\begin{code}
{-# OPTIONS -optc-DNON_POSIX_SOURCE #-}
-module ByteCodeAsm (
- assembleBCOs, assembleBCO,
+module ByteCodeAsm (
+ assembleBCOs, assembleBCO,
- CompiledByteCode(..),
- UnlinkedBCO(..), BCOPtr(..), BCONPtr(..), bcoFreeNames,
- SizedSeq, sizeSS, ssElts,
- iNTERP_STACK_CHECK_THRESH
+ CompiledByteCode(..),
+ UnlinkedBCO(..), BCOPtr(..), BCONPtr(..), bcoFreeNames,
+ SizedSeq, sizeSS, ssElts,
+ iNTERP_STACK_CHECK_THRESH
) where
#include "HsVersions.h"
import Name
import NameSet
-import FiniteMap
import Literal
import TyCon
import PrimOp
import Constants
import FastString
import SMRep
-import FiniteMap
import Outputable
-import Control.Monad ( foldM )
-import Control.Monad.ST ( runST )
+import Control.Monad ( foldM )
+import Control.Monad.ST ( runST )
-import GHC.Word ( Word(..) )
import Data.Array.MArray
import Data.Array.Unboxed ( listArray )
-import Data.Array.Base ( UArray(..) )
-import Data.Array.ST ( castSTUArray )
-import Foreign ( Word16, free )
-import Data.Bits
-import Data.Int ( Int64 )
-import Data.Char ( ord )
+import Data.Array.Base ( UArray(..) )
+import Data.Array.ST ( castSTUArray )
+import Foreign
+import Data.Char ( ord )
+import Data.List
+import Data.Map (Map)
+import qualified Data.Map as Map
-import GHC.Base ( ByteArray#, MutableByteArray#, RealWorld )
-import GHC.IOBase ( IO(..) )
-import GHC.Ptr ( Ptr(..) )
+import GHC.Base ( ByteArray#, MutableByteArray#, RealWorld )
-- -----------------------------------------------------------------------------
-- Unlinked BCOs
--- CompiledByteCode represents the result of byte-code
+-- CompiledByteCode represents the result of byte-code
-- compiling a bunch of functions and data types
-data CompiledByteCode
+data CompiledByteCode
= ByteCode [UnlinkedBCO] -- Bunch of interpretable bindings
- ItblEnv -- A mapping from DataCons to their itbls
+ ItblEnv -- A mapping from DataCons to their itbls
instance Outputable CompiledByteCode where
ppr (ByteCode bcos _) = ppr bcos
data UnlinkedBCO
= UnlinkedBCO {
- unlinkedBCOName :: Name,
- unlinkedBCOArity :: Int,
- unlinkedBCOInstrs :: ByteArray#, -- insns
- unlinkedBCOBitmap :: ByteArray#, -- bitmap
+ unlinkedBCOName :: Name,
+ unlinkedBCOArity :: Int,
+ unlinkedBCOInstrs :: ByteArray#, -- insns
+ unlinkedBCOBitmap :: ByteArray#, -- bitmap
unlinkedBCOLits :: (SizedSeq BCONPtr), -- non-ptrs
- unlinkedBCOPtrs :: (SizedSeq BCOPtr) -- ptrs
+ unlinkedBCOPtrs :: (SizedSeq BCOPtr) -- ptrs
}
data BCOPtr
= bco_refs bco `minusNameSet` mkNameSet [unlinkedBCOName bco]
where
bco_refs (UnlinkedBCO _ _ _ _ nonptrs ptrs)
- = unionManyNameSets (
- mkNameSet [ n | BCOPtrName n <- ssElts ptrs ] :
- mkNameSet [ n | BCONPtrItbl n <- ssElts nonptrs ] :
- map bco_refs [ bco | BCOPtrBCO bco <- ssElts ptrs ]
- )
+ = unionManyNameSets (
+ mkNameSet [ n | BCOPtrName n <- ssElts ptrs ] :
+ mkNameSet [ n | BCONPtrItbl n <- ssElts nonptrs ] :
+ map bco_refs [ bco | BCOPtrBCO bco <- ssElts ptrs ]
+ )
instance Outputable UnlinkedBCO where
- ppr (UnlinkedBCO nm arity insns bitmap lits ptrs)
- = sep [text "BCO", ppr nm, text "with",
- int (sizeSS lits), text "lits",
- int (sizeSS ptrs), text "ptrs" ]
+ ppr (UnlinkedBCO nm _arity _insns _bitmap lits ptrs)
+ = sep [text "BCO", ppr nm, text "with",
+ ppr (sizeSS lits), text "lits",
+ ppr (sizeSS ptrs), text "ptrs" ]
-- -----------------------------------------------------------------------------
-- The bytecode assembler
-- Top level assembler fn.
