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|
--
-- Haddock - A Haskell Documentation Tool
--
-- (c) Simon Marlow 2002
--
module Main (main) where
import HaddockVersion
import HaddockRename
import HaddockParse
import HaddockLex
--import HaddockDB -- not compiling
import HaddockHtml
import HaddockTypes
import HaddockUtil
import Digraph
import Binary
import HsParser
import HsParseMonad
import HsSyn
import System
--import Pretty
import Maybe ( isJust, maybeToList )
import List ( nub )
import Monad ( when )
import Char ( isSpace )
import IO
#if __GLASGOW_HASKELL__ < 503
import MonadWriter
import FiniteMap
import GetOpt
import IOExts
#else
import Control.Monad.Writer
import Data.FiniteMap
import System.Console.GetOpt
import Data.IORef
import Debug.Trace
import System.IO.Unsafe ( unsafePerformIO )
#endif
#if __GLASGOW_HASKELL__ < 500
import Regex
import PackedString
#endif
-----------------------------------------------------------------------------
-- Top-level stuff
main :: IO ()
main = do
cmdline <- getArgs
case getOpt Permute options cmdline of
(flags, args, [] ) -> run flags args
(_, _, errors) -> do prog <- getProgramName
die (concat errors ++
usageInfo (usageHeader prog) options)
usageHeader :: String -> String
usageHeader prog = "Usage: " ++ prog ++ " [OPTION...] file...\n"
data Flag
= Flag_CSS String
| Flag_Debug
-- | Flag_DocBook
| Flag_DumpInterface FilePath
| Flag_Heading String
| Flag_Html
| Flag_Lib String
| Flag_MSHtmlHelp
| Flag_NoImplicitPrelude
| Flag_OutputDir FilePath
| Flag_Prologue FilePath
| Flag_ReadInterface FilePath
| Flag_SourceURL String
| Flag_Help
| Flag_Version
deriving (Eq)
options :: [OptDescr Flag]
options =
[
Option ['o'] ["odir"] (ReqArg Flag_OutputDir "DIR")
"directory in which to put the output files",
Option ['i'] ["read-interface"] (ReqArg Flag_ReadInterface "FILE")
"read an interface from FILE",
Option ['D'] ["dump-interface"] (ReqArg Flag_DumpInterface "FILE")
"dump an interface for these modules in FILE",
Option ['l'] ["lib"] (ReqArg Flag_Lib "DIR")
"location of Haddock's auxiliary files",
-- Option ['S'] ["docbook"] (NoArg Flag_DocBook)
-- "output in docbook (SGML)",
Option ['h'] ["html"] (NoArg Flag_Html)
"output in HTML",
Option ['m'] ["ms-help"] (NoArg Flag_MSHtmlHelp)
"produce Microsoft HTML Help files (with -h)",
Option ['s'] ["source"] (ReqArg Flag_SourceURL "URL")
"base URL for links to source code",
Option ['c'] ["css"] (ReqArg Flag_CSS "FILE")
"the CSS file to use for HTML output",
Option ['p'] ["prologue"] (ReqArg Flag_Prologue "FILE")
"file containing prologue text",
Option ['t'] ["title"] (ReqArg Flag_Heading "TITLE")
"page heading",
Option ['n'] ["no-implicit-prelude"] (NoArg Flag_NoImplicitPrelude)
"do not assume Prelude is imported",
Option ['d'] ["debug"] (NoArg Flag_Debug)
"extra debugging output",
Option ['?'] ["help"] (NoArg Flag_Help)
"display this help and exit",
Option ['V'] ["version"] (NoArg Flag_Version)
"output version information and exit"
]
saved_flags :: IORef [Flag]
saved_flags = unsafePerformIO (newIORef (error "no flags yet"))
run :: [Flag] -> [FilePath] -> IO ()
run flags files = do
when (Flag_Help `elem` flags) $ do
prog <- getProgramName
bye (usageInfo (usageHeader prog) options)
when (Flag_Version `elem` flags) $
bye ("Haddock version " ++ projectVersion ++ ", (c) Simon Marlow 2002\n")
let title = case [str | Flag_Heading str <- flags] of
[] -> ""
(t:_) -> t
source_url = case [str | Flag_SourceURL str <- flags] of
[] -> Nothing
(t:_) -> Just t
libdir <- case [str | Flag_Lib str <- flags] of
[] -> dieMsg "no --lib option"
fs -> return (last fs)
let css_file = case [str | Flag_CSS str <- flags] of
[] -> Nothing
fs -> Just (last fs)
odir <- case [str | Flag_OutputDir str <- flags] of
[] -> return "."
