\begin{code}
{-# OPTIONS -optc-DNON_POSIX_SOURCE #-}
+{-# LANGUAGE BangPatterns #-}
module ByteCodeAsm (
assembleBCOs, assembleBCO,
import Constants
import FastString
import SMRep
+import DynFlags
import Outputable
+import Platform
import Control.Monad ( foldM )
import Control.Monad.ST ( runST )
-- bytecode address in this BCO.
-- Top level assembler fn.
-assembleBCOs :: [ProtoBCO Name] -> [TyCon] -> IO CompiledByteCode
-assembleBCOs proto_bcos tycons
+assembleBCOs :: DynFlags -> [ProtoBCO Name] -> [TyCon] -> IO CompiledByteCode
+assembleBCOs dflags proto_bcos tycons
= do itblenv <- mkITbls tycons
- bcos <- mapM assembleBCO proto_bcos
+ bcos <- mapM (assembleBCO dflags) proto_bcos
return (ByteCode bcos itblenv)
-assembleBCO :: ProtoBCO Name -> IO UnlinkedBCO
-assembleBCO (ProtoBCO nm instrs bitmap bsize arity _origin _malloced)
+assembleBCO :: DynFlags -> ProtoBCO Name -> IO UnlinkedBCO
+assembleBCO dflags (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
ptrs <- return emptySS :: IO (SizedSeq BCOPtr)
let init_asm_state = (insns,lits,ptrs)
(final_insns, final_lits, final_ptrs)
- <- mkBits findLabel init_asm_state instrs
+ <- mkBits dflags findLabel init_asm_state instrs
let asm_insns = ssElts final_insns
n_insns = sizeSS final_insns
| otherwise = error "wORD_SIZE_IN_BITS not 32 or 64?"
-- This is where all the action is (pass 2 of the assembler)
-mkBits :: (Word16 -> Word) -- label finder
+mkBits :: DynFlags
+ -> (Word16 -> Word) -- label finder
-> AsmState
-> [BCInstr] -- instructions (in)
-> IO AsmState
-mkBits findLabel st proto_insns
+mkBits dflags findLabel st proto_insns
= foldM doInstr st proto_insns
where
doInstr :: AsmState -> BCInstr -> IO AsmState
instr2 st2 bci_PUSH_G p
PUSH_PRIMOP op -> do (p, st2) <- ptr st (BCOPtrPrimOp op)
instr2 st2 bci_PUSH_G p
- PUSH_BCO proto -> do ul_bco <- assembleBCO proto
+ PUSH_BCO proto -> do ul_bco <- assembleBCO dflags proto
(p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 bci_PUSH_G p
- PUSH_ALTS proto -> do ul_bco <- assembleBCO proto
+ PUSH_ALTS proto -> do ul_bco <- assembleBCO dflags proto
(p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 bci_PUSH_ALTS p
PUSH_ALTS_UNLIFTED proto pk -> do
- ul_bco <- assembleBCO proto
+ ul_bco <- assembleBCO dflags proto
(p, st2) <- ptr st (BCOPtrBCO ul_bco)
instr2 st2 (push_alts pk) p
PUSH_UBX (Left lit) nws
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
+ CCALL off m_addr int -> do (np, st2) <- addr st m_addr
+ instr4 st2 bci_CCALL off np int
BRK_FUN array index info -> do
(p1, st2) <- ptr st (BCOPtrArray array)
(p2, st3) <- ptr st2 (BCOPtrBreakInfo info)
= do st_l1 <- addToSS st_l0 (BCONPtrItbl (getName dcon))
return (sizeSS16 st_l0, (st_i0,st_l1,st_p0))
-#ifdef mingw32_TARGET_OS
literal st (MachLabel fs (Just sz) _)
+ | platformOS (targetPlatform dflags) == OSMinGW32
= litlabel st (appendFS fs (mkFastString ('@':show sz)))
-- 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 (MachWord w) = int st (fromIntegral w)
literal st (MachInt j) = int st (fromIntegral j)
ENTER{} -> 1
RETURN{} -> 1
RETURN_UBX{} -> 1
- CCALL{} -> 3
+ CCALL{} -> 4
SWIZZLE{} -> 3
BRK_FUN{} -> 4