assembleBCOs :: [ProtoBCO Name] -> [TyCon] -> IO CompiledByteCode
assembleBCOs proto_bcos tycons
- = do itblenv <- mkITbls tycons
- bcos <- mapM assembleBCO proto_bcos
+ = do itblenv <- mkITbls tycons
+ bcos <- mapM assembleBCO proto_bcos
return (ByteCode bcos itblenv)
assembleBCO :: ProtoBCO Name -> IO UnlinkedBCO
-assembleBCO (ProtoBCO nm instrs bitmap bsize arity origin malloced)
+assembleBCO (ProtoBCO nm instrs bitmap bsize arity _origin _malloced)
= let
-- pass 1: collect up the offsets of the local labels.
- -- Remember that the first insn starts at offset 1 since offset 0
- -- (eventually) will hold the total # of insns.
- label_env = mkLabelEnv emptyFM 1 instrs
-
- mkLabelEnv env i_offset [] = env
+ -- Remember that the first insn starts at offset
+ -- sizeOf Word / sizeOf Word16
+ -- since offset 0 (eventually) will hold the total # of insns.
+ lableInitialOffset
+ | wORD_SIZE_IN_BITS == 64 = 4
+ | wORD_SIZE_IN_BITS == 32 = 2
+ | otherwise = error "wORD_SIZE_IN_BITS not 32 or 64?"
+ label_env = mkLabelEnv Map.empty lableInitialOffset instrs
+
+ mkLabelEnv :: Map Word16 Word -> Word -> [BCInstr]
+ -> Map Word16 Word
+ mkLabelEnv env _ [] = env
mkLabelEnv env i_offset (i:is)
- = let new_env
- = case i of LABEL n -> addToFM env n i_offset ; _ -> env
+ = let new_env
+ = case i of LABEL n -> Map.insert n i_offset env ; _ -> env
in mkLabelEnv new_env (i_offset + instrSize16s i) is
+ findLabel :: Word16 -> Word
findLabel lab
- = case lookupFM label_env lab of
+ = case Map.lookup lab label_env of
Just bco_offset -> bco_offset
- Nothing -> pprPanic "assembleBCO.findLabel" (int lab)
+ Nothing -> pprPanic "assembleBCO.findLabel" (ppr lab)
in
do -- pass 2: generate the instruction, ptr and nonptr bits
insns <- return emptySS :: IO (SizedSeq Word16)
lits <- return emptySS :: IO (SizedSeq BCONPtr)
ptrs <- return emptySS :: IO (SizedSeq BCOPtr)
let init_asm_state = (insns,lits,ptrs)
- (final_insns, final_lits, final_ptrs)
+ (final_insns, final_lits, final_ptrs)
<- mkBits findLabel init_asm_state instrs
- let asm_insns = ssElts final_insns
- n_insns = sizeSS final_insns
+ let asm_insns = ssElts final_insns
+ n_insns = sizeSS final_insns
- insns_arr
- | n_insns > 65535 = panic "linkBCO: >= 64k insns in BCO"
- | otherwise = mkInstrArray n_insns asm_insns
- insns_barr = case insns_arr of UArray _lo _hi barr -> barr
+ insns_arr = mkInstrArray lableInitialOffset n_insns asm_insns
