module LlvmCodeGen.CodeGen ( genLlvmProc ) where
#include "HsVersions.h"
import Llvm
import LlvmCodeGen.Base
import LlvmCodeGen.Regs
import BlockId
import CodeGen.Platform ( activeStgRegs, callerSaves )
import CLabel
import Cmm
import PprCmm
import CmmUtils
import Hoopl
import DynFlags
import FastString
import ForeignCall
import Outputable hiding ( panic, pprPanic )
import qualified Outputable
import Platform
import OrdList
import UniqSupply
import Unique
import Data.List ( nub )
import Data.Maybe ( catMaybes )
type LlvmStatements = OrdList LlvmStatement
genLlvmProc :: RawCmmDecl -> LlvmM [LlvmCmmDecl]
genLlvmProc (CmmProc infos lbl live graph) = do
let blocks = toBlockListEntryFirstFalseFallthrough graph
(lmblocks, lmdata) <- basicBlocksCodeGen live blocks
let info = mapLookup (g_entry graph) infos
proc = CmmProc info lbl live (ListGraph lmblocks)
return (proc:lmdata)
genLlvmProc _ = panic "genLlvmProc: case that shouldn't reach here!"
basicBlocksCodeGen :: LiveGlobalRegs -> [CmmBlock]
-> LlvmM ([LlvmBasicBlock], [LlvmCmmDecl])
basicBlocksCodeGen _ [] = panic "no entry block!"
basicBlocksCodeGen live (entryBlock:cmmBlocks)
= do (prologue, prologueTops) <- funPrologue live (entryBlock:cmmBlocks)
(BasicBlock bid entry, entryTops) <- basicBlockCodeGen entryBlock
(blocks, topss) <- fmap unzip $ mapM basicBlockCodeGen cmmBlocks
let entryBlock = BasicBlock bid (fromOL prologue ++ entry)
return (entryBlock : blocks, prologueTops ++ entryTops ++ concat topss)
basicBlockCodeGen :: CmmBlock -> LlvmM ( LlvmBasicBlock, [LlvmCmmDecl] )
basicBlockCodeGen block
= do let (CmmEntry id, nodes, tail) = blockSplit block
(mid_instrs, top) <- stmtsToInstrs $ blockToList nodes
(tail_instrs, top') <- stmtToInstrs tail
let instrs = fromOL (mid_instrs `appOL` tail_instrs)
return (BasicBlock id instrs, top' ++ top)
type StmtData = (LlvmStatements, [LlvmCmmDecl])
stmtsToInstrs :: [CmmNode e x] -> LlvmM StmtData
stmtsToInstrs stmts
= do (instrss, topss) <- fmap unzip $ mapM stmtToInstrs stmts
return (concatOL instrss, concat topss)
stmtToInstrs :: CmmNode e x -> LlvmM StmtData
stmtToInstrs stmt = case stmt of
CmmComment _ -> return (nilOL, [])
CmmAssign reg src -> genAssign reg src
CmmStore addr src -> genStore addr src
CmmBranch id -> genBranch id
CmmCondBranch arg true false
-> genCondBranch arg true false
CmmSwitch arg ids -> genSwitch arg ids
CmmUnsafeForeignCall target res args
-> genCall target res args
CmmCall { cml_target = arg,
cml_args_regs = live } -> genJump arg live
_ -> panic "Llvm.CodeGen.stmtToInstrs"
getInstrinct2 :: LMString -> LlvmType -> LlvmM ExprData
getInstrinct2 fname fty@(LMFunction funSig) = do
let fv = LMGlobalVar fname fty (funcLinkage funSig) Nothing Nothing Constant
fn <- funLookup fname
tops <- case fn of
Just _ ->
return []
Nothing -> do
funInsert fname fty
return [CmmData Data [([],[fty])]]
return (fv, nilOL, tops)
getInstrinct2 _ _ = error "getInstrinct2: Non-function type!"
getInstrinct :: LMString -> LlvmType -> [LlvmType] -> LlvmM ExprData
getInstrinct fname retTy parTys =
let funSig = LlvmFunctionDecl fname ExternallyVisible CC_Ccc retTy
FixedArgs (tysToParams parTys) Nothing
fty = LMFunction funSig
in getInstrinct2 fname fty
barrier :: LlvmM StmtData
barrier = do
let s = Fence False SyncSeqCst
return (unitOL s, [])
oldBarrier :: LlvmM StmtData
oldBarrier = do
(fv, _, tops) <- getInstrinct (fsLit "llvm.memory.barrier") LMVoid [i1, i1, i1, i1, i1]
let args = [lmTrue, lmTrue, lmTrue, lmTrue, lmTrue]
let s1 = Expr $ Call StdCall fv args llvmStdFunAttrs
return (unitOL s1, tops)
where
lmTrue :: LlvmVar
lmTrue = mkIntLit i1 (1)
genCall :: ForeignTarget -> [CmmFormal] -> [CmmActual]
-> LlvmM StmtData
genCall (PrimTarget MO_WriteBarrier) _ _ = do
platform <- getLlvmPlatform
ver <- getLlvmVer
case () of
_ | platformArch platform `elem` [ArchX86, ArchX86_64, ArchSPARC]
-> return (nilOL, [])
| ver > 29 -> barrier
| otherwise -> oldBarrier
genCall (PrimTarget MO_Touch) _ _
= return (nilOL, [])
genCall (PrimTarget (MO_UF_Conv w)) [dst] [e] = do
dstV <- getCmmReg (CmmLocal dst)
let ty = cmmToLlvmType $ localRegType dst
width = widthToLlvmFloat w
castV <- mkLocalVar ty
(ve, stmts, top) <- exprToVar e
let stmt3 = Assignment castV $ Cast LM_Uitofp ve width
stmt4 = Store castV dstV
return (stmts `snocOL` stmt3 `snocOL` stmt4, top)
genCall (PrimTarget (MO_UF_Conv _)) [_] args =
panic $ "genCall: Too many arguments to MO_UF_Conv. " ++
"Can only handle 1, given" ++ show (length args) ++ "."
