import PprCmm ( pprStmt, pprCmms )
import MachOp
import CLabel
-#if powerpc_TARGET_ARCH
-import CLabel ( mkRtsCodeLabel )
-#endif
import UniqFM
import Unique ( Unique, getUnique )
import UniqSupply
import FastTypes
import List ( groupBy, sortBy )
-import CLabel ( pprCLabel )
import ErrUtils ( dumpIfSet_dyn )
import DynFlags
import StaticFlags ( opt_Static, opt_PIC )
-- NB. We *lazilly* compile each block of code for space reasons.
-nativeCodeGen :: DynFlags -> [Cmm] -> UniqSupply -> IO Pretty.Doc
+nativeCodeGen :: DynFlags -> [RawCmm] -> UniqSupply -> IO Pretty.Doc
nativeCodeGen dflags cmms us
= let (res, _) = initUs us $
cgCmm (concat (map add_split cmms))
- cgCmm :: [CmmTop] -> UniqSM (Cmm, Pretty.Doc, [CLabel])
+ cgCmm :: [RawCmmTop] -> UniqSM (RawCmm, Pretty.Doc, [CLabel])
cgCmm tops =
lazyMapUs (cmmNativeGen dflags) tops `thenUs` \ results ->
case unzip3 results of { (cmms,docs,imps) ->
-- Complete native code generation phase for a single top-level chunk
-- of Cmm.
-cmmNativeGen :: DynFlags -> CmmTop -> UniqSM (CmmTop, Pretty.Doc, [CLabel])
+cmmNativeGen :: DynFlags -> RawCmmTop -> UniqSM (RawCmmTop, Pretty.Doc, [CLabel])
cmmNativeGen dflags cmm
= {-# SCC "fixAssigns" #-}
fixAssignsTop cmm `thenUs` \ fixed_cmm ->
-- Switching between the two monads whilst carrying along the same
-- Unique supply breaks abstraction. Is that bad?
-genMachCode :: CmmTop -> UniqSM ([NatCmmTop], [CLabel])
+genMachCode :: RawCmmTop -> UniqSM ([NatCmmTop], [CLabel])
genMachCode cmm_top
= do { initial_us <- getUs
; let initial_st = mkNatM_State initial_us 0
(new_tops, final_st) = initNat initial_st (cmmTopCodeGen cmm_top)
- final_us = natm_us final_st
final_delta = natm_delta final_st
final_imports = natm_imports final_st
; if final_delta == 0
-- the generic optimiser below, to avoid having two separate passes
-- over the Cmm.
-fixAssignsTop :: CmmTop -> UniqSM CmmTop
+fixAssignsTop :: RawCmmTop -> UniqSM RawCmmTop
fixAssignsTop top@(CmmData _ _) = returnUs top
fixAssignsTop (CmmProc info lbl params blocks) =
mapUs fixAssignsBlock blocks `thenUs` \ blocks' ->
returnUs (concat stmtss)
fixAssign :: CmmStmt -> UniqSM [CmmStmt]
-fixAssign (CmmAssign (CmmGlobal BaseReg) src)
- = panic "cmmStmtConFold: assignment to BaseReg";
-
fixAssign (CmmAssign (CmmGlobal reg) src)
| Left realreg <- reg_or_addr
= returnUs [CmmAssign (CmmGlobal reg) src]
where
reg_or_addr = get_GlobalReg_reg_or_addr reg
-fixAssign (CmmCall target results args vols)
- = mapAndUnzipUs fixResult results `thenUs` \ (results',stores) ->
- returnUs (caller_save ++
- CmmCall target results' args vols :
- caller_restore ++
- concat stores)
- where
- -- we also save/restore any caller-saves STG registers here
- (caller_save, caller_restore) = callerSaveVolatileRegs vols
-
- fixResult g@(CmmGlobal reg,hint) =
- case get_GlobalReg_reg_or_addr reg of
- Left realreg -> returnUs (g, [])
- Right baseRegAddr ->
- getUniqueUs `thenUs` \ uq ->
- let local = CmmLocal (LocalReg uq (globalRegRep reg)) in
- returnUs ((local,hint),
- [CmmStore baseRegAddr (CmmReg local)])
- fixResult other =
- returnUs (other,[])
-
fixAssign other_stmt = returnUs [other_stmt]
-- -----------------------------------------------------------------------------
temp assignments, and certain assigns to mem...)
-}
-cmmToCmm :: CmmTop -> (CmmTop, [CLabel])
+cmmToCmm :: RawCmmTop -> (RawCmmTop, [CLabel])
cmmToCmm top@(CmmData _ _) = (top, [])
cmmToCmm (CmmProc info lbl params blocks) = runCmmOpt $ do
blocks' <- mapM cmmBlockConFold (cmmMiniInline blocks)
-> do addr' <- cmmExprConFold JumpReference addr
return $ CmmJump addr' regs
- CmmCall target regs args vols
+ CmmCall target regs args srt
-> do target' <- case target of
CmmForeignCall e conv -> do
e' <- cmmExprConFold CallReference e
args' <- mapM (\(arg, hint) -> do
arg' <- cmmExprConFold DataReference arg
return (arg', hint)) args
- return $ CmmCall target' regs args' vols
+ return $ CmmCall target' regs args' srt
CmmCondBranch test dest
-> do test' <- cmmExprConFold DataReference test