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path: root/compiler/GHC/CmmToAsm/SPARC/Ppr.hs
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{-# LANGUAGE CPP #-}

-----------------------------------------------------------------------------
--
-- Pretty-printing assembly language
--
-- (c) The University of Glasgow 1993-2005
--
-----------------------------------------------------------------------------

{-# OPTIONS_GHC -fno-warn-orphans #-}

module GHC.CmmToAsm.SPARC.Ppr (
        pprNatCmmDecl,
        pprBasicBlock,
        pprData,
        pprInstr,
        pprFormat,
        pprImm,
        pprDataItem
)

where

#include "HsVersions.h"

import GhcPrelude

import GHC.CmmToAsm.SPARC.Regs
import GHC.CmmToAsm.SPARC.Instr
import GHC.CmmToAsm.SPARC.Cond
import GHC.CmmToAsm.SPARC.Imm
import GHC.CmmToAsm.SPARC.AddrMode
import GHC.CmmToAsm.SPARC.Base
import GHC.CmmToAsm.Instr
import GHC.Platform.Reg
import GHC.CmmToAsm.Format
import GHC.CmmToAsm.Ppr
import GHC.CmmToAsm.Config

import GHC.Cmm hiding (topInfoTable)
import GHC.Cmm.Ppr() -- For Outputable instances
import GHC.Cmm.BlockId
import GHC.Cmm.CLabel
import GHC.Cmm.Dataflow.Label
import GHC.Cmm.Dataflow.Collections

import GHC.Types.Unique ( pprUniqueAlways )
import Outputable
import GHC.Platform
import FastString

-- -----------------------------------------------------------------------------
-- Printing this stuff out

pprNatCmmDecl :: NCGConfig -> NatCmmDecl RawCmmStatics Instr -> SDoc
pprNatCmmDecl config (CmmData section dats) =
  pprSectionAlign config section
  $$ pprDatas (ncgPlatform config) dats

pprNatCmmDecl config proc@(CmmProc top_info lbl _ (ListGraph blocks)) =
  let platform = ncgPlatform config in
  case topInfoTable proc of
    Nothing ->
        -- special case for code without info table:
        pprSectionAlign config (Section Text lbl) $$
        pprLabel platform lbl $$ -- blocks guaranteed not null, so label needed
        vcat (map (pprBasicBlock platform top_info) blocks)

    Just (RawCmmStatics info_lbl _) ->
      (if platformHasSubsectionsViaSymbols platform
          then pprSectionAlign config dspSection $$
               ppr (mkDeadStripPreventer info_lbl) <> char ':'
          else empty) $$
      vcat (map (pprBasicBlock platform top_info) blocks) $$
      -- above: Even the first block gets a label, because with branch-chain
      -- elimination, it might be the target of a goto.
      (if platformHasSubsectionsViaSymbols platform
       then
       -- See Note [Subsections Via Symbols] in X86/Ppr.hs
                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 :: Platform -> LabelMap RawCmmStatics -> NatBasicBlock Instr -> SDoc
pprBasicBlock platform info_env (BasicBlock blockid instrs)
  = maybe_infotable $$
    pprLabel platform (blockLbl blockid) $$
    vcat (map pprInstr instrs)
  where
    maybe_infotable = case mapLookup blockid info_env of
       Nothing   -> empty
       Just (RawCmmStatics info_lbl info) ->
           pprAlignForSection Text $$
           vcat (map (pprData platform) info) $$
           pprLabel platform info_lbl


pprDatas :: Platform -> RawCmmStatics -> SDoc
-- See note [emit-time elimination of static indirections] in CLabel.
pprDatas _platform (RawCmmStatics alias [CmmStaticLit (CmmLabel lbl), CmmStaticLit ind, _, _])
  | lbl == mkIndStaticInfoLabel
  , let labelInd (CmmLabelOff l _) = Just l
        labelInd (CmmLabel l) = Just l
        labelInd _ = Nothing
  , Just ind' <- labelInd ind
  , alias `mayRedirectTo` ind'
  = pprGloblDecl alias
    $$ text ".equiv" <+> ppr alias <> comma <> ppr (CmmLabel ind')
pprDatas platform (RawCmmStatics lbl dats) = vcat (pprLabel platform lbl : map (pprData platform) dats)

pprData :: Platform -> CmmStatic -> SDoc
pprData _ (CmmString str)           = pprBytes str
pprData _ (CmmUninitialised bytes)  = text ".skip " <> int bytes
pprData platform (CmmStaticLit lit) = pprDataItem platform lit