genCall t@(PrimTarget MO_Prefetch_Data) [] args = do
ver <- getLlvmVer
let argTy | ver <= 29 = [i8Ptr, i32, i32]
| otherwise = [i8Ptr, i32, i32, i32]
funTy = \name -> LMFunction $ LlvmFunctionDecl name ExternallyVisible
CC_Ccc LMVoid FixedArgs (tysToParams argTy) Nothing
let (_, arg_hints) = foreignTargetHints t
let args_hints' = zip args arg_hints
(argVars, stmts1, top1) <- arg_vars args_hints' ([], nilOL, [])
(fptr, stmts2, top2) <- getFunPtr funTy t
(argVars', stmts3) <- castVars $ zip argVars argTy
trash <- getTrashStmts
let argSuffix | ver <= 29 = [mkIntLit i32 0, mkIntLit i32 3]
| otherwise = [mkIntLit i32 0, mkIntLit i32 3, mkIntLit i32 1]
call = Expr $ Call StdCall fptr (argVars' ++ argSuffix) []
stmts = stmts1 `appOL` stmts2 `appOL` stmts3
`appOL` trash `snocOL` call
return (stmts, top1 ++ top2)
genCall t@(PrimTarget (MO_PopCnt w)) dsts args =
genCallSimpleCast w t dsts args
genCall t@(PrimTarget (MO_BSwap w)) dsts args =
genCallSimpleCast w t dsts args
genCall t@(PrimTarget op) [] args'
| op == MO_Memcpy ||
op == MO_Memset ||
op == MO_Memmove = do
ver <- getLlvmVer
dflags <- getDynFlags
let (args, alignVal) = splitAlignVal args'
(isVolTy, isVolVal)
| ver >= 28 = ([i1], [mkIntLit i1 0])
| otherwise = ([], [])
argTy | op == MO_Memset = [i8Ptr, i8, llvmWord dflags, i32] ++ isVolTy
| otherwise = [i8Ptr, i8Ptr, llvmWord dflags, i32] ++ isVolTy
funTy = \name -> LMFunction $ LlvmFunctionDecl name ExternallyVisible
CC_Ccc LMVoid FixedArgs (tysToParams argTy) Nothing
let (_, arg_hints) = foreignTargetHints t
let args_hints = zip args arg_hints
(argVars, stmts1, top1) <- arg_vars args_hints ([], nilOL, [])
(fptr, stmts2, top2) <- getFunPtr funTy t
(argVars', stmts3) <- castVars $ zip argVars argTy
stmts4 <- getTrashStmts
let arguments = argVars' ++ (alignVal:isVolVal)
call = Expr $ Call StdCall fptr arguments []
stmts = stmts1 `appOL` stmts2 `appOL` stmts3
`appOL` stmts4 `snocOL` call
return (stmts, top1 ++ top2)
where
splitAlignVal xs = (init xs, extractLit $ last xs)
extractLit (CmmLit (CmmInt i _)) = mkIntLit i32 i
extractLit _other = trace ("WARNING: Non constant alignment value given" ++
" for memcpy! Please report to GHC developers")
mkIntLit i32 0
genCall target res args = do
dflags <- getDynFlags
let arg_type (_, AddrHint) = i8Ptr
arg_type (expr, _) = cmmToLlvmType $ cmmExprType dflags expr
let ret_type [] = LMVoid
ret_type [(_, AddrHint)] = i8Ptr
ret_type [(reg, _)] = cmmToLlvmType $ localRegType reg
ret_type t = panic $ "genCall: Too many return values! Can only handle"
++ " 0 or 1, given " ++ show (length t) ++ "."
platform <- getLlvmPlatform
let lmconv = case target of
ForeignTarget _ (ForeignConvention conv _ _ _) ->
case conv of
StdCallConv -> case platformArch platform of
ArchX86 -> CC_X86_Stdcc
ArchX86_64 -> CC_X86_Stdcc
_ -> CC_Ccc
CCallConv -> CC_Ccc
CApiConv -> CC_Ccc
PrimCallConv -> panic "LlvmCodeGen.CodeGen.genCall: PrimCallConv"
PrimTarget _ -> CC_Ccc
let fnAttrs | never_returns = NoReturn : llvmStdFunAttrs
| otherwise = llvmStdFunAttrs
never_returns = case target of
ForeignTarget _ (ForeignConvention _ _ _ CmmNeverReturns) -> True
_ -> False
let (res_hints, arg_hints) = foreignTargetHints target
let args_hints = zip args arg_hints
let ress_hints = zip res res_hints
let ccTy = StdCall
let retTy = ret_type ress_hints
let argTy = tysToParams $ map arg_type args_hints
let funTy = \name -> LMFunction $ LlvmFunctionDecl name ExternallyVisible
lmconv retTy FixedArgs argTy (llvmFunAlign dflags)
(argVars, stmts1, top1) <- arg_vars args_hints ([], nilOL, [])
(fptr, stmts2, top2) <- getFunPtr funTy target
let retStmt | ccTy == TailCall = unitOL $ Return Nothing
| never_returns = unitOL $ Unreachable
| otherwise = nilOL
stmts3 <- getTrashStmts
let stmts = stmts1 `appOL` stmts2 `appOL` stmts3
case retTy of
LMVoid -> do
let s1 = Expr $ Call ccTy fptr argVars fnAttrs
let allStmts = stmts `snocOL` s1 `appOL` retStmt
return (allStmts, top1 ++ top2)
_ -> do
(v1, s1) <- doExpr retTy $ Call ccTy fptr argVars fnAttrs
let ret_reg [reg] = reg
ret_reg t = panic $ "genCall: Bad number of registers! Can only handle"
++ " 1, given " ++ show (length t) ++ "."
let creg = ret_reg res
vreg <- getCmmReg (CmmLocal creg)
let allStmts = stmts `snocOL` s1
if retTy == pLower (getVarType vreg)
then do
let s2 = Store v1 vreg
return (allStmts `snocOL` s2 `appOL` retStmt,
top1 ++ top2)
else do
let ty = pLower $ getVarType vreg
let op = case ty of
vt | isPointer vt -> LM_Bitcast
| isInt vt -> LM_Ptrtoint
| otherwise ->
panic $ "genCall: CmmReg bad match for"
++ " returned type!"
(v2, s2) <- doExpr ty $ Cast op v1 ty
let s3 = Store v2 vreg
return (allStmts `snocOL` s2 `snocOL` s3
`appOL` retStmt, top1 ++ top2)
genCallSimpleCast :: Width -> ForeignTarget -> [CmmFormal] -> [CmmActual]
-> LlvmM StmtData
genCallSimpleCast w t@(PrimTarget op) [dst] args = do
let width = widthToLlvmInt w
dstTy = cmmToLlvmType $ localRegType dst
fname <- cmmPrimOpFunctions op
(fptr, _, top3) <- getInstrinct fname width [width]
dstV <- getCmmReg (CmmLocal dst)
let (_, arg_hints) = foreignTargetHints t
let args_hints = zip args arg_hints
(argsV, stmts2, top2) <- arg_vars args_hints ([], nilOL, [])
