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+%
+% (c) The University of Glasgow 2000
+%
+\section[ByteCodeItbls]{Generate infotables for interpreter-made bytecodes}
+
+\begin{code}
+
+{-# OPTIONS -optc-DNON_POSIX_SOURCE #-}
+
+module ByteCodeItbls ( ItblEnv, ItblPtr, mkITbls ) where
+
+#include "HsVersions.h"
+
+import Name		( Name, getName )
+import NameEnv
+import SMRep		( typeCgRep )
+import DataCon		( DataCon, dataConRepArgTys )
+import TyCon		( TyCon, tyConFamilySize, isDataTyCon, tyConDataCons )
+import Constants	( mIN_PAYLOAD_SIZE, wORD_SIZE )
+import CgHeapery	( mkVirtHeapOffsets )
+import FastString	( FastString(..) )
+import Util             ( lengthIs, listLengthCmp )
+
+import Foreign
+import Foreign.C
+import DATA_BITS	( Bits(..), shiftR )
+
+import GHC.Exts		( Int(I#), addr2Int# )
+#if __GLASGOW_HASKELL__ < 503
+import Ptr		( Ptr(..) )
+#else
+import GHC.Ptr		( Ptr(..) )
+#endif
+\end{code}
+
+%************************************************************************
+%*									*
+\subsection{Manufacturing of info tables for DataCons}
+%*									*
+%************************************************************************
+
+\begin{code}
+type ItblPtr = Ptr StgInfoTable
+type ItblEnv = NameEnv (Name, ItblPtr)
+	-- We need the Name in the range so we know which
+	-- elements to filter out when unloading a module
+
+mkItblEnv :: [(Name,ItblPtr)] -> ItblEnv
+mkItblEnv pairs = mkNameEnv [(n, (n,p)) | (n,p) <- pairs]
+
+
+-- Make info tables for the data decls in this module
+mkITbls :: [TyCon] -> IO ItblEnv
+mkITbls [] = return emptyNameEnv
+mkITbls (tc:tcs) = do itbls  <- mkITbl tc
+                      itbls2 <- mkITbls tcs
+                      return (itbls `plusNameEnv` itbls2)
+
+mkITbl :: TyCon -> IO ItblEnv
+mkITbl tc
+   | not (isDataTyCon tc) 
+   = return emptyNameEnv
+   | dcs `lengthIs` n -- paranoia; this is an assertion.
+   = make_constr_itbls dcs
+     where
+        dcs = tyConDataCons tc
+        n   = tyConFamilySize tc
+
+#include "../includes/ClosureTypes.h"
+cONSTR :: Int	-- Defined in ClosureTypes.h
+cONSTR = CONSTR 
+
+-- Assumes constructors are numbered from zero, not one
+make_constr_itbls :: [DataCon] -> IO ItblEnv
+make_constr_itbls cons
+   | listLengthCmp cons 8 /= GT -- <= 8 elements in the list
+   = do is <- mapM mk_vecret_itbl (zip cons [0..])
+	return (mkItblEnv is)
+   | otherwise
+   = do is <- mapM mk_dirret_itbl (zip cons [0..])
+	return (mkItblEnv is)
+     where
+        mk_vecret_itbl (dcon, conNo)
+           = mk_itbl dcon conNo (vecret_entry conNo)
+        mk_dirret_itbl (dcon, conNo)
+           = mk_itbl dcon conNo stg_interp_constr_entry
+
+        mk_itbl :: DataCon -> Int -> Ptr () -> IO (Name,ItblPtr)
+        mk_itbl dcon conNo entry_addr
+           = let rep_args = [ (typeCgRep arg,arg) 
+			    | arg <- dataConRepArgTys dcon ]
+		 (tot_wds, ptr_wds, _) = mkVirtHeapOffsets False{-not a THUNK-} rep_args
+
+                 ptrs  = ptr_wds
+                 nptrs = tot_wds - ptr_wds
+                 nptrs_really
+                    | ptrs + nptrs >= mIN_PAYLOAD_SIZE = nptrs
+                    | otherwise = mIN_PAYLOAD_SIZE - ptrs
+                 itbl  = StgInfoTable {
+                           ptrs  = fromIntegral ptrs, 
+                           nptrs = fromIntegral nptrs_really,
+                           tipe  = fromIntegral cONSTR,
+                           srtlen = fromIntegral conNo,
+                           code  = code
+                        }
+                 -- Make a piece of code to jump to "entry_label".
+                 -- This is the only arch-dependent bit.
+                 code = mkJumpToAddr entry_addr
+             in
+                 do addr <- malloc_exec (sizeOf itbl)
+                    --putStrLn ("SIZE of itbl is " ++ show (sizeOf itbl))
+                    --putStrLn ("# ptrs  of itbl is " ++ show ptrs)
+                    --putStrLn ("# nptrs of itbl is " ++ show nptrs_really)
+                    poke addr itbl
+                    return (getName dcon, addr `plusPtr` (2 * wORD_SIZE))
+
+
+-- Make code which causes a jump to the given address.  This is the
+-- only arch-dependent bit of the itbl story.  The returned list is
+-- itblCodeLength elements (bytes) long.
