--
-- Pretty-printing assembly language
--
- -- (c) The University of Glasgow 1993-2004
- --
+-- (c) The University of Glasgow 1993-2005
+--
-----------------------------------------------------------------------------
-- We start with the @pprXXX@s with some cross-platform commonality
#include "HsVersions.h"
import Cmm
-import MachOp ( MachRep(..) )
+import MachOp ( MachRep(..), wordRep, isFloatingRep )
import MachRegs -- may differ per-platform
import MachInstrs
import CLabel ( CLabel, pprCLabel, externallyVisibleCLabel,
labelDynamic, mkAsmTempLabel, entryLblToInfoLbl )
+#if HAVE_SUBSECTIONS_VIA_SYMBOLS
+import CLabel ( mkDeadStripPreventer )
+#endif
import Panic ( panic )
import Unique ( pprUnique )
import FastString
import qualified Outputable
-import CmdLineOpts ( opt_PIC )
+import StaticFlags ( opt_PIC, opt_Static )
#if __GLASGOW_HASKELL__ >= 504
import Data.Array.ST
pprNatCmmTop (CmmProc info lbl params blocks) =
pprSectionHeader Text $$
(if not (null info)
- then vcat (map pprData info)
- $$ pprLabel (entryLblToInfoLbl lbl)
+ then
+#if HAVE_SUBSECTIONS_VIA_SYMBOLS
+ pprCLabel_asm (mkDeadStripPreventer $ entryLblToInfoLbl lbl)
+ <> char ':' $$
+#endif
+ vcat (map pprData info) $$
+ pprLabel (entryLblToInfoLbl lbl)
else empty) $$
(case blocks of
[] -> empty
(if null info then pprLabel lbl else empty) $$
-- the first block doesn't get a label:
vcat (map pprInstr instrs) $$
- vcat (map pprBasicBlock rest))
+ vcat (map pprBasicBlock rest)
+ )
+#if HAVE_SUBSECTIONS_VIA_SYMBOLS
+ -- If we are using the .subsections_via_symbols directive
+ -- (available on recent versions of Darwin),
+ -- we have to make sure that there is some kind of reference
+ -- from the entry code to a label on the _top_ of of the info table,
+ -- so that the linker will not think it is unreferenced and dead-strip
+ -- it. That's why the label is called a DeadStripPreventer (_dsp).
+ $$ if not (null info)
+ then text "\t.long "
+ <+> pprCLabel_asm (entryLblToInfoLbl lbl)
+ <+> char '-'
+ <+> pprCLabel_asm (mkDeadStripPreventer $ entryLblToInfoLbl lbl)
+ else empty
+#endif
pprBasicBlock :: NatBasicBlock -> Doc
-- on which bit of it we care about. Yurgh.
pprUserReg :: Reg -> Doc
-pprUserReg = pprReg IF_ARCH_i386(I32,)
+pprUserReg = pprReg IF_ARCH_i386(I32,) IF_ARCH_x86_64(I64,)
-pprReg :: IF_ARCH_i386(MachRep ->,) Reg -> Doc
+pprReg :: IF_ARCH_i386(MachRep ->,) IF_ARCH_x86_64(MachRep ->,) Reg -> Doc
-pprReg IF_ARCH_i386(s,) r
+pprReg IF_ARCH_i386(s,) IF_ARCH_x86_64(s,) r
= case r of
- RealReg i -> ppr_reg_no IF_ARCH_i386(s,) i
+ RealReg i -> ppr_reg_no IF_ARCH_i386(s,) IF_ARCH_x86_64(s,) i
VirtualRegI u -> text "%vI_" <> asmSDoc (pprUnique u)
VirtualRegHi u -> text "%vHi_" <> asmSDoc (pprUnique u)
VirtualRegF u -> text "%vF_" <> asmSDoc (pprUnique u)
_ -> SLIT("very naughty I386 register")
})
#endif
+
+#if x86_64_TARGET_ARCH
+ ppr_reg_no :: MachRep -> Int -> Doc
+ ppr_reg_no I8 = ppr_reg_byte
+ ppr_reg_no I16 = ppr_reg_word
+ ppr_reg_no I32 = ppr_reg_long
+ ppr_reg_no _ = ppr_reg_quad
+
+ ppr_reg_byte i = ptext
+ (case i of {
+ 0 -> SLIT("%al"); 1 -> SLIT("%bl");
+ 2 -> SLIT("%cl"); 3 -> SLIT("%dl");
+ 4 -> SLIT("%sil"); 5 -> SLIT("%dil"); -- new 8-bit regs!