(argsV', stmts4) <- castVars $ zip argsV [width]
(retV, s1) <- doExpr width $ Call StdCall fptr argsV' []
([retV'], stmts5) <- castVars [(retV,dstTy)]
let s2 = Store retV' dstV
let stmts = stmts2 `appOL` stmts4 `snocOL`
s1 `appOL` stmts5 `snocOL` s2
return (stmts, top2 ++ top3)
genCallSimpleCast _ _ dsts _ =
panic ("genCallSimpleCast: " ++ show (length dsts) ++ " dsts")
getFunPtr :: (LMString -> LlvmType) -> ForeignTarget
-> LlvmM ExprData
getFunPtr funTy targ = case targ of
ForeignTarget (CmmLit (CmmLabel lbl)) _ -> do
name <- strCLabel_llvm lbl
getHsFunc' name (funTy name)
ForeignTarget expr _ -> do
(v1, stmts, top) <- exprToVar expr
dflags <- getDynFlags
let fty = funTy $ fsLit "dynamic"
cast = case getVarType v1 of
ty | isPointer ty -> LM_Bitcast
ty | isInt ty -> LM_Inttoptr
ty -> panic $ "genCall: Expr is of bad type for function"
++ " call! (" ++ showSDoc dflags (ppr ty) ++ ")"
(v2,s1) <- doExpr (pLift fty) $ Cast cast v1 (pLift fty)
return (v2, stmts `snocOL` s1, top)
PrimTarget mop -> do
name <- cmmPrimOpFunctions mop
let fty = funTy name
getInstrinct2 name fty
arg_vars :: [(CmmActual, ForeignHint)]
-> ([LlvmVar], LlvmStatements, [LlvmCmmDecl])
-> LlvmM ([LlvmVar], LlvmStatements, [LlvmCmmDecl])
arg_vars [] (vars, stmts, tops)
= return (vars, stmts, tops)
arg_vars ((e, AddrHint):rest) (vars, stmts, tops)
= do (v1, stmts', top') <- exprToVar e
dflags <- getDynFlags
let op = case getVarType v1 of
ty | isPointer ty -> LM_Bitcast
ty | isInt ty -> LM_Inttoptr
a -> panic $ "genCall: Can't cast llvmType to i8*! ("
++ showSDoc dflags (ppr a) ++ ")"
(v2, s1) <- doExpr i8Ptr $ Cast op v1 i8Ptr
arg_vars rest (vars ++ [v2], stmts `appOL` stmts' `snocOL` s1,
tops ++ top')
arg_vars ((e, _):rest) (vars, stmts, tops)
= do (v1, stmts', top') <- exprToVar e
arg_vars rest (vars ++ [v1], stmts `appOL` stmts', tops ++ top')
castVars :: [(LlvmVar, LlvmType)]
-> LlvmM ([LlvmVar], LlvmStatements)
castVars vars = do
done <- mapM (uncurry castVar) vars
let (vars', stmts) = unzip done
return (vars', toOL stmts)
castVar :: LlvmVar -> LlvmType -> LlvmM (LlvmVar, LlvmStatement)
castVar v t | getVarType v == t
= return (v, Nop)
| otherwise
= do dflags <- getDynFlags
let op = case (getVarType v, t) of
(LMInt n, LMInt m)
-> if n < m then LM_Sext else LM_Trunc
(vt, _) | isFloat vt && isFloat t
-> if llvmWidthInBits dflags vt < llvmWidthInBits dflags t
then LM_Fpext else LM_Fptrunc
(vt, _) | isInt vt && isFloat t -> LM_Sitofp
(vt, _) | isFloat vt && isInt t -> LM_Fptosi
(vt, _) | isInt vt && isPointer t -> LM_Inttoptr
(vt, _) | isPointer vt && isInt t -> LM_Ptrtoint
(vt, _) | isPointer vt && isPointer t -> LM_Bitcast
(vt, _) | isVector vt && isVector t -> LM_Bitcast
(vt, _) -> panic $ "castVars: Can't cast this type ("
++ showSDoc dflags (ppr vt) ++ ") to (" ++ showSDoc dflags (ppr t) ++ ")"
doExpr t $ Cast op v t
cmmPrimOpFunctions :: CallishMachOp -> LlvmM LMString
cmmPrimOpFunctions mop = do
ver <- getLlvmVer
dflags <- getDynFlags
let intrinTy1 = (if ver >= 28
then "p0i8.p0i8." else "") ++ showSDoc dflags (ppr $ llvmWord dflags)
intrinTy2 = (if ver >= 28
then "p0i8." else "") ++ showSDoc dflags (ppr $ llvmWord dflags)
unsupported = panic ("cmmPrimOpFunctions: " ++ show mop
++ " not supported here")
return $ case mop of
MO_F32_Exp -> fsLit "expf"
MO_F32_Log -> fsLit "logf"
MO_F32_Sqrt -> fsLit "llvm.sqrt.f32"
MO_F32_Pwr -> fsLit "llvm.pow.f32"
MO_F32_Sin -> fsLit "llvm.sin.f32"
MO_F32_Cos -> fsLit "llvm.cos.f32"
MO_F32_Tan -> fsLit "tanf"
MO_F32_Asin -> fsLit "asinf"
MO_F32_Acos -> fsLit "acosf"
MO_F32_Atan -> fsLit "atanf"
MO_F32_Sinh -> fsLit "sinhf"
MO_F32_Cosh -> fsLit "coshf"
MO_F32_Tanh -> fsLit "tanhf"
MO_F64_Exp -> fsLit "exp"
MO_F64_Log -> fsLit "log"
MO_F64_Sqrt -> fsLit "llvm.sqrt.f64"
MO_F64_Pwr -> fsLit "llvm.pow.f64"
MO_F64_Sin -> fsLit "llvm.sin.f64"
MO_F64_Cos -> fsLit "llvm.cos.f64"
MO_F64_Tan -> fsLit "tan"
MO_F64_Asin -> fsLit "asin"
MO_F64_Acos -> fsLit "acos"
MO_F64_Atan -> fsLit "atan"
MO_F64_Sinh -> fsLit "sinh"
MO_F64_Cosh -> fsLit "cosh"
MO_F64_Tanh -> fsLit "tanh"
MO_Memcpy -> fsLit $ "llvm.memcpy." ++ intrinTy1
MO_Memmove -> fsLit $ "llvm.memmove." ++ intrinTy1
MO_Memset -> fsLit $ "llvm.memset." ++ intrinTy2
(MO_PopCnt w) -> fsLit $ "llvm.ctpop." ++ showSDoc dflags (ppr $ widthToLlvmInt w)
(MO_BSwap w) -> fsLit $ "llvm.bswap." ++ showSDoc dflags (ppr $ widthToLlvmInt w)
MO_Prefetch_Data -> fsLit "llvm.prefetch"
MO_S_QuotRem {} -> unsupported
MO_U_QuotRem {} -> unsupported
MO_U_QuotRem2 {} -> unsupported
MO_Add2 {} -> unsupported
MO_U_Mul2 {} -> unsupported
MO_WriteBarrier -> unsupported
MO_Touch -> unsupported
MO_UF_Conv _ -> unsupported
genJump :: CmmExpr -> [GlobalReg] -> LlvmM StmtData
genJump (CmmLit (CmmLabel lbl)) live = do
(vf, stmts, top) <- getHsFunc live lbl
(stgRegs, stgStmts) <- funEpilogue live
let s1 = Expr $ Call TailCall vf stgRegs llvmStdFunAttrs
let s2 = Return Nothing
return (stmts `appOL` stgStmts `snocOL` s1 `snocOL` s2, top)
genJump expr live = do
fty <- llvmFunTy live
(vf, stmts, top) <- exprToVar expr
dflags <- getDynFlags
let cast = case getVarType vf of
