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|
-----------------------------------------------------------------------------
-- |
-- 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 (
ppHoogle
) where
import Haddock.GhcUtils
import Haddock.Types
import Haddock.Utils hiding (out)
import GHC
import Outputable
import Data.Char
import Data.List
import Data.Maybe
import System.FilePath
import System.IO
prefix :: [String]
prefix = ["-- Hoogle documentation, generated by Haddock"
,"-- See Hoogle, http://www.haskell.org/hoogle/"
,""]
ppHoogle :: String -> String -> String -> Maybe (Doc RdrName) -> [Interface] -> FilePath -> IO ()
ppHoogle package version synopsis prologue ifaces odir = do
let filename = package ++ ".txt"
contents = prefix ++
docWith (drop 2 $ dropWhile (/= ':') synopsis) prologue ++
["@package " ++ package] ++
["@version " ++ version | version /= ""] ++
concat [ppModule i | i <- ifaces, OptHide `notElem` ifaceOptions i]
h <- openFile (odir </> filename) WriteMode
hSetEncoding h utf8
hPutStr h (unlines contents)
hClose h
ppModule :: Interface -> [String]
ppModule iface = "" : doc (ifaceDoc iface) ++
["module " ++ moduleString (ifaceMod iface)] ++
concatMap ppExport (ifaceExportItems iface) ++
concatMap ppInstance (ifaceInstances iface)
---------------------------------------------------------------------
-- Utility functions
dropHsDocTy :: HsType a -> HsType a
dropHsDocTy = f
where
g (L src x) = L src (f x)
f (HsForAllTy a b c d) = HsForAllTy a b c (g d)
f (HsBangTy a b) = HsBangTy a (g b)
f (HsAppTy a b) = HsAppTy (g a) (g b)
f (HsFunTy a b) = HsFunTy (g a) (g b)
f (HsListTy a) = HsListTy (g a)
f (HsPArrTy a) = HsPArrTy (g a)
f (HsTupleTy a b) = HsTupleTy a (map g b)
f (HsOpTy a b c) = HsOpTy (g a) b (g c)
f (HsParTy a) = HsParTy (g a)
f (HsKindSig a b) = HsKindSig (g a) b
f (HsDocTy a _) = f $ unL a
f x = x
outHsType :: OutputableBndr a => HsType a -> String
outHsType = out . dropHsDocTy
makeExplicit :: HsType a -> HsType a
makeExplicit (HsForAllTy _ a b c) = HsForAllTy Explicit a b c
makeExplicit x = x
makeExplicitL :: LHsType a -> LHsType a
makeExplicitL (L src x) = L src (makeExplicit x)
dropComment :: String -> String
dropComment (' ':'-':'-':' ':_) = []
dropComment (x:xs) = x : dropComment xs
dropComment [] = []
out :: Outputable a => a -> String
out = f . unwords . map (dropWhile isSpace) . lines . showSDocUnqual . ppr
where
f xs | " <document comment>" `isPrefixOf` xs = f $ drop 19 xs
f (x:xs) = x : f xs
f [] = []
operator :: String -> String
operator (x:xs) | not (isAlphaNum x) && x `notElem` "_' ([{" = "(" ++ x:xs ++ ")"
operator x = x
---------------------------------------------------------------------
-- How to print each export
ppExport :: ExportItem Name -> [String]
ppExport (ExportDecl decl dc subdocs _) = doc (fst dc) ++ f (unL decl)
where
f (TyClD d@TyDecl{})
| isDataDecl d = ppData d subdocs
| otherwise = ppSynonym d
f (TyClD d@ClassDecl{}) = ppClass d
f (ForD (ForeignImport name typ _ _)) = ppSig $ TypeSig [name] typ
f (ForD (ForeignExport name typ _ _)) = ppSig $ TypeSig [name] typ
f (SigD sig) = ppSig sig
f _ = []
ppExport _ = []
ppSig :: Sig Name -> [String]
ppSig (TypeSig names sig) = [operator prettyNames ++ " :: " ++ outHsType typ]
where
prettyNames = concat . intersperse ", " $ map out names
typ = case unL sig of
HsForAllTy Explicit a b c -> HsForAllTy Implicit a b c
x -> x
ppSig _ = []
-- note: does not yet output documentation for class methods