+ !insns_barr = case insns_arr of UArray _lo _hi _n barr -> barr
- bitmap_arr = mkBitmapArray bsize bitmap
- bitmap_barr = case bitmap_arr of UArray _lo _hi barr -> barr
+ bitmap_arr = mkBitmapArray bsize bitmap
+ !bitmap_barr = case bitmap_arr of UArray _lo _hi _n barr -> barr
- let ul_bco = UnlinkedBCO nm arity insns_barr bitmap_barr final_lits final_ptrs
+ let ul_bco = UnlinkedBCO nm arity insns_barr bitmap_barr final_lits final_ptrs
-- 8 Aug 01: Finalisers aren't safe when attached to non-primitive
-- objects, since they might get run too early. Disable this until
-- when (notNull malloced) (addFinalizer ul_bco (mapM_ zonk malloced))
return ul_bco
- where
- zonk ptr = do -- putStrLn ("freeing malloc'd block at " ++ show (A# a#))
- free ptr
+ -- where
+ -- zonk ptr = do -- putStrLn ("freeing malloc'd block at " ++ show (A# a#))
+ -- free ptr
-mkBitmapArray :: Int -> [StgWord] -> UArray Int StgWord
+mkBitmapArray :: Word16 -> [StgWord] -> UArray Int StgWord
mkBitmapArray bsize bitmap
= listArray (0, length bitmap) (fromIntegral bsize : bitmap)
-mkInstrArray :: Int -> [Word16] -> UArray Int Word16
-mkInstrArray n_insns asm_insns
- = listArray (0, n_insns) (fromIntegral n_insns : asm_insns)
+mkInstrArray :: Word -> Word -> [Word16] -> UArray Word Word16
+mkInstrArray lableInitialOffset n_insns asm_insns
+ = let size = lableInitialOffset + n_insns
+ in listArray (0, size - 1) (largeArg size ++ asm_insns)
-- instrs nonptrs ptrs
-type AsmState = (SizedSeq Word16,
+type AsmState = (SizedSeq Word16,
SizedSeq BCONPtr,
SizedSeq BCOPtr)
-data SizedSeq a = SizedSeq !Int [a]
+data SizedSeq a = SizedSeq !Word [a]
+emptySS :: SizedSeq a
emptySS = SizedSeq 0 []
-- Why are these two monadic???
+addToSS :: SizedSeq a -> a -> IO (SizedSeq a)
addToSS (SizedSeq n r_xs) x = return (SizedSeq (n+1) (x:r_xs))
-addListToSS (SizedSeq n r_xs) xs
- = return (SizedSeq (n + length xs) (reverse xs ++ r_xs))
+addListToSS :: SizedSeq a -> [a] -> IO (SizedSeq a)
+addListToSS (SizedSeq n r_xs) xs
+ = return (SizedSeq (n + genericLength xs) (reverse xs ++ r_xs))
ssElts :: SizedSeq a -> [a]
-ssElts (SizedSeq n r_xs) = reverse r_xs
+ssElts (SizedSeq _ r_xs) = reverse r_xs
+
+sizeSS :: SizedSeq a -> Word
+sizeSS (SizedSeq n _) = n
-sizeSS :: SizedSeq a -> Int
-sizeSS (SizedSeq n r_xs) = n
+sizeSS16 :: SizedSeq a -> Word16
+sizeSS16 (SizedSeq n _) = fromIntegral n
-- Bring in all the bci_ bytecode constants.
