module SPARC.Ppr (
pprNatCmmDecl,
pprBasicBlock,
pprData,
pprInstr,
pprFormat,
pprImm,
pprDataItem
)
where
#include "HsVersions.h"
#include "nativeGen/NCG.h"
import GhcPrelude
import SPARC.Regs
import SPARC.Instr
import SPARC.Cond
import SPARC.Imm
import SPARC.AddrMode
import SPARC.Base
import Instruction
import Reg
import Format
import PprBase
import Cmm hiding (topInfoTable)
import PprCmm()
import BlockId
import CLabel
import Hoopl.Label
import Hoopl.Collections
import Unique ( pprUniqueAlways )
import Outputable
import Platform
import FastString
import Data.Word
pprNatCmmDecl :: NatCmmDecl CmmStatics Instr -> SDoc
pprNatCmmDecl (CmmData section dats) =
pprSectionAlign section $$ pprDatas dats
pprNatCmmDecl proc@(CmmProc top_info lbl _ (ListGraph blocks)) =
case topInfoTable proc of
Nothing ->
case blocks of
[] ->
pprLabel lbl
blocks ->
pprSectionAlign (Section Text lbl) $$
pprLabel lbl $$
vcat (map (pprBasicBlock top_info) blocks)
Just (Statics info_lbl _) ->
sdocWithPlatform $ \platform ->
(if platformHasSubsectionsViaSymbols platform
then pprSectionAlign dspSection $$
ppr (mkDeadStripPreventer info_lbl) <> char ':'
else empty) $$
vcat (map (pprBasicBlock top_info) blocks) $$
(if platformHasSubsectionsViaSymbols platform
then
text "\t.long "
<+> ppr info_lbl
<+> char '-'
<+> ppr (mkDeadStripPreventer info_lbl)
else empty)
dspSection :: Section
dspSection = Section Text $
panic "subsections-via-symbols doesn't combine with split-sections"
pprBasicBlock :: LabelMap CmmStatics -> NatBasicBlock Instr -> SDoc
pprBasicBlock info_env (BasicBlock blockid instrs)
= maybe_infotable $$
pprLabel (blockLbl blockid) $$
vcat (map pprInstr instrs)
where
maybe_infotable = case mapLookup blockid info_env of
Nothing -> empty
Just (Statics info_lbl info) ->
pprAlignForSection Text $$
vcat (map pprData info) $$
pprLabel info_lbl
pprDatas :: CmmStatics -> SDoc
pprDatas (Statics lbl dats) = vcat (pprLabel lbl : map pprData dats)
pprData :: CmmStatic -> SDoc
pprData (CmmString str)
= vcat (map do1 str) $$ do1 0
where
do1 :: Word8 -> SDoc
do1 w = text "\t.byte\t" <> int (fromIntegral w)
pprData (CmmUninitialised bytes) = text ".skip " <> int bytes
pprData (CmmStaticLit lit) = pprDataItem lit
pprGloblDecl :: CLabel -> SDoc
pprGloblDecl lbl
| not (externallyVisibleCLabel lbl) = empty
| otherwise = text ".global " <> ppr lbl
pprTypeAndSizeDecl :: CLabel -> SDoc
pprTypeAndSizeDecl lbl
= sdocWithPlatform $ \platform ->
if platformOS platform == OSLinux && externallyVisibleCLabel lbl
then text ".type " <> ppr lbl <> ptext (sLit ", @object")
else empty
pprLabel :: CLabel -> SDoc
