X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2FnativeGen%2FPprMach.lhs;h=304a4a2de4552b1570edaa778ce91aededd95b15;hb=25a35596e753b471ccc4811f9e91eec82fb55900;hp=80c0c0251acf974d5b3208d8456c3168c34b0b90;hpb=dcef38bab91d45b56f7cf3ceeec96303d93728bb;p=ghc-hetmet.git diff --git a/ghc/compiler/nativeGen/PprMach.lhs b/ghc/compiler/nativeGen/PprMach.lhs index 80c0c02..304a4a2 100644 --- a/ghc/compiler/nativeGen/PprMach.lhs +++ b/ghc/compiler/nativeGen/PprMach.lhs @@ -1,5 +1,5 @@ % -% (c) The AQUA Project, Glasgow University, 1996 +% (c) The AQUA Project, Glasgow University, 1996-1998 % \section[PprMach]{Pretty-printing assembly language} @@ -8,45 +8,25 @@ We start with the @pprXXX@s with some cross-platform commonality @pprInstr@. \begin{code} -#include "HsVersions.h" #include "nativeGen/NCG.h" module PprMach ( pprInstr ) where -IMPORT_1_3(Char(isPrint,isDigit)) -#if __GLASGOW_HASKELL__ == 201 -import qualified GHCbase(Addr(..)) -- to see innards -IMP_Ubiq(){-uitious-} -#elif __GLASGOW_HASKELL__ >= 202 -import qualified GlaExts (Addr(..)) -import GlaExts hiding (Addr(..)) -import FastString -import Ubiq -#else -IMP_Ubiq(){-uitious-} -#endif +#include "HsVersions.h" import MachRegs -- may differ per-platform import MachMisc -import AbsCSyn ( MagicId ) import CLabel ( pprCLabel_asm, externallyVisibleCLabel ) import CStrings ( charToC ) import Maybes ( maybeToBool ) -import OrdList ( OrdList ) -import Stix ( CodeSegment(..), StixTree ) -import Pretty -- all of it - -#if __GLASGOW_HASKELL__ == 201 -a_HASH x = GHCbase.A# x -pACK_STR x = packCString x -#elif __GLASGOW_HASKELL__ >= 202 -a_HASH x = GlaExts.A# x -pACK_STR x = mkFastCharString x -#else -a_HASH x = A# x -pACK_STR x = mkFastCharString x --_packCString x -#endif +import Stix ( CodeSegment(..), StixTree(..) ) +import Char ( isPrint, isDigit ) +import Outputable + +import ST +import MutableArray +import Char ( ord ) \end{code} %************************************************************************ @@ -58,7 +38,7 @@ pACK_STR x = mkFastCharString x --_packCString x For x86, the way we print a register name depends on which bit of it we care about. Yurgh. \begin{code} -pprReg :: IF_ARCH_i386(Size ->,) Reg -> Doc +pprReg :: IF_ARCH_i386(Size ->,) Reg -> SDoc pprReg IF_ARCH_i386(s,) r = case r of @@ -67,7 +47,7 @@ pprReg IF_ARCH_i386(s,) r other -> text (show other) -- should only happen when debugging where #if alpha_TARGET_ARCH - ppr_reg_no :: FAST_REG_NO -> Doc + ppr_reg_no :: FAST_REG_NO -> SDoc ppr_reg_no i = ptext (case i of { ILIT( 0) -> SLIT("$0"); ILIT( 1) -> SLIT("$1"); @@ -106,7 +86,7 @@ pprReg IF_ARCH_i386(s,) r }) #endif #if i386_TARGET_ARCH - ppr_reg_no :: Size -> FAST_REG_NO -> Doc + ppr_reg_no :: Size -> FAST_REG_NO -> SDoc ppr_reg_no B i = ptext (case i of { ILIT( 0) -> SLIT("%al"); ILIT( 1) -> SLIT("%bl"); @@ -164,7 +144,7 @@ pprReg IF_ARCH_i386(s,) r }) #endif #if sparc_TARGET_ARCH - ppr_reg_no :: FAST_REG_NO -> Doc + ppr_reg_no :: FAST_REG_NO -> SDoc ppr_reg_no i = ptext (case i of { ILIT( 0) -> SLIT("%g0"); ILIT( 1) -> SLIT("%g1"); @@ -211,7 +191,7 @@ pprReg IF_ARCH_i386(s,) r %************************************************************************ \begin{code} -pprSize :: Size -> Doc +pprSize :: Size -> SDoc pprSize x = ptext (case x of #if alpha_TARGET_ARCH @@ -245,7 +225,7 @@ pprSize x = ptext (case x of -- D -> SLIT("d") UNUSED DF -> SLIT("d") ) -pprStSize :: Size -> Doc +pprStSize :: Size -> SDoc pprStSize x = ptext (case x of B -> SLIT("b") BU -> SLIT("b") @@ -266,7 +246,7 @@ pprStSize x = ptext (case x of %************************************************************************ \begin{code} -pprCond :: Cond -> Doc +pprCond :: Cond -> SDoc pprCond c = ptext (case c of { #if alpha_TARGET_ARCH @@ -308,11 +288,12 @@ pprCond c = ptext (case c of { %************************************************************************ \begin{code} -pprImm :: Imm -> Doc +pprImm :: Imm -> SDoc pprImm (ImmInt i) = int i pprImm (ImmInteger i) = integer i pprImm (ImmCLbl l) = pprCLabel_asm l +pprImm (ImmIndex l i) = pprCLabel_asm l <> char '+' <> int i pprImm (ImmLit s) = s pprImm (ImmLab s) | underscorePrefix = (<>) (char '_') s @@ -322,12 +303,12 @@ pprImm (ImmLab s) | underscorePrefix = (<>) (char '_') s pprImm (LO i) = hcat [ pp_lo, pprImm i, rparen ] where - pp_lo = ptext (pACK_STR (a_HASH "%lo("#)) + pp_lo = text "%lo(" pprImm (HI i) = hcat [ pp_hi, pprImm i, rparen ] where - pp_hi = ptext (pACK_STR (a_HASH "%hi("#)) + pp_hi = text "%hi(" #endif \end{code} @@ -338,7 +319,7 @@ pprImm (HI i) %************************************************************************ \begin{code} -pprAddr :: Addr -> Doc +pprAddr :: MachRegsAddr -> SDoc #if alpha_TARGET_ARCH pprAddr (AddrReg r) = parens (pprReg r) @@ -361,7 +342,7 @@ pprAddr (ImmAddr imm off) else hcat [pp_imm, char '+', int off] -pprAddr (Addr base index displacement) +pprAddr (AddrBaseIndex base index displacement) = let pp_disp = ppr_disp displacement pp_off p = (<>) pp_disp (parens p) @@ -411,25 +392,27 @@ pprAddr (AddrRegImm r1 imm) %************************************************************************ \begin{code} -pprInstr :: Instr -> Doc +pprInstr :: Instr -> SDoc -pprInstr (COMMENT s) = empty -- nuke 'em ---alpha: = (<>) (ptext SLIT("\t# ")) (ptext s) ---i386 : = (<>) (ptext SLIT("# ")) (ptext s) ---sparc: = (<>) (ptext SLIT("! ")) (ptext s) +--pprInstr (COMMENT s) = empty -- nuke 'em +pprInstr (COMMENT s) + = IF_ARCH_alpha( ((<>) (ptext SLIT("\t# ")) (ptext s)) + ,IF_ARCH_sparc( ((<>) (ptext SLIT("! ")) (ptext s)) + ,IF_ARCH_i386( ((<>) (ptext SLIT("# ")) (ptext s)) + ,))) pprInstr (SEGMENT TextSegment) = ptext IF_ARCH_alpha(SLIT("\t.text\n\t.align 3") {-word boundary-} ,IF_ARCH_sparc(SLIT("\t.text\n\t.align 4") {-word boundary-} - ,IF_ARCH_i386((_PK_ ".text\n\t.align 2\x2c\&0x90") {-needs per-OS variation!-} + ,IF_ARCH_i386(SLIT(".text\n\t.align 4") {-needs per-OS variation!-} ,))) pprInstr (SEGMENT DataSegment) = ptext IF_ARCH_alpha(SLIT("\t.data\n\t.align 3") ,IF_ARCH_sparc(SLIT("\t.data\n\t.align 8") {-<8 will break double constants -} - ,IF_ARCH_i386(SLIT(".data\n\t.align 2") + ,IF_ARCH_i386(SLIT(".data\n\t.align 4") ,))) pprInstr (LABEL clab) @@ -456,18 +439,19 @@ pprInstr (ASCII False{-no backslash conversion-} str) pprInstr (ASCII True str) = (<>) (text "\t.ascii \"") (asciify str 60) where - asciify :: String -> Int -> Doc + asciify :: String -> Int -> SDoc asciify [] _ = text "\\0\"" asciify s n | n <= 0 = (<>) (text "\"\n\t.ascii \"") (asciify s 60) asciify ('\\':cs) n = (<>) (text "\\\\") (asciify cs (n-1)) asciify ('\"':cs) n = (<>) (text "\\\"") (asciify cs (n-1)) asciify (c:cs) n | isPrint c = (<>) (char c) (asciify cs (n-1)) - asciify [c] _ = (<>) (text (charToC c)) (text ("\\0\"")) + asciify [c] _ = (<>) (text (charToC c)) (text ("\\0\"")){-"-} asciify (c:(cs@(d:_))) n | isDigit d = (<>) (text (charToC c)) (asciify cs 0) | otherwise = (<>) (text (charToC c)) (asciify cs (n-1)) +#if 0 pprInstr (DATA s xs) = vcat [(<>) (ptext pp_size) (pprImm x) | x <- xs] where @@ -475,22 +459,13 @@ pprInstr (DATA s xs) #if alpha_TARGET_ARCH B -> SLIT("\t.byte\t") BU -> SLIT("\t.byte\t") ---UNUSED: W -> SLIT("\t.word\t") ---UNUSED: WU -> SLIT("\t.word\t") ---UNUSED: L -> SLIT("\t.long\t") Q -> SLIT("\t.quad\t") ---UNUSED: FF -> SLIT("\t.f_floating\t") ---UNUSED: DF -> SLIT("\t.d_floating\t") ---UNUSED: GF -> SLIT("\t.g_floating\t") ---UNUSED: SF -> SLIT("\t.s_floating\t") TF -> SLIT("\t.t_floating\t") #endif #if i386_TARGET_ARCH B -> SLIT("\t.byte\t") ---UNUSED: HB -> SLIT("\t.byte\t") ---UNUSED: S -> SLIT("\t.word\t") L -> SLIT("\t.long\t") - F -> SLIT("\t.long\t") + F -> SLIT("\t.float\t") DF -> SLIT("\t.double\t") #endif #if sparc_TARGET_ARCH @@ -499,6 +474,65 @@ pprInstr (DATA s xs) W -> SLIT("\t.word\t") DF -> SLIT("\t.double\t") #endif +#endif + + +pprInstr (DATA s xs) + = vcat (concatMap (ppr_item s) xs) + where +#if alpha_TARGET_ARCH + This needs to be fixed. + B -> SLIT("\t.byte\t") + BU -> SLIT("\t.byte\t") + Q -> SLIT("\t.quad\t") + TF -> SLIT("\t.t_floating\t") +#endif +#if