fs -> return (last fs)
let dump_iface = case [str | Flag_DumpInterface str <- flags] of
[] -> Nothing
fs -> Just (last fs)
ifaces_to_read = [ parseIfaceOption str
| Flag_ReadInterface str <- flags ]
no_implicit_prelude = Flag_NoImplicitPrelude `elem` flags
prologue <- getPrologue flags
read_ifaces_s <- mapM readIface (map snd ifaces_to_read)
updateHTMLXRefs (map fst ifaces_to_read) read_ifaces_s
writeIORef saved_flags flags
parsed_mods <- mapM parse_file files
let read_ifaces = concat read_ifaces_s
external_mods = map fst read_ifaces
sorted_mod_files <- sortModules (zip parsed_mods files)
-- emits an error message if there are recursive modules
-- process the modules in sorted order, building up a mapping from
-- modules to interfaces.
let
loop ifaces [] = return ifaces
loop ifaces ((hsmod,file):mdls) = do
let ((mdl,iface),msgs) = runWriter $
mkInterface no_implicit_prelude ifaces file hsmod
new_ifaces = addToFM ifaces mdl iface
mapM (hPutStrLn stderr) msgs
loop new_ifaces mdls
module_map <- loop (listToFM read_ifaces) sorted_mod_files
let mod_ifaces = fmToList module_map
these_mod_ifaces0 = [ (mdl, iface)
| (mdl, iface) <- mod_ifaces,
mdl `notElem` external_mods ]
-- when (Flag_DocBook `elem` flags) $
-- putStr (ppDocBook odir mod_ifaces)
let these_mod_ifaces = attachInstances these_mod_ifaces0
when (Flag_Debug `elem` flags) $ do
mapM_ putStrLn (map show [ (mdl, fmToList (iface_env i),
fmToList (iface_sub i))
| (mdl, i) <- these_mod_ifaces ])
when (Flag_Html `elem` flags) $
ppHtml title source_url these_mod_ifaces odir css_file
libdir prologue (Flag_MSHtmlHelp `elem` flags)
-- dump an interface if requested
case dump_iface of
Nothing -> return ()
Just fn -> do
bh <- openBinMem 100000
put_ bh prepared_ifaces
writeBinMem bh fn
where
prepared_ifaces =
[ (mdl, fmToList (iface_env iface), fmToList (iface_sub iface))
| (mdl, iface) <- these_mod_ifaces ]
parseIfaceOption :: String -> (FilePath,FilePath)
parseIfaceOption s =
case break (==',') s of
(fpath,',':file) -> (fpath,file)
(file, _) -> ("", file)
readIface :: FilePath -> IO [(Module,Interface)]
readIface filename = do
bh <- readBinMem filename
stuff <- get bh
return (map to_interface stuff)
where
to_interface (mdl, env, sub) =
(mdl, Interface {
iface_filename = "",
iface_env = listToFM env,
iface_import_env = emptyFM,
iface_sub = listToFM sub,
iface_reexported = emptyFM,
iface_exports = [],
iface_orig_exports = [],
iface_insts = [],
iface_decls = emptyFM,
iface_info = Nothing,
iface_doc = Nothing,
iface_options = []
}
)
updateHTMLXRefs :: [FilePath] -> [[(Module,Interface)]] -> IO ()
updateHTMLXRefs paths ifaces_s =
writeIORef html_xrefs_ref (listToFM mapping)
where
mapping = [ (mdl,fpath)
| (fpath, ifaces) <- zip paths ifaces_s,
(mdl, _iface) <- ifaces
]
parse_file :: FilePath -> IO HsModule
parse_file file = do
bracket
(openFile file ReadMode)
(\h -> hClose h)
(\h -> do stuff <- hGetContents h
case parse stuff (SrcLoc 1 1) 1 0 [] of
Ok _ e -> return e
Failed err -> die (file ++ ':':err ++ "\n")
)
getPrologue :: [Flag] -> IO (Maybe Doc)
getPrologue flags
= case [filename | Flag_Prologue filename <- flags ] of
[] -> return Nothing
[filename] -> do
str <- readFile filename
case parseParas (tokenise str) of
Left err -> dieMsg err
Right doc -> return (Just doc)
_otherwise -> dieMsg "multiple -p/--prologue options"
-----------------------------------------------------------------------------
-- Figuring out the definitions that are exported from a module
mkInterface
:: Bool -- no implicit prelude
-> ModuleMap -> FilePath -> HsModule
-> ErrMsgM (
Module, -- the module name
Interface -- its "interface"
)
mkInterface no_implicit_prelude mod_map filename
(HsModule mdl exps imps decls maybe_opts maybe_info maybe_doc) = do
-- Process the options, if available
opts <- case maybe_opts of
Just opt_str -> processOptions opt_str
Nothing -> return []
let
-- expand type signatures with multiple variables into multiple
-- type signatures
expanded_decls = concat (map expandDecl decls)
sub_map = mkSubNames expanded_decls
-- first, attach documentation to declarations
annotated_decls = collectDoc expanded_decls
-- now find the defined names
locally_defined_names = collectNames annotated_decls
qual_local_names = map (Qual mdl) locally_defined_names
unqual_local_names = map UnQual locally_defined_names
local_orig_env = listToFM (zip unqual_local_names qual_local_names ++
zip qual_local_names qual_local_names)
-- both qualified and unqualifed names are in scope for local things
implicit_imps
| no_implicit_prelude || any is_prel_import imps = imps
| otherwise = HsImportDecl loc prelude_mod False Nothing Nothing : imps
where
loc = SrcLoc 0 0
is_prel_import (HsImportDecl _ mdl0 _ _ _ ) = mdl0 == prelude_mod
-- build the orig_env, which maps names to *original* names (so we can
-- find the original declarations & docs for things).