+
+-- For sparc_TARGET_ARCH, i386_TARGET_ARCH, etc.
+#include "nativeGen/NCG.h"
+
+itblCodeLength :: Int
+itblCodeLength = length (mkJumpToAddr undefined)
+
+mkJumpToAddr :: Ptr () -> [ItblCode]
+
+ptrToInt (Ptr a#) = I# (addr2Int# a#)
+
+#if sparc_TARGET_ARCH
+-- After some consideration, we'll try this, where
+-- 0x55555555 stands in for the address to jump to.
+-- According to ghc/includes/MachRegs.h, %g3 is very
+-- likely indeed to be baggable.
+--
+--   0000 07155555              sethi   %hi(0x55555555), %g3
+--   0004 8610E155              or      %g3, %lo(0x55555555), %g3
+--   0008 81C0C000              jmp     %g3
+--   000c 01000000              nop
+
+type ItblCode = Word32
+mkJumpToAddr a
+   = let w32 = fromIntegral (ptrToInt a)
+
+         hi22, lo10 :: Word32 -> Word32
+         lo10 x = x .&. 0x3FF
+         hi22 x = (x `shiftR` 10) .&. 0x3FFFF
+
+     in  [ 0x07000000 .|. (hi22 w32),
+           0x8610E000 .|. (lo10 w32),
+           0x81C0C000,
+           0x01000000 ]
+
+#elif powerpc_TARGET_ARCH
+-- We'll use r12, for no particular reason.
+-- 0xDEADBEEF stands for the adress:
+-- 3D80DEAD lis r12,0xDEAD
+-- 618CBEEF ori r12,r12,0xBEEF
+-- 7D8903A6 mtctr r12
+-- 4E800420 bctr
+
+type ItblCode = Word32
+mkJumpToAddr a =
+    let w32 = fromIntegral (ptrToInt a)
+	hi16 x = (x `shiftR` 16) .&. 0xFFFF
+	lo16 x = x .&. 0xFFFF
+    in	[
+	0x3D800000 .|. hi16 w32,
+	0x618C0000 .|. lo16 w32,
+	0x7D8903A6, 0x4E800420
+	]
+
+#elif i386_TARGET_ARCH
+-- Let the address to jump to be 0xWWXXYYZZ.
+-- Generate   movl $0xWWXXYYZZ,%eax  ;  jmp *%eax
+-- which is
+-- B8 ZZ YY XX WW FF E0
+
+type ItblCode = Word8
+mkJumpToAddr a
+   = let w32 = fromIntegral (ptrToInt a) :: Word32
+         insnBytes :: [Word8]
+         insnBytes
+            = [0xB8, byte0 w32, byte1 w32, 
+                     byte2 w32, byte3 w32, 
+               0xFF, 0xE0]
+     in
+         insnBytes
+
+#elif x86_64_TARGET_ARCH
+-- Generates:
+-- 	jmpq *.L1(%rip)
+-- 	.align 8
+-- .L1:	
+-- 	.quad <addr>
+--
+-- We need a full 64-bit pointer (we can't assume the info table is
+-- allocated in low memory).  Assuming the info pointer is aligned to
+-- an 8-byte boundary, the addr will also be aligned.