+ 6 -> SLIT("%bpl"); 7 -> SLIT("%spl");
+ 8 -> SLIT("%r8b"); 9 -> SLIT("%r9b");
+ 10 -> SLIT("%r10b"); 11 -> SLIT("%r11b");
+ 12 -> SLIT("%r12b"); 13 -> SLIT("%r13b");
+ 14 -> SLIT("%r14b"); 15 -> SLIT("%r15b");
+ _ -> SLIT("very naughty x86_64 byte register")
+ })
+
+ ppr_reg_word i = ptext
+ (case i of {
+ 0 -> SLIT("%ax"); 1 -> SLIT("%bx");
+ 2 -> SLIT("%cx"); 3 -> SLIT("%dx");
+ 4 -> SLIT("%si"); 5 -> SLIT("%di");
+ 6 -> SLIT("%bp"); 7 -> SLIT("%sp");
+ 8 -> SLIT("%r8w"); 9 -> SLIT("%r9w");
+ 10 -> SLIT("%r10w"); 11 -> SLIT("%r11w");
+ 12 -> SLIT("%r12w"); 13 -> SLIT("%r13w");
+ 14 -> SLIT("%r14w"); 15 -> SLIT("%r15w");
+ _ -> SLIT("very naughty x86_64 word register")
+ })
+
+ ppr_reg_long i = ptext
+ (case i of {
+ 0 -> SLIT("%eax"); 1 -> SLIT("%ebx");
+ 2 -> SLIT("%ecx"); 3 -> SLIT("%edx");
+ 4 -> SLIT("%esi"); 5 -> SLIT("%edi");
+ 6 -> SLIT("%ebp"); 7 -> SLIT("%esp");
+ 8 -> SLIT("%r8d"); 9 -> SLIT("%r9d");
+ 10 -> SLIT("%r10d"); 11 -> SLIT("%r11d");
+ 12 -> SLIT("%r12d"); 13 -> SLIT("%r13d");
+ 14 -> SLIT("%r14d"); 15 -> SLIT("%r15d");
+ _ -> SLIT("very naughty x86_64 register")
+ })
+
+ ppr_reg_quad i = ptext
+ (case i of {
+ 0 -> SLIT("%rax"); 1 -> SLIT("%rbx");
+ 2 -> SLIT("%rcx"); 3 -> SLIT("%rdx");
+ 4 -> SLIT("%rsi"); 5 -> SLIT("%rdi");
+ 6 -> SLIT("%rbp"); 7 -> SLIT("%rsp");
+ 8 -> SLIT("%r8"); 9 -> SLIT("%r9");
+ 10 -> SLIT("%r10"); 11 -> SLIT("%r11");
+ 12 -> SLIT("%r12"); 13 -> SLIT("%r13");
+ 14 -> SLIT("%r14"); 15 -> SLIT("%r15");
+ 16 -> SLIT("%xmm0"); 17 -> SLIT("%xmm1");
+ 18 -> SLIT("%xmm2"); 19 -> SLIT("%xmm3");
+ 20 -> SLIT("%xmm4"); 21 -> SLIT("%xmm5");
+ 22 -> SLIT("%xmm6"); 23 -> SLIT("%xmm7");
+ 24 -> SLIT("%xmm8"); 25 -> SLIT("%xmm9");
+ 26 -> SLIT("%xmm10"); 27 -> SLIT("%xmm11");
+ 28 -> SLIT("%xmm12"); 29 -> SLIT("%xmm13");
+ 30 -> SLIT("%xmm14"); 31 -> SLIT("%xmm15");
+ _ -> SLIT("very naughty x86_64 register")
+ })
+#endif
+
#if sparc_TARGET_ARCH
ppr_reg_no :: Int -> Doc
ppr_reg_no i = ptext
-- -----------------------------------------------------------------------------
-- pprSize: print a 'Size'
-#if powerpc_TARGET_ARCH || i386_TARGET_ARCH
+#if powerpc_TARGET_ARCH || i386_TARGET_ARCH || x86_64_TARGET_ARCH
pprSize :: MachRep -> Doc
#else
pprSize :: Size -> Doc
-- SF -> SLIT("s") UNUSED
TF -> SLIT("t")
#endif
-#if i386_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
I8 -> SLIT("b")
I16 -> SLIT("w")
I32 -> SLIT("l")
- F32 -> SLIT("s")
- F64 -> SLIT("l")
+ I64 -> SLIT("q")
+#endif
+#if i386_TARGET_ARCH
+ F32 -> SLIT("l")
