HsOpTy x p a b c) = HsOpTy x p (drop_lty a) b (drop_lty c)
drop_ty (HsParTy x a) = HsParTy x (drop_lty a)
drop_ty (HsKindSig x a b) = HsKindSig x (drop_lty a) b
drop_ty (HsDocTy _ a _) = drop_ty $ unL a
drop_ty x = x
outHsSigType :: DynFlags -> HsSigType GhcRn -> String
outHsSigType dflags = out dflags . reparenSigType . dropHsDocTy
outWith :: Outputable a => (SDoc -> String) -> a -> [Char]
outWith p = f . unwords . map (dropWhile isSpace) . lines . p . ppr
where
f xs | " <document comment>" `isPrefixOf` xs = f $ drop 19 xs
f (x:xs) = x : f xs
f [] = []
out :: Outputable a => DynFlags -> a -> String
out dflags = outWith $ showSDoc dflags
operator :: String -> String
operator (x:xs) | not (isAlphaNum x) && x `notElem` "_' ([{" = '(' : x:xs ++ ")"
operator x = x
commaSeparate :: Outputable a => DynFlags -> [a] -> String
commaSeparate dflags = showSDoc dflags . interpp'SP
---------------------------------------------------------------------
-- How to print each export
ppExportD :: DynFlags -> ExportD GhcRn -> [String]
ppExportD dflags
ExportD
{ expDDecl = L _ decl
, expDPats = bundledPats
, expDMbDoc = mbDoc
, expDSubDocs = subdocs
, expDFixities = fixities
}
= let
-- Since Hoogle is line based, we want to avoid breaking long lines.
dflags' = dflags{ pprCols = maxBound }
in
concat
[ ppDocumentation dflags' dc ++ f d
| (d, (dc, _)) <- (decl, mbDoc) : bundledPats
] ++ ppFixities
where
f :: HsDecl GhcRn -> [String]
f (TyClD _ d@DataDecl{}) = ppData dflags d subdocs
f (TyClD _ d@SynDecl{}) = ppSynonym dflags d
f (TyClD _ d@ClassDecl{}) = ppClass dflags d subdocs
f (TyClD _ (FamDecl _ d)) = ppFam dflags d
f (ForD _ (ForeignImport _ name typ _)) = [pp_sig dflags [name] typ]
f (ForD _ (ForeignExport _ name typ _)) = [pp_sig dflags [name] typ]
f (SigD _ sig) = ppSig dflags sig
f _ = []
ppFixities :: [String]
ppFixities = concatMap (ppFixity dflags) fixities
ppSigWithDoc :: DynFlags -> Sig GhcRn -> [(Name, DocForDecl Name)] -> [String]
ppSigWithDoc dflags sig subdocs = case sig of
TypeSig _ names t -> concatMap (mkDocSig "" (dropWildCards t)) names
PatSynSig _ names t -> concatMap (mkDocSig "pattern " t) names
_ -> []
where
mkDocSig leader typ n = mkSubdocN dflags n subdocs
[leader ++ pp_sig dflags [n] typ]
ppSig :: DynFlags -> Sig GhcRn -> [String]
ppSig dflags x = ppSigWithDoc dflags x []
pp_sig :: DynFlags -> [LocatedN Name] -> LHsSigType GhcRn -> String
pp_sig dflags names (L _ typ) =
operator prettyNames ++ " :: " ++ outHsSigType dflags typ
where
prettyNames = intercalate ", " $ map (out dflags) names
-- note: does not yet output documentation for class methods
ppClass :: DynFlags -> TyClDecl GhcRn -> [(Name, DocForDecl Name)] -> [String]
ppClass dflags decl@(ClassDecl {}) subdocs =
(out dflags decl{tcdSigs=[], tcdATs=[], tcdATDefs=[], tcdMeths=emptyLHsBinds}
++ ppTyFams) : ppMethods
where
ppMethods = concat . map (ppSig' . unLoc . add_ctxt) $ tcdSigs decl
ppSig' = flip (ppSigWithDoc dflags) subdocs
add_ctxt = addClassContext (tcdName decl) (tyClDeclTyVars decl)
ppTyFams
| null $ tcdATs decl = ""
| otherwise = (" " ++) . showSDoc dflags . whereWrapper $ concat
[ map pprTyFam (tcdATs decl)
, map (pprTyFamInstDecl NotTopLevel . unLoc) (tcdATDefs decl)
]
pprTyFam :: LFamilyDecl GhcRn -> SDoc
pprTyFam (L _ at) = vcat' $ map text $
mkSubdocN dflags (fdLName at) subdocs (ppFam dflags at)
whereWrapper elems = vcat'
[ text "where" <+> lbrace
, nest 4 . vcat . map (Outputable.<> semi) $ elems
, rbrace
]
ppClass _ _non_cls_decl _ = []
ppFam :: DynFlags -> FamilyDecl GhcRn -> [String]
ppFam dflags decl@(FamilyDecl { fdInfo = info })
= [out dflags decl']
where
decl' = case info of
-- We don't need to print out a closed type family's equations
-- for Hoogle, so pretend it doesn't have any.