ppClass :: TyClDecl Name -> [String]
ppClass x = out x{tcdSigs=[]} :
concatMap (ppSig . addContext . unL) (tcdSigs x)
where
addContext (TypeSig name (L l sig)) = TypeSig name (L l $ f sig)
addContext _ = error "expected TypeSig"
f (HsForAllTy a b con d) = HsForAllTy a b (reL (context : unLoc con)) d
f t = HsForAllTy Implicit (mkHsQTvs []) (reL [context]) (reL t)
context = nlHsTyConApp (unL $ tcdLName x)
(map (reL . HsTyVar . hsTyVarName . unL) (hsQTvBndrs (tcdTyVars x)))
ppInstance :: ClsInst -> [String]
ppInstance x = [dropComment $ out x]
ppSynonym :: TyClDecl Name -> [String]
ppSynonym x = [out x]
ppData :: TyClDecl Name -> [(Name, DocForDecl Name)] -> [String]
ppData decl@(TyDecl { tcdTyDefn = defn }) subdocs
= showData decl{ tcdTyDefn = defn { td_cons=[],td_derivs=Nothing }} :
concatMap (ppCtor decl subdocs . unL) (td_cons defn)
where
-- GHC gives out "data Bar =", we want to delete the equals
-- also writes data : a b, when we want data (:) a b
showData d = unwords $ map f $ if last xs == "=" then init xs else xs
where
xs = words $ out d
nam = out $ tcdLName d
f w = if w == nam then operator nam else w
ppData _ _ = panic "ppData"
-- | for constructors, and named-fields...
lookupCon :: [(Name, DocForDecl Name)] -> Located Name -> Maybe (Doc Name)
lookupCon subdocs (L _ name) = case lookup name subdocs of
Just (d, _) -> d
_ -> Nothing
ppCtor :: TyClDecl Name -> [(Name, DocForDecl Name)] -> ConDecl Name -> [String]
ppCtor dat subdocs con = doc (lookupCon subdocs (con_name con))
++ f (con_details con)
where
f (PrefixCon args) = [typeSig name $ args ++ [resType]]
f (InfixCon a1 a2) = f $ PrefixCon [a1,a2]
f (RecCon recs) = f (PrefixCon $ map cd_fld_type recs) ++ concat
[doc (lookupCon subdocs (cd_fld_name r)) ++
[out (unL $ cd_fld_name r) `typeSig` [resType, cd_fld_type r]]
| r <- recs]
funs = foldr1 (\x y -> reL $ HsFunTy (makeExplicitL x) (makeExplicitL y))
apps = foldl1 (\x y -> reL $ HsAppTy x y)
typeSig nm flds = operator nm ++ " :: " ++ outHsType (makeExplicit $ unL $ funs flds)
name = out $ unL $ con_name con
resType = case con_res con of
ResTyH98 -> apps $ map (reL . HsTyVar) $
unL (tcdLName dat) : [hsTyVarName v | L _ (v@UserTyVar {}) <- hsQTvBndrs $ tcdTyVars dat]
ResTyGADT x -> x
---------------------------------------------------------------------
-- DOCUMENTATION
doc :: Outputable o => Maybe (Doc o) -> [String]
doc = docWith ""
docWith :: Outputable o => String -> Maybe (Doc o) -> [String]
docWith [] Nothing = []
docWith header d = ("":) $ zipWith (++) ("-- | " : repeat "-- ") $
[header | header /= ""] ++ ["" | header /= "" && isJust d] ++
maybe [] (showTags . markup markupTag) d
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 => DocMarkup o [Tag]
markupTag = Markup {
markupParagraph = box TagP,
markupEmpty = str "",
markupString = str,
markupAppend = (++),
markupIdentifier = box (TagInline "a") . str . out,
markupIdentifierUnchecked = box (TagInline "a") . str . out . snd,
markupModule = box (TagInline "a") . str,
markupEmphasis = box (TagInline "i"),
markupMonospaced = box (TagInline "tt"),
markupPic = const $ str " ",
markupUnorderedList = box (TagL 'u'),
markupOrderedList = box (TagL 'o'),
markupDefList = box (TagL 'u') . map (\(a,b) -> TagInline "i" a : Str " " : b),
markupCodeBlock = box TagPre,
markupURL = box (TagInline "a") . str,
markupAName = const $ str "",
markupExample = box TagPre . str . unlines . map exampleToString
}
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]
|