module DebuggerUtils ( dataConInfoPtrToName, ) where import ByteCodeItbls import FastString import TcRnTypes import TcRnMonad import IfaceEnv import CgInfoTbls import SMRep import Module import OccName import Name import Outputable import Constants import MonadUtils () import Util import Data.Char import Foreign import Data.List #include "HsVersions.h" -- | Given a data constructor in the heap, find its Name. -- The info tables for data constructors have a field which records -- the source name of the constructor as a Ptr Word8 (UTF-8 encoded -- string). The format is: -- -- > Package:Module.Name -- -- We use this string to lookup the interpreter's internal representation of the name -- using the lookupOrig. -- dataConInfoPtrToName :: Ptr () -> TcM (Either String Name) dataConInfoPtrToName x = do theString <- liftIO $ do let ptr = castPtr x :: Ptr StgInfoTable conDescAddress <- getConDescAddress ptr peekArray0 0 conDescAddress let (pkg, mod, occ) = parse theString pkgFS = mkFastStringByteList pkg modFS = mkFastStringByteList mod occFS = mkFastStringByteList occ occName = mkOccNameFS OccName.dataName occFS modName = mkModule (fsToPackageId pkgFS) (mkModuleNameFS modFS) return (Left$ showSDoc$ ppr modName <> dot <> ppr occName ) `recoverM` (Right `fmap` lookupOrig modName occName) 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 Word8) getConDescAddress ptr | ghciTablesNextToCode = do offsetToString <- peek $ ptr `plusPtr` (- wORD_SIZE) return $ (ptr `plusPtr` stdInfoTableSizeB) `plusPtr` (fromIntegral (offsetToString :: StgWord)) | otherwise = peek $ intPtrToPtr $ (ptrToIntPtr ptr) + fromIntegral stdInfoTableSizeB -- 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 :: [Word8] -> ([Word8], [Word8], [Word8]) parse input = ASSERT (all (>0) (map length [pkg, mod, occ])) (pkg, mod, occ) where dot = fromIntegral (ord '.') (pkg, rest1) = break (== fromIntegral (ord ':')) input (mod, occ) = (concat $ intersperse [dot] $ reverse modWords, occWord) where (modWords, occWord) = ASSERT (length rest1 > 0) (parseModOcc [] (tail rest1)) parseModOcc :: [[Word8]] -> [Word8] -> ([[Word8]], [Word8]) -- We only look for dots if str could start with a module name, -- i.e. if it starts with an upper case character. -- Otherwise we might think that "X.:->" is the module name in -- "X.:->.+", whereas actually "X" is the module name and -- ":->.+" is a constructor name. parseModOcc acc str@(c : _) | isUpper $ chr $ fromIntegral c = case break (== dot) str of (top, []) -> (acc, top) (top, _ : bot) -> parseModOcc (top : acc) bot parseModOcc acc str = (acc, str)