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|
{-# LANGUAGE CPP, RankNTypes, ScopedTypeVariables #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
-----------------------------------------------------------------------------
-- |
-- Module : Haddock.InterfaceFile
-- Copyright : (c) David Waern 2006-2009,
-- Mateusz Kowalczyk 2013
-- License : BSD-like
--
-- Maintainer : haddock@projects.haskell.org
-- Stability : experimental
-- Portability : portable
--
-- Reading and writing the .haddock interface file
-----------------------------------------------------------------------------
module Haddock.InterfaceFile (
InterfaceFile(..), ifUnitId, ifModule,
readInterfaceFile, nameCacheFromGhc, freshNameCache, NameCacheAccessor,
writeInterfaceFile, binaryInterfaceVersion, binaryInterfaceVersionCompatibility
) where
import Haddock.Types
import Haddock.Utils hiding (out)
import Control.Monad
import Data.Array
import Data.IORef
import Data.List
import qualified Data.Map as Map
import Data.Map (Map)
import Data.Word
import BinIface (getSymtabName, getDictFastString)
import Binary
import FastMutInt
import FastString
import GHC hiding (NoLink)
import GhcMonad (withSession)
import HscTypes
import NameCache
import IfaceEnv
import Name
import UniqFM
import UniqSupply
import Unique
data InterfaceFile = InterfaceFile {
ifLinkEnv :: LinkEnv,
ifInstalledIfaces :: [InstalledInterface]
}
ifModule :: InterfaceFile -> Module
ifModule if_ =
case ifInstalledIfaces if_ of
[] -> error "empty InterfaceFile"
iface:_ -> instMod iface
ifUnitId :: InterfaceFile -> UnitId
ifUnitId if_ =
case ifInstalledIfaces if_ of
[] -> error "empty InterfaceFile"
iface:_ -> moduleUnitId $ instMod iface
binaryInterfaceMagic :: Word32
binaryInterfaceMagic = 0xD0Cface
-- IMPORTANT: Since datatypes in the GHC API might change between major
-- versions, and because we store GHC datatypes in our interface files, we need
-- to make sure we version our interface files accordingly.
--
-- If you change the interface file format or adapt Haddock to work with a new
-- major version of GHC (so that the format changes indirectly) *you* need to
-- follow these steps:
--
-- (1) increase `binaryInterfaceVersion`
--
-- (2) set `binaryInterfaceVersionCompatibility` to [binaryInterfaceVersion]
--
binaryInterfaceVersion :: Word16
#if (__GLASGOW_HASKELL__ >= 807) && (__GLASGOW_HASKELL__ < 809)
binaryInterfaceVersion = 33
binaryInterfaceVersionCompatibility :: [Word16]
binaryInterfaceVersionCompatibility = [binaryInterfaceVersion]
#else
#error Unsupported GHC version
#endif
initBinMemSize :: Int
initBinMemSize = 1024*1024
writeInterfaceFile :: FilePath -> InterfaceFile -> IO ()
writeInterfaceFile filename iface = do
bh0 <- openBinMem initBinMemSize
put_ bh0 binaryInterfaceMagic
put_ bh0 binaryInterfaceVersion
-- remember where the dictionary pointer will go
dict_p_p <- tellBin bh0
put_ bh0 dict_p_p
-- remember where the symbol table pointer will go
symtab_p_p <- tellBin bh0
put_ bh0 symtab_p_p
-- Make some intial state
symtab_next <- newFastMutInt
writeFastMutInt symtab_next 0
symtab_map <- newIORef emptyUFM