ty | isPointer ty -> LM_Bitcast
ty | isInt ty -> LM_Inttoptr
ty -> panic $ "genJump: Expr is of bad type for function call! ("
++ showSDoc dflags (ppr ty) ++ ")"
(v1, s1) <- doExpr (pLift fty) $ Cast cast vf (pLift fty)
(stgRegs, stgStmts) <- funEpilogue live
let s2 = Expr $ Call TailCall v1 stgRegs llvmStdFunAttrs
let s3 = Return Nothing
return (stmts `snocOL` s1 `appOL` stgStmts `snocOL` s2 `snocOL` s3,
top)
genAssign :: CmmReg -> CmmExpr -> LlvmM StmtData
genAssign reg val = do
vreg <- getCmmReg reg
(vval, stmts2, top2) <- exprToVar val
let stmts = stmts2
let ty = (pLower . getVarType) vreg
dflags <- getDynFlags
case ty of
LMPointer _ | getVarType vval == llvmWord dflags -> do
(v, s1) <- doExpr ty $ Cast LM_Inttoptr vval ty
let s2 = Store v vreg
return (stmts `snocOL` s1 `snocOL` s2, top2)
LMVector _ _ -> do
(v, s1) <- doExpr ty $ Cast LM_Bitcast vval ty
let s2 = Store v vreg
return (stmts `snocOL` s1 `snocOL` s2, top2)
_ -> do
let s1 = Store vval vreg
return (stmts `snocOL` s1, top2)
genStore :: CmmExpr -> CmmExpr -> LlvmM StmtData
genStore addr@(CmmReg (CmmGlobal r)) val
= genStore_fast addr r 0 val
genStore addr@(CmmRegOff (CmmGlobal r) n) val
= genStore_fast addr r n val
genStore addr@(CmmMachOp (MO_Add _) [
(CmmReg (CmmGlobal r)),
(CmmLit (CmmInt n _))])
val
= genStore_fast addr r (fromInteger n) val
genStore addr@(CmmMachOp (MO_Sub _) [
(CmmReg (CmmGlobal r)),
(CmmLit (CmmInt n _))])
val
= genStore_fast addr r (negate $ fromInteger n) val
genStore addr val
= do other <- getTBAAMeta otherN
genStore_slow addr val other
genStore_fast :: CmmExpr -> GlobalReg -> Int -> CmmExpr
-> LlvmM StmtData
genStore_fast addr r n val
= do dflags <- getDynFlags
(gv, grt, s1) <- getCmmRegVal (CmmGlobal r)
meta <- getTBAARegMeta r
let (ix,rem) = n `divMod` ((llvmWidthInBits dflags . pLower) grt `div` 8)
case isPointer grt && rem == 0 of
True -> do
(vval, stmts, top) <- exprToVar val
(ptr, s2) <- doExpr grt $ GetElemPtr True gv [toI32 ix]
case pLower grt == getVarType vval of
True -> do
let s3 = MetaStmt meta $ Store vval ptr
return (stmts `appOL` s1 `snocOL` s2
`snocOL` s3, top)
False -> do
let ty = (pLift . getVarType) vval
(ptr', s3) <- doExpr ty $ Cast LM_Bitcast ptr ty
let s4 = MetaStmt meta $ Store vval ptr'
return (stmts `appOL` s1 `snocOL` s2
`snocOL` s3 `snocOL` s4, top)
False -> genStore_slow addr val meta
genStore_slow :: CmmExpr -> CmmExpr -> [MetaAnnot] -> LlvmM StmtData
genStore_slow addr val meta = do
(vaddr, stmts1, top1) <- exprToVar addr
(vval, stmts2, top2) <- exprToVar val
let stmts = stmts1 `appOL` stmts2
dflags <- getDynFlags
case getVarType vaddr of
LMPointer ty@(LMPointer _) | getVarType vval == llvmWord dflags -> do
(v, s1) <- doExpr ty $ Cast LM_Inttoptr vval ty
let s2 = MetaStmt meta $ Store v vaddr
return (stmts `snocOL` s1 `snocOL` s2, top1 ++ top2)
LMPointer _ -> do
let s1 = MetaStmt meta $ Store vval vaddr
return (stmts `snocOL` s1, top1 ++ top2)
i@(LMInt _) | i == llvmWord dflags -> do
let vty = pLift $ getVarType vval
(vptr, s1) <- doExpr vty $ Cast LM_Inttoptr vaddr vty
let s2 = MetaStmt meta $ Store vval vptr
return (stmts `snocOL` s1 `snocOL` s2, top1 ++ top2)
other ->
pprPanic "genStore: ptr not right type!"
(PprCmm.pprExpr addr <+> text (
"Size of Ptr: " ++ show (llvmPtrBits dflags) ++
", Size of var: " ++ show (llvmWidthInBits dflags other) ++
", Var: " ++ showSDoc dflags (ppr vaddr)))
genBranch :: BlockId -> LlvmM StmtData
genBranch id =
let label = blockIdToLlvm id
in return (unitOL $ Branch label, [])
genCondBranch :: CmmExpr -> BlockId -> BlockId -> LlvmM StmtData
genCondBranch cond idT idF = do
let labelT = blockIdToLlvm idT
let labelF = blockIdToLlvm idF
(vc, stmts, top) <- exprToVarOpt i1Option cond
if getVarType vc == i1
then do
let s1 = BranchIf vc labelT labelF
return (stmts `snocOL` s1, top)
else do
dflags <- getDynFlags
panic $ "genCondBranch: Cond expr not bool! (" ++ showSDoc dflags (ppr vc) ++ ")"
genSwitch :: CmmExpr -> [Maybe BlockId] -> LlvmM StmtData
genSwitch cond maybe_ids = do
(vc, stmts, top) <- exprToVar cond
let ty = getVarType vc
let pairs = [ (ix, id) | (ix,Just id) <- zip [0..] maybe_ids ]
let labels = map (\(ix, b) -> (mkIntLit ty ix, blockIdToLlvm b)) pairs
let (_, defLbl) = head labels
let s1 = Switch vc defLbl labels
return $ (stmts `snocOL` s1, top)
type ExprData = (LlvmVar, LlvmStatements, [LlvmCmmDecl])
newtype EOption = EOption { i1Expected :: Bool }
i1Option :: EOption
i1Option = EOption True
wordOption :: EOption
wordOption = EOption False
exprToVar :: CmmExpr -> LlvmM ExprData
exprToVar = exprToVarOpt wordOption
exprToVarOpt :: EOption -> CmmExpr -> LlvmM ExprData
exprToVarOpt opt e = case e of
CmmLit lit
-> genLit opt lit
CmmLoad e' ty
-> genLoad e' ty
CmmReg r -> do
(v1, ty, s1) <- getCmmRegVal r
case isPointer ty of
True -> do
dflags <- getDynFlags
(v2, s2) <- doExpr (llvmWord dflags) $ Cast LM_Ptrtoint v1 (llvmWord dflags)
return (v2, s1 `snocOL` s2, [])
False -> return (v1, s1, [])
CmmMachOp op exprs
-> genMachOp opt op exprs
CmmRegOff r i
-> do dflags <- getDynFlags
exprToVar $ expandCmmReg dflags (r, i)
CmmStackSlot _ _
-> panic "exprToVar: CmmStackSlot not supported!"