ClosedTypeFamily{} -> decl { fdInfo = OpenTypeFamily }
_ -> decl
ppSynonym :: DynFlags -> TyClDecl GhcRn -> [String]
ppSynonym dflags x = [out dflags x]
ppData :: DynFlags -> TyClDecl GhcRn -> [(Name, DocForDecl Name)] -> [String]
ppData dflags decl@DataDecl { tcdLName = name, tcdTyVars = tvs, tcdFixity = fixity, tcdDataDefn = defn } subdocs
= out dflags (ppDataDefnHeader (pp_vanilla_decl_head name tvs fixity) defn) :
concatMap (ppCtor dflags decl subdocs . unLoc) (dd_cons defn)
where
ppData _ _ _ = panic "ppData"
-- | for constructors, and named-fields...
lookupCon :: DynFlags -> [(Name, DocForDecl Name)] -> LocatedN Name -> [String]
lookupCon dflags subdocs (L _ name) = case lookup name subdocs of
Just (d, _) -> ppDocumentation dflags d
_ -> []
ppCtor :: DynFlags -> TyClDecl GhcRn -> [(Name, DocForDecl Name)] -> ConDecl GhcRn -> [String]
ppCtor dflags dat subdocs con@ConDeclH98 { con_args = con_args' }
-- AZ:TODO get rid of the concatMap
= concatMap (lookupCon dflags subdocs) [con_name con] ++ f con_args'
where
f (PrefixCon _ args) = [typeSig name $ (map hsScaledThing args) ++ [resType]]
f (InfixCon a1 a2) = f $ PrefixCon [] [a1,a2]
f (RecCon (L _ recs)) = f (PrefixCon [] $ map (hsLinear . cd_fld_type . unLoc) recs) ++ concat
[(concatMap (lookupCon dflags subdocs . noLocA . foExt . unLoc) (cd_fld_names r)) ++
[out dflags (map (foExt . unLoc) $ cd_fld_names r) `typeSig` [resType, cd_fld_type r]]
| r <- map unLoc recs]
funs = foldr1 (\x y -> reL $ HsFunTy noAnn (HsUnrestrictedArrow noHsUniTok) x y)
apps = foldl1 (\x y -> reL $ HsAppTy noExtField x y)
typeSig nm flds = operator nm ++ " :: " ++
outHsSigType dflags (unL $ mkEmptySigType $ funs flds)
-- We print the constructors as comma-separated list. See GHC
-- docs for con_names on why it is a list to begin with.
name = commaSeparate dflags . toList $ unL <$> getConNames con
tyVarArg (UserTyVar _ _ n) = HsTyVar noAnn NotPromoted n
tyVarArg (KindedTyVar _ _ n lty) = HsKindSig noAnn (reL (HsTyVar noAnn NotPromoted n)) lty
tyVarArg _ = panic "ppCtor"
resType = apps $ map reL $
(HsTyVar noAnn NotPromoted (reL (tcdName dat))) :
map (tyVarArg . unLoc) (hsQTvExplicit $ tyClDeclTyVars dat)
ppCtor dflags _dat subdocs (ConDeclGADT { con_names = names
, con_bndrs = L _ outer_bndrs
, con_mb_cxt = mcxt
, con_g_args = args
, con_res_ty = res_ty })
= concatMap (lookupCon dflags subdocs) names ++ [typeSig]
where
typeSig = operator name ++ " :: " ++ outHsSigType dflags con_sig_ty
name = out dflags $ unL <$> names
con_sig_ty = HsSig noExtField outer_bndrs theta_ty where
theta_ty = case mcxt of
Just theta -> noLocA (HsQualTy { hst_xqual = noExtField, hst_ctxt = theta, hst_body = tau_ty })
Nothing -> tau_ty
tau_ty = foldr mkFunTy res_ty $
case args of PrefixConGADT pos_args -> map hsScaledThing pos_args
RecConGADT (L _ flds) _ -> map (cd_fld_type . unL) flds
mkFunTy a b = noLocA (HsFunTy noAnn (HsUnrestrictedArrow noHsUniTok) a b)
ppFixity :: DynFlags -> (Name, Fixity) -> [String]
ppFixity dflags (name, fixity) = [out dflags ((FixitySig noExtField [noLocA name] fixity) :: FixitySig GhcRn)]
---------------------------------------------------------------------
-- DOCUMENTATION
ppDocumentation :: Outputable o => DynFlags -> Documentation o -> [String]
ppDocumentation dflags (Documentation d w) = mdoc dflags d ++ doc dflags w
doc :: Outputable o => DynFlags -> Maybe (Doc o) -> [String]
doc dflags = docWith dflags ""
mdoc :: Outputable o => DynFlags -> Maybe (MDoc o) -> [String]
mdoc dflags = docWith dflags "" . fmap _doc
docWith :: Outputable o => DynFlags -> String -> Maybe (Doc o) -> [String]
docWith _ [] Nothing = []
docWith dflags header d
= ("":) $ zipWith (++) ("-- | " : repeat "-- ") $
lines header ++ ["" | header /= "" && isJust d] ++
maybe [] (showTags . markup (markupTag dflags)) d
