module GHC.CmmToAsm.SPARC.CodeGen.CondCode (
        getCondCode,
        condIntCode,
        condFltCode
)

where

import GHC.Prelude

import {-# SOURCE #-} GHC.CmmToAsm.SPARC.CodeGen.Gen32
import GHC.CmmToAsm.SPARC.CodeGen.Base
import GHC.CmmToAsm.SPARC.Instr
import GHC.CmmToAsm.SPARC.Regs
import GHC.CmmToAsm.SPARC.Cond
import GHC.CmmToAsm.SPARC.Imm
import GHC.CmmToAsm.SPARC.Base
import GHC.CmmToAsm.Monad
import GHC.CmmToAsm.Format

import GHC.Cmm

import GHC.Data.OrdList
import GHC.Utils.Outputable


getCondCode :: CmmExpr -> NatM CondCode
getCondCode (CmmMachOp mop [x, y])
  =
    case mop of
      MO_F_Eq W32 -> condFltCode EQQ x y
      MO_F_Ne W32 -> condFltCode NE  x y
      MO_F_Gt W32 -> condFltCode GTT x y
      MO_F_Ge W32 -> condFltCode GE  x y
      MO_F_Lt W32 -> condFltCode LTT x y
      MO_F_Le W32 -> condFltCode LE  x y

      MO_F_Eq W64 -> condFltCode EQQ x y
      MO_F_Ne W64 -> condFltCode NE  x y
      MO_F_Gt W64 -> condFltCode GTT x y
      MO_F_Ge W64 -> condFltCode GE  x y
      MO_F_Lt W64 -> condFltCode LTT x y
      MO_F_Le W64 -> condFltCode LE  x y

      MO_Eq   _   -> condIntCode EQQ  x y
      MO_Ne   _   -> condIntCode NE   x y

      MO_S_Gt _   -> condIntCode GTT  x y
      MO_S_Ge _   -> condIntCode GE   x y
      MO_S_Lt _   -> condIntCode LTT  x y
      MO_S_Le _   -> condIntCode LE   x y

      MO_U_Gt _   -> condIntCode GU   x y
      MO_U_Ge _   -> condIntCode GEU  x y
      MO_U_Lt _   -> condIntCode LU   x y
      MO_U_Le _   -> condIntCode LEU  x y

      _           -> pprPanic "SPARC.CodeGen.CondCode.getCondCode" (ppr (CmmMachOp mop [x,y]))

getCondCode other = pprPanic "SPARC.CodeGen.CondCode.getCondCode" (ppr other)





-- @cond(Int|Flt)Code@: Turn a boolean expression into a condition, to be
-- passed back up the tree.

condIntCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode cond x (CmmLit (CmmInt y _))
  | fits13Bits y
  = do
       (src1, code) <- getSomeReg x
       let
           src2 = ImmInt (fromInteger y)
           code' = code `snocOL` SUB False True src1 (RIImm src2) g0
       return (CondCode False cond code')

condIntCode cond x y = do
    (src1, code1) <- getSomeReg x
    (src2, code2) <- getSomeReg y
    let
        code__2 = code1 `appOL` code2 `snocOL`
                  SUB False True src1 (RIReg src2) g0
    return (CondCode False cond code__2)


condFltCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode cond x y = do
    platform <- getPlatform
    (src1, code1) <- getSomeReg x
    (src2, code2) <- getSomeReg y
    tmp <- getNewRegNat FF64
    let
        promote x = FxTOy FF32 FF64 x tmp

        pk1   = cmmExprType platform x
        pk2   = cmmExprType platform y

        code__2 =
                if pk1 `cmmEqType` pk2 then
                    code1 `appOL` code2 `snocOL`
                    FCMP True (cmmTypeFormat pk1) src1 src2
                else if typeWidth pk1 == W32 then
                    code1 `snocOL` promote src1 `appOL` code2 `snocOL`
                    FCMP True FF64 tmp src2
                else
                    code1 `appOL` code2 `snocOL` promote src2 `snocOL`
                    FCMP True FF64 src1 tmp
    return (CondCode True cond code__2)