orig_env = buildOrigEnv mod_map implicit_imps `plusFM` local_orig_env
-- convert names in source code to original, fully qualified, names
(orig_exports, missing_names1)
= runRnFM orig_env (mapMaybeM renameExportList exps)
(orig_decls, missing_names2)
= runRnFM orig_env (mapM renameDecl annotated_decls)
-- gather up a list of entities that are exported (original names)
(exported_names, exported_visible_names)
= exportedNames mdl mod_map
locally_defined_names orig_env sub_map
orig_exports opts
-- build the import env, which maps original names to import names
local_import_env = listToFM (zip qual_local_names qual_local_names)
import_env = local_import_env `plusFM`
buildImportEnv mod_map mdl exported_visible_names
implicit_imps
-- trace (show (fmToList orig_env)) $ do
-- trace (show (fmToList import_env)) $ do
let
final_decls = orig_decls
decl_map :: FiniteMap HsName HsDecl
decl_map = listToFM [ (n,d) | d <- final_decls, n <- declBinders d ]
instances = [ d | d@HsInstDecl{} <- final_decls ] ++
[ d | decl <- orig_decls, d <- derivedInstances mdl decl]
-- make the "export items", which will be converted into docs later
orig_export_list <- mkExportItems mod_map mdl orig_env decl_map sub_map
final_decls opts orig_exports
let
-- prune the export list to just those declarations that have
-- documentation, if the 'prune' option is on.
pruned_export_list
| OptPrune `elem` opts = pruneExportItems orig_export_list
| otherwise = orig_export_list
-- rename names in the exported declarations to point to things that
-- are closer, or maybe even exported by, the current module.
(renamed_export_list, _missing_names3)
= runRnFM import_env (renameExportItems pruned_export_list)
name_env = listToFM [ (nameOfQName n, n) | n <- exported_names ]
-- find the names exported by this module that other modules should *not*
-- link to (and point them to where they should).
reexports = getReExports mdl mod_map orig_exports
let
(orig_module_doc, missing_names4)
= runRnFM orig_env (renameMaybeDoc maybe_doc)
(final_module_doc, _missing_names5)
= runRnFM import_env (renameMaybeDoc orig_module_doc)
-- report any names we couldn't find/resolve
let missing_names = missing_names1 ++ missing_names2 ++ missing_names4
--ignore missing_names3 & missing_names5 for now
name_strings = nub (map show missing_names)
when (not (null name_strings)) $
tell ["Warning: " ++ show mdl ++
": the following names could not be resolved:\n\
\ " ++ concat (map (' ':) name_strings)
]
return (mdl, Interface {
iface_filename = filename,
iface_env = name_env,
iface_import_env = import_env,
iface_reexported = reexports,
iface_exports = renamed_export_list,
iface_sub = sub_map,
iface_orig_exports = pruned_export_list,
iface_insts = instances,
iface_decls = decl_map,
iface_info = maybe_info,
iface_doc = final_module_doc,
iface_options = opts
}
)
-- Try to generate instance declarations for derived instances.
-- We can't do this properly without instance inference, but if a type
-- variable occurs as a constructor argument, then we can just
-- propagate the derived class to the variable. But we know nothing of
-- the constraints on any type variables that occur elsewhere.