genMachOp :: EOption -> MachOp -> [CmmExpr] -> LlvmM ExprData
genMachOp _ op [x] = case op of
MO_Not w ->
let all1 = mkIntLit (widthToLlvmInt w) (1)
in negate (widthToLlvmInt w) all1 LM_MO_Xor
MO_S_Neg w ->
let all0 = mkIntLit (widthToLlvmInt w) 0
in negate (widthToLlvmInt w) all0 LM_MO_Sub
MO_F_Neg w ->
let all0 = LMLitVar $ LMFloatLit (0) (widthToLlvmFloat w)
in negate (widthToLlvmFloat w) all0 LM_MO_FSub
MO_SF_Conv _ w -> fiConv (widthToLlvmFloat w) LM_Sitofp
MO_FS_Conv _ w -> fiConv (widthToLlvmInt w) LM_Fptosi
MO_SS_Conv from to
-> sameConv from (widthToLlvmInt to) LM_Trunc LM_Sext
MO_UU_Conv from to
-> sameConv from (widthToLlvmInt to) LM_Trunc LM_Zext
MO_FF_Conv from to
-> sameConv from (widthToLlvmFloat to) LM_Fptrunc LM_Fpext
MO_VS_Neg len w ->
let ty = widthToLlvmInt w
vecty = LMVector len ty
all0 = LMIntLit (0) ty
all0s = LMLitVar $ LMVectorLit (replicate len all0)
in negateVec vecty all0s LM_MO_Sub
MO_VF_Neg len w ->
let ty = widthToLlvmFloat w
vecty = LMVector len ty
all0 = LMFloatLit (0) ty
all0s = LMLitVar $ LMVectorLit (replicate len all0)
in negateVec vecty all0s LM_MO_FSub
MO_Add _ -> panicOp
MO_Mul _ -> panicOp
MO_Sub _ -> panicOp
MO_S_MulMayOflo _ -> panicOp
MO_S_Quot _ -> panicOp
MO_S_Rem _ -> panicOp
MO_U_MulMayOflo _ -> panicOp
MO_U_Quot _ -> panicOp
MO_U_Rem _ -> panicOp
MO_Eq _ -> panicOp
MO_Ne _ -> panicOp
MO_S_Ge _ -> panicOp
MO_S_Gt _ -> panicOp
MO_S_Le _ -> panicOp
MO_S_Lt _ -> panicOp
MO_U_Ge _ -> panicOp
MO_U_Gt _ -> panicOp
MO_U_Le _ -> panicOp
MO_U_Lt _ -> panicOp
MO_F_Add _ -> panicOp
MO_F_Sub _ -> panicOp
MO_F_Mul _ -> panicOp
MO_F_Quot _ -> panicOp
MO_F_Eq _ -> panicOp
MO_F_Ne _ -> panicOp
MO_F_Ge _ -> panicOp
MO_F_Gt _ -> panicOp
MO_F_Le _ -> panicOp
MO_F_Lt _ -> panicOp
MO_And _ -> panicOp
MO_Or _ -> panicOp
MO_Xor _ -> panicOp
MO_Shl _ -> panicOp
MO_U_Shr _ -> panicOp
MO_S_Shr _ -> panicOp
MO_V_Insert _ _ -> panicOp
MO_V_Extract _ _ -> panicOp
MO_V_Add _ _ -> panicOp
MO_V_Sub _ _ -> panicOp
MO_V_Mul _ _ -> panicOp
MO_VS_Quot _ _ -> panicOp
MO_VS_Rem _ _ -> panicOp
MO_VF_Insert _ _ -> panicOp
MO_VF_Extract _ _ -> panicOp
MO_VF_Add _ _ -> panicOp
MO_VF_Sub _ _ -> panicOp
MO_VF_Mul _ _ -> panicOp
MO_VF_Quot _ _ -> panicOp
where
negate ty v2 negOp = do
(vx, stmts, top) <- exprToVar x
(v1, s1) <- doExpr ty $ LlvmOp negOp v2 vx
return (v1, stmts `snocOL` s1, top)
negateVec ty v2 negOp = do
(vx, stmts1, top) <- exprToVar x
([vx'], stmts2) <- castVars [(vx, ty)]
(v1, s1) <- doExpr ty $ LlvmOp negOp v2 vx'
return (v1, stmts1 `appOL` stmts2 `snocOL` s1, top)
fiConv ty convOp = do
(vx, stmts, top) <- exprToVar x
(v1, s1) <- doExpr ty $ Cast convOp vx ty
return (v1, stmts `snocOL` s1, top)
sameConv from ty reduce expand = do
x'@(vx, stmts, top) <- exprToVar x
let sameConv' op = do
(v1, s1) <- doExpr ty $ Cast op vx ty
return (v1, stmts `snocOL` s1, top)
dflags <- getDynFlags
let toWidth = llvmWidthInBits dflags ty
case widthInBits from of
w | w < toWidth -> sameConv' expand
w | w > toWidth -> sameConv' reduce
_w -> return x'
panicOp = panic $ "LLVM.CodeGen.genMachOp: non unary op encourntered"
++ "with one argument! (" ++ show op ++ ")"
genMachOp opt o@(MO_Add _) e@[(CmmReg (CmmGlobal r)), (CmmLit (CmmInt n _))]
= genMachOp_fast opt o r (fromInteger n) e
genMachOp opt o@(MO_Sub _) e@[(CmmReg (CmmGlobal r)), (CmmLit (CmmInt n _))]
= genMachOp_fast opt o r (negate . fromInteger $ n) e
genMachOp opt op e = genMachOp_slow opt op e
genMachOp_fast :: EOption -> MachOp -> GlobalReg -> Int -> [CmmExpr]
-> LlvmM ExprData
genMachOp_fast opt op r n e
= do (gv, grt, s1) <- getCmmRegVal (CmmGlobal r)
dflags <- getDynFlags
let (ix,rem) = n `divMod` ((llvmWidthInBits dflags . pLower) grt `div` 8)
case isPointer grt && rem == 0 of
True -> do
(ptr, s2) <- doExpr grt $ GetElemPtr True gv [toI32 ix]
(var, s3) <- doExpr (llvmWord dflags) $ Cast LM_Ptrtoint ptr (llvmWord dflags)
return (var, s1 `snocOL` s2 `snocOL` s3, [])
False -> genMachOp_slow opt op e
genMachOp_slow :: EOption -> MachOp -> [CmmExpr] -> LlvmM ExprData
genMachOp_slow _ (MO_V_Extract l w) [val, idx] = do
(vval, stmts1, top1) <- exprToVar val
(vidx, stmts2, top2) <- exprToVar idx
([vval'], stmts3) <- castVars [(vval, LMVector l ty)]
(v1, s1) <- doExpr ty $ Extract vval' vidx
return (v1, stmts1 `appOL` stmts2 `appOL` stmts3 `snocOL` s1, top1 ++ top2)
where
ty = widthToLlvmInt w
genMachOp_slow _ (MO_VF_Extract l w) [val, idx] = do
(vval, stmts1, top1) <- exprToVar val
(vidx, stmts2, top2) <- exprToVar idx
([vval'], stmts3) <- castVars [(vval, LMVector l ty)]
(v1, s1) <- doExpr ty $ Extract vval' vidx
return (v1, stmts1 `appOL` stmts2 `appOL` stmts3 `snocOL` s1, top1 ++ top2)
where
ty = widthToLlvmFloat w
genMachOp_slow _ (MO_V_Insert l w) [val, elt, idx] = do
(vval, stmts1, top1) <- exprToVar val
(velt, stmts2, top2) <- exprToVar elt
(vidx, stmts3, top3) <- exprToVar idx
([vval'], stmts4) <- castVars [(vval, ty)]
(v1, s1) <- doExpr ty $ Insert vval' velt vidx
return (v1, stmts1 `appOL` stmts2 `appOL` stmts3 `appOL` stmts4 `snocOL` s1,
top1 ++ top2 ++ top3)
where
ty = LMVector l (widthToLlvmInt w)
genMachOp_slow _ (MO_VF_Insert l w) [val, elt, idx] = do
(vval, stmts1, top1) <- exprToVar val
(velt, stmts2, top2) <- exprToVar elt
(vidx, stmts3, top3) <- exprToVar idx
([vval'], stmts4) <- castVars [(vval, ty)]
(v1, s1) <- doExpr ty $ Insert vval' velt vidx
return (v1, stmts1 `appOL` stmts2 `appOL` stmts3 `appOL` stmts4 `snocOL` s1,
top1 ++ top2 ++ top3)
where
ty = LMVector l (widthToLlvmFloat w)
genMachOp_slow opt op [x, y] = case op of
MO_Eq _ -> genBinComp opt LM_CMP_Eq
MO_Ne _ -> genBinComp opt LM_CMP_Ne
MO_S_Gt _ -> genBinComp opt LM_CMP_Sgt
MO_S_Ge _ -> genBinComp opt LM_CMP_Sge
MO_S_Lt _ -> genBinComp opt LM_CMP_Slt
MO_S_Le _ -> genBinComp opt LM_CMP_Sle
MO_U_Gt _ -> genBinComp opt LM_CMP_Ugt
MO_U_Ge _ -> genBinComp opt LM_CMP_Uge
MO_U_Lt _ -> genBinComp opt LM_CMP_Ult
MO_U_Le _ -> genBinComp opt LM_CMP_Ule
MO_Add _ -> genBinMach LM_MO_Add
MO_Sub _ -> genBinMach LM_MO_Sub
MO_Mul _ -> genBinMach LM_MO_Mul
MO_U_MulMayOflo _ -> panic "genMachOp: MO_U_MulMayOflo unsupported!"