pprLabel lbl = pprGloblDecl lbl
$$ pprTypeAndSizeDecl lbl
$$ (ppr lbl <> char ':')
instance Outputable Instr where
ppr instr = pprInstr instr
pprReg :: Reg -> SDoc
pprReg reg
= case reg of
RegVirtual vr
-> case vr of
VirtualRegI u -> text "%vI_" <> pprUniqueAlways u
VirtualRegHi u -> text "%vHi_" <> pprUniqueAlways u
VirtualRegF u -> text "%vF_" <> pprUniqueAlways u
VirtualRegD u -> text "%vD_" <> pprUniqueAlways u
VirtualRegSSE u -> text "%vSSE_" <> pprUniqueAlways u
RegReal rr
-> case rr of
RealRegSingle r1
-> pprReg_ofRegNo r1
RealRegPair r1 r2
-> text "(" <> pprReg_ofRegNo r1
<> vbar <> pprReg_ofRegNo r2
<> text ")"
pprReg_ofRegNo :: Int -> SDoc
pprReg_ofRegNo i
= ptext
(case i of {
0 -> sLit "%g0"; 1 -> sLit "%g1";
2 -> sLit "%g2"; 3 -> sLit "%g3";
4 -> sLit "%g4"; 5 -> sLit "%g5";
6 -> sLit "%g6"; 7 -> sLit "%g7";
8 -> sLit "%o0"; 9 -> sLit "%o1";
10 -> sLit "%o2"; 11 -> sLit "%o3";
12 -> sLit "%o4"; 13 -> sLit "%o5";
14 -> sLit "%o6"; 15 -> sLit "%o7";
16 -> sLit "%l0"; 17 -> sLit "%l1";
18 -> sLit "%l2"; 19 -> sLit "%l3";
20 -> sLit "%l4"; 21 -> sLit "%l5";
22 -> sLit "%l6"; 23 -> sLit "%l7";
24 -> sLit "%i0"; 25 -> sLit "%i1";
26 -> sLit "%i2"; 27 -> sLit "%i3";
28 -> sLit "%i4"; 29 -> sLit "%i5";
30 -> sLit "%i6"; 31 -> sLit "%i7";
32 -> sLit "%f0"; 33 -> sLit "%f1";
34 -> sLit "%f2"; 35 -> sLit "%f3";
36 -> sLit "%f4"; 37 -> sLit "%f5";
38 -> sLit "%f6"; 39 -> sLit "%f7";
40 -> sLit "%f8"; 41 -> sLit "%f9";
42 -> sLit "%f10"; 43 -> sLit "%f11";
44 -> sLit "%f12"; 45 -> sLit "%f13";
46 -> sLit "%f14"; 47 -> sLit "%f15";
48 -> sLit "%f16"; 49 -> sLit "%f17";
50 -> sLit "%f18"; 51 -> sLit "%f19";
52 -> sLit "%f20"; 53 -> sLit "%f21";
54 -> sLit "%f22"; 55 -> sLit "%f23";
56 -> sLit "%f24"; 57 -> sLit "%f25";
58 -> sLit "%f26"; 59 -> sLit "%f27";
60 -> sLit "%f28"; 61 -> sLit "%f29";
62 -> sLit "%f30"; 63 -> sLit "%f31";
_ -> sLit "very naughty sparc register" })
pprFormat :: Format -> SDoc
pprFormat x
= ptext
(case x of
II8 -> sLit "ub"
II16 -> sLit "uh"
II32 -> sLit ""
II64 -> sLit "d"
FF32 -> sLit ""
FF64 -> sLit "d"
_ -> panic "SPARC.Ppr.pprFormat: no match")
pprStFormat :: Format -> SDoc
pprStFormat x
= ptext
(case x of
II8 -> sLit "b"
II16 -> sLit "h"
II32 -> sLit ""
II64 -> sLit "x"
FF32 -> sLit ""
FF64 -> sLit "d"
_ -> panic "SPARC.Ppr.pprFormat: no match")
pprCond :: Cond -> SDoc
pprCond c
= ptext
(case c of
ALWAYS -> sLit ""
NEVER -> sLit "n"
GEU -> sLit "geu"
LU -> sLit "lu"
EQQ -> sLit "e"
GTT -> sLit "g"
GE -> sLit "ge"
GU -> sLit "gu"
LTT -> sLit "l"
LE -> sLit "le"
LEU -> sLit "leu"
NE -> sLit "ne"
NEG -> sLit "neg"