-#include "Bytecodes.h"
+#include "rts/Bytecodes.h"
-largeArgInstr :: Int -> Int
+largeArgInstr :: Word16 -> Word16
largeArgInstr bci = bci_FLAG_LARGE_ARGS .|. bci
-largeArg :: Int -> [Int]
-largeArg i
+largeArg :: Word -> [Word16]
+largeArg w
| wORD_SIZE_IN_BITS == 64
- = [(i .&. 0xFFFF000000000000) `shiftR` 48,
- (i .&. 0x0000FFFF00000000) `shiftR` 32,
- (i .&. 0x00000000FFFF0000) `shiftR` 16,
- (i .&. 0x000000000000FFFF)]
+ = [fromIntegral (w `shiftR` 48),
+ fromIntegral (w `shiftR` 32),
+ fromIntegral (w `shiftR` 16),
+ fromIntegral w]
| wORD_SIZE_IN_BITS == 32
- = [(i .&. 0xFFFF0000) `shiftR` 16,
- (i .&. 0x0000FFFF)]
+ = [fromIntegral (w `shiftR` 16),
+ fromIntegral w]
| otherwise = error "wORD_SIZE_IN_BITS not 32 or 64?"
-- This is where all the action is (pass 2 of the assembler)
-mkBits :: (Int -> Int) -- label finder
+mkBits :: (Word16 -> Word) -- label finder
-> AsmState
- -> [BCInstr] -- instructions (in)
+ -> [BCInstr] -- instructions (in)
-> IO AsmState
mkBits findLabel st proto_insns
doInstr :: AsmState -> BCInstr -> IO AsmState
doInstr st i
= case i of
- STKCHECK n
- | n > 65535 ->
- instrn st (largeArgInstr bci_STKCHECK : largeArg n)
- | otherwise -> instr2 st bci_STKCHECK n
+ STKCHECK n -> instr1Large st bci_STKCHECK n
PUSH_L o1 -> instr2 st bci_PUSH_L o1
PUSH_LL o1 o2 -> instr3 st bci_PUSH_LL o1 o2
PUSH_LLL o1 o2 o3 -> instr4 st bci_PUSH_LLL o1 o2 o3
PUSH_PRIMOP op -> do (p, st2) <- ptr st (BCOPtrPrimOp op)
instr2 st2 bci_PUSH_G p
PUSH_BCO proto -> do ul_bco <- assembleBCO proto
- (p, st2) <- ptr st (BCOPtrBCO ul_bco)
+ (p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 bci_PUSH_G p
PUSH_ALTS proto -> do ul_bco <- assembleBCO proto
- (p, st2) <- ptr st (BCOPtrBCO ul_bco)
+ (p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 bci_PUSH_ALTS p
- PUSH_ALTS_UNLIFTED proto pk -> do
- ul_bco <- assembleBCO proto
- (p, st2) <- ptr st (BCOPtrBCO ul_bco)
+ PUSH_ALTS_UNLIFTED proto pk -> do
+ ul_bco <- assembleBCO proto
+ (p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 (push_alts pk) p
- PUSH_UBX (Left lit) nws
+ PUSH_UBX (Left lit) nws
-> do (np, st2) <- literal st lit
instr3 st2 bci_PUSH_UBX np nws
- PUSH_UBX (Right aa) nws
+ PUSH_UBX (Right aa) nws
-> do (np, st2) <- addr st aa
instr3 st2 bci_PUSH_UBX np nws
- PUSH_APPLY_N -> do instr1 st bci_PUSH_APPLY_N
- PUSH_APPLY_V -> do instr1 st bci_PUSH_APPLY_V
- PUSH_APPLY_F -> do instr1 st bci_PUSH_APPLY_F
- PUSH_APPLY_D -> do instr1 st bci_PUSH_APPLY_D
- PUSH_APPLY_L -> do instr1 st bci_PUSH_APPLY_L
- PUSH_APPLY_P -> do instr1 st bci_PUSH_APPLY_P
- PUSH_APPLY_PP -> do instr1 st bci_PUSH_APPLY_PP