i386_TARGET_ARCH + ppr_item B x = [text "\t.byte\t" <> pprImm x] + ppr_item L x = [text "\t.long\t" <> pprImm x] + ppr_item F (ImmDouble r) + = let bs = floatToBytes (fromRational r) + in map (\b -> text "\t.byte\t" <> pprImm (ImmInt b)) bs + ppr_item DF (ImmDouble r) + = let bs = doubleToBytes (fromRational r) + in map (\b -> text "\t.byte\t" <> pprImm (ImmInt b)) bs + + floatToBytes :: Float -> [Int] + floatToBytes f + = runST (do + arr <- newFloatArray ((0::Int),3) + writeFloatArray arr 0 f + i0 <- readCharArray arr 0 + i1 <- readCharArray arr 1 + i2 <- readCharArray arr 2 + i3 <- readCharArray arr 3 + return (map ord [i0,i1,i2,i3]) + ) + + doubleToBytes :: Double -> [Int] + doubleToBytes d + = runST (do + arr <- newDoubleArray ((0::Int),7) + writeDoubleArray arr 0 d + i0 <- readCharArray arr 0 + i1 <- readCharArray arr 1 + i2 <- readCharArray arr 2 + i3 <- readCharArray arr 3 + i4 <- readCharArray arr 4 + i5 <- readCharArray arr 5 + i6 <- readCharArray arr 6 + i7 <- readCharArray arr 7 + return (map ord [i0,i1,i2,i3,i4,i5,i6,i7]) + ) + +#endif +#if sparc_TARGET_ARCH + This needs to be fixed. + B -> SLIT("\t.byte\t") + BU -> SLIT("\t.byte\t") + W -> SLIT("\t.word\t") + DF -> SLIT("\t.double\t") +#endif -- fall through to rest of (machine-specific) pprInstr... \end{code} @@ -841,8 +875,12 @@ pprInstr (FUNBEGIN clab) where pp_lab = pprCLabel_asm clab - pp_ldgp = ptext (pACK_STR (a_HASH ":\n\tldgp $29,0($27)\n"#)) - pp_frame = ptext (pACK_STR (a_HASH "..ng:\n\t.frame $30,4240,$26,0\n\t.prologue 1"#)) + -- NEVER use commas within those string literals, cpp will ruin your day + pp_ldgp = hcat [ ptext SLIT(":\n\tldgp $29"), char ',', ptext SLIT("0($27)\n") ] + pp_frame = hcat [ ptext SLIT("..ng:\n\t.frame $30"), char ',', + ptext SLIT("4240"), char ',', + ptext SLIT("$26"), char ',', + ptext SLIT("0\n\t.prologue 1") ] pprInstr (FUNEND clab) = (<>) (ptext SLIT("\t.align 4\n\t.end ")) (pprCLabel_asm clab) @@ -850,12 +888,12 @@ pprInstr (FUNEND clab) Continue with Alpha-only printing bits and bobs: \begin{code} -pprRI :: RI -> Doc +pprRI :: RI -> SDoc pprRI (RIReg r) = pprReg r pprRI (RIImm r) = pprImm r -pprRegRIReg :: FAST_STRING -> Reg -> RI -> Reg -> Doc +pprRegRIReg :: FAST_STRING -> Reg -> RI -> Reg -> SDoc pprRegRIReg name reg1 ri reg2 = hcat [ @@ -869,7 +907,7 @@ pprRegRIReg name reg1 ri reg2 pprReg reg2 ] -pprSizeRegRegReg :: FAST_STRING -> Size -> Reg -> Reg -> Reg -> Doc +pprSizeRegRegReg :: FAST_STRING -> Size -> Reg -> Reg -> Reg -> SDoc pprSizeRegRegReg name size reg1 reg2 reg3 = hcat [ @@ -896,9 +934,14 @@ pprSizeRegRegReg name size reg1 reg2 reg3 \begin{code} #if i386_TARGET_ARCH -pprInstr (MOV size (OpReg src) (OpReg dst)) -- hack +pprInstr v@(MOV size s@(OpReg src) d@(OpReg dst)) -- hack | src == dst - = ptext SLIT("") + = +#ifdef DEBUG + (<>) (ptext SLIT("# warning: ")) (pprSizeOpOp SLIT("mov") size s d) +#else + (ptext SLIT("")) +#endif pprInstr (MOV size src dst) = pprSizeOpOp SLIT("mov") size src dst pprInstr (MOVZX size src dst) = pprSizeOpOpCoerce SLIT("movzx") L size src dst @@ -906,13 +949,13 @@ pprInstr (MOVSX size src dst) = pprSizeOpOpCoerce SLIT("movxs") L size src dst -- here we do some patching, since the physical registers are only set late -- in the code generation. -pprInstr (LEA size (OpAddr (Addr src1@(Just reg1) (Just (reg2,1)) (ImmInt 0))) dst@(OpReg reg3)) +pprInstr (LEA size (OpAddr (AddrBaseIndex src1@(Just reg1) (Just (reg2,1)) (ImmInt 0))) dst@(OpReg reg3)) | reg1 == reg3 = pprSizeOpOp SLIT("add") size (OpReg reg2) dst -pprInstr (LEA size (OpAddr (Addr src1@(Just reg1) (Just (reg2,1)) (ImmInt 0))) dst@(OpReg reg3)) +pprInstr (LEA size (OpAddr (AddrBaseIndex src1@(Just reg1) (Just (reg2,1)) (ImmInt 0))) dst@(OpReg reg3)) | reg2 == reg3 = pprSizeOpOp SLIT("add") size (OpReg reg1) dst -pprInstr (LEA size (OpAddr (Addr src1@(Just reg1) Nothing displ)) dst@(OpReg reg3)) +pprInstr (LEA size (OpAddr (AddrBaseIndex src1@(Just reg1) Nothing displ)) dst@(OpReg reg3)) | reg1 == reg3 = pprInstr (ADD size (OpImm displ) dst) pprInstr (LEA size src dst) = pprSizeOpOp SLIT("lea") size src dst @@ -932,14 +975,17 @@ pprInstr (OR size src dst) = pprSizeOpOp SLIT("or") size src dst pprInstr (XOR size src dst) = pprSizeOpOp SLIT("xor") size src dst pprInstr (NOT size op) = pprSizeOp SLIT("not") size op pprInstr (NEGI size op) = pprSizeOp SLIT("neg") size op -pprInstr (SHL size imm dst) = pprSizeOpOp SLIT("shl") size imm dst -pprInstr (SAR size imm dst) = pprSizeOpOp SLIT("sar") size imm dst -pprInstr (SHR size imm dst) = pprSizeOpOp SLIT("shr") size imm dst + +pprInstr (SHL size imm dst) = pprSizeByteOpOp SLIT("shl") size imm dst +pprInstr (SAR size imm dst) = pprSizeByteOpOp SLIT("sar") size imm dst +pprInstr (SHR size imm dst) = pprSizeByteOpOp SLIT("shr") size imm dst pprInstr (CMP size src dst) = pprSizeOpOp SLIT("cmp") size src dst pprInstr (TEST size src dst) = pprSizeOpOp SLIT("test") size src dst pprInstr (PUSH size op) = pprSizeOp SLIT("push") size op pprInstr (POP size op) = pprSizeOp SLIT("pop") size op +pprInstr PUSHA = ptext SLIT("\tpushal") +pprInstr POPA = ptext SLIT("\tpopal") pprInstr (NOP) = ptext SLIT("\tnop") pprInstr (CLTD) = ptext SLIT("\tcltd") @@ -1020,16 +1066,16 @@ pprInstr FNOP = ptext SLIT("") Continue with I386-only printing bits and bobs: \begin{code} -pprDollImm :: Imm -> Doc +pprDollImm :: Imm -> SDoc pprDollImm i = hcat [ ptext SLIT("$"), pprImm i] -pprOperand :: Size -> Operand -> Doc +pprOperand :: Size -> Operand -> SDoc pprOperand s (OpReg r) = pprReg s r pprOperand s (OpImm i) = pprDollImm i pprOperand s (OpAddr ea) = pprAddr ea -pprSizeOp :: FAST_STRING -> Size -> Operand -> Doc +pprSizeOp :: FAST_STRING -> Size -> Operand -> SDoc pprSizeOp name size op1 = hcat [ char '\t', @@ -1039,7 +1085,7 @@ pprSizeOp name size op1 pprOperand size op1 ] -pprSizeOpOp :: FAST_STRING -> Size -> Operand -> Operand -> Doc +pprSizeOpOp :: FAST_STRING -> Size -> Operand -> Operand -> SDoc pprSizeOpOp name size op1 op2 = hcat [ char '\t', @@ -1051,7 +1097,19 @@ pprSizeOpOp name size op1 op2 pprOperand size op2 ] -pprSizeOpReg :: FAST_STRING -> Size -> Operand -> Reg -> Doc +pprSizeByteOpOp :: FAST_STRING -> Size -> Operand -> Operand -> SDoc +pprSizeByteOpOp name size op1 op2 + = hcat [ + char '\t', + ptext name, + pprSize size, + space, + pprOperand B op1, + comma, + pprOperand size op2 + ] + +pprSizeOpReg :: FAST_STRING -> Size -> Operand -> Reg -> SDoc pprSizeOpReg name size op1 reg = hcat [ char '\t', @@ -1063,7 +1121,7 @@ pprSizeOpReg name size op1 reg pprReg size reg ] -pprSizeAddr :: FAST_STRING -> Size -> Addr -> Doc +pprSizeAddr :: FAST_STRING -> Size -> MachRegsAddr -> SDoc pprSizeAddr name size op = hcat [ char '\t', @@ -1073,7 +1131,7 @@ pprSizeAddr name size op pprAddr op ] -pprSizeAddrReg :: FAST_STRING -> Size -> Addr -> Reg -> Doc +pprSizeAddrReg :: FAST_STRING -> Size -> MachRegsAddr -> Reg -> SDoc pprSizeAddrReg name size op dst = hcat [ char '\t', @@ -1085,7 +1143,7 @@ pprSizeAddrReg name size op dst pprReg size dst ] -pprOpOp :: FAST_STRING -> Size -> Operand -> Operand -> Doc +pprOpOp :: FAST_STRING -> Size -> Operand -> Operand -> SDoc pprOpOp name size op1 op2 = hcat [ char '\t', @@ -1095,7 +1153,7 @@ pprOpOp name size op1 op2 pprOperand size op2 ] -pprSizeOpOpCoerce :: FAST_STRING -> Size -> Size -> Operand -> Operand -> Doc +pprSizeOpOpCoerce :: FAST_STRING -> Size -> Size -> Operand -> Operand -> SDoc pprSizeOpOpCoerce name size1 size2 op1 op2 = hcat [ char '\t', ptext name, space, pprOperand size1 op1, @@ -1103,7 +1161,7 @@ pprSizeOpOpCoerce name size1 size2 op1 op2 pprOperand size2 op2 ] -pprCondInstr :: FAST_STRING -> Cond -> Doc -> Doc +pprCondInstr :: FAST_STRING -> Cond -> SDoc -> SDoc pprCondInstr name cond arg = hcat [ char '\t', ptext name, pprCond cond, space, arg] @@ -1121,6 +1179,16 @@ pprCondInstr name cond arg -- a clumsy hack for now, to handle possible double alignment problems +-- even clumsier, to allow for RegReg regs that show when doing indexed +-- reads (bytearrays). +-- +pprInstr (LD DF (AddrRegReg g1 g2) reg) + = hcat [ + ptext SLIT("\tadd\t"), pprReg g1,comma,pprReg g2,comma,pprReg g1, char '\n', + pp_ld_lbracket, pprReg g1, pp_rbracket_comma, pprReg reg, char '\n', + pp_ld_lbracket, pprReg g1, ptext SLIT("+4]"), comma, pprReg (fPair reg) + ] + pprInstr (LD DF addr reg) | maybeToBool off_addr = hcat [ pp_ld_lbracket, @@ -1151,18 +1219,24 @@ pprInstr (LD size addr reg) -- The same clumsy hack as above -pprInstr (ST DF reg addr) | maybeToBool off_addr - = hcat [ +pprInstr (ST DF reg (AddrRegReg g1 g2)) + = hcat [ + ptext SLIT("\tadd\t"), + pprReg g1,comma,pprReg g2,comma,pprReg g1, char '\n', + ptext SLIT("\tst\t"), + pprReg reg, pp_comma_lbracket, pprReg g1, + ptext SLIT("]\n\tst\t"), + pprReg (fPair reg), pp_comma_lbracket, pprReg g1, ptext SLIT("+4]") + ] + +pprInstr (ST DF reg addr) | maybeToBool off_addr + = hcat [ ptext SLIT("\tst\t"), - pprReg reg, - pp_comma_lbracket, - pprAddr addr, + pprReg reg, pp_comma_lbracket, pprAddr addr, ptext SLIT("]\n\tst\t"), - pprReg (fPair reg), - pp_comma_lbracket, - pprAddr addr2, - rbrack + pprReg (fPair reg), pp_comma_lbracket, + pprAddr addr2, rbrack ] where off_addr = addrOffset addr 4 @@ -1299,11 +1373,11 @@ pprInstr (CALL imm n _) Continue with SPARC-only printing bits and bobs: \begin{code} -pprRI :: RI -> Doc +pprRI :: RI -> SDoc pprRI (RIReg r) = pprReg r pprRI (RIImm r) = pprImm r -pprSizeRegReg :: FAST_STRING -> Size -> Reg -> Reg -> Doc +pprSizeRegReg :: FAST_STRING -> Size -> Reg -> Reg -> SDoc pprSizeRegReg name size reg1 reg2 = hcat [ char '\t', @@ -1316,7 +1390,7 @@ pprSizeRegReg name size reg1 reg2 pprReg reg2 ] -pprSizeRegRegReg :: FAST_STRING -> Size -> Reg -> Reg -> Reg -> Doc +pprSizeRegRegReg :: FAST_STRING -> Size -> Reg -> Reg -> Reg -> SDoc pprSizeRegRegReg name size reg1 reg2 reg3 = hcat [ char '\t', @@ -1331,7 +1405,7 @@ pprSizeRegRegReg name size reg1 reg2 reg3 pprReg reg3 ] -pprRegRIReg :: FAST_STRING -> Bool -> Reg -> RI -> Reg -> Doc +pprRegRIReg :: FAST_STRING -> Bool -> Reg -> RI -> Reg -> SDoc pprRegRIReg name b reg1 ri reg2 = hcat [ char '\t', @@ -1344,7 +1418,7 @@ pprRegRIReg name b reg1 ri reg2 pprReg reg2 ] -pprRIReg :: FAST_STRING -> Bool -> RI -> Reg -> Doc +pprRIReg :: FAST_STRING -> Bool -> RI -> Reg -> SDoc pprRIReg name b ri reg1 = hcat [ char '\t', @@ -1355,10 +1429,10 @@ pprRIReg name b ri reg1 pprReg reg1 ] -pp_ld_lbracket = ptext (pACK_STR (a_HASH "\tld\t["#)) -pp_rbracket_comma = ptext (pACK_STR (a_HASH "],"#)) -pp_comma_lbracket = ptext (pACK_STR (a_HASH ",["#)) -pp_comma_a = ptext (pACK_STR (a_HASH ",a"#)) +pp_ld_lbracket = ptext SLIT("\tld\t[") +pp_rbracket_comma = text "]," +pp_comma_lbracket = text ",[" +pp_comma_a = text ",a" #endif {-sparc_TARGET_ARCH-} \end{code}