+ F64 -> SLIT("q")
F80 -> SLIT("t")
#endif
+#if x86_64_TARGET_ARCH
+ F32 -> SLIT("ss") -- "scalar single-precision float" (SSE2)
+ F64 -> SLIT("sd") -- "scalar double-precision float" (SSE2)
+#endif
#if sparc_TARGET_ARCH
B -> SLIT("sb")
Bu -> SLIT("ub")
GTT -> SLIT("gt");
GE -> SLIT("ge")
#endif
-#if i386_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
GEU -> SLIT("ae"); LU -> SLIT("b");
- EQQ -> SLIT("e"); GTT -> SLIT("g");
+ EQQ -> SLIT("e"); GTT -> SLIT("g");
GE -> SLIT("ge"); GU -> SLIT("a");
LTT -> SLIT("l"); LE -> SLIT("le");
LEU -> SLIT("be"); NE -> SLIT("ne");
-------------------
-#if i386_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
pprAddr (ImmAddr imm off)
= let pp_imm = pprImm imm
in
= let
pp_disp = ppr_disp displacement
pp_off p = pp_disp <> char '(' <> p <> char ')'
- pp_reg r = pprReg I32 r
+ pp_reg r = pprReg wordRep r
in
case (base,index) of
(Nothing, Nothing) -> pp_disp
IF_ARCH_alpha(SLIT("\t.text\n\t.align 3") {-word boundary-}
,IF_ARCH_sparc(SLIT(".text\n\t.align 4") {-word boundary-}
,IF_ARCH_i386(SLIT(".text\n\t.align 4,0x90") {-needs per-OS variation!-}
+ ,IF_ARCH_x86_64(SLIT(".text\n\t.align 8") {-needs per-OS variation!-}
,IF_ARCH_powerpc(SLIT(".text\n.align 2")
- ,))))
+ ,)))))
pprSectionHeader Data
= ptext
IF_ARCH_alpha(SLIT("\t.data\n\t.align 3")
,IF_ARCH_sparc(SLIT(".data\n\t.align 8") {-<8 will break double constants -}
,IF_ARCH_i386(SLIT(".data\n\t.align 4")
+ ,IF_ARCH_x86_64(SLIT(".data\n\t.align 8")
,IF_ARCH_powerpc(SLIT(".data\n.align 2")
- ,))))
+ ,)))))
pprSectionHeader ReadOnlyData
= ptext
IF_ARCH_alpha(SLIT("\t.data\n\t.align 3")
,IF_ARCH_sparc(SLIT(".data\n\t.align 8") {-<8 will break double constants -}
,IF_ARCH_i386(SLIT(".section .rodata\n\t.align 4")
- ,IF_ARCH_powerpc(IF_OS_darwin(SLIT(".const_data\n.align 2"),
+ ,IF_ARCH_x86_64(SLIT(".section .rodata\n\t.align 8")
+ ,IF_ARCH_powerpc(IF_OS_darwin(SLIT(".const\n.align 2"),
SLIT(".section .rodata\n\t.align 2"))
- ,))))
+ ,)))))
+pprSectionHeader RelocatableReadOnlyData
+ = ptext
+ IF_ARCH_alpha(SLIT("\t.data\n\t.align 3")
+ ,IF_ARCH_sparc(SLIT(".data\n\t.align 8") {-<8 will break double constants -}
+ ,IF_ARCH_i386(SLIT(".section .rodata\n\t.align 4")
+ ,IF_ARCH_x86_64(SLIT(".text\n\t.align 8")
+ ,IF_ARCH_powerpc(IF_OS_darwin(SLIT(".const_data\n.align 2"),
+ SLIT(".data\n\t.align 2"))
+ ,)))))
+ -- the assembler on x86_64/Linux refuses to generate code for
+ -- .quad x - y
+ -- where x is in the text section and y in the rodata section.