- PUSH_APPLY_PPP -> do instr1 st bci_PUSH_APPLY_PPP
- PUSH_APPLY_PPPP -> do instr1 st bci_PUSH_APPLY_PPPP
- PUSH_APPLY_PPPPP -> do instr1 st bci_PUSH_APPLY_PPPPP
- PUSH_APPLY_PPPPPP -> do instr1 st bci_PUSH_APPLY_PPPPPP
+ PUSH_APPLY_N -> do instr1 st bci_PUSH_APPLY_N
+ PUSH_APPLY_V -> do instr1 st bci_PUSH_APPLY_V
+ PUSH_APPLY_F -> do instr1 st bci_PUSH_APPLY_F
+ PUSH_APPLY_D -> do instr1 st bci_PUSH_APPLY_D
+ PUSH_APPLY_L -> do instr1 st bci_PUSH_APPLY_L
+ PUSH_APPLY_P -> do instr1 st bci_PUSH_APPLY_P
+ PUSH_APPLY_PP -> do instr1 st bci_PUSH_APPLY_PP
+ PUSH_APPLY_PPP -> do instr1 st bci_PUSH_APPLY_PPP
+ PUSH_APPLY_PPPP -> do instr1 st bci_PUSH_APPLY_PPPP
+ PUSH_APPLY_PPPPP -> do instr1 st bci_PUSH_APPLY_PPPPP
+ PUSH_APPLY_PPPPPP -> do instr1 st bci_PUSH_APPLY_PPPPPP
SLIDE n by -> instr3 st bci_SLIDE n by
ALLOC_AP n -> instr2 st bci_ALLOC_AP n
+ ALLOC_AP_NOUPD n -> instr2 st bci_ALLOC_AP_NOUPD n
ALLOC_PAP arity n -> instr3 st bci_ALLOC_PAP arity n
MKAP off sz -> instr3 st bci_MKAP off sz
MKPAP off sz -> instr3 st bci_MKPAP off sz
UNPACK n -> instr2 st bci_UNPACK n
PACK dcon sz -> do (itbl_no,st2) <- itbl st dcon
instr3 st2 bci_PACK itbl_no sz
- LABEL lab -> return st
+ LABEL _ -> return st
TESTLT_I i l -> do (np, st2) <- int st i
- instr3 st2 bci_TESTLT_I np (findLabel l)
+ instr2Large st2 bci_TESTLT_I np (findLabel l)
TESTEQ_I i l -> do (np, st2) <- int st i
- instr3 st2 bci_TESTEQ_I np (findLabel l)
+ instr2Large st2 bci_TESTEQ_I np (findLabel l)
+ TESTLT_W w l -> do (np, st2) <- word st w
+ instr2Large st2 bci_TESTLT_W np (findLabel l)
+ TESTEQ_W w l -> do (np, st2) <- word st w
+ instr2Large st2 bci_TESTEQ_W np (findLabel l)
TESTLT_F f l -> do (np, st2) <- float st f
- instr3 st2 bci_TESTLT_F np (findLabel l)
+ instr2Large st2 bci_TESTLT_F np (findLabel l)
TESTEQ_F f l -> do (np, st2) <- float st f
- instr3 st2 bci_TESTEQ_F np (findLabel l)
+ instr2Large st2 bci_TESTEQ_F np (findLabel l)
TESTLT_D d l -> do (np, st2) <- double st d
- instr3 st2 bci_TESTLT_D np (findLabel l)
+ instr2Large st2 bci_TESTLT_D np (findLabel l)
TESTEQ_D d l -> do (np, st2) <- double st d
- instr3 st2 bci_TESTEQ_D np (findLabel l)
- TESTLT_P i l -> instr3 st bci_TESTLT_P i (findLabel l)
- TESTEQ_P i l -> instr3 st bci_TESTEQ_P i (findLabel l)
+ instr2Large st2 bci_TESTEQ_D np (findLabel l)
+ TESTLT_P i l -> instr2Large st bci_TESTLT_P i (findLabel l)
+ TESTEQ_P i l -> instr2Large st bci_TESTEQ_P i (findLabel l)
CASEFAIL -> instr1 st bci_CASEFAIL
SWIZZLE stkoff n -> instr3 st bci_SWIZZLE stkoff n
- JMP l -> instr2 st bci_JMP (findLabel l)
+ JMP l -> instr1Large st bci_JMP (findLabel l)
ENTER -> instr1 st bci_ENTER