MO_S_MulMayOflo w -> isSMulOK w x y
MO_S_Quot _ -> genBinMach LM_MO_SDiv
MO_S_Rem _ -> genBinMach LM_MO_SRem
MO_U_Quot _ -> genBinMach LM_MO_UDiv
MO_U_Rem _ -> genBinMach LM_MO_URem
MO_F_Eq _ -> genBinComp opt LM_CMP_Feq
MO_F_Ne _ -> genBinComp opt LM_CMP_Fne
MO_F_Gt _ -> genBinComp opt LM_CMP_Fgt
MO_F_Ge _ -> genBinComp opt LM_CMP_Fge
MO_F_Lt _ -> genBinComp opt LM_CMP_Flt
MO_F_Le _ -> genBinComp opt LM_CMP_Fle
MO_F_Add _ -> genBinMach LM_MO_FAdd
MO_F_Sub _ -> genBinMach LM_MO_FSub
MO_F_Mul _ -> genBinMach LM_MO_FMul
MO_F_Quot _ -> genBinMach LM_MO_FDiv
MO_And _ -> genBinMach LM_MO_And
MO_Or _ -> genBinMach LM_MO_Or
MO_Xor _ -> genBinMach LM_MO_Xor
MO_Shl _ -> genBinMach LM_MO_Shl
MO_U_Shr _ -> genBinMach LM_MO_LShr
MO_S_Shr _ -> genBinMach LM_MO_AShr
MO_V_Add l w -> genCastBinMach (LMVector l (widthToLlvmInt w)) LM_MO_Add
MO_V_Sub l w -> genCastBinMach (LMVector l (widthToLlvmInt w)) LM_MO_Sub
MO_V_Mul l w -> genCastBinMach (LMVector l (widthToLlvmInt w)) LM_MO_Mul
MO_VS_Quot l w -> genCastBinMach (LMVector l (widthToLlvmInt w)) LM_MO_SDiv
MO_VS_Rem l w -> genCastBinMach (LMVector l (widthToLlvmInt w)) LM_MO_SRem
MO_VF_Add l w -> genCastBinMach (LMVector l (widthToLlvmFloat w)) LM_MO_FAdd
MO_VF_Sub l w -> genCastBinMach (LMVector l (widthToLlvmFloat w)) LM_MO_FSub
MO_VF_Mul l w -> genCastBinMach (LMVector l (widthToLlvmFloat w)) LM_MO_FMul
MO_VF_Quot l w -> genCastBinMach (LMVector l (widthToLlvmFloat w)) LM_MO_FDiv
MO_Not _ -> panicOp
MO_S_Neg _ -> panicOp
MO_F_Neg _ -> panicOp
MO_SF_Conv _ _ -> panicOp
MO_FS_Conv _ _ -> panicOp
MO_SS_Conv _ _ -> panicOp
MO_UU_Conv _ _ -> panicOp
MO_FF_Conv _ _ -> panicOp
MO_V_Insert {} -> panicOp
MO_V_Extract {} -> panicOp
MO_VS_Neg {} -> panicOp
MO_VF_Insert {} -> panicOp
MO_VF_Extract {} -> panicOp
MO_VF_Neg {} -> panicOp
where
binLlvmOp ty binOp = do
(vx, stmts1, top1) <- exprToVar x
(vy, stmts2, top2) <- exprToVar y
if getVarType vx == getVarType vy
then do
(v1, s1) <- doExpr (ty vx) $ binOp vx vy
return (v1, stmts1 `appOL` stmts2 `snocOL` s1,
top1 ++ top2)
else do
dflags <- getDynFlags
let style = mkCodeStyle CStyle
toString doc = renderWithStyle dflags doc style
cmmToStr = (lines . toString . PprCmm.pprExpr)
let dx = Comment $ map fsLit $ cmmToStr x
let dy = Comment $ map fsLit $ cmmToStr y
(v1, s1) <- doExpr (ty vx) $ binOp vx vy
let allStmts = stmts1 `appOL` stmts2 `snocOL` dx
`snocOL` dy `snocOL` s1
return (v1, allStmts, top1 ++ top2)
binCastLlvmOp ty binOp = do
(vx, stmts1, top1) <- exprToVar x
(vy, stmts2, top2) <- exprToVar y
([vx', vy'], stmts3) <- castVars [(vx, ty), (vy, ty)]
(v1, s1) <- doExpr ty $ binOp vx' vy'
return (v1, stmts1 `appOL` stmts2 `appOL` stmts3 `snocOL` s1,
top1 ++ top2)
genBinComp opt cmp = do
ed@(v1, stmts, top) <- binLlvmOp (\_ -> i1) (Compare cmp)
dflags <- getDynFlags
if getVarType v1 == i1
then case i1Expected opt of
True -> return ed
False -> do
let w_ = llvmWord dflags
(v2, s1) <- doExpr w_ $ Cast LM_Zext v1 w_
return (v2, stmts `snocOL` s1, top)
else
panic $ "genBinComp: Compare returned type other then i1! "
++ (showSDoc dflags $ ppr $ getVarType v1)
genBinMach op = binLlvmOp getVarType (LlvmOp op)
genCastBinMach ty op = binCastLlvmOp ty (LlvmOp op)
isSMulOK :: Width -> CmmExpr -> CmmExpr -> LlvmM ExprData
isSMulOK _ x y = do
(vx, stmts1, top1) <- exprToVar x
(vy, stmts2, top2) <- exprToVar y
dflags <- getDynFlags
let word = getVarType vx
let word2 = LMInt $ 2 * (llvmWidthInBits dflags $ getVarType vx)
let shift = llvmWidthInBits dflags word
let shift1 = toIWord dflags (shift 1)
let shift2 = toIWord dflags shift
if isInt word
then do
(x1, s1) <- doExpr word2 $ Cast LM_Sext vx word2
(y1, s2) <- doExpr word2 $ Cast LM_Sext vy word2
(r1, s3) <- doExpr word2 $ LlvmOp LM_MO_Mul x1 y1
(rlow1, s4) <- doExpr word $ Cast LM_Trunc r1 word
(rlow2, s5) <- doExpr word $ LlvmOp LM_MO_AShr rlow1 shift1
(rhigh1, s6) <- doExpr word2 $ LlvmOp LM_MO_AShr r1 shift2
(rhigh2, s7) <- doExpr word $ Cast LM_Trunc rhigh1 word
(dst, s8) <- doExpr word $ LlvmOp LM_MO_Sub rlow2 rhigh2
let stmts = (unitOL s1) `snocOL` s2 `snocOL` s3 `snocOL` s4
`snocOL` s5 `snocOL` s6 `snocOL` s7 `snocOL` s8
return (dst, stmts1 `appOL` stmts2 `appOL` stmts,
top1 ++ top2)
else
panic $ "isSMulOK: Not bit type! (" ++ showSDoc dflags (ppr word) ++ ")"
panicOp = panic $ "LLVM.CodeGen.genMachOp_slow: unary op encourntered"
++ "with two arguments! (" ++ show op ++ ")"
genMachOp_slow _ _ _ = panic "genMachOp: More then 2 expressions in MachOp!"