-- Note that a type variable may be in both categories: then we know a
-- constraint, but there may be more, or a stronger constraint.
derivedInstances :: Module -> HsDecl -> [HsDecl]
derivedInstances mdl decl = case decl of
HsDataDecl srcloc ctxt n tvs cons drv@(_:_) _ ->
derived srcloc ctxt n tvs cons drv
HsNewTypeDecl srcloc ctxt n tvs con drv@(_:_) _ ->
derived srcloc ctxt n tvs [con] drv
_ -> []
where
derived srcloc ctxt n tvs cons drv =
[HsInstDecl srcloc
(ctxt ++ [(cls,[v]) | v <- simple_tvars] ++ extra_constraint)
(cls,[t]) [] |
cls <- drv]
where
tvar_map = fmToList $ unionMaps (map tvarsConstr cons)
simple_tvars = [HsTyVar v | (v,(in_constr,_)) <- tvar_map, in_constr]
complex_tvars = [HsTyVar v | (v,(_,in_tycons)) <- tvar_map, in_tycons]
extra_constraint
| null complex_tvars = []
| otherwise = [(unknownConstraint,complex_tvars)]
t | n == tuple_tycon_name (length tvs - 1) =
HsTyTuple True (map HsTyVar tvs)
| otherwise = foldl HsTyApp (HsTyCon (Qual mdl n)) (map HsTyVar tvs)
-- collect the type variables occurring free in a constr
tvarsConstr :: HsConDecl -> FiniteMap HsName (Bool,Bool)
-- first Bool: tvar occurs as a data constructor argument
-- second Bool: tvar occurs as a type constructor argument
tvarsConstr (HsConDecl _ _ vs _ bts _) =
unionMaps (map tvarsBangType bts) `delListFromFM` vs
tvarsConstr (HsRecDecl _ _ vs _ fs _) =
unionMaps (map tvarsField fs) `delListFromFM` vs
tvarsField (HsFieldDecl _ bt _) = tvarsBangType bt
tvarsBangType (HsBangedTy t) = tvarsType t
tvarsBangType (HsUnBangedTy t) = tvarsType t
tvarsType (HsTyTuple _ ts) = unionMaps (map tvarsType ts)
tvarsType (HsTyVar tv) = unitFM tv (True,False)
tvarsType (HsTyDoc t _) = tvarsType t
tvarsType t = tvarsType2 t
tvarsType2 (HsForAllType (Just tvs) _ t) = tvarsType2 t `delListFromFM` tvs
tvarsType2 (HsForAllType Nothing _ t) = tvarsType2 t
tvarsType2 (HsTyFun t1 t2) = tvarsType2 t1 `unionMap` tvarsType2 t2
tvarsType2 (HsTyTuple _ ts) = unionMaps (map tvarsType2 ts)
tvarsType2 (HsTyApp t1 t2) = tvarsType2 t1 `unionMap` tvarsType2 t2
tvarsType2 (HsTyVar tv) = unitFM tv (False,True)
tvarsType2 (HsTyCon _) = emptyFM
tvarsType2 (HsTyDoc t _) = tvarsType2 t
unionMaps :: [FiniteMap HsName (Bool,Bool)] -> FiniteMap HsName (Bool,Bool)
unionMaps = foldr unionMap emptyFM
unionMap :: FiniteMap HsName (Bool,Bool) -> FiniteMap HsName (Bool,Bool) ->
FiniteMap HsName (Bool,Bool)
unionMap = plusFM_C or2
or2 :: (Bool,Bool) -> (Bool,Bool) -> (Bool,Bool)
or2 (a1,b1) (a2,b2) = (a1 || a2, b1 || b2)
unknownConstraint :: HsQName
unknownConstraint = UnQual (HsTyClsName (HsIdent "???"))
-- -----------------------------------------------------------------------------
-- Build the list of items that will become the documentation, from the
-- export list. At this point, the list of ExportItems is in terms of
-- original names.