pprGloblDecl :: CLabel -> SDoc
pprGloblDecl lbl
  | not (externallyVisibleCLabel lbl) = empty
  | otherwise = text ".global " <> ppr lbl

pprTypeAndSizeDecl :: Platform -> CLabel -> SDoc
pprTypeAndSizeDecl platform lbl
    = if platformOS platform == OSLinux && externallyVisibleCLabel lbl
      then text ".type " <> ppr lbl <> ptext (sLit ", @object")
      else empty

pprLabel :: Platform -> CLabel -> SDoc
pprLabel platform lbl =
   pprGloblDecl lbl
   $$ pprTypeAndSizeDecl platform lbl
   $$ (ppr lbl <> char ':')

-- -----------------------------------------------------------------------------
-- pprInstr: print an 'Instr'

instance Outputable Instr where
    ppr instr = pprInstr instr


-- | Pretty print a register.
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


        RegReal rr
         -> case rr of
                RealRegSingle r1
                 -> pprReg_ofRegNo r1

                RealRegPair r1 r2
                 -> text "(" <> pprReg_ofRegNo r1
                 <> vbar     <> pprReg_ofRegNo r2
                 <> text ")"



-- | Pretty print a register name, based on this register number.
--   The definition has been unfolded so we get a jump-table in the
--   object code. This function is called quite a lot when emitting
--   the asm file..
--
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" })


-- | Pretty print a format for an instruction suffix.
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")


-- | Pretty print a format for an instruction suffix.
--      eg LD is 32bit on sparc, but LDD is 64 bit.
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")



-- | Pretty print a condition code.
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")


-- | Pretty print an address mode.
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 ]


-- | Pretty print an immediate value.
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 ]

        -- these should have been converted to bytes and placed
        --      in the data section.
        ImmFloat _      -> text "naughty float immediate"
        ImmDouble _     -> text "naughty double immediate"


-- | Pretty print a section \/ segment header.
--      On SPARC all the data sections must be at least 8 byte aligned
--      incase we store doubles in them.
--
pprSectionAlign :: NCGConfig -> Section -> SDoc
pprSectionAlign config sec@(Section seg _) =
    pprSectionHeader config sec $$
    pprAlignForSection seg

-- | Print appropriate alignment for the given section type.
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"
      -- TODO: This is copied from the ReadOnlyData case, but it can likely be
      -- made more efficient.
      CString           -> sLit ".align 8"
      OtherSection _    -> panic "PprMach.pprSectionHeader: unknown section")

-- | Pretty print a data item.
pprDataItem :: Platform -> CmmLit -> SDoc
pprDataItem platform lit
  = vcat (ppr_item (cmmTypeFormat $ cmmLitType platform 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"


-- | Pretty print an instruction.
pprInstr :: Instr -> SDoc

-- nuke comments.
pprInstr (COMMENT _)
        = empty

pprInstr (DELTA d)
        = pprInstr (COMMENT (mkFastString ("\tdelta = " ++ show d)))

-- Newblocks and LData should have been slurped out before producing the .s file.
pprInstr (NEWBLOCK _)
        = panic "X86.Ppr.pprInstr: NEWBLOCK"

pprInstr (LDATA _ _)
        = panic "PprMach.pprInstr: LDATA"

-- 64 bit FP loads are expanded into individual instructions in CodeGen.Expand
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
            ]

-- 64 bit FP stores are expanded into individual instructions in CodeGen.Expand
pprInstr (ST FF64 reg _)
        | RegReal (RealRegSingle{}) <- reg
        = panic "SPARC.Ppr: not emitting potentially misaligned ST FF64 instr"

-- no distinction is made between signed and unsigned bytes on stores for the
-- Sparc opcodes (at least I cannot see any, and gas is nagging me --SOF),
-- so we call a special-purpose pprFormat for ST..
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 ]


-- | Pretty print a RI
pprRI :: RI -> SDoc
pprRI (RIReg r) = pprReg r
pprRI (RIImm r) = pprImm r


-- | Pretty print a two reg instruction.
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
    ]


-- | Pretty print a three reg instruction.
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
    ]


-- | Pretty print an instruction of two regs and a ri.
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
    ]

{-
pprRIReg :: PtrString -> Bool -> RI -> Reg -> SDoc
pprRIReg name b ri reg1
  = hcat [
        char '\t',
        ptext name,
        if b then text "cc\t" else char '\t',
        pprRI ri,
        comma,
        pprReg reg1
    ]
-}

{-
pp_ld_lbracket :: SDoc
pp_ld_lbracket    = text "\tld\t["
-}

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"