genLoad :: CmmExpr -> CmmType -> LlvmM ExprData
genLoad e@(CmmReg (CmmGlobal r)) ty
= genLoad_fast e r 0 ty
genLoad e@(CmmRegOff (CmmGlobal r) n) ty
= genLoad_fast e r n ty
genLoad e@(CmmMachOp (MO_Add _) [
(CmmReg (CmmGlobal r)),
(CmmLit (CmmInt n _))])
ty
= genLoad_fast e r (fromInteger n) ty
genLoad e@(CmmMachOp (MO_Sub _) [
(CmmReg (CmmGlobal r)),
(CmmLit (CmmInt n _))])
ty
= genLoad_fast e r (negate $ fromInteger n) ty
genLoad e ty
= do other <- getTBAAMeta otherN
genLoad_slow e ty other
genLoad_fast :: CmmExpr -> GlobalReg -> Int -> CmmType
-> LlvmM ExprData
genLoad_fast e r n ty = do
dflags <- getDynFlags
(gv, grt, s1) <- getCmmRegVal (CmmGlobal r)
meta <- getTBAARegMeta r
let ty' = cmmToLlvmType ty
(ix,rem) = n `divMod` ((llvmWidthInBits dflags . pLower) grt `div` 8)
case isPointer grt && rem == 0 of
True -> do
(ptr, s2) <- doExpr grt $ GetElemPtr True gv [toI32 ix]
case grt == ty' of
True -> do
(var, s3) <- doExpr ty' (MExpr meta $ Load ptr)
return (var, s1 `snocOL` s2 `snocOL` s3,
[])
False -> do
let pty = pLift ty'
(ptr', s3) <- doExpr pty $ Cast LM_Bitcast ptr pty
(var, s4) <- doExpr ty' (MExpr meta $ Load ptr')
return (var, s1 `snocOL` s2 `snocOL` s3
`snocOL` s4, [])
False -> genLoad_slow e ty meta
genLoad_slow :: CmmExpr -> CmmType -> [MetaAnnot] -> LlvmM ExprData
genLoad_slow e ty meta = do
(iptr, stmts, tops) <- exprToVar e
dflags <- getDynFlags
case getVarType iptr of
LMPointer _ -> do
(dvar, load) <- doExpr (cmmToLlvmType ty)
(MExpr meta $ Load iptr)
return (dvar, stmts `snocOL` load, tops)
i@(LMInt _) | i == llvmWord dflags -> do
let pty = LMPointer $ cmmToLlvmType ty
(ptr, cast) <- doExpr pty $ Cast LM_Inttoptr iptr pty
(dvar, load) <- doExpr (cmmToLlvmType ty)
(MExpr meta $ Load ptr)
return (dvar, stmts `snocOL` cast `snocOL` load, tops)
other -> do dflags <- getDynFlags
pprPanic "exprToVar: CmmLoad expression is not right type!"
(PprCmm.pprExpr e <+> text (
"Size of Ptr: " ++ show (llvmPtrBits dflags) ++
", Size of var: " ++ show (llvmWidthInBits dflags other) ++
", Var: " ++ showSDoc dflags (ppr iptr)))
getCmmReg :: CmmReg -> LlvmM LlvmVar
getCmmReg (CmmLocal (LocalReg un _))
= do exists <- varLookup un
dflags <- getDynFlags
case exists of
Just ety -> return (LMLocalVar un $ pLift ety)
Nothing -> fail $ "getCmmReg: Cmm register " ++ showSDoc dflags (ppr un) ++ " was not allocated!"
getCmmReg (CmmGlobal g)
= do onStack <- checkStackReg g
dflags <- getDynFlags
if onStack
then return (lmGlobalRegVar dflags g)
else fail $ "getCmmReg: Cmm register " ++ showSDoc dflags (ppr g) ++ " not stack-allocated!"
getCmmRegVal :: CmmReg -> LlvmM (LlvmVar, LlvmType, LlvmStatements)
getCmmRegVal reg =
case reg of
CmmGlobal g -> do
onStack <- checkStackReg g
dflags <- getDynFlags
if onStack then loadFromStack else do
let r = lmGlobalRegArg dflags g
return (r, getVarType r, nilOL)
_ -> loadFromStack
where loadFromStack = do
ptr <- getCmmReg reg
let ty = pLower $ getVarType ptr
(v, s) <- doExpr ty (Load ptr)
return (v, ty, unitOL s)
allocReg :: CmmReg -> (LlvmVar, LlvmStatements)
allocReg (CmmLocal (LocalReg un ty))
= let ty' = cmmToLlvmType ty
var = LMLocalVar un (LMPointer ty')
alc = Alloca ty' 1
in (var, unitOL $ Assignment var alc)
allocReg _ = panic $ "allocReg: Global reg encountered! Global registers should"
++ " have been handled elsewhere!"