+ -- It works if y is in the text section, though. This is probably
+ -- going to cause difficulties for PIC, I imagine.
pprSectionHeader UninitialisedData
= ptext
IF_ARCH_alpha(SLIT("\t.bss\n\t.align 3")
,IF_ARCH_sparc(SLIT(".bss\n\t.align 8") {-<8 will break double constants -}
,IF_ARCH_i386(SLIT(".section .bss\n\t.align 4")
+ ,IF_ARCH_x86_64(SLIT(".section .bss\n\t.align 8")
,IF_ARCH_powerpc(IF_OS_darwin(SLIT(".const_data\n.align 2"),
SLIT(".section .bss\n\t.align 2"))
- ,))))
+ ,)))))
+pprSectionHeader ReadOnlyData16
+ = ptext
+ IF_ARCH_alpha(SLIT("\t.data\n\t.align 4")
+ ,IF_ARCH_sparc(SLIT(".data\n\t.align 16")
+ ,IF_ARCH_i386(SLIT(".section .rodata\n\t.align 16")
+ ,IF_ARCH_x86_64(SLIT(".section .rodata.cst16\n\t.align 16")
+ ,IF_ARCH_powerpc(IF_OS_darwin(SLIT(".const\n.align 4"),
+ SLIT(".section .rodata\n\t.align 4"))
+ ,)))))
+
pprSectionHeader (OtherSection sec)
= panic "PprMach.pprSectionHeader: unknown section"
pprGloblDecl :: CLabel -> Doc
pprGloblDecl lbl
| not (externallyVisibleCLabel lbl) = empty
- | otherwise = ptext IF_ARCH_alpha(SLIT(".globl ")
- ,IF_ARCH_i386(SLIT(".globl ")
- ,IF_ARCH_sparc(SLIT(".global ")
- ,IF_ARCH_powerpc(SLIT(".globl ")
- ,)))) <>
+ | otherwise = ptext IF_ARCH_sparc(SLIT(".global "),
+ SLIT(".globl ")) <>
pprCLabel_asm lbl
pprLabel :: CLabel -> Doc
pprAlign bytes =
IF_ARCH_alpha(ptextSLIT(".align ") <> int pow2,
IF_ARCH_i386(ptext SLIT(".align ") <> int bytes,
+ IF_ARCH_x86_64(ptext SLIT(".align ") <> int bytes,
IF_ARCH_sparc(ptext SLIT(".align ") <> int bytes,
- IF_ARCH_powerpc(ptext SLIT(".align ") <> int pow2,))))
+ IF_ARCH_powerpc(ptext SLIT(".align ") <> int pow2,)))))
where
pow2 = log2 bytes
ppr_item I16 x = [ptext SLIT("\t.short\t") <> pprImm imm]
ppr_item I64 x = [ptext SLIT("\t.quad\t") <> pprImm imm]
#endif
-#if i386_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
ppr_item I16 x = [ptext SLIT("\t.word\t") <> pprImm imm]
ppr_item I64 x = [ptext SLIT("\t.quad\t") <> pprImm imm]
#endif
= IF_ARCH_alpha( ((<>) (ptext SLIT("\t# ")) (ftext s))
,IF_ARCH_sparc( ((<>) (ptext SLIT("! ")) (ftext s))
,IF_ARCH_i386( ((<>) (ptext SLIT("# ")) (ftext s))
+ ,IF_ARCH_x86_64( ((<>) (ptext SLIT("# ")) (ftext s))
,IF_ARCH_powerpc( IF_OS_linux(
((<>) (ptext SLIT("# ")) (ftext s)),
((<>) (ptext SLIT("; ")) (ftext s)))
- ,))))
+ ,)))))
pprInstr (DELTA d)
= pprInstr (COMMENT (mkFastString ("\tdelta = " ++ show d)))
-- -----------------------------------------------------------------------------
-- pprInstr for an x86
-#if i386_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
pprInstr v@(MOV size s@(OpReg src) d@(OpReg dst)) -- hack
| src == dst
#else
empty
#endif
+
pprInstr (MOV size src dst)
= pprSizeOpOp SLIT("mov") size src dst
-pprInstr (MOVZxL sizes src dst) = pprSizeOpOpCoerce SLIT("movz") sizes I32 src dst
-pprInstr (MOVSxL sizes src dst) = pprSizeOpOpCoerce SLIT("movs") sizes I32 src dst
+
+pprInstr (MOVZxL I32 src dst) = pprSizeOpOp SLIT("mov") I32 src dst
+ -- 32-to-64 bit zero extension on x86_64 is accomplished by a simple
+ -- movl. But we represent it as a MOVZxL instruction, because
+ -- the reg alloc would tend to throw away a plain reg-to-reg
+ -- move, and we still want it to do that.