+
+type ItblCode = Word8
+mkJumpToAddr a
+   = let w64 = fromIntegral (ptrToInt a) :: Word64
+         insnBytes :: [Word8]
+         insnBytes
+            = [0xff, 0x25, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00,
+	       byte0 w64, byte1 w64, byte2 w64, byte3 w64,
+	       byte4 w64, byte5 w64, byte6 w64, byte7 w64]
+     in
+         insnBytes
+
+#elif alpha_TARGET_ARCH
+type ItblCode = Word32
+mkJumpToAddr a
+    = [ 0xc3800000      -- br   at, .+4
+      , 0xa79c000c      -- ldq  at, 12(at)
+      , 0x6bfc0000      -- jmp  (at)    # with zero hint -- oh well
+      , 0x47ff041f      -- nop
+      , fromIntegral (w64 .&. 0x0000FFFF)
+      , fromIntegral ((w64 `shiftR` 32) .&. 0x0000FFFF) ]
+    where w64 = fromIntegral (ptrToInt a) :: Word64
+
+#else
+type ItblCode = Word32
+mkJumpToAddr a
+    = undefined
+#endif
+
+
+byte0, byte1, byte2, byte3, byte4, byte5, byte6, byte7
+   :: (Integral w, Bits w) => w -> Word8
+byte0 w = fromIntegral w
+byte1 w = fromIntegral (w `shiftR` 8)
+byte2 w = fromIntegral (w `shiftR` 16)
+byte3 w = fromIntegral (w `shiftR` 24)
+byte4 w = fromIntegral (w `shiftR` 32)
+byte5 w = fromIntegral (w `shiftR` 40)
+byte6 w = fromIntegral (w `shiftR` 48)
+byte7 w = fromIntegral (w `shiftR` 56)
+
+
+vecret_entry 0 = stg_interp_constr1_entry
+vecret_entry 1 = stg_interp_constr2_entry
+vecret_entry 2 = stg_interp_constr3_entry
+vecret_entry 3 = stg_interp_constr4_entry
+vecret_entry 4 = stg_interp_constr5_entry
+vecret_entry 5 = stg_interp_constr6_entry
+vecret_entry 6 = stg_interp_constr7_entry
+vecret_entry 7 = stg_interp_constr8_entry
+
+#ifndef __HADDOCK__
+-- entry point for direct returns for created constr itbls
+foreign import ccall "&stg_interp_constr_entry" stg_interp_constr_entry :: Ptr ()
+-- and the 8 vectored ones
+foreign import ccall "&stg_interp_constr1_entry" stg_interp_constr1_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr2_entry" stg_interp_constr2_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr3_entry" stg_interp_constr3_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr4_entry" stg_interp_constr4_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr5_entry" stg_interp_constr5_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr6_entry" stg_interp_constr6_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr7_entry" stg_interp_constr7_entry :: Ptr ()
+foreign import ccall "&stg_interp_constr8_entry" stg_interp_constr8_entry :: Ptr ()
+#endif
+
+
+
+
+-- Ultra-minimalist version specially for constructors
+#if SIZEOF_VOID_P == 8
+type HalfWord = Word32
+#else
+type HalfWord = Word16
+#endif
+
+data StgInfoTable = StgInfoTable {
+   ptrs   :: HalfWord,
+   nptrs  :: HalfWord,
+   tipe   :: HalfWord,
+   srtlen :: HalfWord,
+   code   :: [ItblCode]
+}
+
+instance Storable StgInfoTable where
+
+   sizeOf itbl 
+      = sum
+        [fieldSz ptrs itbl,
+         fieldSz nptrs itbl,
+         fieldSz tipe itbl,
+         fieldSz srtlen itbl,
+         fieldSz (head.code) itbl * itblCodeLength]
+
+   alignment itbl 
+      = SIZEOF_VOID_P
+
+   poke a0 itbl
+      = runState (castPtr a0)
+      $ do store (ptrs   itbl)
+           store (nptrs  itbl)
+           store (tipe   itbl)
+           store (srtlen itbl)
+           sequence_ (map store (code itbl))
+
+   peek a0
+      = runState (castPtr a0)
+      $ do ptrs   <- load
+           nptrs  <- load
+           tipe   <- load
+           srtlen <- load
+           code   <- sequence (replicate itblCodeLength load)
+           return 
+              StgInfoTable { 
+                 ptrs   = ptrs,
+                 nptrs  = nptrs, 
+                 tipe   = tipe,
+                 srtlen = srtlen,
+                 code   = code
+              }
+
+fieldSz :: (Storable a, Storable b) => (a -> b) -> a -> Int
+fieldSz sel x = sizeOf (sel x)
+
+newtype State s m a = State (s -> m (s, a))
+
+instance Monad m => Monad (State s m) where
+  return a      = State (\s -> return (s, a))
+  State m >>= k = State (\s -> m s >>= \(s', a) -> case k a of State n -> n s')
+  fail str      = State (\s -> fail str)
+
+class (Monad m, Monad (t m)) => MonadT t m where
+  lift :: m a -> t m a
+
+instance Monad m => MonadT (State s) m where
+  lift m        = State (\s -> m >>= \a -> return (s, a))
+
+runState :: (Monad m) => s -> State s m a -> m a
+runState s (State m) = m s >>= return . snd
+
+type PtrIO = State (Ptr Word8) IO
+
+advance :: Storable a => PtrIO (Ptr a)
+advance = State adv where
+    adv addr = case castPtr addr of { addrCast -> return
+        (addr `plusPtr` sizeOfPointee addrCast, addrCast) }
+
+sizeOfPointee :: (Storable a) => Ptr a -> Int
+sizeOfPointee addr = sizeOf (typeHack addr)
+    where typeHack = undefined :: Ptr a -> a
+
+store :: Storable a => a -> PtrIO ()
+store x = do addr <- advance
+             lift (poke addr x)
+
+load :: Storable a => PtrIO a
+load = do addr <- advance
+          lift (peek addr)
+
+foreign import ccall unsafe "stgMallocBytesRWX"
+  _stgMallocBytesRWX :: CInt -> IO (Ptr a)
+
+malloc_exec :: Int -> IO (Ptr a)
+malloc_exec bytes = _stgMallocBytesRWX (fromIntegral bytes)
+
+\end{code}