mkExportItems
:: ModuleMap
-> Module -- this module
-> FiniteMap HsQName HsQName -- the orig env
-> FiniteMap HsName HsDecl -- maps local names to declarations
-> FiniteMap HsName [HsName] -- sub-map for this module
-> [HsDecl] -- decls in the current module
-> [DocOption]
-> Maybe [HsExportSpec]
-> ErrMsgM [ExportItem]
mkExportItems mod_map this_mod orig_env decl_map sub_map decls
opts maybe_exps
| Nothing <- maybe_exps = everything_local_exported
| OptIgnoreExports `elem` opts = everything_local_exported
| Just specs <- maybe_exps = do
exps <- mapM lookupExport specs
return (concat exps)
where
everything_local_exported = -- everything exported
return (fullContentsOfThisModule this_mod decls)
lookupExport (HsEVar x) = declWith x (Just [])
lookupExport (HsEAbs t) = declWith t (Just [])
lookupExport (HsEThingAll t) = declWith t Nothing
lookupExport (HsEThingWith t cs) = declWith t (Just cs)
lookupExport (HsEModuleContents m) = fullContentsOf m
lookupExport (HsEGroup lev doc) = return [ ExportGroup lev "" doc ]
lookupExport (HsEDoc doc) = return [ ExportDoc doc ]
lookupExport (HsEDocNamed str)
= do r <- findNamedDoc str decls
case r of
Nothing -> return []
Just found -> return [ ExportDoc found ]
in_scope = eltsFM orig_env
declWith :: HsQName -> Maybe [HsQName] -> ErrMsgM [ ExportItem ]
declWith (UnQual _) _ = return []
declWith t@(Qual mdl x) mb_subs
| Just decl <- findDecl t
= return [ ExportDecl t (restrictTo subs (extractDecl x mdl decl)) [] ]
| otherwise
= return []
where
subs =
case mb_subs of
Nothing -> in_scope_subs
Just xs -> filter (`elem` map nameOfQName xs) in_scope_subs
in_scope_subs = map nameOfQName in_scope_subs_qnames
in_scope_subs_qnames = filter (`elem` in_scope) all_subs_qnames
all_subs_qnames = map (Qual mdl) all_subs
all_subs | mdl == this_mod = lookupWithDefaultFM sub_map [] x
| otherwise = all_subs_of_qname mod_map t
fullContentsOf m
| m == this_mod = return (fullContentsOfThisModule this_mod decls)
| otherwise =
case lookupFM mod_map m of
Just iface
| OptHide `elem` iface_options iface
-> return (iface_orig_exports iface)
| otherwise -> return [ ExportModule m ]
Nothing -> do tell ["Warning: module not found: " ++ show m]
return []
findDecl :: HsQName -> Maybe HsDecl
findDecl (UnQual _)
= Nothing -- must be a name we couldn't resolve
findDecl (Qual m n)
| m == this_mod = lookupFM decl_map n
| otherwise =
case lookupFM mod_map m of
Just iface -> lookupFM (iface_decls iface) n
Nothing -> Nothing
fullContentsOfThisModule :: Module -> [HsDecl] -> [ExportItem]
fullContentsOfThisModule mdl decls =
map mkExportItem (filter keepDecl decls)
where mkExportItem (HsDocGroup _ lev doc) = ExportGroup lev "" doc
mkExportItem decl = ExportDecl (Qual mdl x) decl []
where Just x = declMainBinder decl
keepDecl :: HsDecl -> Bool
keepDecl HsTypeSig{} = True
keepDecl HsTypeDecl{} = True
keepDecl HsNewTypeDecl{} = True
keepDecl HsDataDecl{} = True
keepDecl HsClassDecl{} = True
keepDecl HsDocGroup{} = True
keepDecl HsForeignImport{} = True
keepDecl _ = False
-- Sometimes the declaration we want to export is not the "main" declaration:
-- it might be an individual record selector or a class method. In these
-- cases we have to extract the required declaration (and somehow cobble
-- together a type signature for it...)
extractDecl :: HsName -> Module -> HsDecl -> HsDecl
extractDecl name mdl decl
| Just n <- declMainBinder decl, n == name = decl
| otherwise =
case decl of
HsClassDecl _ _ n tvs _ decls _ ->
case [ d | d@HsTypeSig{} <- decls,
declMainBinder d == Just name ] of
[d0] -> extractClassDecl n mdl tvs d0
_ -> error "internal: extractDecl"
HsDataDecl _ _ t tvs cons _ _ ->
extractRecSel name mdl t tvs cons
HsNewTypeDecl _ _ t tvs con _ _ ->
extractRecSel name mdl t tvs [con]
_ -> error ("extractDecl: " ++ show decl)
extractClassDecl :: HsName -> Module -> [HsName] -> HsDecl -> HsDecl
extractClassDecl c mdl tvs0 (HsTypeSig loc [n] ty doc)
= case ty of
HsForAllType tvs ctxt' ty' ->
HsTypeSig loc [n] (HsForAllType tvs (ctxt ++ ctxt') ty') doc
_ ->
HsTypeSig loc [n] (HsForAllType Nothing ctxt ty) doc
where
ctxt = [HsAssump (Qual mdl c, map HsTyVar tvs0)]
extractClassDecl _ _ _ d =
error $ "Main.extractClassDecl: unexpected decl: " ++ show d
extractRecSel :: HsName -> Module -> HsName -> [HsName] -> [HsConDecl]
-> HsDecl
extractRecSel _ _ _ _ [] = error "extractRecSel: selector not found"
extractRecSel _ _ _ _ (d@(HsConDecl{}):_) =
error $ "Main.extractRecSel: unexpected (con)decl" ++ show d
extractRecSel nm mdl t tvs (HsRecDecl loc _ _tvs _ fields _mb_doc : rest)
| (HsFieldDecl ns ty mb_doc : _) <- matching_fields