+
+pprInstr (MOVZxL sizes src dst) = pprSizeOpOpCoerce SLIT("movz") sizes wordRep src dst
+pprInstr (MOVSxL sizes src dst) = pprSizeOpOpCoerce SLIT("movs") sizes wordRep src dst
-- here we do some patching, since the physical registers are only set late
-- in the code generation.
however, cannot be used to determine if the upper half of the
result is non-zero." So there.
-}
-pprInstr (MUL size op1 op2) = pprSizeOpOp SLIT("imul") size op1 op2
-
pprInstr (AND size src dst) = pprSizeOpOp SLIT("and") size src dst
pprInstr (OR size src dst) = pprSizeOpOp SLIT("or") size src dst
+
+pprInstr (XOR F32 src dst) = pprOpOp SLIT("xorps") F32 src dst
+pprInstr (XOR F64 src dst) = pprOpOp SLIT("xorpd") F64 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 (BT size imm src) = pprSizeImmOp SLIT("bt") size imm src
-pprInstr (CMP size src dst) = pprSizeOpOp SLIT("cmp") size src dst
+pprInstr (CMP size src dst)
+ | isFloatingRep size = pprSizeOpOp SLIT("ucomi") size src dst -- SSE2
+ | otherwise = 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 POPA = ptext SLIT("\tpopal")
pprInstr NOP = ptext SLIT("\tnop")
-pprInstr CLTD = ptext SLIT("\tcltd")
+pprInstr (CLTD I32) = ptext SLIT("\tcltd")
+pprInstr (CLTD I64) = ptext SLIT("\tcqto")
pprInstr (SETCC cond op) = pprCondInstr SLIT("set") cond (pprOperand I8 op)
where lab = mkAsmTempLabel id
pprInstr (JMP (OpImm imm)) = (<>) (ptext SLIT("\tjmp ")) (pprImm imm)
-pprInstr (JMP op) = (<>) (ptext SLIT("\tjmp *")) (pprOperand I32 op)
+pprInstr (JMP op) = (<>) (ptext SLIT("\tjmp *")) (pprOperand wordRep op)
pprInstr (JMP_TBL op ids) = pprInstr (JMP op)
pprInstr (CALL (Left imm)) = (<>) (ptext SLIT("\tcall ")) (pprImm imm)
-pprInstr (CALL (Right reg)) = (<>) (ptext SLIT("\tcall *")) (pprReg I32 reg)
+pprInstr (CALL (Right reg)) = (<>) (ptext SLIT("\tcall *")) (pprReg wordRep reg)
pprInstr (IDIV sz op) = pprSizeOp SLIT("idiv") sz op
pprInstr (DIV sz op) = pprSizeOp SLIT("div") sz op
pprInstr (IMUL64 sd_hi sd_lo) = pprInstr_imul64 sd_hi sd_lo
+#if x86_64_TARGET_ARCH
+pprInstr (MUL size op1 op2) = pprSizeOpOp SLIT("mul") size op1 op2
+
+pprInstr (FDIV size op1 op2) = pprSizeOpOp SLIT("div") size op1 op2
+pprInstr (CVTSS2SD from to) = pprRegReg SLIT("cvtss2sd") from to
+pprInstr (CVTSD2SS from to) = pprRegReg SLIT("cvtsd2ss") from to
+pprInstr (CVTSS2SI from to) = pprOpReg SLIT("cvtss2si") from to
+pprInstr (CVTSD2SI from to) = pprOpReg SLIT("cvtsd2si") from to
+pprInstr (CVTSI2SS from to) = pprOpReg SLIT("cvtsi2ss") from to
+pprInstr (CVTSI2SD from to) = pprOpReg SLIT("cvtsi2sd") from to
+#endif
+
+pprInstr (FETCHGOT reg)
+ = vcat [ ptext SLIT("\tcall 1f"),
+ hcat [ ptext SLIT("1:\tpopl\t"), pprReg I32 reg ],
+ hcat [ ptext SLIT("\taddl\t$_GLOBAL_OFFSET_TABLE_+(.-1b), "),
+ pprReg I32 reg ]
+ ]
+
+#endif
+
+-- -----------------------------------------------------------------------------
+-- i386 floating-point
+
+#if i386_TARGET_ARCH
-- Simulating a flat register set on the x86 FP stack is tricky.