POS -> sLit "pos"
VC -> sLit "vc"
VS -> sLit "vs")
pprAddr :: AddrMode -> SDoc
pprAddr am
= case am of
AddrRegReg r1 (RegReal (RealRegSingle 0))
-> pprReg r1
AddrRegReg r1 r2
-> hcat [ pprReg r1, char '+', pprReg r2 ]
AddrRegImm r1 (ImmInt i)
| i == 0 -> pprReg r1
| not (fits13Bits i) -> largeOffsetError i
| otherwise -> hcat [ pprReg r1, pp_sign, int i ]
where
pp_sign = if i > 0 then char '+' else empty
AddrRegImm r1 (ImmInteger i)
| i == 0 -> pprReg r1
| not (fits13Bits i) -> largeOffsetError i
| otherwise -> hcat [ pprReg r1, pp_sign, integer i ]
where
pp_sign = if i > 0 then char '+' else empty
AddrRegImm r1 imm
-> hcat [ pprReg r1, char '+', pprImm imm ]
pprImm :: Imm -> SDoc
pprImm imm
= case imm of
ImmInt i -> int i
ImmInteger i -> integer i
ImmCLbl l -> ppr l
ImmIndex l i -> ppr l <> char '+' <> int i
ImmLit s -> s
ImmConstantSum a b
-> pprImm a <> char '+' <> pprImm b
ImmConstantDiff a b
-> pprImm a <> char '-' <> lparen <> pprImm b <> rparen
LO i
-> hcat [ text "%lo(", pprImm i, rparen ]
HI i
-> hcat [ text "%hi(", pprImm i, rparen ]
ImmFloat _ -> text "naughty float immediate"
ImmDouble _ -> text "naughty double immediate"
pprSectionAlign :: Section -> SDoc
pprSectionAlign sec@(Section seg _) =
sdocWithPlatform $ \platform ->
pprSectionHeader platform sec $$
pprAlignForSection seg
pprAlignForSection :: SectionType -> SDoc
pprAlignForSection seg =
ptext (case seg of
Text -> sLit ".align 4"
Data -> sLit ".align 8"
ReadOnlyData -> sLit ".align 8"
RelocatableReadOnlyData
-> sLit ".align 8"
UninitialisedData -> sLit ".align 8"
ReadOnlyData16 -> sLit ".align 16"
CString -> sLit ".align 8"
OtherSection _ -> panic "PprMach.pprSectionHeader: unknown section")
pprDataItem :: CmmLit -> SDoc
pprDataItem lit
= sdocWithDynFlags $ \dflags ->
vcat (ppr_item (cmmTypeFormat $ cmmLitType dflags lit) lit)
where
imm = litToImm lit
ppr_item II8 _ = [text "\t.byte\t" <> pprImm imm]
ppr_item II32 _ = [text "\t.long\t" <> pprImm imm]
ppr_item FF32 (CmmFloat r _)
= let bs = floatToBytes (fromRational r)
in map (\b -> text "\t.byte\t" <> pprImm (ImmInt b)) bs
ppr_item FF64 (CmmFloat r _)
= let bs = doubleToBytes (fromRational r)
in map (\b -> text "\t.byte\t" <> pprImm (ImmInt b)) bs
ppr_item II16 _ = [text "\t.short\t" <> pprImm imm]
ppr_item II64 _ = [text "\t.quad\t" <> pprImm imm]
ppr_item _ _ = panic "SPARC.Ppr.pprDataItem: no match"
pprInstr :: Instr -> SDoc
pprInstr (COMMENT _)
= empty
pprInstr (DELTA d)
= pprInstr (COMMENT (mkFastString ("\tdelta = " ++ show d)))
pprInstr (NEWBLOCK _)
= panic "X86.Ppr.pprInstr: NEWBLOCK"
pprInstr (LDATA _ _)