let bin_symtab = BinSymbolTable {
bin_symtab_next = symtab_next,
bin_symtab_map = symtab_map }
dict_next_ref <- newFastMutInt
writeFastMutInt dict_next_ref 0
dict_map_ref <- newIORef emptyUFM
let bin_dict = BinDictionary {
bin_dict_next = dict_next_ref,
bin_dict_map = dict_map_ref }
-- put the main thing
let bh = setUserData bh0 $ newWriteState (putName bin_symtab)
(putName bin_symtab)
(putFastString bin_dict)
put_ bh iface
-- write the symtab pointer at the front of the file
symtab_p <- tellBin bh
putAt bh symtab_p_p symtab_p
seekBin bh symtab_p
-- write the symbol table itself
symtab_next' <- readFastMutInt symtab_next
symtab_map' <- readIORef symtab_map
putSymbolTable bh symtab_next' symtab_map'
-- write the dictionary pointer at the fornt of the file
dict_p <- tellBin bh
putAt bh dict_p_p dict_p
seekBin bh dict_p
-- write the dictionary itself
dict_next <- readFastMutInt dict_next_ref
dict_map <- readIORef dict_map_ref
putDictionary bh dict_next dict_map
-- and send the result to the file
writeBinMem bh filename
return ()
type NameCacheAccessor m = (m NameCache, NameCache -> m ())
nameCacheFromGhc :: forall m. (GhcMonad m, MonadIO m) => NameCacheAccessor m
nameCacheFromGhc = ( read_from_session , write_to_session )
where
read_from_session = do
ref <- withSession (return . hsc_NC)
liftIO $ readIORef ref
write_to_session nc' = do
ref <- withSession (return . hsc_NC)
liftIO $ writeIORef ref nc'
freshNameCache :: NameCacheAccessor IO
freshNameCache = ( create_fresh_nc , \_ -> return () )
where
create_fresh_nc = do
u <- mkSplitUniqSupply 'a' -- ??
return (initNameCache u [])
-- | Read a Haddock (@.haddock@) interface file. Return either an
-- 'InterfaceFile' or an error message.
--
-- This function can be called in two ways. Within a GHC session it will
-- update the use and update the session's name cache. Outside a GHC session
-- a new empty name cache is used. The function is therefore generic in the
-- monad being used. The exact monad is whichever monad the first
-- argument, the getter and setter of the name cache, requires.
--
readInterfaceFile :: forall m.
MonadIO m
=> NameCacheAccessor m
-> FilePath
-> m (Either String InterfaceFile)
readInterfaceFile (get_name_cache, set_name_cache) filename = do
bh0 <- liftIO $ readBinMem filename
magic <- liftIO $ get bh0
version <- liftIO $ get bh0
case () of
_ | magic /= binaryInterfaceMagic -> return . Left $
"Magic number mismatch: couldn't load interface file: " ++ filename
| version `notElem` binaryInterfaceVersionCompatibility -> return . Left $
"Interface file is of wrong version: " ++ filename
| otherwise -> with_name_cache $ \update_nc -> do
dict <- get_dictionary bh0
-- read the symbol table so we are capable of reading the actual data
bh1 <- do
let bh1 = setUserData bh0 $ newReadState (error "getSymtabName")
(getDictFastString dict)
symtab <- update_nc (get_symbol_table bh1)
return $ setUserData bh1 $ newReadState (getSymtabName (NCU (\f -> update_nc (return . f))) dict symtab)
(getDictFastString dict)
-- load the actual data
iface <- liftIO $ get bh1
return (Right iface)
where
with_name_cache :: forall a.