-- you have to free %st(7) before pushing anything on the FP reg stack
-- so as to preclude the possibility of a FP stack overflow exception.
ptext SLIT("\tffree %st(4) ;ffree %st(5) ;ffree %st(6) ;ffree %st(7)")
]
-
--- Emit code to make hi_reg:lo_reg be the 64-bit product of hi_reg and lo_reg
-pprInstr_imul64 hi_reg lo_reg
- = let fakeInsn = text "imul64" <+> pp_hi_reg <> comma <+> pp_lo_reg
- pp_hi_reg = pprReg I32 hi_reg
- pp_lo_reg = pprReg I32 lo_reg
- in
- vcat [
- text "\t# BEGIN " <> fakeInsn,
- text "\tpushl" <+> pp_hi_reg <> text" ; pushl" <+> pp_lo_reg,
- text "\tpushl %eax ; pushl %edx",
- text "\tmovl 12(%esp), %eax ; imull 8(%esp)",
- text "\tmovl %edx, 12(%esp) ; movl %eax, 8(%esp)",
- text "\tpopl %edx ; popl %eax",
- text "\tpopl" <+> pp_lo_reg <> text " ; popl" <+> pp_hi_reg,
- text "\t# END " <> fakeInsn
- ]
-
-
--------------------------
-- coerce %st(0) to the specified size
pprGInstr (GSUB sz src1 src2 dst) = pprSizeRegRegReg SLIT("gsub") sz src1 src2 dst
pprGInstr (GMUL sz src1 src2 dst) = pprSizeRegRegReg SLIT("gmul") sz src1 src2 dst
pprGInstr (GDIV sz src1 src2 dst) = pprSizeRegRegReg SLIT("gdiv") sz src1 src2 dst
+#endif
+
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
+-- Emit code to make hi_reg:lo_reg be the 64-bit product of hi_reg and lo_reg
+pprInstr_imul64 hi_reg lo_reg
+ = let fakeInsn = text "imul64" <+> pp_hi_reg <> comma <+> pp_lo_reg
+ pp_hi_reg = pprReg wordRep hi_reg
+ pp_lo_reg = pprReg wordRep lo_reg
+ in
+ vcat [
+ text "\t# BEGIN " <> fakeInsn,
+ text "\tpushl" <+> pp_hi_reg <> text" ; pushl" <+> pp_lo_reg,
+ text "\tpushl %eax ; pushl %edx",
+ text "\tmovl 12(%esp), %eax ; imull 8(%esp)",
+ text "\tmovl %edx, 12(%esp) ; movl %eax, 8(%esp)",
+ text "\tpopl %edx ; popl %eax",
+ text "\tpopl" <+> pp_lo_reg <> text " ; popl" <+> pp_hi_reg,
+ text "\t# END " <> fakeInsn
+ ]
-- Continue with I386-only printing bits and bobs:
pprDollImm :: Imm -> Doc
pprOperand s (OpImm i) = pprDollImm i
pprOperand s (OpAddr ea) = pprAddr ea
+pprMnemonic_ :: LitString -> Doc
+pprMnemonic_ name =
+ char '\t' <> ptext name <> space
+
pprMnemonic :: LitString -> MachRep -> Doc
pprMnemonic name size =
char '\t' <> ptext name <> pprSize size <> space
pprOperand size op2
]
+pprOpOp :: LitString -> MachRep -> Operand -> Operand -> Doc
+pprOpOp name size op1 op2
+ = hcat [
+ pprMnemonic_ name,
+ pprOperand size op1,
+ comma,
+ pprOperand size op2
+ ]
+
pprSizeReg :: LitString -> MachRep -> Reg -> Doc
pprSizeReg name size reg1
= hcat [
pprReg size reg2
]
+pprRegReg :: LitString -> Reg -> Reg -> Doc
+pprRegReg name reg1 reg2
+ = hcat [
+ pprMnemonic_ name,
+ pprReg wordRep reg1,
+ comma,
+ pprReg wordRep reg2
+ ]
+
+pprOpReg :: LitString -> Operand -> Reg -> Doc
+pprOpReg name op1 reg2
+ = hcat [
+ pprMnemonic_ name,
+ pprOperand wordRep op1,
+ comma,
+ pprReg wordRep reg2
+ ]
+
pprCondRegReg :: LitString -> MachRep -> Cond -> Reg -> Reg -> Doc
pprCondRegReg name size cond reg1 reg2
= hcat [