= panic "PprMach.pprInstr: LDATA"
pprInstr (LD FF64 _ reg)
| RegReal (RealRegSingle{}) <- reg
= panic "SPARC.Ppr: not emitting potentially misaligned LD FF64 instr"
pprInstr (LD format addr reg)
= hcat [
text "\tld",
pprFormat format,
char '\t',
lbrack,
pprAddr addr,
pp_rbracket_comma,
pprReg reg
]
pprInstr (ST FF64 reg _)
| RegReal (RealRegSingle{}) <- reg
= panic "SPARC.Ppr: not emitting potentially misaligned ST FF64 instr"
pprInstr (ST format reg addr)
= hcat [
text "\tst",
pprStFormat format,
char '\t',
pprReg reg,
pp_comma_lbracket,
pprAddr addr,
rbrack
]
pprInstr (ADD x cc reg1 ri reg2)
| not x && not cc && riZero ri
= hcat [ text "\tmov\t", pprReg reg1, comma, pprReg reg2 ]
| otherwise
= pprRegRIReg (if x then sLit "addx" else sLit "add") cc reg1 ri reg2
pprInstr (SUB x cc reg1 ri reg2)
| not x && cc && reg2 == g0
= hcat [ text "\tcmp\t", pprReg reg1, comma, pprRI ri ]
| not x && not cc && riZero ri
= hcat [ text "\tmov\t", pprReg reg1, comma, pprReg reg2 ]
| otherwise
= pprRegRIReg (if x then sLit "subx" else sLit "sub") cc reg1 ri reg2
pprInstr (AND b reg1 ri reg2) = pprRegRIReg (sLit "and") b reg1 ri reg2
pprInstr (ANDN b reg1 ri reg2) = pprRegRIReg (sLit "andn") b reg1 ri reg2
pprInstr (OR b reg1 ri reg2)
| not b && reg1 == g0
= let doit = hcat [ text "\tmov\t", pprRI ri, comma, pprReg reg2 ]
in case ri of
RIReg rrr | rrr == reg2 -> empty
_ -> doit
| otherwise
= pprRegRIReg (sLit "or") b reg1 ri reg2
pprInstr (ORN b reg1 ri reg2) = pprRegRIReg (sLit "orn") b reg1 ri reg2
pprInstr (XOR b reg1 ri reg2) = pprRegRIReg (sLit "xor") b reg1 ri reg2
pprInstr (XNOR b reg1 ri reg2) = pprRegRIReg (sLit "xnor") b reg1 ri reg2
pprInstr (SLL reg1 ri reg2) = pprRegRIReg (sLit "sll") False reg1 ri reg2
pprInstr (SRL reg1 ri reg2) = pprRegRIReg (sLit "srl") False reg1 ri reg2
pprInstr (SRA reg1 ri reg2) = pprRegRIReg (sLit "sra") False reg1 ri reg2
pprInstr (RDY rd) = text "\trd\t%y," <> pprReg rd
pprInstr (WRY reg1 reg2)
= text "\twr\t"
<> pprReg reg1
<> char ','
<> pprReg reg2
<> char ','
<> text "%y"
pprInstr (SMUL b reg1 ri reg2) = pprRegRIReg (sLit "smul") b reg1 ri reg2
pprInstr (UMUL b reg1 ri reg2) = pprRegRIReg (sLit "umul") b reg1 ri reg2
pprInstr (SDIV b reg1 ri reg2) = pprRegRIReg (sLit "sdiv") b reg1 ri reg2
pprInstr (UDIV b reg1 ri reg2) = pprRegRIReg (sLit "udiv") b reg1 ri reg2
pprInstr (SETHI imm reg)
= hcat [
text "\tsethi\t",
pprImm imm,
comma,
pprReg reg
]
pprInstr NOP
= text "\tnop"
pprInstr (FABS format reg1 reg2)
= pprFormatRegReg (sLit "fabs") format reg1 reg2
pprInstr (FADD format reg1 reg2 reg3)
= pprFormatRegRegReg (sLit "fadd") format reg1 reg2 reg3