((forall n b. MonadIO n
=> (NameCache -> n (NameCache, b))
-> n b)
-> m a)
-> m a
with_name_cache act = do
nc_var <- get_name_cache >>= (liftIO . newIORef)
x <- act $ \f -> do
nc <- liftIO $ readIORef nc_var
(nc', x) <- f nc
liftIO $ writeIORef nc_var nc'
return x
liftIO (readIORef nc_var) >>= set_name_cache
return x
get_dictionary bin_handle = liftIO $ do
dict_p <- get bin_handle
data_p <- tellBin bin_handle
seekBin bin_handle dict_p
dict <- getDictionary bin_handle
seekBin bin_handle data_p
return dict
get_symbol_table bh1 theNC = liftIO $ do
symtab_p <- get bh1
data_p' <- tellBin bh1
seekBin bh1 symtab_p
(nc', symtab) <- getSymbolTable bh1 theNC
seekBin bh1 data_p'
return (nc', symtab)
-------------------------------------------------------------------------------
-- * Symbol table
-------------------------------------------------------------------------------
putName :: BinSymbolTable -> BinHandle -> Name -> IO ()
putName BinSymbolTable{
bin_symtab_map = symtab_map_ref,
bin_symtab_next = symtab_next } bh name
= do
symtab_map <- readIORef symtab_map_ref
case lookupUFM symtab_map name of
Just (off,_) -> put_ bh (fromIntegral off :: Word32)
Nothing -> do
off <- readFastMutInt symtab_next
writeFastMutInt symtab_next (off+1)
writeIORef symtab_map_ref
$! addToUFM symtab_map name (off,name)
put_ bh (fromIntegral off :: Word32)
data BinSymbolTable = BinSymbolTable {
bin_symtab_next :: !FastMutInt, -- The next index to use
bin_symtab_map :: !(IORef (UniqFM (Int,Name)))
-- indexed by Name
}
putFastString :: BinDictionary -> BinHandle -> FastString -> IO ()
putFastString BinDictionary { bin_dict_next = j_r,
bin_dict_map = out_r} bh f
= do
out <- readIORef out_r
let unique = getUnique f
case lookupUFM out unique of
Just (j, _) -> put_ bh (fromIntegral j :: Word32)
Nothing -> do
j <- readFastMutInt j_r
put_ bh (fromIntegral j :: Word32)
writeFastMutInt j_r (j + 1)
writeIORef out_r $! addToUFM out unique (j, f)
data BinDictionary = BinDictionary {
bin_dict_next :: !FastMutInt, -- The next index to use
bin_dict_map :: !(IORef (UniqFM (Int,FastString)))
-- indexed by FastString
}
putSymbolTable :: BinHandle -> Int -> UniqFM (Int,Name) -> IO ()
putSymbolTable bh next_off symtab = do
put_ bh next_off
let names = elems (array (0,next_off-1) (eltsUFM symtab))
mapM_ (\n -> serialiseName bh n symtab) names
getSymbolTable :: BinHandle -> NameCache -> IO (NameCache, Array Int Name)
getSymbolTable bh namecache = do
sz <- get bh
od_names <- replicateM sz (get bh)
let arr = listArray (0,sz-1) names
(namecache', names) = mapAccumR (fromOnDiskName arr) namecache od_names
return (namecache', arr)
type OnDiskName = (UnitId, ModuleName, OccName)
fromOnDiskName
:: Array Int Name
-> NameCache
-> OnDiskName
-> (NameCache, Name)
fromOnDiskName _ nc (pid, mod_name, occ) =
let
modu = mkModule pid mod_name
cache = nsNames nc
in
case lookupOrigNameCache cache modu occ of
Just name -> (nc, name)
Nothing ->
let
us = nsUniqs nc
u = uniqFromSupply us
name = mkExternalName u modu occ noSrcSpan
new_cache = extendNameCache cache modu occ name
in
case splitUniqSupply us of { (us',_) ->
( nc{ nsUniqs = us', nsNames = new_cache }, name )
}
serialiseName :: BinHandle -> Name -> UniqFM (Int,Name) -> IO ()
serialiseName bh name _ = do
let modu = nameModule name