= HsTypeSig loc [nm] (HsTyFun data_ty (unbang ty)) mb_doc
| otherwise = extractRecSel nm mdl t tvs rest
where
matching_fields = [ f | f@(HsFieldDecl ns ty mb_doc) <- fields,
nm `elem` ns ]
data_ty = foldl HsTyApp (HsTyCon (Qual mdl t)) (map HsTyVar tvs)
-- -----------------------------------------------------------------------------
-- Pruning
pruneExportItems :: [ExportItem] -> [ExportItem]
pruneExportItems items = filter has_doc items
where has_doc (ExportDecl _ d _) = isJust (declDoc d)
has_doc _ = True
-- -----------------------------------------------------------------------------
-- Make a sub-name map for this module
mkSubNames :: [HsDecl] -> FiniteMap HsName [HsName]
mkSubNames decls =
listToFM [ (n, subs) | d <- decls,
Just n <- [declMainBinder d],
subs@(_:_) <- [declSubBinders d] ]
-- -----------------------------------------------------------------------------
-- Gather a list of original names exported from this module
exportedNames :: Module -> ModuleMap -> [HsName]
-> FiniteMap HsQName HsQName
-> FiniteMap HsName [HsName]
-> Maybe [HsExportSpec]
-> [DocOption]
-> ([HsQName], [HsQName])
exportedNames mdl mod_map local_names orig_env sub_map maybe_exps opts
| Nothing <- maybe_exps = all_local_names_pr
| OptIgnoreExports `elem` opts = all_local_names_pr
| Just expspecs <- maybe_exps =
(concat (map extract expspecs),
concat (map extract_vis expspecs))
where
all_local_names = map (Qual mdl) local_names
all_local_names_pr = (all_local_names,all_local_names)
in_scope = eltsFM orig_env
extract e =
case e of
HsEVar x -> [x]
HsEAbs t -> [t]
HsEThingAll t@(Qual m x) ->
t : filter (`elem` in_scope) (map (Qual m) all_subs)
where
all_subs | m == mdl = lookupWithDefaultFM sub_map [] x
| otherwise = all_subs_of_qname mod_map t
HsEThingWith t cs -> t : cs
HsEModuleContents m
| m == mdl -> map (Qual mdl) local_names
| otherwise ->
case lookupFM mod_map m of
Just iface -> filter (`elem` in_scope) (eltsFM (iface_env iface))
Nothing -> trace ("Warning: module not found: " ++ show m) $ []
_ -> []
-- Just the names that will be visible in the documentation
-- (ie. omit names exported via a 'module M' export, if we are just
-- going to cross-reference the module).
extract_vis e =
case e of
HsEModuleContents m
| m == mdl -> map (Qual mdl) local_names
| otherwise ->
case lookupFM mod_map m of
Just iface
| OptHide `elem` iface_options iface ->
filter (`elem` in_scope) (eltsFM (iface_env iface))
| otherwise -> []
Nothing
-> trace ("Warning: module not found: " ++ show m) $ []
_ -> extract e
-- for a given entity, find all the names it "owns" (ie. all the
-- constructors and field names of a tycon, or all the methods of a
-- class).
all_subs_of_qname :: ModuleMap -> HsQName -> [HsName]
all_subs_of_qname mod_map (Qual mdl nm) =
case lookupFM mod_map mdl of
Just iface -> lookupWithDefaultFM (iface_sub iface) [] nm
Nothing -> []
all_subs_of_qname _ n@(UnQual _) =
error $ "Main.all_subs_of_qname: unexpected unqual'd name:" ++ show n
-- ----------------------------------------------------------------------------
-- Get a list of names exported by this module that are not actually
-- documented here, and build a mapping to point to where the
-- documentation for those names can be found. This is used for
-- constructing the iface_reexports field of the Interface.
getReExports :: Module -> ModuleMap -> Maybe [HsExportSpec] -> FiniteMap HsName HsQName
getReExports mdl mod_map Nothing = emptyFM
getReExports mdl mod_map (Just exps)
= foldr plusFM emptyFM (map extract exps)
where
extract (HsEModuleContents m) | m /= mdl =
case lookupFM mod_map m of
Nothing -> emptyFM
Just iface
| OptHide `elem` iface_options iface -> emptyFM
| otherwise -> listToFM (map get_name (keysFM (iface_env iface)))
where
get_name n = case lookupFM (iface_reexported iface) n of
Just somewhere_else -> (n, somewhere_else)
Nothing -> (n, Qual m n)
extract _ = emptyFM
-- ----------------------------------------------------------------------------
-- Building name environments
-- The orig env maps names in the current source file to
-- fully-qualified "original" names.
buildOrigEnv :: ModuleMap -> [HsImportDecl] -> FiniteMap HsQName HsQName
buildOrigEnv mod_map imp_decls
= foldr plusFM emptyFM (map build imp_decls)
where
build imp_decl@(HsImportDecl _ mdl qual maybe_as _)
= case lookupFM mod_map mdl of
Nothing ->
trace ("Warning: module not found: " ++ show mdl) $ emptyFM
Just iface ->
listToFM (concat (map orig_map (processImportDecl mod_map imp_decl)))
where
-- bring both qualified and unqualified names into scope, unless
-- the import was 'qualified'.