pprInstr (FCMP e format reg1 reg2)
= pprFormatRegReg (if e then sLit "fcmpe" else sLit "fcmp")
format reg1 reg2
pprInstr (FDIV format reg1 reg2 reg3)
= pprFormatRegRegReg (sLit "fdiv") format reg1 reg2 reg3
pprInstr (FMOV format reg1 reg2)
= pprFormatRegReg (sLit "fmov") format reg1 reg2
pprInstr (FMUL format reg1 reg2 reg3)
= pprFormatRegRegReg (sLit "fmul") format reg1 reg2 reg3
pprInstr (FNEG format reg1 reg2)
= pprFormatRegReg (sLit "fneg") format reg1 reg2
pprInstr (FSQRT format reg1 reg2)
= pprFormatRegReg (sLit "fsqrt") format reg1 reg2
pprInstr (FSUB format reg1 reg2 reg3)
= pprFormatRegRegReg (sLit "fsub") format reg1 reg2 reg3
pprInstr (FxTOy format1 format2 reg1 reg2)
= hcat [
text "\tf",
ptext
(case format1 of
II32 -> sLit "ito"
FF32 -> sLit "sto"
FF64 -> sLit "dto"
_ -> panic "SPARC.Ppr.pprInstr.FxToY: no match"),
ptext
(case format2 of
II32 -> sLit "i\t"
II64 -> sLit "x\t"
FF32 -> sLit "s\t"
FF64 -> sLit "d\t"
_ -> panic "SPARC.Ppr.pprInstr.FxToY: no match"),
pprReg reg1, comma, pprReg reg2
]
pprInstr (BI cond b blockid)
= hcat [
text "\tb", pprCond cond,
if b then pp_comma_a else empty,
char '\t',
ppr (blockLbl blockid)
]
pprInstr (BF cond b blockid)
= hcat [
text "\tfb", pprCond cond,
if b then pp_comma_a else empty,
char '\t',
ppr (blockLbl blockid)
]
pprInstr (JMP addr) = text "\tjmp\t" <> pprAddr addr
pprInstr (JMP_TBL op _ _) = pprInstr (JMP op)
pprInstr (CALL (Left imm) n _)
= hcat [ text "\tcall\t", pprImm imm, comma, int n ]
pprInstr (CALL (Right reg) n _)
= hcat [ text "\tcall\t", pprReg reg, comma, int n ]
pprRI :: RI -> SDoc
pprRI (RIReg r) = pprReg r
pprRI (RIImm r) = pprImm r
pprFormatRegReg :: PtrString -> Format -> Reg -> Reg -> SDoc
pprFormatRegReg name format reg1 reg2
= hcat [
char '\t',
ptext name,
(case format of
FF32 -> text "s\t"
FF64 -> text "d\t"
_ -> panic "SPARC.Ppr.pprFormatRegReg: no match"),
pprReg reg1,
comma,
pprReg reg2
]
pprFormatRegRegReg :: PtrString -> Format -> Reg -> Reg -> Reg -> SDoc
pprFormatRegRegReg name format reg1 reg2 reg3
= hcat [
char '\t',
ptext name,
(case format of
FF32 -> text "s\t"
FF64 -> text "d\t"
_ -> panic "SPARC.Ppr.pprFormatRegReg: no match"),
pprReg reg1,
comma,
pprReg reg2,
comma,
pprReg reg3
]
pprRegRIReg :: PtrString -> Bool -> Reg -> RI -> Reg -> SDoc
pprRegRIReg name b reg1 ri reg2
= hcat [
char '\t',
ptext name,
if b then text "cc\t" else char '\t',
pprReg reg1,
comma,
pprRI ri,
comma,
pprReg reg2
]
pp_rbracket_comma :: SDoc
pp_rbracket_comma = text "],"
pp_comma_lbracket :: SDoc
pp_comma_lbracket = text ",["
pp_comma_a :: SDoc
pp_comma_a = text ",a"