RETURN -> instr1 st bci_RETURN
RETURN_UBX rep -> instr1 st (return_ubx rep)
CCALL off m_addr -> do (np, st2) <- addr st m_addr
instr3 st2 bci_CCALL off np
- BRK_FUN array index info -> do
- (p1, st2) <- ptr st (BCOPtrArray array)
+ BRK_FUN array index info -> do
+ (p1, st2) <- ptr st (BCOPtrArray array)
(p2, st3) <- ptr st2 (BCOPtrBreakInfo info)
instr4 st3 bci_BRK_FUN p1 index p2
- PUSH_LLL o1 o2 o3 -> instr4 st bci_PUSH_LLL o1 o2 o3
-
- i2s :: Int -> Word16
- i2s = fromIntegral
- instrn :: AsmState -> [Int] -> IO AsmState
+ instrn :: AsmState -> [Word16] -> IO AsmState
instrn st [] = return st
instrn (st_i, st_l, st_p) (i:is)
- = do st_i' <- addToSS st_i (i2s i)
+ = do st_i' <- addToSS st_i i
instrn (st_i', st_l, st_p) is
+ instr1Large st i1 large
+ | large > 65535 = instrn st (largeArgInstr i1 : largeArg large)
+ | otherwise = instr2 st i1 (fromIntegral large)
+
+ instr2Large st i1 i2 large
+ | large > 65535 = instrn st (largeArgInstr i1 : i2 : largeArg large)
+ | otherwise = instr3 st i1 i2 (fromIntegral large)
+
instr1 (st_i0,st_l0,st_p0) i1
= do st_i1 <- addToSS st_i0 i1
return (st_i1,st_l0,st_p0)
- instr2 (st_i0,st_l0,st_p0) i1 i2
- = do st_i1 <- addToSS st_i0 (i2s i1)
- st_i2 <- addToSS st_i1 (i2s i2)
+ instr2 (st_i0,st_l0,st_p0) w1 w2
+ = do st_i1 <- addToSS st_i0 w1
+ st_i2 <- addToSS st_i1 w2
return (st_i2,st_l0,st_p0)
- instr3 (st_i0,st_l0,st_p0) i1 i2 i3
- = do st_i1 <- addToSS st_i0 (i2s i1)
- st_i2 <- addToSS st_i1 (i2s i2)
- st_i3 <- addToSS st_i2 (i2s i3)
+ instr3 (st_i0,st_l0,st_p0) w1 w2 w3
+ = do st_i1 <- addToSS st_i0 w1
+ st_i2 <- addToSS st_i1 w2
+ st_i3 <- addToSS st_i2 w3
return (st_i3,st_l0,st_p0)
- instr4 (st_i0,st_l0,st_p0) i1 i2 i3 i4
- = do st_i1 <- addToSS st_i0 (i2s i1)
- st_i2 <- addToSS st_i1 (i2s i2)
- st_i3 <- addToSS st_i2 (i2s i3)
- st_i4 <- addToSS st_i3 (i2s i4)
+ instr4 (st_i0,st_l0,st_p0) w1 w2 w3 w4
+ = do st_i1 <- addToSS st_i0 w1
+ st_i2 <- addToSS st_i1 w2
+ st_i3 <- addToSS st_i2 w3
+ st_i4 <- addToSS st_i3 w4
return (st_i4,st_l0,st_p0)
float (st_i0,st_l0,st_p0) f
= do let ws = mkLitF f
st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
double (st_i0,st_l0,st_p0) d
= do let ws = mkLitD d
st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
int (st_i0,st_l0,st_p0) i
= do let ws = mkLitI i
st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
+
+ word (st_i0,st_l0,st_p0) w
+ = do let ws = [w]
+ st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
int64 (st_i0,st_l0,st_p0) i
= do let ws = mkLitI64 i
st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
addr (st_i0,st_l0,st_p0) a
= do let ws = mkLitPtr a