mkSubdocN :: DynFlags -> LocatedN Name -> [(Name, DocForDecl Name)] -> [String] -> [String]
mkSubdocN dflags n subdocs s = mkSubdoc dflags (n2l n) subdocs s
mkSubdoc :: DynFlags -> LocatedA Name -> [(Name, DocForDecl Name)] -> [String] -> [String]
mkSubdoc dflags n subdocs s = concatMap (ppDocumentation dflags) getDoc ++ s
where
getDoc = maybe [] (return . fst) (lookup (unLoc n) subdocs)
data Tag = TagL Char [Tags] | TagP Tags | TagPre Tags | TagInline String Tags | Str String
deriving Show
type Tags = [Tag]
box :: (a -> b) -> a -> [b]
box f x = [f x]
str :: String -> [Tag]
str a = [Str a]
-- want things like paragraph, pre etc to be handled by blank lines in the source document
-- and things like \n and \t converted away
-- much like blogger in HTML mode
-- everything else wants to be included as tags, neatly nested for some (ul,li,ol)
-- or inlne for others (a,i,tt)
-- entities (&,>,<) should always be appropriately escaped
markupTag :: Outputable o => DynFlags -> DocMarkup o [Tag]
markupTag dflags = Markup {
markupParagraph = box TagP,
markupEmpty = str "",
markupString = str,
markupAppend = (++),
markupIdentifier = box (TagInline "a") . str . out dflags,
markupIdentifierUnchecked = box (TagInline "a") . str . showWrapped (out dflags . snd),
markupModule = \(ModLink m label) -> box (TagInline "a") (fromMaybe (str m) label),
markupWarning = box (TagInline "i"),
markupEmphasis = box (TagInline "i"),
markupBold = box (TagInline "b"),
markupMonospaced = box (TagInline "tt"),
markupPic = const $ str " ",
markupMathInline = const $ str "<math>",
markupMathDisplay = const $ str "<math>",
markupUnorderedList = box (TagL 'u'),
markupOrderedList = box (TagL 'o') . map snd,
markupDefList = box (TagL 'u') . map (\(a,b) -> TagInline "i" a : Str " " : b),
markupCodeBlock = box TagPre,
markupHyperlink = \(Hyperlink url mLabel) -> box (TagInline "a") (fromMaybe (str url) mLabel),
markupAName = const $ str "",
markupProperty = box TagPre . str,
markupExample = box TagPre . str . unlines . map exampleToString,
markupHeader = \(Header l h) -> box (TagInline $ "h" ++ show l) h,
markupTable = \(Table _ _) -> str "TODO: table"
}
showTags :: [Tag] -> [String]
showTags = intercalate [""] . map showBlock
showBlock :: Tag -> [String]
showBlock (TagP xs) = showInline xs
showBlock (TagL t xs) = ['<':t:"l>"] ++ mid ++ ['<':'/':t:"l>"]
where mid = concatMap (showInline . box (TagInline "li")) xs
showBlock (TagPre xs) = ["<pre>"] ++ showPre xs ++ ["</pre>"]
showBlock x = showInline [x]
asInline :: Tag -> Tags
asInline (TagP xs) = xs
asInline (TagPre xs) = [TagInline "pre" xs]
asInline (TagL t xs) = [TagInline (t:"l") $ map (TagInline "li") xs]
asInline x = [x]
showInline :: [Tag] -> [String]
showInline = unwordsWrap 70 . words . concatMap f
where
fs = concatMap f
f (Str x) = escape x
f (TagInline s xs) = "<"++s++">" ++ (if s == "li" then trim else id) (fs xs) ++ "</"++s++">"
f x = fs $ asInline x
trim = dropWhile isSpace . reverse . dropWhile isSpace . reverse
showPre :: [Tag] -> [String]
showPre = trimFront . trimLines . lines . concatMap f
where
trimLines = dropWhile null . reverse . dropWhile null . reverse
trimFront xs = map (drop i) xs
where
ns = [length a | x <- xs, let (a,b) = span isSpace x, b /= ""]
i = if null ns then 0 else minimum ns
fs = concatMap f
f (Str x) = escape x
f (TagInline s xs) = "<"++s++">" ++ fs xs ++ "</"++s++">"
f x = fs $ asInline x
unwordsWrap :: Int -> [String] -> [String]
unwordsWrap n = f n []
where
f _ s [] = [g s | s /= []]
f i s (x:xs) | nx > i = g s : f (n - nx - 1) [x] xs
| otherwise = f (i - nx - 1) (x:s) xs
where nx = length x
g = unwords . reverse
escape :: String -> String
escape = concatMap f
where
f '<' = "<"
f '>' = ">"
f '&' = "&"
f x = [x]
-- | Just like 'vcat' but uses '($+$)' instead of '($$)'.
vcat' :: [SDoc] -> SDoc
vcat' = foldr ($+$) empty