genLit :: EOption -> CmmLit -> LlvmM ExprData
genLit opt (CmmInt i w)
= let width | i1Expected opt = i1
| otherwise = LMInt (widthInBits w)
in return (mkIntLit width i, nilOL, [])
genLit _ (CmmFloat r w)
= return (LMLitVar $ LMFloatLit (fromRational r) (widthToLlvmFloat w),
nilOL, [])
genLit opt (CmmVec ls)
= do llvmLits <- mapM toLlvmLit ls
return (LMLitVar $ LMVectorLit llvmLits, nilOL, [])
where
toLlvmLit :: CmmLit -> LlvmM LlvmLit
toLlvmLit lit = do
(llvmLitVar, _, _) <- genLit opt lit
case llvmLitVar of
LMLitVar llvmLit -> return llvmLit
_ -> panic "genLit"
genLit _ cmm@(CmmLabel l)
= do var <- getGlobalPtr =<< strCLabel_llvm l
dflags <- getDynFlags
let lmty = cmmToLlvmType $ cmmLitType dflags cmm
(v1, s1) <- doExpr lmty $ Cast LM_Ptrtoint var (llvmWord dflags)
return (v1, unitOL s1, [])
genLit opt (CmmLabelOff label off) = do
dflags <- getDynFlags
(vlbl, stmts, stat) <- genLit opt (CmmLabel label)
let voff = toIWord dflags off
(v1, s1) <- doExpr (getVarType vlbl) $ LlvmOp LM_MO_Add vlbl voff
return (v1, stmts `snocOL` s1, stat)
genLit opt (CmmLabelDiffOff l1 l2 off) = do
dflags <- getDynFlags
(vl1, stmts1, stat1) <- genLit opt (CmmLabel l1)
(vl2, stmts2, stat2) <- genLit opt (CmmLabel l2)
let voff = toIWord dflags off
let ty1 = getVarType vl1
let ty2 = getVarType vl2
if (isInt ty1) && (isInt ty2)
&& (llvmWidthInBits dflags ty1 == llvmWidthInBits dflags ty2)
then do
(v1, s1) <- doExpr (getVarType vl1) $ LlvmOp LM_MO_Sub vl1 vl2
(v2, s2) <- doExpr (getVarType v1 ) $ LlvmOp LM_MO_Add v1 voff
return (v2, stmts1 `appOL` stmts2 `snocOL` s1 `snocOL` s2,
stat1 ++ stat2)
else
panic "genLit: CmmLabelDiffOff encountered with different label ty!"
genLit opt (CmmBlock b)
= genLit opt (CmmLabel $ infoTblLbl b)
genLit _ CmmHighStackMark
= panic "genStaticLit - CmmHighStackMark unsupported!"
funPrologue :: LiveGlobalRegs -> [CmmBlock] -> LlvmM StmtData
funPrologue live cmmBlocks = do
trash <- getTrashRegs
let getAssignedRegs :: CmmNode O O -> [CmmReg]
getAssignedRegs (CmmAssign reg _) = [reg]
getAssignedRegs (CmmUnsafeForeignCall _ rs _) = map CmmGlobal trash ++ map CmmLocal rs
getAssignedRegs _ = []
getRegsBlock (_, body, _) = concatMap getAssignedRegs $ blockToList body
assignedRegs = nub $ concatMap (getRegsBlock . blockSplit) cmmBlocks
isLive r = r `elem` alwaysLive || r `elem` live
dflags <- getDynFlags
stmtss <- flip mapM assignedRegs $ \reg ->
case reg of
CmmLocal (LocalReg un _) -> do
let (newv, stmts) = allocReg reg
varInsert un (pLower $ getVarType newv)
return stmts
CmmGlobal r -> do
let reg = lmGlobalRegVar dflags r
arg = lmGlobalRegArg dflags r
ty = (pLower . getVarType) reg
trash = LMLitVar $ LMUndefLit ty
rval = if isLive r then arg else trash
alloc = Assignment reg $ Alloca (pLower $ getVarType reg) 1
markStackReg r
return $ toOL [alloc, Store rval reg]
return (concatOL stmtss, [])
funEpilogue :: LiveGlobalRegs -> LlvmM ([LlvmVar], LlvmStatements)
funEpilogue live = do
let liveRegs = alwaysLive ++ live
isSSE (FloatReg _) = True
isSSE (DoubleReg _) = True
isSSE (XmmReg _) = True
isSSE _ = False
dflags <- getDynFlags
let loadExpr r = do
(v, _, s) <- getCmmRegVal (CmmGlobal r)
return (Just $ v, s)
loadUndef r = do
let ty = (pLower . getVarType $ lmGlobalRegVar dflags r)
return (Just $ LMLitVar $ LMUndefLit ty, nilOL)
platform <- getDynFlag targetPlatform
loads <- flip mapM (activeStgRegs platform) $ \r -> case () of
_ | r `elem` liveRegs -> loadExpr r
| not (isSSE r) -> loadUndef r
| otherwise -> return (Nothing, nilOL)
let (vars, stmts) = unzip loads
return (catMaybes vars, concatOL stmts)
getTrashStmts :: LlvmM LlvmStatements
getTrashStmts = do
regs <- getTrashRegs
stmts <- flip mapM regs $ \ r -> do
reg <- getCmmReg (CmmGlobal r)
let ty = (pLower . getVarType) reg
return $ Store (LMLitVar $ LMUndefLit ty) reg
return $ toOL stmts
getTrashRegs :: LlvmM [GlobalReg]
getTrashRegs = do plat <- getLlvmPlatform
return $ filter (callerSaves plat) (activeStgRegs plat)
getHsFunc :: LiveGlobalRegs -> CLabel -> LlvmM ExprData
getHsFunc live lbl
= do fty <- llvmFunTy live
name <- strCLabel_llvm lbl
getHsFunc' name fty
getHsFunc' :: LMString -> LlvmType -> LlvmM ExprData
getHsFunc' name fty
= do fun <- getGlobalPtr name
if getVarType fun == fty
then return (fun, nilOL, [])
else do (v1, s1) <- doExpr (pLift fty)
$ Cast LM_Bitcast fun (pLift fty)
return (v1, unitOL s1, [])
mkLocalVar :: LlvmType -> LlvmM LlvmVar
mkLocalVar ty = do
un <- runUs getUniqueUs
return $ LMLocalVar un ty
doExpr :: LlvmType -> LlvmExpression -> LlvmM (LlvmVar, LlvmStatement)
doExpr ty expr = do
v <- mkLocalVar ty
return (v, Assignment v expr)
expandCmmReg :: DynFlags -> (CmmReg, Int) -> CmmExpr
expandCmmReg dflags (reg, off)
= let width = typeWidth (cmmRegType dflags reg)
voff = CmmLit $ CmmInt (fromIntegral off) width
in CmmMachOp (MO_Add width) [CmmReg reg, voff]
blockIdToLlvm :: BlockId -> LlvmVar
blockIdToLlvm bid = LMLocalVar (getUnique bid) LMLabel
mkIntLit :: Integral a => LlvmType -> a -> LlvmVar
mkIntLit ty i = LMLitVar $ LMIntLit (toInteger i) ty
toI32 :: Integral a => a -> LlvmVar
toI32 = mkIntLit i32
toIWord :: Integral a => DynFlags -> a -> LlvmVar
toIWord dflags = mkIntLit (llvmWord dflags)
panic :: String -> a
panic s = Outputable.panic $ "LlvmCodeGen.CodeGen." ++ s
pprPanic :: String -> SDoc -> a
pprPanic s d = Outputable.pprPanic ("LlvmCodeGen.CodeGen." ++ s) d
getTBAAMeta :: Unique -> LlvmM [MetaAnnot]
getTBAAMeta u = do
mi <- getUniqMeta u
return [MetaAnnot tbaa (MetaNode i) | let Just i = mi]
getTBAARegMeta :: GlobalReg -> LlvmM [MetaAnnot]
getTBAARegMeta = getTBAAMeta . getTBAA