st_l1 <- addListToSS st_l0 (map BCONPtrWord ws)
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
litlabel (st_i0,st_l0,st_p0) fs
= do st_l1 <- addListToSS st_l0 [BCONPtrLbl fs]
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
ptr (st_i0,st_l0,st_p0) p
= do st_p1 <- addToSS st_p0 p
- return (sizeSS st_p0, (st_i0,st_l0,st_p1))
+ return (sizeSS16 st_p0, (st_i0,st_l0,st_p1))
itbl (st_i0,st_l0,st_p0) dcon
= do st_l1 <- addToSS st_l0 (BCONPtrItbl (getName dcon))
- return (sizeSS st_l0, (st_i0,st_l1,st_p0))
+ return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
#ifdef mingw32_TARGET_OS
- literal st (MachLabel fs (Just sz))
+ literal st (MachLabel fs (Just sz) _)
= litlabel st (appendFS fs (mkFastString ('@':show sz)))
- -- On Windows, stdcall labels have a suffix indicating the no. of
+ -- On Windows, stdcall labels have a suffix indicating the no. of
-- arg words, e.g. foo@8. testcase: ffi012(ghci)
#endif
- literal st (MachLabel fs _) = litlabel st fs
+ literal st (MachLabel fs _ _) = litlabel st fs
literal st (MachWord w) = int st (fromIntegral w)
literal st (MachInt j) = int st (fromIntegral j)
+ literal st MachNullAddr = int st 0
literal st (MachFloat r) = float st (fromRational r)
literal st (MachDouble r) = double st (fromRational r)
literal st (MachChar c) = int st (ord c)
literal st (MachInt64 ii) = int64 st (fromIntegral ii)
literal st (MachWord64 ii) = int64 st (fromIntegral ii)
- literal st other = pprPanic "ByteCodeLink.literal" (ppr other)
+ literal _ other = pprPanic "ByteCodeAsm.literal" (ppr other)
+push_alts :: CgRep -> Word16
push_alts NonPtrArg = bci_PUSH_ALTS_N
push_alts FloatArg = bci_PUSH_ALTS_F
push_alts DoubleArg = bci_PUSH_ALTS_D
push_alts LongArg = bci_PUSH_ALTS_L
push_alts PtrArg = bci_PUSH_ALTS_P
+return_ubx :: CgRep -> Word16
return_ubx NonPtrArg = bci_RETURN_N
return_ubx FloatArg = bci_RETURN_F
return_ubx DoubleArg = bci_RETURN_D
-- The size in 16-bit entities of an instruction.
-instrSize16s :: BCInstr -> Int
+instrSize16s :: BCInstr -> Word
instrSize16s instr
= case instr of
- STKCHECK{} -> 2
- PUSH_L{} -> 2
- PUSH_LL{} -> 3
- PUSH_LLL{} -> 4
- PUSH_G{} -> 2
- PUSH_PRIMOP{} -> 2
- PUSH_BCO{} -> 2
- PUSH_ALTS{} -> 2
- PUSH_ALTS_UNLIFTED{} -> 2
- PUSH_UBX{} -> 3
- PUSH_APPLY_N{} -> 1
- PUSH_APPLY_V{} -> 1
- PUSH_APPLY_F{} -> 1
- PUSH_APPLY_D{} -> 1
- PUSH_APPLY_L{} -> 1
- PUSH_APPLY_P{} -> 1
- PUSH_APPLY_PP{} -> 1
- PUSH_APPLY_PPP{} -> 1
- PUSH_APPLY_PPPP{} -> 1
- PUSH_APPLY_PPPPP{} -> 1
- PUSH_APPLY_PPPPPP{} -> 1
- SLIDE{} -> 3
- ALLOC_AP{} -> 2
- ALLOC_PAP{} -> 3
- MKAP{} -> 3
- MKPAP{} -> 3
- UNPACK{} -> 2
- PACK{} -> 3
- LABEL{} -> 0 -- !!
