-recoverDataCon :: a -> TcM Name
-recoverDataCon a = recoverDCInRTS a `recoverM` ioToTcRn (do
- mb_name <- recoverDCInDynEnv a
- maybe (fail "Linker.recoverDatacon: Name not found in Dyn Env")
- return
- mb_name)
-
--- | If a is a Constr closure, lookupDC returns either the Name of the DataCon or the
--- symbol if it is a nullary constructor
--- For instance, for a closure containing 'Just x' it would return the Name for Data.Maybe.Just
--- For a closure containing 'Nothing' it would return the String "DataziMaybe_Nothing_static_info"
-recoverDCInDynEnv :: a -> IO (Maybe Name)
-recoverDCInDynEnv a = do
- pls <- readIORef v_PersistentLinkerState
- let de = dtacons_env pls
- ctype <- getClosureType a
- if not (isConstr ctype)
- then putStrLn ("Not a Constr (" ++ show ctype ++ ")") >>
- return Nothing
- else do let infot = getInfoTablePtr a
- name = lookupAddressEnv de (castPtr$ infot `plusPtr` (wORD_SIZE*2))
- return name
-
-
-recoverDCInRTS :: a -> TcM Name
-recoverDCInRTS a = do
- ctype <- ioToTcRn$ getClosureType a
- if (not$ isConstr ctype)
- then fail "not Constr"
- else do
- Just symbol <- ioToTcRn$ lookupDataCon (getInfoTablePtr a)
- let (occ,mod) = (parse . lex) symbol
- lookupOrig mod occ
- where lex x = map zDecodeString . init . init . split '_' . removeLeadingUnderscore $ x
- parse [pkg, modName, occ] = (mkOccName OccName.dataName occ,
- mkModule (stringToPackageId pkg) (mkModuleName modName))
- parse [modName, occ] = (mkOccName OccName.dataName occ,
- mkModule mainPackageId (mkModuleName modName))
- split delim = let
- helper [] = Nothing
- helper x = Just . second (drop 1) . break (==delim) $ x
- in unfoldr helper
- removeLeadingUnderscore = if cLeadingUnderscore=="YES"
- then tail
- else id
+ where
+
+ {- To find the string in the constructor's info table we need to consider
+ the layout of info tables relative to the entry code for a closure.
+
+ An info table can be next to the entry code for the closure, or it can
+ be separate. The former (faster) is used in registerised versions of ghc,
+ and the latter (portable) is for non-registerised versions.
+
+ The diagrams below show where the string is to be found relative to
+ the normal info table of the closure.
+
+ 1) Code next to table:
+
+ --------------
+ | | <- pointer to the start of the string
+ --------------
+ | | <- the (start of the) info table structure
+ | |
+ | |
+ --------------
+ | entry code |
+ | .... |
+
+ In this case the pointer to the start of the string can be found in
+ the memory location _one word before_ the first entry in the normal info
+ table.
+
+ 2) Code NOT next to table:
+
+ --------------
+ info table structure -> | *------------------> --------------
+ | | | entry code |
+ | | | .... |
+ --------------
+ ptr to start of str -> | |
+ --------------
+
+ In this case the pointer to the start of the string can be found
+ in the memory location: info_table_ptr + info_table_size
+ -}
+
+ getConDescAddress :: Ptr StgInfoTable -> IO (Ptr CChar)
+ getConDescAddress ptr = do
+#ifdef GHCI_TABLES_NEXT_TO_CODE
+ offsetToString <- peek $ ptr `plusPtr` (- wORD_SIZE)
+ return $ (ptr `plusPtr` stdInfoTableSizeB) `plusPtr` (fromIntegral (offsetToString :: StgWord))
+#else
+ peek $ intPtrToPtr $ (ptrToIntPtr ptr) + stdInfoTableSizeB
+#endif
+
+ -- parsing names is a little bit fiddly because we have a string in the form:
+ -- pkg:A.B.C.foo, and we want to split it into three parts: ("pkg", "A.B.C", "foo").
+ -- Thus we split at the leftmost colon and the rightmost occurrence of the dot.
+ -- It would be easier if the string was in the form pkg:A.B.C:foo, but alas
+ -- this is not the conventional way of writing Haskell names. We stick with
+ -- convention, even though it makes the parsing code more troublesome.
+ -- Warning: this code assumes that the string is well formed.
+ parse :: String -> (String, String, String)
+ parse input
+ = ASSERT (all (>0) (map length [pkg, mod, occ])) (pkg, mod, occ)
+ where
+ (pkg, rest1) = break (==':') input
+ (mod, occ)
+ = (concat $ intersperse "." $ reverse modWords, occWord)
+ where
+ (modWords, occWord) = ASSERT (length rest1 > 0) (parseModOcc [] (tail rest1))
+ parseModOcc :: [String] -> String -> ([String], String)
+ parseModOcc acc str
+ = case break (== '.') str of
+ (top, []) -> (acc, top)
+ (top, '.':bot) -> parseModOcc (top : acc) bot
+