put_ bh (moduleUnitId modu, moduleName modu, nameOccName name)
-------------------------------------------------------------------------------
-- * GhcBinary instances
-------------------------------------------------------------------------------
instance (Ord k, Binary k, Binary v) => Binary (Map k v) where
put_ bh m = put_ bh (Map.toList m)
get bh = fmap (Map.fromList) (get bh)
instance Binary InterfaceFile where
put_ bh (InterfaceFile env ifaces) = do
put_ bh env
put_ bh ifaces
get bh = do
env <- get bh
ifaces <- get bh
return (InterfaceFile env ifaces)
instance Binary InstalledInterface where
put_ bh (InstalledInterface modu is_sig info docMap argMap
exps visExps opts fixMap) = do
put_ bh modu
put_ bh is_sig
put_ bh info
lazyPut bh (docMap, argMap)
put_ bh exps
put_ bh visExps
put_ bh opts
put_ bh fixMap
get bh = do
modu <- get bh
is_sig <- get bh
info <- get bh
~(docMap, argMap) <- lazyGet bh
exps <- get bh
visExps <- get bh
opts <- get bh
fixMap <- get bh
return (InstalledInterface modu is_sig info docMap argMap
exps visExps opts fixMap)
instance Binary DocOption where
put_ bh OptHide = do
putByte bh 0
put_ bh OptPrune = do
putByte bh 1
put_ bh OptIgnoreExports = do
putByte bh 2
put_ bh OptNotHome = do
putByte bh 3
put_ bh OptShowExtensions = do
putByte bh 4
get bh = do
h <- getByte bh
case h of
0 -> do
return OptHide
1 -> do
return OptPrune
2 -> do
return OptIgnoreExports
3 -> do
return OptNotHome
4 -> do
return OptShowExtensions
_ -> fail "invalid binary data found"
instance Binary Example where
put_ bh (Example expression result) = do
put_ bh expression
put_ bh result
get bh = do
expression <- get bh
result <- get bh
return (Example expression result)
instance Binary Hyperlink where
put_ bh (Hyperlink url label) = do
put_ bh url
put_ bh label
get bh = do
url <- get bh
label <- get bh
return (Hyperlink url label)
instance Binary Picture where
put_ bh (Picture uri title) = do
put_ bh uri
put_ bh title
get bh = do
uri <- get bh
title <- get bh
return (Picture uri title)
instance Binary a => Binary (Header a) where
put_ bh (Header l t) = do
put_ bh l
put_ bh t
get bh = do
l <- get bh
t <- get bh
return (Header l t)
instance Binary a => Binary (Table a) where
put_ bh (Table h b) = do
put_ bh h
put_ bh b
get bh = do
h <- get bh
b <- get bh
return (Table h b)
instance Binary a => Binary (TableRow a) where
put_ bh (TableRow cs) = put_ bh cs
get bh = do
cs <- get bh
return (TableRow cs)
instance Binary a => Binary (TableCell a) where
put_ bh (TableCell i j c) = do
put_ bh i
put_ bh j
put_ bh c
get bh = do
i <- get bh
j <- get bh
c <- get bh
return (TableCell i j c)
instance Binary Meta where
put_ bh (Meta v p) = do
put_ bh v
put_ bh p
get bh = do
v <- get bh
p <- get bh
return (Meta v p)
instance (Binary mod, Binary id) => Binary (MetaDoc mod id) where
put_ bh MetaDoc { _meta = m, _doc = d } = do
put_ bh m
put_ bh d
get bh = do
m <- get bh
d <- get bh
return $ MetaDoc { _meta = m, _doc = d }
instance (Binary mod, Binary id) => Binary (DocH mod id) where
put_ bh DocEmpty = do
putByte bh 0
put_ bh (DocAppend aa ab) = do
putByte bh 1
put_ bh aa
put_ bh ab
put_ bh (DocString ac) = do
putByte bh 2
put_ bh ac
put_ bh (DocParagraph ad) = do
putByte bh 3
put_ bh ad
put_ bh (DocIdentifier ae) = do