- TESTLT_I{} -> 3
- TESTEQ_I{} -> 3
- TESTLT_F{} -> 3
- TESTEQ_F{} -> 3
- TESTLT_D{} -> 3
- TESTEQ_D{} -> 3
- TESTLT_P{} -> 3
- TESTEQ_P{} -> 3
- JMP{} -> 2
- CASEFAIL{} -> 1
- ENTER{} -> 1
- RETURN{} -> 1
- RETURN_UBX{} -> 1
- CCALL{} -> 3
- SWIZZLE{} -> 3
- BRK_FUN{} -> 4
+ STKCHECK{} -> 2
+ PUSH_L{} -> 2
+ PUSH_LL{} -> 3
+ PUSH_LLL{} -> 4
+ PUSH_G{} -> 2
+ PUSH_PRIMOP{} -> 2
+ PUSH_BCO{} -> 2
+ PUSH_ALTS{} -> 2
+ PUSH_ALTS_UNLIFTED{} -> 2
+ PUSH_UBX{} -> 3
+ PUSH_APPLY_N{} -> 1
+ PUSH_APPLY_V{} -> 1
+ PUSH_APPLY_F{} -> 1
+ PUSH_APPLY_D{} -> 1
+ PUSH_APPLY_L{} -> 1
+ PUSH_APPLY_P{} -> 1
+ PUSH_APPLY_PP{} -> 1
+ PUSH_APPLY_PPP{} -> 1
+ PUSH_APPLY_PPPP{} -> 1
+ PUSH_APPLY_PPPPP{} -> 1
+ PUSH_APPLY_PPPPPP{} -> 1
+ SLIDE{} -> 3
+ ALLOC_AP{} -> 2
+ ALLOC_AP_NOUPD{} -> 2
+ ALLOC_PAP{} -> 3
+ MKAP{} -> 3
+ MKPAP{} -> 3
+ UNPACK{} -> 2
+ PACK{} -> 3
+ LABEL{} -> 0 -- !!
+ TESTLT_I{} -> 3
+ TESTEQ_I{} -> 3
+ TESTLT_W{} -> 3
+ TESTEQ_W{} -> 3
+ TESTLT_F{} -> 3
+ TESTEQ_F{} -> 3
+ TESTLT_D{} -> 3
+ TESTEQ_D{} -> 3
+ TESTLT_P{} -> 3
+ TESTEQ_P{} -> 3
+ JMP{} -> 2
+ CASEFAIL{} -> 1
+ ENTER{} -> 1
+ RETURN{} -> 1
+ RETURN_UBX{} -> 1
+ CCALL{} -> 3
+ SWIZZLE{} -> 3
+ BRK_FUN{} -> 4
-- Make lists of host-sized words for literals, so that when the
-- words are placed in memory at increasing addresses, the
w0 <- readArray d_arr 0
return [w0 :: Word]
)
+ | otherwise
+ = panic "mkLitD: Bad wORD_SIZE"
mkLitI64 ii
| wORD_SIZE == 4
w0 <- readArray d_arr 0
return [w0 :: Word]
)
+ | otherwise
+ = panic "mkLitI64: Bad wORD_SIZE"
mkLitI i
= runST (do
return [w0 :: Word]
)
-iNTERP_STACK_CHECK_THRESH = (INTERP_STACK_CHECK_THRESH :: Int)
+iNTERP_STACK_CHECK_THRESH :: Int
+iNTERP_STACK_CHECK_THRESH = INTERP_STACK_CHECK_THRESH
\end{code}