orig_map (nm,qnm)
| qual = [ (Qual qual_module nm, qnm) ]
| otherwise = [ (Qual qual_module nm, qnm), (UnQual nm, qnm) ]
qual_module
| Just m <- maybe_as = m
| otherwise = mdl
-- The import env maps each "original" name referred to in the current
-- module to the qualified name that we want to link to in the
-- documentation.
buildImportEnv :: ModuleMap -> Module -> [HsQName] -> [HsImportDecl]
-> FiniteMap HsQName HsQName
buildImportEnv mod_map this_mod exported_names imp_decls
= foldr plusFM emptyFM (map build imp_decls)
where
build imp_decl@(HsImportDecl _ mdl _ _ _) =
case lookupFM mod_map mdl of
Nothing -> emptyFM
Just iface -> listToFM (map import_map imported_names)
where
imported_names = processImportDecl mod_map imp_decl
reexport_env = iface_reexported iface
import_map (nm,qnm) = (qnm, maps_to)
where
maps_to
-- we re-export it: just link to this module
| qnm `elem` exported_names = Qual this_mod nm
-- re-exported from the other module, but not documented there:
-- find the right place using the iface_reexported environment.
| Just new_qnm <- lookupFM reexport_env nm = new_qnm
-- otherwise, it's documented in the other module
| otherwise = Qual mdl nm
processImportDecl :: ModuleMap -> HsImportDecl -> [(HsName,HsQName)]
processImportDecl mod_map (HsImportDecl _ mdl is_qualified maybe_as imp_specs)
= case lookupFM mod_map mdl of
Nothing -> []
Just iface -> imported_names
where
env = iface_env iface
sub = iface_sub iface
all_names = fmToList env
imported_names :: [(HsName,HsQName)]
imported_names
= case imp_specs of
Nothing -> all_names
Just (False,specs) -> [ (n,qnm) | (n,qnm) <- all_names,
n `elem` names specs False ]
Just (True, specs) -> [ (n,qnm) | (n,qnm) <- all_names,
n `notElem` names specs True ]
where
names specs is_hiding
= concat (map (spec_names is_hiding) specs)
-- when hiding, a conid refers to both the constructor and
-- the type/class constructor.
spec_names _hid (HsIVar v) = [v]
spec_names True (HsIAbs (HsTyClsName i))
= [HsTyClsName i, HsVarName i]
spec_names False (HsIAbs v) = [v]
spec_names _hid (HsIThingAll v) = v : sub_names v
spec_names _hid (HsIThingWith v xs) = v : xs
sub_names :: HsName -> [HsName]
sub_names nm =
case lookupFM env nm of
Just qnm -> filter (`elemFM` env) (all_subs_of_qname mod_map qnm)
_ -> []
-- -----------------------------------------------------------------------------
-- Expand multiple type signatures
expandDecl :: HsDecl -> [HsDecl]
expandDecl (HsTypeSig loc fs qt doc) = [ HsTypeSig loc [f] qt doc | f <- fs ]
expandDecl (HsClassDecl loc ctxt n tvs fds decls doc)
= [ HsClassDecl loc ctxt n tvs fds (concat (map expandDecl decls)) doc ]
expandDecl d = [ d ]
-----------------------------------------------------------------------------
-- Collecting documentation and attach it to the right declarations
collectDoc :: [HsDecl] -> [HsDecl]
collectDoc decls = collect Nothing DocEmpty decls
collect :: Maybe HsDecl -> GenDoc [HsQName] -> [HsDecl] -> [HsDecl]
collect d doc_so_far [] =
case d of
Nothing -> []
Just d0 -> finishedDoc d0 doc_so_far []
collect d doc_so_far (decl:ds) =
case decl of
HsDocCommentNext _ str ->
case d of
Nothing -> collect d (docAppend doc_so_far str) ds
Just d0 -> finishedDoc d0 doc_so_far (collect Nothing str ds)
HsDocCommentPrev _ str -> collect d (docAppend doc_so_far str) ds
_other ->
let decl' = collectInDecl decl in
case d of
Nothing -> collect (Just decl') doc_so_far ds
Just d0 -> finishedDoc d0 doc_so_far
(collect (Just decl') DocEmpty ds)
finishedDoc :: HsDecl -> GenDoc [HsQName] -> [HsDecl] -> [HsDecl]
finishedDoc d DocEmpty rest = d : rest
finishedDoc d doc rest = d' : rest
where d' =
case d of
HsTypeDecl loc n ns ty _ ->
HsTypeDecl loc n ns ty (Just doc)
HsDataDecl loc ctxt n ns cons drv _ ->
HsDataDecl loc ctxt n ns cons drv (Just doc)
HsNewTypeDecl loc ctxt n ns con drv _ ->