putByte bh 4
put_ bh ae
put_ bh (DocModule af) = do
putByte bh 5
put_ bh af
put_ bh (DocEmphasis ag) = do
putByte bh 6
put_ bh ag
put_ bh (DocMonospaced ah) = do
putByte bh 7
put_ bh ah
put_ bh (DocUnorderedList ai) = do
putByte bh 8
put_ bh ai
put_ bh (DocOrderedList aj) = do
putByte bh 9
put_ bh aj
put_ bh (DocDefList ak) = do
putByte bh 10
put_ bh ak
put_ bh (DocCodeBlock al) = do
putByte bh 11
put_ bh al
put_ bh (DocHyperlink am) = do
putByte bh 12
put_ bh am
put_ bh (DocPic x) = do
putByte bh 13
put_ bh x
put_ bh (DocAName an) = do
putByte bh 14
put_ bh an
put_ bh (DocExamples ao) = do
putByte bh 15
put_ bh ao
put_ bh (DocIdentifierUnchecked x) = do
putByte bh 16
put_ bh x
put_ bh (DocWarning ag) = do
putByte bh 17
put_ bh ag
put_ bh (DocProperty x) = do
putByte bh 18
put_ bh x
put_ bh (DocBold x) = do
putByte bh 19
put_ bh x
put_ bh (DocHeader aa) = do
putByte bh 20
put_ bh aa
put_ bh (DocMathInline x) = do
putByte bh 21
put_ bh x
put_ bh (DocMathDisplay x) = do
putByte bh 22
put_ bh x
put_ bh (DocTable x) = do
putByte bh 23
put_ bh x
get bh = do
h <- getByte bh
case h of
0 -> do
return DocEmpty
1 -> do
aa <- get bh
ab <- get bh
return (DocAppend aa ab)
2 -> do
ac <- get bh
return (DocString ac)
3 -> do
ad <- get bh
return (DocParagraph ad)
4 -> do
ae <- get bh
return (DocIdentifier ae)
5 -> do
af <- get bh
return (DocModule af)
6 -> do
ag <- get bh
return (DocEmphasis ag)
7 -> do
ah <- get bh
return (DocMonospaced ah)
8 -> do
ai <- get bh
return (DocUnorderedList ai)
9 -> do
aj <- get bh
return (DocOrderedList aj)
10 -> do
ak <- get bh
return (DocDefList ak)
11 -> do
al <- get bh
return (DocCodeBlock al)
12 -> do
am <- get bh
return (DocHyperlink am)
13 -> do
x <- get bh
return (DocPic x)
14 -> do
an <- get bh
return (DocAName an)
15 -> do
ao <- get bh
return (DocExamples ao)
16 -> do
x <- get bh
return (DocIdentifierUnchecked x)
17 -> do
ag <- get bh
return (DocWarning ag)
18 -> do
x <- get bh
return (DocProperty x)
19 -> do
x <- get bh
return (DocBold x)
20 -> do
aa <- get bh
return (DocHeader aa)
21 -> do
x <- get bh
return (DocMathInline x)
22 -> do
x <- get bh
return (DocMathDisplay x)
23 -> do
x <- get bh
return (DocTable x)
_ -> error "invalid binary data found in the interface file"
instance Binary name => Binary (HaddockModInfo name) where
put_ bh hmi = do
put_ bh (hmi_description hmi)
put_ bh (hmi_copyright hmi)
put_ bh (hmi_license hmi)
put_ bh (hmi_maintainer hmi)
put_ bh (hmi_stability hmi)
put_ bh (hmi_portability hmi)
put_ bh (hmi_safety hmi)
put_ bh (fromEnum <$> hmi_language hmi)
put_ bh (map fromEnum $ hmi_extensions hmi)
get bh = do
descr <- get bh
copyr <- get bh
licen <- get bh
maint <- get bh
stabi <- get bh
porta <- get bh
safet <- get bh
langu <- fmap toEnum <$> get bh
exten <- map toEnum <$> get bh
return (HaddockModInfo descr copyr licen maint stabi porta safet langu exten)
instance Binary DocName where
put_ bh (Documented name modu) = do
putByte bh 0
put_ bh name
put_ bh modu
put_ bh (Undocumented name) = do
putByte bh 1
put_ bh name
get bh = do
h <- getByte bh
case h of
0 -> do
name <- get bh
modu <- get bh
return (Documented name modu)
1 -> do
name <- get bh
return (Undocumented name)
_ -> error "get DocName: Bad h"
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