HsNewTypeDecl loc ctxt n ns con drv (Just doc)
HsClassDecl loc ctxt n tvs fds meths _ ->
HsClassDecl loc ctxt n tvs fds meths (Just doc)
HsTypeSig loc ns ty _ ->
HsTypeSig loc ns ty (Just doc)
HsForeignImport loc cc sf str n ty _ ->
HsForeignImport loc cc sf str n ty (Just doc)
_other -> d
collectInDecl :: HsDecl -> HsDecl
collectInDecl (HsClassDecl loc ctxt n tvs fds meths doc)
= HsClassDecl loc ctxt n tvs fds (collect Nothing DocEmpty meths) doc
collectInDecl decl
= decl
-- -----------------------------------------------------------------------------
-- Named documentation
findNamedDoc :: String -> [HsDecl] -> ErrMsgM (Maybe Doc)
findNamedDoc name decls = search decls
where search [] = do
tell ["Cannot find documentation for: $" ++ name]
return Nothing
search (HsDocCommentNamed _ name' doc : rest)
| name == name' = return (Just doc)
| otherwise = search rest
search (_other_decl : rest) = search rest
-- -----------------------------------------------------------------------------
-- Haddock options embedded in the source file
processOptions :: String -> ErrMsgM [DocOption]
processOptions str = do
case break (== ',') str of
(this, ',':rest) -> do
opt <- parseOption this
opts <- processOptions rest
return (maybeToList opt ++ opts)
(this, _)
| all isSpace this -> return []
| otherwise -> do opt <- parseOption this; return (maybeToList opt)
parseOption :: String -> ErrMsgM (Maybe DocOption)
parseOption "hide" = return (Just OptHide)
parseOption "prune" = return (Just OptPrune)
parseOption "ignore-exports" = return (Just OptIgnoreExports)
parseOption other = do tell ["Unrecognised option: " ++ other]; return Nothing
-- -----------------------------------------------------------------------------
-- Topologically sort the modules
sortModules :: [(HsModule,FilePath)] -> IO [(HsModule,FilePath)]
sortModules mdls = mapM for_each_scc sccs
where
sccs = stronglyConnComp edges
edges :: [((HsModule,FilePath), Module, [Module])]
edges = [ ((hsmod,file), mdl, get_imps impdecls)
| (hsmod@(HsModule mdl _ impdecls _ _ _ _), file) <- mdls
]
get_imps impdecls = [ imp | HsImportDecl _ imp _ _ _ <- impdecls ]
get_mods hsmodules = [ mdl | HsModule mdl _ _ _ _ _ _ <- hsmodules ]
for_each_scc (AcyclicSCC hsmodule) = return hsmodule
for_each_scc (CyclicSCC hsmodules) =
dieMsg ("modules are recursive: " ++
unwords (map show (get_mods (map fst hsmodules))))
-- -----------------------------------------------------------------------------
-- Collect instances and attach them to declarations
attachInstances :: [(Module,Interface)] -> [(Module,Interface)]
attachInstances mod_ifaces
= map attach mod_ifaces
where
inst_map = collectInstances mod_ifaces
attach (mod,iface) = (mod, iface{ iface_exports = new_exports })
where
new_exports = map attach_export (iface_exports iface)
rename_insts :: [InstHead] -> [InstHead]
rename_insts insts = fst (runRnFM (iface_import_env iface)
(mapM renameInstHead insts))
attach_export (ExportDecl nm decl _) =
ExportDecl nm decl (case lookupFM inst_map nm of
Nothing -> []
Just instheads -> rename_insts instheads)
attach_export other_export =
other_export
collectInstances
:: [(Module,Interface)]
-> FiniteMap HsQName [InstHead] -- maps class/type names to instances
collectInstances mod_ifaces
= addListToFM_C (++) emptyFM class_inst_pairs `plusFM`
addListToFM_C (++) emptyFM ty_inst_pairs
where
all_instances = concat (map (iface_insts.snd) mod_ifaces)
class_inst_pairs = [ (cls, [(ctxt,(cls,args))])
| HsInstDecl _ ctxt (cls,args) _ <- all_instances ]
ty_inst_pairs = [ (nm, [(ctxt,(cls,args))])
| HsInstDecl _ ctxt (cls,args) _ <- all_instances,
arg <- args,
nm <- freeTyCons arg
]
-- -----------------------------------------------------------------------------
-- A monad which collects error messages
type ErrMsg = String
type ErrMsgM a = Writer [ErrMsg] a
|